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Gila Monster

Heloderma suspectum Cope 1869

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Lifespan, longevity, and ageing

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Maximum longevity: 28.9 years (captivity)
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Distribution

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The Gila monster ranges from the extreme southwestern Utah, southern Nevada, and adjacent San Bernadino County, California, southeastrward through west and south Arizona and southwestern New Mexico. It ranges south into Mexico through Sonora to northwestern Sinaloa. It ranges from sea level to 1,500 meters in altitude. (Ernst, 1992)

Biogeographic Regions: nearctic (Native )

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Untitled

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The Gila monster lacks the ability to jump, contrary to popular myth (Ernst, 1992)

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Conservation Status

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The lizard is often killed because it is poisonous. The Gila monster is legally protected in all states in which they are found. (Ernst, 1992) (Bogert, 1956)

US Federal List: no special status

IUCN Red List of Threatened Species: near threatened

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Benefits

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The Gila monster has little economic importance to humans. There is a small market for the hemipenis, which is used as an aphrodisiac. A small "pet" market for the species has also arisen. It is illegal, however, for the Gila monster to be captured or held in the states where it exists. The reptiles can be found in many zoos. (Bogert, 1956) ( http://www.Pharmacy.Arizona.EDU/centers/poison_center/critters/reptiles/gila monster)

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Trophic Strategy

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The Gila monster's diet consists of a variety of objects: small mammals (young rabbits, mice and squirrels), birds, lizards, and eggs (of birds, lizards, snakes, turtles, and tortoises). The Gila monster has the capability to consume large amounts of food at one time (young can consume 50% of their body weight at a single feeding, adults can consume 35%). This is advantageous in an envirnoment in which finding prey at regular intervals may be difficult. Prey are rarely envenomated, which indicates that venom is used mainly for defense. Prey are detected by olfaction (the sense of smell). The Gila monster, like most snakes, uses its tongue for olfaction. (Ernst, 1992) (Bogert, 1956)

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Habitat

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The Gila monster can be found in arid areas. These areas usually contain scattered cacti, shrubs, mesquite, and grasses. Rocky slopes, arroyos, and canyon bottoms (mainly those with streams) support populations in Arizona. (Ernst, 1992)

Terrestrial Biomes: desert or dune

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Life Expectancy

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Average lifespan
Status: captivity: 8.3 years.

Average lifespan
Status: captivity: 20.0 years.

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Morphology

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This is one of only two venomous lizard species in the world (the other is the Mexican beaded lizard, Heloderma horridum). Gila monsters are large and stout lizards with a short fat tail (maximum length of 56 centimeters). Their scales are beaded yellow, pink, and black. The broad head, chin, and neck are black, as well as the legs and feet. The black eyes have a round pupil. The ear opening is a narrow oblique or ovoid slit. The limbs of the lizard are stout and have heavy claws. (Ernst, 1992)

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Reproduction

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Mating, which is usually in May, begins with the male tongue-flicking to seek a females's scent, while rubbing his cloaca on the ground. When a male locates a female, he lies by her and rubs his chin on her back and neck while holding her with his hindlegs. If a female objects to the male, she will try to bite him while crawling out from underneath. If receptive, she raises her tail. The male then moves his tail under hers, bringing their vents into contact. Copulation lasts from 30 minutes to an hour. The female lays her eggs (1-12) in an underground cavity, normally in July or August. Incubation lasts on average about ten months, and the young to hatch and emerge the following May. The process (fertilization through emergence) lasts about a year. (Ernst, 1992)

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Stewart, M. 2003. "Heloderma suspectum" (On-line), Animal Diversity Web. Accessed April 27, 2013 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Heloderma_suspectum.html
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Matthew D. Stewart, University of Michigan-Ann Arbor
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Biology

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As an adaptation to their harsh desert environment, Gila monsters spend a large proportion of their time underground in burrows, hibernating during the winter and sheltering from the midday sun in the scorching summer months. The lizards emerge from hibernation in spring and the majority of their activity occurs in the following three-month period (3). Mating may takes place from April to June (9); males 'wrestle' to assert dominance (3). Females then lay their clutch of up to 12 eggs in late June or August (6). Eggs are laid in depressions dug into the soil and unusually remain incubating underground throughout the winter, hatching the following spring (4). In springtime, Gila monsters are active during the day, although they are mainly above ground in the morning and late afternoon to avoid the midday heat (3). These lizards feed on eggs, young birds and rodents, as well as lizards; juveniles are able to consume over 50% of their body weight at one time (4). Gila monsters are able to survive for months without food as they store fat in their particularly large tail (3). The infamous venomous bite of the Gila monster is used as a defensive measure rather than to attack prey. If threatened, these lizards will back away hissing with their mouth open, and if provoked they attack surprisingly quickly with a bite that can be extremely painful to humans, although it is rarely life-threatening (6).
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Conservation

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Gila monsters are protected throughout their range, first receiving protection in 1952 in Arizona when they were the first venomous reptiles to receive such legislation (6). Over 300 individuals exist in captivity in the United States (8), and with greater understanding of these elusive lizards many of the common myths and superstitions around them have been surmounted (3). It is hoped that conservation measures will allow this a colourful desert-dweller to persist despite its depleted habitat.
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Description

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The Gila monster is the largest lizard in the United States (3), and one of the few species of venomous lizard in the world (4) (5). It has a stocky body with a large head and a short, fat tail (6). The skin consists of many round, bony scales, a feature that was common amongst the dinosaurs but is unusual in today's reptiles (3). Gila monsters have a striking bright pink and black colouration (6) and the two subspecies can be distinguished by their different patterns; the banded Gila monster (Heloderma suspectum cinctum) has a band of light markings along the back whilst in the reticulated Gila monster (H. s. suspectum) these light marks are joined in a network (3). With their venomous bite and elusive nature, these lizards have inspired many myths over the centuries (3).
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Habitat

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Inhabits dry desert scrub and rocky mountain foothills up to 1,500 metres above sea level (3).
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Range

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The majority of the Gila monster's range is in western and southern Arizona, south to southern Sonora in Mexico, although populations are also found in restricted areas of California, Nevada, Utah and New Mexico (6). Of the subspecies, the banded Gila monster occupies the northern extent of the species' range (3). The name 'Gila monster' is derived from the Gila River Basin in Arizona, part of this species' range (4).
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Status

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Classified as Near Threatened (NT) on the IUCN Red List (1).
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Threats

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Much of the bushland of the Gila monster's habitat has been cleared for agriculture and remaining populations are isolated in the resulting fragments that persist (2). Urban development and roads have also encroached on their habitat and many monsters are killed by common feral, or pet, species such as domestic cats and dogs (8). Some specimens are also still illegally collected for the pet trade (7).
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Amenazas ( Spanish; Castilian )

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Factores de riesgo

Transformación del hábitat y comercio ilegal (Conabio, 2001). Otros factores de riesgo a los cuales está sometida la especie son la fragmentación del hábitat debido al sobrepastoreo y a la tala excesiva.

Situación actual del hábitat con respecto a las necesidades de la especie

En las áreas con presencia de bosque de encino y matorral subtropical, como es el caso de las selvas bajas Caducifolia, se encuentran parcialmente conservados, solo con problemas de transformación del hábitat natural debido a la práctica extensiva de la ganadería, además se cuenta con la problemática de la contaminación de los arroyos con desechos, producto de las actividades humanas. En el caso de zonas con Mezquital, y Pastizal, la principal problemática es la caza furtiva, la ganadería extensiva y la transformación de la vegetación de la regiones bajas en pastos introducidos tipo buffel. En el caso de las áreas desérticas con matorrales de tipo sarcocaule, desértico micrófilo y crasicaule, se encuentran como unas de las zonas mejor conservadas, sin embargo, cuentan con algunas problemáticas, tales como, el sobre pastoreo, extracción de leña, extracción de plantas de distribución restringida, cacería furtiva, transformación de algunos sitios en praderas de pasto buffel y actividades cinegéticas y turísticas no reguladas. En el caso de las áreas pertenecientes a la franja costera, la conservación del hábitat principalmente selva baja espinosa, matorral crasicaule y sarcocaule, es entre baja y media, debido principalmente a la transformación de estas áreas por las actividades de tipo turístico y agrícola, la desecación de pantanos y canales para el aprovechamiento agrícola y el desarrollo de proyectos de acuacultura (Conabio, 2001).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Ramírez Bautista, A.
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Biología de poblaciones ( Spanish; Castilian )

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Tamaño poblacional

27 ejemplares en un área de 2 km2 (Beck, 1990).

Antecedentes del estado de la especie o de las poblaciones principales

Es necesaria la realización de estudios poblacionales a lo largo de todo el intervalo de la distribución de la especie, con el objeto de conocer más acerca de la estructura y dinámica poblacional de estos individuos (Bogert y Martín del Campo, 1956), sin embargo, cabe la posibilidad de que aún existan poblaciones del monstruo de Gila relativamente densas en algunas partes de Arizona y Sonora (Ernst, 1992; Beck, 2001, personal).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Ramírez Bautista, A.
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Biología del taxón ( Spanish; Castilian )

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Relevancia de la especie

El monstruo de Gila es una de las dos únicas especies de saurios venenosos en el mundo. Los miembros de la familia Helodermatidae solo habitan en el continente americano y particularmente poseen glándulas productoras de veneno, con estructura dentaria adaptada para la inoculación. Los dientes tienen dos canales o ranuras, por donde el veneno pasa por capilaridad a la herida cuando el animal muerde (Matz y Vanderhaege, 1979; Ramírez-Velázquez y Guichar-Romero, 1989; Mattison, 1989). El aparato venenoso es distinto al de las serpientes. Las glándulas venenosas están localizadas en la mandíbula inferior y no están en relación con dientes inoculadores especializados. El veneno fluye dentro de la boca y penetra en las pequeñas heridas ocasionadas por los dientes cuando el animal muerde reteniendo largamente a la victima, por lo que, se cree que su mecanismo inoculador es rudimentario y solo útil para cazar. La mordedura es dolorosa, a veces peligrosa, pero raramente mortal para el hombre (Bogert y Martín del Campo, 1956; Matz y Vanderhaege, 1979; Mattison, 1989).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Comportamiento ( Spanish; Castilian )

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Su periodo de actividad corresponde a la estación de lluvias y se extiende desde el mes de mayo hasta finales de octubre. Durante este tiempo de gran actividad, caza regularmente, se aparea, y pone huevos. Es de hábitos crepusculares, y durante el día, su actividad la desarrolla entre las 08:00 y 12:00 Hrs. A fines de octubre comienza la hibernación durante la cual su actividad es reducida (Matz y Vanderhaege, 1979; Lowe et al., 1986; Beck, 1990). El monstruo de Gila, en sus periodos más activos, llega a recorrer distancias de hasta 210 m en promedio, aproximadamente en 50 minutos, pero existen individuos que ocasionalmente recorren más de un kilómetro (Beck, 1990; Beck y Lowe, 1994; Beck et al., 1995). Raramente se les observa cerca de grandes cuerpos de agua, sin embargo, son excelentes nadadores, y en cautiverio, en condiciones favorables, se les pude ver nadando por horas (Bogert y Martín del Campo, 1956; Grzimek, 1972).

Ámbito hogareño

El intervalo del ámbito hogareño reportado para 2 machos y una hembra de esta especie, fueron de 66.2, 32.6 y 5.6 hectáreas respectivamente dentro de un área de 2 Km2 (Beck, 1990).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Ramírez Bautista, A.
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Hernández Ibarra, X.
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Descripción ( Spanish; Castilian )

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El monstruo de gila es un saurio de talla de cuerpo grande (longitud máxima de 560 mm); el cuerpo esta cubierto por escamas de forma de chaquiras, característica de la familia Helodermatidae, y de escamas cuadrangulares en la región ventral del cuerpo; las escamas de la región dorsal y ventral son de color amarillo, rosa y negro. El cuerpo es de forma robusta corpulenta y de movimientos lentos, y los miembros cortos y fuertes; la parte terminal de los dedos con uñas en forma de garras. La forma de la cabeza es triangular, robusta y aplanada de manera dorsoventral. El patrón de coloración es irregular con reticulaciones de color café oscuro o negras sobre un fondo amarillo, naranja o rosa en el cuerpo, y presenta una serie de anillos alternados negros y naranjas o rosa en la cola, este patrón cambia haciéndose más complejo conforme avanza la edad del organismo (Lowe et al., 1989; Ernst, 1992).

Historia de la vida

Vertebrados ectotermos.
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Distribución ( Spanish; Castilian )

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Actual

MEXICO / SINALOA

El área de distribución en México del monstruo de Gila comprende los Estados de Sonora y el noroeste de Sinaloa (Stebbins, 1985; Campbell y Lamar, 1989; Ernst, 1992).(Stebbins, 1985; Campbell y Lamar, 1989; Ernst, 1992).

MEXICO / SONORA

(Stebbins, 1985; Campbell y Lamar, 1989; Ernst, 1992).

Histórica estimada

MEXICO

Su distribución se reporta en el territorio mexicano solo para los estados de Sonora y Chihuahua (Smith y Taylor, 1950). Algunos de los Municipios y localidades reportadas para esta especie son: Hermosillo, Magdalena, San Bernardino, San Pedro, cerca de Pozo Cipriano, Sierra de Moreno, monumento No. 146, Cañón de Guadalupe, Cerro de Gallardo al sureste del monumento No. 82, cerca al monumento No. 88, 19 millas al norte de Bavispe, 5 millas al sur de Imuris, 3.2 millas al oeste de Trincheras, en el Llano a 10 millas al sur de la Noria, cerca de La Posa 10 millas al noroeste de Guaymas, en el estado de Sonora y, al norte y posiblemente al oeste de Casas Grandes, en la desembocadura del Lago Guzmán, en el estado de Chihuahua (Bogert y Martín del Campo, 1956).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Estado de conservación ( Spanish; Castilian )

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NOM-059-SEMARNAT-2001

A amenazada

NOM-059-SEMARNAT-2010

A amenazada
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Hernández Ibarra, X.
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Estrategia trófica ( Spanish; Castilian )

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El monstruo de Gila es un carnívoro secundario, principalmente se alimenta de huevos de aves y reptiles, roedores pequeños, ardillas terrestres, conejos jóvenes y polluelos, que son capturados en su nido. Durante sus periodos de actividad más alta, demanda gran cantidad de alimento debido al gasto energetico, producto de la época reproductiva, además de almacenar grasa como una forma de reservas, para la etapa de hibernación (Grzimek, 1972; Matz y Vanderhaege, 1979).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Hábitat ( Spanish; Castilian )

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Generalmente habita en áreas con pendientes rocosas, evitando las zonas abiertas con planicies (Campbell y Lamar, 1989); esta especie prefiere las zonas rocosas de lava basáltica en donde pueden mimetizarse fácilmente, o bien obtener un refugio para poder escapar a los depredadores; algunos de los refugios utilizados por H. suspectum son madrigueras desocupadas por otras especies de reptiles y mamíferos (Xerobates agassiz y Neotoma lepida) que posteriormente pueden ser utilizadas y modificadas por uno o más organismos de esta especie en diferentes épocas. Sus refugios pueden estar hasta un metro de profundidad con respecto a la superficie, y de 2 metros o más de longitud desde la entrada hasta el final del túnel (Beck, 1990). Al tratarse esta especie de un carnívoro secundario, muy probablemente depende de los veranos lluviosos del desierto, en los cuales aumenta la probabilidad de que este saurio encuentre presas disponibles para alimentarse (Ernst, 1992). El Gila puede ser también hallado en el fondo de cañones con presencia de arroyos permanentes o semi-permanentes, donde este puede escarbar una madriguera y a la vez hacer uso del agua (Stebbins, 1985).

Macroclima

Esta especie habita en una diversidad de climas de tipo desértico que van desde el muy árido-cálido en dos subtipos, BW(h´)(x´) y BW(h´)w, con temperaturas medias anuales mayores a 22° C y temperatura del mes más frío mayor a 18° C; pasando por los climas de tipo muy árido, semicálido, como BWh(x´), árido-cálido [Bso(h´)w], árido-semicálido [Bsoh(x´)], árido-templado [Bsok(x´)], hasta los climas de tipo semiárido-templado [BS1k(x´), BS1h(x´)] con temperaturas medias anuales entre 12° C y 18° C, con una temperatura en el mes más frío entre -3° C y 18° C, con una temperatura en el mes más caliente menor a 22° C. Esta especie puede hallarse desde el nivel del mar hasta elevaciones de 1000 m. en el territorio mexicano (Bogert y Martín del Campo, 1956; Conabio, 2001).

Uso de hábitat

Estos saurios habitan principalmente en zonas con pendientes rocosas formadas por el enfriamiento de flujos de lava basáltica (Beck, 1990), sin embargo, también pueden utilizar áreas con vegetación de Mezquital, bosque de pino-encino, selva baja caducifolia y bosque espinoso (Campbell y Lamar, 1989; Behler, 1991; Ernst, 1992).
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CONABIO
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Reproducción ( Spanish; Castilian )

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En estos organismos la cópula generalmente se lleva a cabo durante los meses de mayo y junio, el macho se coloca al lado de la hembra y solo se unen las cavidades cloacales de ambos individuos (Bogert y Martín del Campo, 1956; Matz y Vanderhaege, 1979; Gans y Tinkle, 1977). La copula tarda de 30 minutos a una hora, sin embargo, el cortejo puede durar hasta 12 horas sin que haya copula. Inicialmente el cortejo comienza con movimientos cercanos del macho hacia la hembra, rozándola con su lengua en una actitud olfativa, comienza a frotar suavemente su mentón en distintas partes del dorso, camina lentamente en su entorno y una vez que localiza la dirección del cuerpo se vuelve más insistente en sus roces y realiza una mayor presión sobre su cuello y la cabeza, si esta no huye, el macho coloca la mitad anterior encima del dorso de la hembra, abrazándola y frotándola más fuerte hasta facilitar el contacto de ambas cloacas (Wagner et al., 1976; Ramírez-Velazquez y Guichar-Romero, 1989; Ernst, 1992). Dos meses más tarde la hembra deposita los huevos que eclosionarán en un lapso de entre 117 y 130 días después de la puesta; en promedio los huevos presentan un diámetro de 26.8 x 14 mm (Bogert y Martín del Campo, 1956; Shaw, 1964; Fitch, 1970; Matz y Vanderhaege, 1979; Ernst, 1992).

Fecundidad

En vida libre, esta especie tiene una sola puesta al año de entre 1-12 huevos (usualmente de 4-6) entre julio y agosto (Stebbins, 1985; Lowe et al., 1986; Ernst, 1992).

Proporción sexual

Es muy difícil poder conocer el sexo en los ejemplares vivos de esta especie; en la actualidad, la proporción de sexos en las poblaciones silvestres son desconocidos; sin embargo, Bogert y Martín del Campo (1956), presentaron datos basados en 92 ejemplares de H. suspectum preservados en colecciones. Esta muestra estaba compuesta de 45 machos y 47 hembras en una proporción 0.95:1, sin embargo, la proporción de sexos observada para las 2 subespecies de Gila fueron marcadamente diferentes: H. s. cinctum 16 machos y 6 hembras, 2.7:1, y H. s. suspectum-29 machos y 41 hembras, 1:1.4. Los datos derivados de estos ejemplares, no necesariamente reflejan, la composición real de las poblaciones en la naturaleza. Es claro que las recolectas de estos ejemplares estuvieron influenciadas por factores conductuales de la especie en ciertas épocas del año y por diferencias muy marcadas en la conducta de cada sexo, ya que mientras que los machos suelen ser más móviles, las hembras son más sedentarias y en algunas temporadas, raramente se ven afuera de sus madrigueras (Bogert y Martín del Campo, 1956; Ernst, 1992).
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Ramírez Bautista, A. y Hernández Ibarra, X. 2004. Ficha técnica de Heloderma suspectum. En: Arizmendi, M. C. (compilador). Sistemática e historia natural de algunos anfibios y reptiles de México. Facultad de Estudios Superiores Iztacala, Unidad de Biología, Tecnología y Prototipos (UBIPRO), Universidad Nacional Autónoma de México. Bases de datos SNIB-CONABIO. Proyecto No. . México, D.F.
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Brief Summary

provided by EOL authors

The Gila Monster is widely found in the Sonoran Desert. It is the largest lizard found in the United States. The Gila Monster can grow up to 2 feet and weigh more than 5 pounds. It is venomous and carnivorous eating primarily eggs and other newborn mammals. Average life span of the Gila Monster is 20-30 years.

The Gila Monster can be identified by their black bodies with dramatic patterns of orange, pink, or yellow. They were first discovered in Arizona’s Gila Basin where they received their name. They now reside in the Sonoran, Chihuahuan, and Mojave Deserts. But the Gila Monster population is shrinking due to human encroachment, and they are now on the threatened species list.

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Distribution

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Continent: Middle-America North-America
Distribution: USA (SE California, S Nevada, SW Utah, Arizona, New Mexico), Mexico (Sonora)
Type locality: Sierra de la Unión, œSonora (= Arizona)
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Heloderma suspectum ( Asturian )

provided by wikipedia AST

El bisarma de Gila (Heloderma suspectum) ye un llagartu venenosu propiu de les rexones grebu y templáu del estremu norte de Méxicu y del suroeste de los Estaos Xuníos. Ye un llagartu pesáu, de movimientu lentu y mide hasta 60 cm de llargu. La bisarma de Gila ye una de los dos úniques especies conocíes de llagartos venenosos, l'otru ye'l so familiar cercanu, el llagartu de cuentes o escorpión (Heloderma horridum). Anque la bisarma de Gila ye venenosu, la so naturaleza pasiva fai que represente poca amenaza a los seres humanos. Sicasí, ganóse una reputación tarrecible, y ye matáu de cutiu polos caminantes y los dueños de les cases.

Descripción

La bisarma de Gila ye'l llagartu más grande nativu d'América del Norte, mide aprosimao ente 35 y 58,5 cm de llargu. Tien una figura trabada con pates pequeñes, poderoses garres y una cola curtio y grueso onde almacena la grasa qu'utiliza como enerxía mientres la envernía o cuando hai escasez d'alimentos. La piel de la bisarma de Gila ye rugosa, con marques irregulares brillantes de color rosado, mariellu o blancu, sobre escames negres o marrones.[2] La bisarma de Gila mover con esaxerada lentitú. Nun sabe correr ya intentaríamos en devanéu estornar a unu d'estos reptiles. De 500 g a 1 kg de pesu, ye un reptil pasivu de lentos movimientos.

Hábitat

Habita nes zones grebes y desiertos predresos d'América del Norte y montes tropicales secos. Vive en llurigues qu'él mesmu escava, o qu'ocupa cuando se cola'l propietariu. La bisarma de Gila xeneralmente evita los calores estremos del sol del mediudía y ye más activu mientres les hores de la mañana y l'atapecer. Permanez díes y selmanes ensin salir del so xoril, y cuando finalmente decídese a abandonar el so albergue facer con tiempu lluviosu y casi puramente de nueche.[3]

Alimentación

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Cabeza d'una bisarma de Gila.

La bisarma de Gila ye un animal carnívoru que s'alimenta principalmente de coneyos nuevos, mures, esguils, llagarteses, xaronques, inseutos, aves y güevos d'aves, tortúas y culiebras. Detecta la presencia de les preses pol olfatu, que tien bien desenvueltu, y tamién pol gustu, sirviéndose del so llingua como d'un detector eficaz. Ye un real tragón que taramia tou lo comestible qu'atopa.[ensin referencies] Estos llagartos ataquen a les sos víctimes mordiéndoles y enferronándose a elles al empar que rueden sobre'l llombu pa dexar qu'el venenu fluya al interior de la ferida ensin dexar de mazcar pa infligir mancaes entá mayores. Engorda rápido y encher la cola, porque ye nesa parte del so cuerpu onde se-y atropen les reserves de grasa. Esta forma singular d'alimentase dexa a la bisarma de Gila ayunar mientres enforma tiempu ensin perxuiciu. El baxu ritmu metabólicu y el so relativamente fresca temperatura corporal amenorga entá ye más la so necesidá de ingesta regular d'alimentos.

En gran midida, la bisarma de Gila tien una fisioloxía especializada que lu ayudar a caltener los niveles enerxéticos mientres los sos llargos intervalos ente alimentos. Cuando una bisarma de Gila come, una glándula salival modificada dientro de la so boca llibera un compuestu llamáu exendin-4, que flúi dientro del tracto dixestivu y de la riega sanguínea del llagartu. Ente que los científicos tienen entá que confirmar el rol que xuega'l exendin-4, paez que prepara al cuerpu del Gila pa recibir, procesar y almacenar nutrientes. Amás, créese qu'el exendin-4 tien un rol na rexeneración del intestín del Gila, que s'atrofia ente les esporádiques comíes pa caltener enerxía.[3]

Reproducción

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Bisarma de Gila.
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Animaux venimeux et venins, 1922

Ye un animal ovíparu que pon de 3 a 15 güevos, guarándolos mientres un periodu de 30 a 45 díes. La dimensión del güevu ye de 4x6,5 cm y el naciellu tien un llargor de 9 a 12 cm.

Venenu

Los sos fauces van armaes, dientro del quexal, d'un par de dientes paecíos a los gabitos venenosos de les culiebres. El venenu, usáu principalmente pa defendese, segrégase al traviés d'unes glándules asitiaes nel quexal inferior y flúi al esterior al traviés d'unos riegos presentes nos dientes.

== Estáu de caltenimientu Próximu a la vulnerabilidá (NT). Ta prohibíu la caza d'esta especie. Ye consideráu una especie protexida, yá que'l so hábitat atópase amenaciáu pol desenvolvimientu urbanu y agrícola, y la construcción de carreteres.

Subespecies

Esisten dos subespecies de bisarma de Gila: el reticuláu (Heloderma s. suspectum), que s'atopa principalmente nos estaos de Sonora y norte de Sinaloa, en Méxicu, amás d'Arizona, n'Estaos Xuníos; y la bisarma de Gila bandiáu (Heloderma s. cinctum), alcontráu nos estaos d'Utah y Nevada, de los Estaos Xuníos.

Importancia na Diabetes Tipu II

Un péptido análogu del péptido similar al glucagón de tipu 1 (GLP-1), alcontráu na secreción salivar d'esti llagartu, foi aprobáu pal tratamientu de pacientes con diabetes de tipu II. Esta aprobación basar na capacidá d'esti axente d'aumentar la secreción d'insulina y por tanto, ameyorar la hiperglucemia cola que cursa la enfermedá nestos pacientes.

El péptido similar al glucagón de tipu 1 (GLP-1), ye un factor intestinal que se lliberar en respuesta a la hiperglucemia resultante de la ingesta y que potencia la secreción d'insulina. Ye unu de los factores producíos nel intestín denominaos incretinas, responsables del efeutu incretina, conocíu como la diferencia ente los niveles d'insulina detectaos tres una ingesta oral de glucosa y una intravenosa d'igual cantidá. Siendo la respuesta insulínica a la sobrecarga oral de glucosa enforma mayor qu'a la intravenosa, por cuenta de estos factores intestinales que potencien la lliberación d'insulina.

Referencies

  1. Hammerson, G.A., Frost, D.R. & Gadsden, H.. «Heloderma suspectum» (inglés). Llista Roxa d'especies amenazaes de la UICN 2015.2.
  2. American Museum of Natural History. «Gila Monster» (inglés). Consultáu'l 6 de febreru de 2009.
  3. 3,0 3,1 Dr. Mark Seward. «Dr. Mark Seward Gila Monster Web» (inglés). Consultáu'l 6 de febreru de 2009.

Bibliografía

  • Schauenberg (1983). Ficheru Safari. Club internacional del llibru S.A. (Méxicu). ISBN 968-49-0035-X.
  • Walter F. Boron MD PhD & Emile L. Boulpaep MD (2011). Medical Physiology, 2y Updated Edition. ElSevier.
  • Triplitt C, Chiquette Y. Exenatide: from the Gila monster to the pharmacy. J Am Pharm Assoc (2003).

Enllaces esternos




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Heloderma suspectum: Brief Summary ( Asturian )

provided by wikipedia AST

El bisarma de Gila (Heloderma suspectum) ye un llagartu venenosu propiu de les rexones grebu y templáu del estremu norte de Méxicu y del suroeste de los Estaos Xuníos. Ye un llagartu pesáu, de movimientu lentu y mide hasta 60 cm de llargu. La bisarma de Gila ye una de los dos úniques especies conocíes de llagartos venenosos, l'otru ye'l so familiar cercanu, el llagartu de cuentes o escorpión (Heloderma horridum). Anque la bisarma de Gila ye venenosu, la so naturaleza pasiva fai que represente poca amenaza a los seres humanos. Sicasí, ganóse una reputación tarrecible, y ye matáu de cutiu polos caminantes y los dueños de les cases.

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Korovec jedovatý ( Czech )

provided by wikipedia CZ

Korovec jedovatý (Heloderma suspectum)[2] je jeden ze dvou severoamerických jedovatých ještěrů (druhým je sesterský taxon korovec mexický).

Charakteristika druhu

Korovec má černé zbarvení s oranžovými skvrnami a pruhy. Dorůstá délky přibližně 0,5 m (maximálně 0,6 m), hmotnost se pohybuje okolo 0,5 kg (rekordní jedinec nicméně vážil 2,3 kg).

Žije v suchých pouštních oblastech jižní USA (Nevada, Utah) a Sonorské poušti v Mexiku. Většinu času tráví v úkrytu, často pod různými kameny. Živí se malými savci, žábami, ptáky, ještěrkami, hmyzem a mršinami. Velmi rád pojídá ptačí a ještěří vejce, které mnohdy tvoří většinu jeho potravy. Sám se může stát kořistí kojotů nebo dravých ptáků.

Jeho jedové žlázy jsou umístěny v dolní čelisti. Jed je neurotoxický a způsobuje velké bolesti, otok, slabost a snížení krevního tlaku [zdroj?]. Za normálních okolností při kousnutí zdravého dospělého člověka není jed smrtelný. Korovec není příliš útočný.

Galerie

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    Korovec jedovatý

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    Korovec jedovatý

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    Korovec jedovatý

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    Ocas korovce jedovatého

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    Historické vyobrazení

Reference

  1. Červený seznam IUCN 2018.1. 5. července 2018. Dostupné online. [cit. 2018-08-10]
  2. korovec jedovatý. www.biolib.cz [online]. [cit. 2017-02-08]. Dostupné online. (česky)

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Korovec jedovatý: Brief Summary ( Czech )

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Korovec jedovatý (Heloderma suspectum) je jeden ze dvou severoamerických jedovatých ještěrů (druhým je sesterský taxon korovec mexický).

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Gila-Krustenechse ( German )

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Die Gila-Krustenechse (Heloderma suspectum) ist eine der fünf rezenten Vertreter der Krustenechsen (Helodermatidae). Die etwa 50 cm lang werdende, kräftig gebaute und auffällig schwarz und rosa bis gelb orange gezeichnete Echse lebt in den Trockengebieten des südwestlichen Nordamerika. Sie ist am frühen Morgen aktiv, bodenbewohnend und ernährt sich vor allem von Eiern, Kleinsäugern und selten von kleinen Jungvögeln. Sie wurde lange Zeit neben der nahe verwandten Skorpion-Krustenechse (Heloderma horridum) als einzige giftige Echse angesehen; laut neueren Erkenntnissen besitzen jedoch auch der Komodowaran (Varanus komodoensis), die Östliche Bartagame (Pogona barbarta) und vielleicht auch zahlreiche weitere Arten Gift produzierendes Gewebe.[1] Die Gila-Krustenechse ist im Vergleich zu diesen Echsen als hochgiftig einzustufen. Sie beißt nur bei andauernder Provokation – das Gift wird zur Verteidigung eingesetzt.[2] Auffälligste Symptome nach einem Biss sind sehr starke Schmerzen, Ödeme und Kreislaufschwäche bei rapidem Abfall des Blutdrucks. Der Biss einer Gila-Krustenechse kann für Menschen tödlich sein. Dennoch ist keiner der seltenen Bissunfälle in den letzten 30 Jahren tödlich verlaufen.[3] Die Echsen leben zu ca. 90 % unterirdisch und sind deshalb sehr selten zu beobachten.

Erstbeschreibung einer Gila-Krustenechse von 1857
Erste bildliche Darstellung einer Gila-Krustenechse von 1857[4]

Die Erstbeschreibung der Art erfolgte 1869 durch Edward Drinker Cope. Die Bezeichnung "suspectum" (lat. suspectus – fragwürdig) gab er ihr wegen der äußerlichen Ähnlichkeit mit der schon bekannten Skorpion-Krustenechse. Daher vermutete er, dass der neue Fund aus Arizona ebenfalls giftig sein sollte. Danach folgte eine ca. 10 Jahre lange Diskussion der Wissenschaftler über eine mögliche Giftigkeit der Gila-Krustenechse.[5] Die deutsche Bezeichnung Gila-Krustenechse und der englische Name Gila Monster sind wohl vom Gila River in Arizona abgeleitet.[2]

Merkmale

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Haut einer Gilakrustenechse

Haut, Kopf und Schwanz einer Gila-Krustenechse

Gila Krustenechsen sind kräftig gebaute Echsen mit stumpfer Schnauze, kräftigem Kopf und klein erscheinenden Augen, die durch eine Nickhaut geschützt werden können. Die Schuppen des Kopfes, Rückens und Schwanzes sind mit kleinen, perlartigen Knochen (Osteodermen), ähnlich wie auch bei den Skorpion-Krustenechsen, ausgestattet. Die Bauchschuppen sind abgerundet rechteckig und frei von Osteodermen.

Die kräftige gespaltene Zunge ist blau-schwarz pigmentiert, dient zur Orientierung und nimmt „chemische Informationen“ auf, die zum Jacobson-Organ im Rachenraum transportiert werden. Von dort aus wird die Information zum Gehirn weitergeleitet und analysiert.[6] Die Nase ist kein Riechorgan.[7]

Die Regelung der Körpertemperatur einer Gila-Krustenechse erfolgt normalerweise durch Wasserverdunstung an der Hautoberfläche. Um die kritische Temperaturmarke von ca. 37 °C zu überleben, setzt eine limitierte Verdunstung von Körperwasser über die Kloake ein. Diese vermag ihre Körpertemperatur um bis zu 2 °C abzusenken, .[8]

Die Gila-Krustenechse erreicht eine Gesamtlänge bis ca. 55 cm, bei einer Kopf-Rumpf-Länge von 30 bis 36 cm und einem durchschnittlichen Gewicht von 600 bis 800 g. Tiere in öffentlichen Ausstellungen sind oft überfüttert und dadurch adipös. Krustenechsen nehmen Nahrung bei jeder sich passenden Gelegenheit auf.

Weibliche Tiere vollziehen ca. 2 Wochen vor ihrer Eiablage Ende Mai/ Anfang Juni eine Totalhäutung, wobei die äußere Rückenhaut häufig in einem großen Stück abgestoßen wird.[9] Männliche Gila-Krustenechsen häuten vorwiegend im August.

Totalhäutung einer Gila-Krustenechse
Totalhäutung einer weiblichen Gila-Krustenechse ca. 2 Wochen vor der Eiablage

Der Kopf männlicher Tiere ist meistens massiver als der von weiblichen Tieren. Die Schwanzlängen beider Geschlechter sind im Mittel gleichlang und geben keine Hinweise auf das Geschlecht.[10] Die Analyse der Form der Kloakenschuppen kann bei einer Geschlechtsbestimmung hilfreich sein.[9] Individuen mit abgerundeten Schwanzenden kommen in der Natur, wie bei Nachzuchten vor.

Erwachsene Tiere sind gelb bis orange oder hell rosa auf großflächigem schwarzen Untergrund gezeichnet. Frisch geschlüpfte Gila-Krustenechsen haben meistens untereinander eine ähnliche Zeichnung, die sich dann aber innerhalb von ca. sechs Monaten stark verändert.[9] Der Anteil heller Farbbezirke nimmt vom südlichen Verbreitungsgebiet Richtung Norden zu. Bei Schlüpflingen aus dem nördlichen Verbreitungsgebiet bleiben eine schon beim Schlupf vorhandene hellere Zeichnung und auch die Musterung auffällig erhalten.

Zähne

Alle Zähne von Heloderma sind spitzkantig und mit der Spitze leicht nach hinten gekrümmt und haben zwei deutliche Längsfurchen zum Einbringen des Giftes. Die Zahnbasis ist flach unregelmäßig gekerbt und mit den schrägen Kiefern fest verwachsen (pleurodont[11]). Es gibt keine Differenzierung zwischen Schneide- oder Backenzähnen.[12] Der Oberkiefer ist breiter als der Unterkiefer, so dass beim Zubeißen die Zähne nicht aufeinander treffen.

Heloderma-Kiefer mit Ersatzzähnen
Heloderma-Kiefer mit Ersatzzähnen

Heloderma wechseln ihre Zähne ein Leben lang.[13] Der Zahnwechsel erfolgt in einem wellenartigen Muster: Zu etwa gleicher Zeit werden Zahn 1, 4 und 7 gewechselt; Mit der nächsten „Welle“ werden der zweite, fünfte und achte Zahn erneuert etc. Bricht ein Zahn ab, wird er erst wieder ersetzt, wenn er planmäßig an der Reihe ist. Zum Auswechseln eines Zahnes wird seine Basis resorbiert und der fertig ausgebildete Ersatzzahn von der Innenseite (lingual) in Position gebracht.[12][14] Während dieses Prozesses schiebt sich Kiefermaterial über den Zahnsockel, sodass Zahn und Kiefer stets verbunden bleiben.

Verbreitung, Lebensraum und Arten

Die Geschichte der Helodermatiden lässt sich in 3 Phasen aufteilen: (1) In der Kreidezeit waren die Helodermatiden relativ häufig und verschiedenartig. (2) Nach dem Aussterben der Nichtvogeldinosaurier am Ende der Kreidezeit sind Helodermatiden deutlich weniger häufig anzutreffen, jedoch breiten sie sich nach Europa aus. Sie sind fortan in den mittleren Breiten beheimatet, was eventuell auf die relativ hohen und gleichmäßig herrschenden Temperaturen zurückzuführen ist. (3) Nach dem Eozän überleben sie nur noch in Nordamerika, ihrer jetzigen Heimat, wo sie hauptsächlich auf die niedrigen Breitengrade beschränkt sind.[15]

Gila-Krustenechsen kommen in Nordamerika vor: In den USA in der Mojave-Wüste in den südlichsten Teilen von Nevada, in Südost-Kalifornien, Südwest-Utah, Arizona und New Mexico, und in Mexiko in der Sonora-Wüste. Dort kommt die Art nahezu ab Meereshöhe in der Sonora bis 1545 m und in Arizona bis zu 1950 m in New Mexico vor. Sie bewohnt die unterschiedlichsten Wüstenarten. Bereits angelegte Quartiere von Kaninchen und Amerikanischen Buschratten zwischen/unter Felsen und Büschen werden oft übernommen. In Arizona sind sie wahrscheinlicher in steinigen und felsigen Regionen anzutreffen.[2][16] Die ehemalige Aufspaltung von H. suspectum in 2 Unterarten ist nicht mehr valide. Die Auswertung ihrer genetischen Merkmale (mitrochondiale DNA, MtDNA) zeigt einen Unterschied von unter 1,4 % und dies rechtfertigt keine Trennung in Unterarten.[17] Alle Vertreter der ehemaligen Unterarten von H. horridum zeigen aber ausreichende Unterschiede, um einen Artenstatus zu beanspruchen. Die Gattung Heloderma besitzt jetzt 5 valide Arten.[18]

Eine hilfreiche Einteilung von Heloderma suspectum kann durch Zuordnung zu Verbreitungsgebieten und mit der dort verbundenen Häufigkeit von Zeichnungsarten erfolgen,[9] z. B. nördlich, zentral oder südlich.

Abbildung Kladogramm: Aufspaltung der Gattung im Laufe der Evolution (Reiserer et al. 2013):

src=
Aufspaltung der Gattung Heloderma in 5 valide Arten
1 – spätes Eozän (vor ca. 35 Millionen Jahren)
2 – spätes Miozän (vor ca. 10 Millionen Jahren)
3 – Pliozän (vor ca. 4,4 Millionen Jahren)
4 – Pliozän (vor ca. 3 Millionen Jahren)

Lebensweise

src=
Gila-Krustenechse, Kopf

Die Gila-Krustenechse ist bodenbewohnend, klettert jedoch gelegentlich auf Kakteen oder in Sträucher.[19] In den kalten Wintermonaten ab Oktober legt die Art eine Dormanz (engl. brumation) in ihrem Unterschlupf ein, die vom Winterschlaf der Säugetiere zu unterscheiden ist[20]. An wärmeren Tagen können allerdings sich sonnende Exemplare vor ihrem Unterschlupf beobachtet werden. Die Winterperiode endet Anfang März. Im April bis in den frühen Juni sind Gila-Krustenechsen am aktivsten; zu dieser Zeit ist auch Beute besonders reichlich vorhanden. Paarungszeit ist der Mai. Gila-Krustenechsen sind im Frühjahr am Morgen aktiv. Wenn dann im Sommer die Hitze am Tage zu groß wird und die Nächte wärmer bleiben oder nach einem Monsunregen wird die Art auch des Nachts aktiv sein.[2]

Gila Krustenechsen können sich in einem Radius von ca. 1200 Metern orientieren; das entspricht einer Fläche von ca. 4,5 ha.[21] Bei einzelnen, ausgedehnten Aktivitäten wurden durchschnittlich Strecken bis zu 210 Metern zurückgelegt. Die Gebiete der einzelnen Individuen überlappen sich. Ein geeigneter Unterschlupf kann über Jahre hinweg von denselben Tieren aufgesucht werden.[2][22]

Fortpflanzung

Gila-Krustenechsen paaren sich Ende April und im Mai. Selten können ritualisierte Kämpfe männlicher Tiere um die Gunst eines Weibchens beobachtet werden. Hierbei wird solange flach über den Boden gerungen bis einer der Rivalen unterliegt, d. h. auf dem Rücken liegen bleibt oder das Weite sucht.[22] Der Gewinner scheint von den Weibchen zur Paarung bevorzugt zu werden.[23] Die Eiablage erfolgt 4–6 Wochen nach der Paarung in geeigneten Ablageplätzen, z. B. in verlassenen Behausungen von Ratten in einer beobachteten Tiefe von ca. 70 cm.[24] Eine Eiablage wurde lediglich in einem Fall dokumentiert und veröffentlicht.[2]

Wann die Jungtiere schlüpfen, war bisher nicht bekannt. Da Jungtiere (Schlupfgewicht 30-40 g) frühestens ab Ende April gesehen werden, die Eiablage aber im vorausgegangenen Juni stattgefunden hat, wurde spekuliert, dass sie entweder im Herbst schlüpfen und sofort in den Winterschlaf gehen, oder dass der Embryo weitentwickelt noch im Ei überwintert und das Jungtier erst im Frühling schlüpft.[25] Erstere Vermutung konnte bestätigt werden, als bei Bauarbeiten in einem nördlichen Vorort von TUCSON in Arizona im Oktober 2016 ein Nest mit fünf gerade schlüpfenden Gila-Krustenechsen freigelegt wurde.[26] Hierdurch konnte bewiesen werden, dass Heloderma suspectum im Herbst schlüpft, um dann sofort und vollentwickelt unterirdisch seine Winterruhe zu beginnen. Der im Spätherbst bestehende Futtermangel ist für die gerade geschlüpften Jungtiere nicht lebensbedrohlich. Aufgrund der Dormanz wird weniger Energie benötigt, die benötigten Energiereserven werden aus den Dottersäcken bezogen. Wenn die Schlüpflinge der Gila-Krustenechse im Mai an die Erdoberfläche kommen, steht wieder ausreichend Beute zur Verfügung.

Gift

Helderma Giftdrüsen mit Giftkanälen
Heloderma, Zeichnung Shufeldt Anno 1890: Giftdrüsen mit Giftkanälen[27]

Die Gila-Krustenechse erzeugt ihr Gift in umgewandelten Speicheldrüsen am hinteren Unterkiefer.[28] Es läuft in zwei Rinnen der hinteren Zähne des Unterkiefers und wird nicht wie bei Schlangen durch Hohlzähne injiziert.[29][30] Die Echse verbeißt sich in den Körper ihres Opfers und bringt das Gift durch Kaubewegungen ein. Es ist meistens sehr schwierig, eine Gila-Krustenechse von ihrem Opfer zu lösen. Die Echse beißt nur zur Verteidigung und warnt zuvor durch Fauchen und Zischen.[2] Die schmerzhafte Erfahrung eines Bisses und die auffällige Farbzeichnung der Haut könnten dazu dienen, potentielle Fressfeinde abzuschrecken.

Folgen eines Bisses sind mehrere kleine Einstiche und gelegentlich abgebrochene Zähne in den Wunden. Es treten Schwellungen oder Ödeme der betroffenen Körperregion auf. Das nach dem Biss einiger Giftschlangenarten (z. B. Klapperschlangen Crotalus) gefürchtete Kompartiment-Syndrom tritt nicht auf. Ein intensiver Schmerz breitet sich in wenigen Minuten aus und kann länger als 24 Stunden bestehen. Begleiterscheinungen sind Hypotonie bis zum Kreislaufschock, Schwitzen und Schwindel.[2] Neurologische Ausfälle sind nicht bekannt.

Während die Giftmenge, die bei einem Biss übertragen wird, für gesunde Erwachsene nicht tödlich ist, kann ein Biss für Menschen mit Herzschwäche ohne ärztliche Behandlungen lebensgefährlich werden. In der Regel reicht eine symptomatische Behandlung des Patienten aus.[2] Ein Antiserum (Gegengift) ist nicht verfügbar.

Das Gift besteht u. a. aus Gilatoxin, Kallikreinen und bioaktiven Glykoproteinen. Das Gila-spezifische Polypeptid Exendin-4, beziehungsweise das in aufwändiger Synthese hergestellte Exenatid, wird zur Behandlung von Diabetes mellitus Typ 2 eingesetzt.[31] Exendin-4 ist in seiner Aminosäurensequenz zu 53 % identisch mit dem menschlichen Glucagon-like Peptid 1 (GLP 1), welches die Insulinausschüttung bewirkt. Im Vergleich zur unliebsamen täglichen Injektion von Insulinen wird Exenatid nur einmal wöchentlich appliziert. Dabei hilft eine Depotzubereitung, die eine verzögerte Freigabe des Wirkstoffes ermöglicht.[32] Eine Unterzuckerung oder eine überhöhte Blutglucose werden verhindert, so kann dann die Glucose nicht mehr in Körperfett umgewandelt werden. Im günstigen Fall findet sogar eine Gewichtsabnahme von mehreren Kilogramm statt. Außerdem wurden die Enzyme Hyaluronidase (fördert Zellmembrandurchlässigkeit) und Kallikrein (spaltet Fibrinogen) sowie das Hormon Serotonin nachgewiesen.

Vergleich der Aminosäurensequenzen

Farbiger Vergleich der Aminosäuresequenz von GLP 1 mit Exendin-4 (Quelle:[31][32])

Schutzstatus

Im Jahr 1952 wurde die Gila-Krustenechse als erste giftige Spezies in Arizona unter staatlichen Schutz gestellt.[33] Später folgten dem Beispiel alle weiteren Bundesstaaten der USA und auch Mexiko.[21] International wird der Handel mit Krustenechsen durch CITES im Anhang II B geregelt.

Umsiedlung

Der Lebensraum der Gila-Krustenechse ist durch z. B. Zersiedelung und Straßenbau zunehmend eingeschränkt. Um den Tieren ein Überleben zu ermöglichen, hat man versucht, sie in andere, geeignet erscheinende Gebiete umzusiedeln. Die Vorgehensweise einer einfachen Umsiedlung ist wohlgemeint, aber potenziell gefährlich sowohl für die umgesiedelten Tiere als auch für bereits vorhandene Populationen und für die Bewohner der Region, in der die Neuansiedlung sich vollzieht. Das Aussetzen der Echsen in größerer Entfernung zu ihrem gewohnten Lebensraum führt zu einer Desorientierung, aufgrund der die Überlebenswahrscheinlichkeit stark sinkt.[21] Eine erfolgreichere Strategie besteht z. B. in intensiver Aufklärungsarbeit über diese Spezies gegenüber Hausbewohnern (z. B. „begrenzte“ Giftigkeit, Lebensweise). Ziel dieser Arbeit kann sein, dass diese Art geduldet wird oder ein gewisser Stolz entsteht, ob dieser selten zu beobachtende Echse in der eigenen Nachbarschaft.[34]

Nachzucht

Im Zoo von San Diego, Kalifornien wurden 1963 erstmals Gila-Krustenechsen nachgezogen.[35] In den letzten zwei Jahrzehnten haben langjährige Heloderma-Züchter ihre Erfahrungen und ihr differenziertes Wissen veröffentlicht.[9][36][37] Dadurch wurde es vielen Terrarianern ermöglicht, selbst erfolgreich Helodermen nachzuziehen.

Rezeption

Populär wurde die Gila-Krustenechse unter anderem durch den Roman „Löcher. Die Geheimnisse von Green Lake“ von Louis Sachar aus dem Jahr 1998. Im Buch ist die gelb gefleckte Eidechse zu einem Angsttier stilisiert, dessen Biss unweigerlich zum Tode führen soll. Die Echse wird hier als Bewohner in einer texanischen Binnenwüste angesiedelt.

Das Maskottchen "Chance" der Eishockeymannschaft Vegas Golden Knights aus der NHL ist einer Gila-Krustenechse nachempfunden.

Galerie

  • Nachzucht und Haltung von Heloderma
  • Terrarienausstattung

    Terrarienausstattung

  • Paarung

    Paarung

  • Eiablage im Terrarium

    Eiablage im Terrarium

  • Codierte Eier

    Codierte Eier

  • Schlupf des ersten Tieres aus einem Gelege

    Schlupf des ersten Tieres aus einem Gelege

  • Eine Gruppe sehr junger Gila-Krustenechsen

    Eine Gruppe sehr junger Gila-Krustenechsen

  • Schlupf von Zwillingen

    Schlupf von Zwillingen

Quellen

Literatur

  • C. M. Bogert, R. M. Del Campo: The Gila Monster and its Allies. The relationships, habits, and behavior of the lizards of the family Helodermatidae. In: Bulletin of the American Museum of Natural History. Band 109, 1956, S. 1–238.
  • D. D. Beck: Biology of Gila Monsters and Beaded Lizards. University Press of California, London 2005.
  • H.-J. Schwandt: Die Gila-Krustenechse – Heloderma suspectum. (= Frankfurter Beiträge zur Naturkunde. Band 83). Edition Chimaira, Frankfurt am Main 2019, ISBN 978-3-89973-440-9.
  • Daniel D. Beck: Heloderma suspectum (Cope 1869). In: Eric R. Pianka, Dennis R. King, Ruth Allen King (Hrsg.): Varanoid Lizards of the World. Indiana University Press, Bloomington IN 2004, ISBN 0-253-34366-6, S. 528–534.

Einzelnachweise

  1. Fry, Bryan G., Vidal N., Norman J. A. et al.: Early Evolution of the Venom System in Lizards and Snakes. Hrsg.: Nature. Nr. 439, 2006, S. 584–588.
  2. a b c d e f g h i D. D. Beck: Biology of Gila Monsters and Beaded Lizards. University Press of California, London 2005.
  3. P. D. Strimple, A. J.Tomassoni, E. J. Otten, D. Bahner: Report on envenomation by a Gila monster (Heloderma suspectum). In: Wilderness and Environmental Medicine. Band 8, Nr. 2, 1997.
  4. Baird, S. F.: Reptiles of the boundary, with notes by the naturalists on the survey. Hrsg.: United States and Mexican Boundary Survey under the order of Lieut. Col. W.H. Emory. Band 3(2), 1859, S. 1–35 + 41 plates.
  5. L. Loeb u. a.: The Venom Of Heloderma (= Carnegie institution of Washington publication. Band 177). Carnegie Institution, Washington 1913.
  6. R. Bech, U. Kaden: Vermehrung von Terrarientieren – Echsen. Urania Verlag, Leipzig/ Jena/ Berlin 1990.
  7. F.-V. Salomon, W. Achilles, U. Gille: Anatomie für die Tiermedizin. Enke Verlag, Stuttgart 2008.
  8. D. F. DeNardo, T. E. Zubal, T. C. M. Hoffman: Cloacal water flux as a component of evaporative cooling in a desert ectotherm, Heloderma suspectum. In: Journal of Experimental Biology. Band 207, Nr. 6, 2004, S. 945–953.
  9. a b c d e H.-J. Schwandt: Die Gila-Krustenechse – Heloderma suspectum (= Frankfurter Beiträge zur Naturkunde. Band 83). Edition Chimaira, Frankfurt am Main 2019, ISBN 978-3-89973-440-9.
  10. C. M. Gienger, Daniel Beck: Heads or tails? Sexual dimorphism in helodermatid lizards. In: Canadian Journal of Zoology. Band 85, 2007, S. 92–95.
  11. Anatomie – Morphologie, auf heloderma.net
  12. a b C. Odermatt, C. (Buochs): Beiträge zur Kenntnis des Gebisses von Heloderma. In: Vierteljahresschrift der Naturforschenden Gesellschaft in Zürich LXXXV. Zürich 1940.
  13. Baibre O’Malley: Klinische Anatomie und Physiologie bei kleinen Heimtieren, Vögeln, Reptilien und Amphibien. Urban & Fischer, München 2008.
  14. A. G. Edmund: Biology of the Reptilia. In: Dentition. Academic Press London, London 1969, S. 117–200.
  15. Stephan F. K.,Schaal, Krister T. Smith, Jörg Habersetzer: Messel – Ein fossiles Tropenökosystem. Hrsg.: Senckenberg Forschungsinstitut. Band 79. Senckenberg, Frankfurt am Main 2018, ISBN 978-3-510-61410-3.
  16. Beck, D. D.and R. D. Jennings: Habitat use by Gila monsters: the importance of shelters. Hrsg.: Herpetological Monographs. Band 17, 2003, S. 112–130.
  17. M. E. Douglas, M. R. Douglas, G. W. Schuett, D. D. Beck, B. K. Sullivan: Molecular biodiversity of Helodermatidae (Reptilia, Squamata). Abstract and presentation. In: Joint Meeting of Ichthyologists and Herpetologists. Manaus, Amazonas, Brazil 2003.
  18. R. S. Reiserer, G. W. Schuett, D. D. Beck: Taxonomic Reassessment and conversation status of the beaded lizzard, Heloderma horridum (Squamata Helodermatidae). In: Amphibian & Reptile Conservation. Band 7, Nr. 1, 2013, S. 74–96.
  19. Repp, Roger A., Schuett, Gordon W.: Heloderma suspectum (Gila monster). Tree-climbing. Hrsg.: Herpetological Review. Band 41, Nr. 4, 2010, S. 491–492.
  20. Ask a Naturalist: Hibernation vs. brumation vs. estivation. In: ASK A NATURALIST. DISCOVERY PLACE NATURE, 13. Januar 2016, abgerufen am 13. November 2020 (englisch).
  21. a b c Sullivan, Brian K., Kwiatkowski, Matthew A., Schuett, Gordon W.: Translocation of urban Gila Monsters: a problematic conservation tool. Hrsg.: Biological Conservation. Band 117, 2004, S. 235–242.
  22. a b Beck, D.D.: Ecology and behavior of the Gila-Monster in southwestern Utah. Hrsg.: Journal of Herpertology. Band 24, Nr. 1, 1990, S. 54–68.
  23. J. B. Demeter: Combat behavior in the Gila Monster (Heloderma suspectum cinctum). In: Herpetological Review. Band 17, Nr. 1. Lawrence 1986, S. 9–10.
  24. D. F. DeNardo, K. T. Moeller, M. Seward, R. Repp: Evidence for atypical nest overwintering by hatchling lizards, Heloderma suspectum. In: Proc. Royal Society. Band 285, Juni 2018.
  25. Loewe, C. H.,C. R. Schwalbe and T. B. Johnson: The Venomous Reptiles of Arizona. Hrsg.: Arizona Game and Fish Department. Phoenix 1986.
  26. Repp, Roger A.: A Monstrous Halloween Treet. Hrsg.: Bulletin of the Chicago Herpetological Society. Band 52, Nr. 2, 2017.
  27. Shufeldt, R.W. – M.D., C.M.Z.S.,: Contributions to the Study of Heloderma suspectum. Hrsg.: Proc. Zool. Soc. of London. London 1. April 1890, S. 149–244.
  28. Holm J. F.: Some notes on the histology of the poison glands of Heloderma suspectum. Hrsg.: Anatomischer Anzeiger. Nr. 13, 1879, S. 80–85.
  29. Wilson, Don W., Burnie, David: Animal. Hrsg.: Smithsonian Institution. DK, London 2001, ISBN 978-0-7894-7764-4, S. 419.
  30. West, G. S.: On the Buceal Glands and Teeth of certain poisonous Snakes. In: Proceed. Zool. Soc. of London. London 1895.
  31. a b Chen, Tianbao, H.K. Kwok, C. Ivanyi, Cristipher Shae: Isolation and cloning of exendin precursor cDNAs from single samples of venom from the Mexican beaded lizard (Heloderma horridum) and the Gila monster (Heloderma suspectum). Hrsg.: Toxicon. Band 47, Nr. 3, 2006, S. 288–295.
  32. a b M. K. K. Yap, N. Misuan: Exendin‐4 from Heloderma suspectum venom: From discovery to its latest application as type II diabetes combatant. In: Basic Clin Pharmacol Toxicol. Band 124, 2019, S. 513–527.
  33. IUCN Red List: IUCN Red List of Threatened Species. In: IUCN Red List. IUCN Red List, 2007, abgerufen am 18. November 2020 (englisch).
  34. Beck, D.and „Wild Earth Guardians“: Petition to List the Utah Population of the Gila Monster (Heloderma suspectum) under the U. S. Endangered Species Act. Hrsg.: Wild Earth Guardians. 2010.
  35. San Diego Zoo: Gila Monster. In: San Diego Zoo – Animal & Plants. Abgerufen am 18. November 2020 (englisch).
  36. Seward, Mark: Dr. Mark Seward's Gila monster Propagation: How To Breed Gila monsters in Captivity. Hrsg.: Natural Selections Publishing. 2002, ISBN 0-9701395-0-0, S. 80.
  37. Eidenmüller, B. und Reisinger, M.: Krustenechsen, Lebensweise, Haltung und Zucht. Hrsg.: Edition Chimaira. Edition Chimaira Frankfurt/ Main, Frankfurt/ Main 2011, ISBN 978-3-89973-497-3.

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Gila-Krustenechse: Brief Summary ( German )

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Die Gila-Krustenechse (Heloderma suspectum) ist eine der fünf rezenten Vertreter der Krustenechsen (Helodermatidae). Die etwa 50 cm lang werdende, kräftig gebaute und auffällig schwarz und rosa bis gelb orange gezeichnete Echse lebt in den Trockengebieten des südwestlichen Nordamerika. Sie ist am frühen Morgen aktiv, bodenbewohnend und ernährt sich vor allem von Eiern, Kleinsäugern und selten von kleinen Jungvögeln. Sie wurde lange Zeit neben der nahe verwandten Skorpion-Krustenechse (Heloderma horridum) als einzige giftige Echse angesehen; laut neueren Erkenntnissen besitzen jedoch auch der Komodowaran (Varanus komodoensis), die Östliche Bartagame (Pogona barbarta) und vielleicht auch zahlreiche weitere Arten Gift produzierendes Gewebe. Die Gila-Krustenechse ist im Vergleich zu diesen Echsen als hochgiftig einzustufen. Sie beißt nur bei andauernder Provokation – das Gift wird zur Verteidigung eingesetzt. Auffälligste Symptome nach einem Biss sind sehr starke Schmerzen, Ödeme und Kreislaufschwäche bei rapidem Abfall des Blutdrucks. Der Biss einer Gila-Krustenechse kann für Menschen tödlich sein. Dennoch ist keiner der seltenen Bissunfälle in den letzten 30 Jahren tödlich verlaufen. Die Echsen leben zu ca. 90 % unterirdisch und sind deshalb sehr selten zu beobachten.

Erstbeschreibung einer Gila-Krustenechse von 1857 Erste bildliche Darstellung einer Gila-Krustenechse von 1857

Die Erstbeschreibung der Art erfolgte 1869 durch Edward Drinker Cope. Die Bezeichnung "suspectum" (lat. suspectus – fragwürdig) gab er ihr wegen der äußerlichen Ähnlichkeit mit der schon bekannten Skorpion-Krustenechse. Daher vermutete er, dass der neue Fund aus Arizona ebenfalls giftig sein sollte. Danach folgte eine ca. 10 Jahre lange Diskussion der Wissenschaftler über eine mögliche Giftigkeit der Gila-Krustenechse. Die deutsche Bezeichnung Gila-Krustenechse und der englische Name Gila Monster sind wohl vom Gila River in Arizona abgeleitet.

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Cinawira Gîlayê ( Kurdish )

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Lawira Hîla (Heloderma suspectum), cureyekî qirtîşên ku li başûr û rojhilata DYA û Meksîkê dijî ye.

Etîmolojî

Navê Lawira Hîla ji navê çema Hîla li Arîzona li Amerîkayê hatiye,ku ji mêjve ev çem bi Lawirên Hîla yê tijî bû.[3].

Xwarin

Lawira Hîlayê dikanê beq, qirtîş, balindeyên biçûk, mêş û mûr bixwe.

Jehr û jehritî

Lawira Hîla, jehr di toşpiyên gilêzî di çeneyê wê jêrîn de peyda dike, lê ne wekî marên ku di çeneya xwe ya jorîn de peyda dikin[4]. Tevî ku jehrê Lawira Hîla wekî maregsîka mirarî an mircanî deranîn dike ji neyrotoksîn,lê bi qasên hindik saz dike[5]. Gezên Lawira Hîla ne sehm an xeter e ji bo mirovên mezintir.

Pêşangeh

  • Reticulate Gila Monster.jpg
  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg

Çavkanî

  1. "2007 IUCN Red List – Search". Iucnredlist.org. Retrieved 2008-09-19.
  2. "Heloderma suspectum". Integrated Taxonomic Information System. Retrieved 19 May 2008.
  3. "Online Etymology Dictionary". Retrieved 2008-06-10.
  4. Wilson, Don W.; Burnie, David (2001). Animal. London: DK. p. 419. ISBN 0-7894-7764-5.CS1 maint: Multiple names: authors list (link)
  5. "Gila Monster Fact Sheet". National Zoological Park. Retrieved 2008-06-06.

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Cinawira Gîlayê: Brief Summary ( Kurdish )

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Lawira Hîla (Heloderma suspectum), cureyekî qirtîşên ku li başûr û rojhilata DYA û Meksîkê dijî ye.

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Dubwana-Gila ( Swahili )

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Dubwana-Gila (Heloderma suspectum) ni mjusi mkubwa mwenye sumu wa Marekani na Mexiko. Ana magamba ya rangi ya machungwa, njano na nyeusi.

Crystal Clear app babelfish vector.svg Makala hii kuhusu mnyama fulani bado ni mbegu.
Je, unajua kitu kuhusu Dubwana-Gila kama uainishaji wake wa kibiolojia, maisha au uenezi wake?
Labda unaona habari katika Wikipedia ya Kiingereza au lugha nyingine zinazofaa kutafsiriwa?
Basi unaweza kuisaidia Wikipedia kwa kuihariri na kuongeza habari.
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Σαύρα Χίλα ( Greek, Modern (1453-) )

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Η σαύρα Χίλα (Heloderma suspectum - Ηλόδερμα το ύποπτο) πήρε το όνομά της από την λεκάνη του ποταμού Χίλα που ζουν πολλές από αυτές. Είναι η μεγαλύτερη σαύρα στις ΗΠΑ, με μήκος μέχρι 60 εκατοστά, και διαθέτει θανατηφόρο δηλητήριο. Από τα 3.000 είδη σαυρών που υπάρχουν μόνο η Χίλα και η μεξικάνικη χονδρωτή σαύρα είναι δηλητηριώδη.

Η Χίλα ζει στις ξηρές ερήμους της Βορείου Αμερικής. Η κατοικία της είναι πάντα υπόγεια και ζει σε τρύπες τις οποίες έχει σκάψει η ίδια ή τις έχει πάρει από άλλα ζώα. Κατά τη διάρκεια του καλοκαιριού τα θηλυκά γεννούν τα αυγά τους σε μια τρύπα στην άμμο ή μέσα σε μια σήραγγα στο έδαφος. Τα αυγά έχουν οβάλ σχήμα και δερματώδη υφή, οι μητέρες τα εγκαταλείπουν. Τα αυγά ανοίγουν την άνοιξη. Όταν βγαίνουν από τα αυγά, οι μικρές σαύρες είναι ήδη πολύχρωμες και έχουν μήκος περίπου 15 εκ., όταν ενηλικιωθούν ύστερα από 2 περίπου χρόνια έχουν το τριπλάσιο μήκος. Οι Χίλα συνήθως τρέφονται με κρέας αλλά μπορούν να τραφούν και με ό,τι βρουν στο έδαφος. Τα αυγά είναι η αγαπημένη τους τροφή αλλά τρέφονται επίσης με ποντίκια, σαύρες, βατράχους και έντομα. Το δέρμα της Χίλα είναι πολύχρωμο και έχει πορτοκαλί, ροζ και κίτρινες κηλίδες. Αν κάποιος θηρευτής την εντοπίσει στο έδαφος, αυτά τα χρώματα τον προειδοποιούν να μείνει μακριά. Τα κοφτερά της νύχια είναι επίσης δυνατά για να σκάβουν τις σήραγγες. Για τον πληθυσμό των Χίλα υπάρχουν μόνο εκτιμήσεις και κυμαίνονται στις 360 - 400 Χίλα σε όλο τον κόσμο. Οι σαύρες Χίλα απειλούνται από την καταστροφή των βιοτόπων τους και από το παράνομο εμπόριό τους.

Παραπομπές

  1. Hammerson, G.A., Frost, D.R. & Gadsden, H. (2007). Heloderma suspectum στην Κόκκινη Λίστα Απειλούμενων Ειδών της IUCN. Έκδοση 2013.2. Διεθνής Ένωση Προστασίας της Φύσης (IUCN). Ανακτήθηκε 12 Μαρτίου 2014.

Πηγές

  • Andrea Mills (2005). Ζώα που κινδυνεύουν μας περιγράφουν τη ζωή τους. Εκδόσεις Πατάκη. ISBN 960-16-1546-6.


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Σαύρα Χίλα: Brief Summary ( Greek, Modern (1453-) )

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Η σαύρα Χίλα (Heloderma suspectum - Ηλόδερμα το ύποπτο) πήρε το όνομά της από την λεκάνη του ποταμού Χίλα που ζουν πολλές από αυτές. Είναι η μεγαλύτερη σαύρα στις ΗΠΑ, με μήκος μέχρι 60 εκατοστά, και διαθέτει θανατηφόρο δηλητήριο. Από τα 3.000 είδη σαυρών που υπάρχουν μόνο η Χίλα και η μεξικάνικη χονδρωτή σαύρα είναι δηλητηριώδη.

Η Χίλα ζει στις ξηρές ερήμους της Βορείου Αμερικής. Η κατοικία της είναι πάντα υπόγεια και ζει σε τρύπες τις οποίες έχει σκάψει η ίδια ή τις έχει πάρει από άλλα ζώα. Κατά τη διάρκεια του καλοκαιριού τα θηλυκά γεννούν τα αυγά τους σε μια τρύπα στην άμμο ή μέσα σε μια σήραγγα στο έδαφος. Τα αυγά έχουν οβάλ σχήμα και δερματώδη υφή, οι μητέρες τα εγκαταλείπουν. Τα αυγά ανοίγουν την άνοιξη. Όταν βγαίνουν από τα αυγά, οι μικρές σαύρες είναι ήδη πολύχρωμες και έχουν μήκος περίπου 15 εκ., όταν ενηλικιωθούν ύστερα από 2 περίπου χρόνια έχουν το τριπλάσιο μήκος. Οι Χίλα συνήθως τρέφονται με κρέας αλλά μπορούν να τραφούν και με ό,τι βρουν στο έδαφος. Τα αυγά είναι η αγαπημένη τους τροφή αλλά τρέφονται επίσης με ποντίκια, σαύρες, βατράχους και έντομα. Το δέρμα της Χίλα είναι πολύχρωμο και έχει πορτοκαλί, ροζ και κίτρινες κηλίδες. Αν κάποιος θηρευτής την εντοπίσει στο έδαφος, αυτά τα χρώματα τον προειδοποιούν να μείνει μακριά. Τα κοφτερά της νύχια είναι επίσης δυνατά για να σκάβουν τις σήραγγες. Για τον πληθυσμό των Χίλα υπάρχουν μόνο εκτιμήσεις και κυμαίνονται στις 360 - 400 Χίλα σε όλο τον κόσμο. Οι σαύρες Χίλα απειλούνται από την καταστροφή των βιοτόπων τους και από το παράνομο εμπόριό τους.

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Жилатье ( Kirghiz; Kyrgyz )

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Жилатье.

Жилатье (лат. Heloderma suspectum) — уукескелдирик, Түндүк Америка кескелдириктеринин бир түрү.

Колдонулган адабияттар

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Отровен брадавичар ( Macedonian )

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Отровниот брадавичар, аризонски брадавичар наречен и гилско чудовиште (науч. Heloderma suspectum), е вид на отровен гуштер брадавичар населен во југозападните Американски држави и северно Мексико (но не и во Баја Калифорнија). Тежок, спор гуштер, долг до 60 сантиметри, отровниот брадавичар е единствениот отровен гуштер населен во Америка и еден од единствените два вида на отровни гуштери во Северна Америка, а другиот е близу сроден со мексиканскиот брадавичар (H. horridum)

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Отровен брадавичар во зоолшката градина во Луисвил, Кентаки.

И покрај тоа што отровниот брадавичар е отроен, неговата мрзеливост значи дека претставува најмала закана за луѓето. Како и да е, има добиено застрашувачка репутација и најчесто се убивани од пешаци и сопственици на куќи и покрај тоа што се заштитени со закон во државите Аризона и Невада.

Таксономија и етимологија

Постојат два подвида на отровен брадавичар: мрежесто (H. suspectum suspectum) и зрнесто (H. suspectum cinctum). Мрежестиот живее во јужниот дел на ареалот, додека зрнестото го зазема северниот дел, јавувајќи се главно во пустината Мохаве. Мрежестиот отровен брадавичар најчесто има светли белези прекршени од темни брадавичести лушпи давајќи мрежест изглед, додека зрнестото има повеќе непрекршени јазли од светли лушпи.

Отровниот брадавичар има еден близок жив сродник, мексиканскиот брадавичар (H. horridum), како и многу изумрени сродници од гуштерите чија еволуциска историја се открива назад во периодот на кредата. Видот хелодерма (Heloderma ) постои уште од Миоценот кога живееле H. texana и остатоци од остеодерми од отровен брадавичар се најдени во доцниот Плеистоцен (пред 8000-10,000 години) наталожени близу Лас Вегас, Невада. Бидејќи хелодерматидите останале прилично непроменети, морфолошки тие повремено се сфаќаат како живи фосили. Иако отровниот брадавичар изгледа близу сродно со гуштерите варани (varanids) од Африка, Азија и Австралија, широката географска поделба и уникатните белези кои не се наоѓаат кај вараните покажува дека отровниот брадавичар е подобро сместено во посебно семејство.

Назибот „гилско чудовиште“ се однесува на басенот на реката Гила во Аризона, кој некогаш изобилувал со овие влекачи. Начното Heloderma значи „кожа со нитни“ (т.е. брадавици), од старгрчките зборови хелос (нитна, рамен дел од шајка) и демра (кожа). Suspectum е изведено од опишувачот, палеонтолог Едвард Дринкер Коуп кој се сомневал дека гуштерите можеби се отровни поради вдлабнатините во забите.

Опис

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Closeup of a Helodermatid's skin, composed of beadlike scales.

Отровниот брадавичар е голем гуштер во облик на колбас со должина од 2,5 до 5 см и тежина од 1,3 до 2,25 килограми. Иако е помал од брадестиот гуштер, кој може да порасне и да биде долг до 1 метар, отровниот брадавичар е најголемиот домашен вид на гуштер во САД. Има дебела опашка која ја користи да складира маснотија и може да преживее од оваа маснотија со месеци или години според неколку анегдоти. Неговата опашка е пропорционално подолга од таа на брадестиот гуштер, карактер кој се користи да се разликува помеѓу овие два. Спротивно од многу други гуштери, опашката на отровниот брадавичар не се автотомизира и не расне повторно ако се откине. Отровниот брадавичар има големи предни стапала и остри нокти, совршени за копање, исто така и дебел црн јазик, навикнато да мириса со помош на Јаковсониот орган (Jacobson’s organ).

Крлушките на отровниот брадавичар изгледаат како сини, темнорозови, сребрени, розови, портокалови, бебешко сини или жолти зрна, поставени во сложена шара. Овие зрна (брадавици) се мали ковчести плочки кои формираат крлушки и се познати како остеодерми. Бојата на своите остеодерми е повеќе јасна отколку тие на блиските сродници, брадестиот гуштер. Крлушките на стомакот се правоаголни отколку округли. Зрнестата кожа на животното е таа што го привлече вниманието на северноамериканските Индијанци, дизајните кои се оживеани во индијанската уметност и кошничарството. Крлушките се јасни кога отровниот брадавичар е млад, како што старее боите стануваат побледи и повеќе мрежести. Отровниот брадавичар ја менува кожата на мали парчиња така што изгледа дека секогаш е во сред свлекување на кожата. Целосно менување на кожата се верува дека се случува еднаш годишно.

Поделба и распространување

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A Gila monster's head. The bead-like scales can be observed, as well as the strong forelegs and claws suitable for digging.

Отровниот брадавичар се среќава во југозападните САД и Мексико, со ареал во Сонора, Синалоа, Аризона, делови од Калифорнија, Невада, Јута и Ново Мексико ( но не и Баја Калифорнија). Тие населуваат грмушести предели, влажни пустини (succulent desert) и дабови шумски предели, тражејќи засолниште во дупки, грмушки и под карпи на места кои се лесно пристапни со влага. Всушност отровниот брадавичар се чини дека сакаат вода и можат да се набљудуваат како се потопуваат во вирчињата со вода по летен дожд. Тие избегнуваат да живеат на отворени места како рамништа и обработливо земјиште.

Екологија

Проценето е дека отровниот брадавичар поминува 95% од времето под земја во дувла или каменести засолништа. Активно е наутро во текот на сувата сезона (пролет и рано лето), подоцна во летото може да е активно во топлите ноќи или по бура. На површината одржува телесна температура од 30 степени целзиусови (86 степени фаренхајти). Бавни се, не можат да трчаат брзо, но имаат релативно висока издржливост и максимален капацитет на воздух за гуштер.

Исхрана

Отровниот брадавичар се храни претежно со јајца од птици и гуштери, а понекогаш со мали птици, цицачи, жаби, гуштери, инсекти и мрша. Ретко се храни (само пет до десет пати годишно во дивината), но кога се храни може да изеде една третина од својата телесна маса. Го користи своето екстремно остро чувство за мирис за да го открие пленот, особено јајца. Има толку остро чувство за мирис што може да открие и ископа јајца од кокошка закопани длабоко 15 сантиметри и прецизно следи трага направена од тркалање на јајце. Ако е пленот голем може да го згмечи до смрт или ако е мал да биде жив изеден, голтнат прво од главата, потоа помогнат надолу од стегањето на мускулите и еластичноста на вратот. Обично откако храната е проголтана, отровниот брадавичар веднаш продолжува со движење на јазикот и пребарувачко однесување, веројатно како резултат од историјата на пронаоѓање на глупа плен како јајца и бебиња во гнезда. Способен е да се искачи на дрва и кактуси во потрага по јајца.

Отров

Отровот се создава во видоизменети плунковни жлезди во долната вилица на отровниот брадавичар, за разлика од змиите чиј отров се создава во горната вилица. Има недостаток од мускулатурата силно да го вбризга отровот, наместо тоа отровот е исфрлен од жлездата до забот преку џвакањето. Дејството на капиларите го спроведува отровот од забот во жртвата. Забите се лабаво прицврстени што им овоможува да бидат скршени и заменети во текот на животот. Отровниот брадавичар исто така се набљудувани како се превртуваат додека ја гризаат жртвата, веројатно за да се потпомогне текот на отровот во раната. Бидејќи пленот главно се состои од јајца, мали животни и друг „беспомошен плен“, се верува дека отровот на настанал за одбранбена отколку за ловечка употреба. Одбранбената употреба ќе ја објасни јасната предупредувачка обоеност на животното.

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A reticulate Gila monster (Heloderma suspectum suspectum)

Иако отровот е невротоксин (отровот делува на нервниот систем) отровен како тој на коралната змија, отровниот брадавичар создава само мали количества. Каснувањето на отровниот брадавичар не е смртоносно за возрасен човек (нема потврдени извештаи за фаталности), но може да гризне брзо и да се држи цврсто и болно. Ако е гризната жртвата може ќе треба целосно да го нурне под вода гуштерот што нападнал за да се ослободи од каснувањето. Симптомите од каснувањето вклучуваат ужасна болка, хидропсија (oedema) и слабост поврзана со брзо опаѓање на крвниот притисок. Повеќе од дузина пептиди и протеини се одвоени од отровот на отровниот брадавичар, вклучувајќи хиалуронидас (hyaluronidase), серотинин, фосфолипас А2 (phospholipase A2) и неколку каликрејни гликопротеини ( kallikrein like glycoproteins) одговорни за болката и хидропсијата прдизвикани од каснување. Исто така четири потенцијални смртоносни отрови се одвоени од отровот на отровниот брадавичар вклучувајќи ужасен отров кој предизвикува крвавење на внатрешните органи и испакнување на очите и хелотермин (helothermine) што предизвикува апатија, делумна парализа на екстремитетите и хипотермија кај стаорците. Сепак состојките кои се најмногу насочени се биоактивните пептиди вклучувајќи хелодермин, хелоспектин, ексендин -3 (exendin-3) и ексендин -4(exendin-4) . Повеќето се слични во форма на васоактивен интестинален пептид (VIP) кој ги опушта рамните мускули и ја регулира водата и лачењето на електролити меѓу малите и големите црева. Овие биоактивни пептиди се способни да се врзат со VIP приемниците на многу различни човечки ткива. Еден од овие хелодермини е докажано дека го попречува растот на ракот на белите дробови.

Истражување за лекови

Во 2005 година администрацијата за храна и лекови на САД го одобри лекот exenatide (обележан како Byetta) за управување на дијабетисот од типот 2. Тоа е синтетичка верзија на протеин, ексендин-4 ( exendin-4), произлезен од плунката на отровниот брадавичар. Во тригодишното истражување со луѓе со дијабетис од типот 2, егзенатидот (exenatide) доведува до здраво одржување на нивоата на гликоза и напредно губење на тежината. Ефикасноста се должи на фактот дека протеините на гуштерот е 50 % идентичен со глукагонски пептид – 1 ( glucagons like peptide-1) аналог (GLP-1), хормон ослободен од човечкиот дигестивен тракт кој помага во регулирањето на инсулинот и глукагонот. Протеинот на гуштерот останува делотрворен подолго отколку човечкиот хормон помагајќи им на дијабетичарите да ги одржуваат нивоата на шеќер во крвта под контрола. Исто така егзенатидот го намалува празнењето на стомакот и предизвикува намалување на апетитот, придонесувајќи за губење на тежината.

Животна историја

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Gila monster at the Bristol Zoo.

Отровниот брадавичар излегува од хибернација во месецот јануари или февруари и се спарува во мај и јуни. Мажјакот започнува додворување со замавнување на неговиот јазик во потрага по мирисот на женката. Ако женката го одбие неговото додворување таа ќе го касне и ќе отползи. Кога е успешно, парењето е надгледувано да трае од 15 минути се до 2,5 часа. Женката ќе снесе јајца во јули или август, закопувајќи ги во песок, 12,7 сантиметри под површината. Леглото се состои од 2 до 12 јајца, со 5 кои се за просечно легло. Процесот на инкубација трае 9 месеци кога изведените излегуваат во текот на месецот април низ јуни следната година. Изведените се отприлика 16 сантиметри долги и по изведувањето се способни да каснат и да вбризгаат отров. Малите карактеристично имаат поголеми јазли од розеви крлушки од возрасните иако зрнестиот отровен брадавичар (H.s.cinctum) има склоност да ја задржи групната пругаста шара. Отровниот брадавичар полово созрева од 3-тата до 5-тата година. По снесувањето на јајцата возрасните отровни брадавичари постепено поминуваат помалку време на површината за да ги избегнат најтоплите делови од летото (иако тие може да бидат активни во ноќта), конечно да ја започнат нивната хибернација околу ноември.

Малку се знае за општественото однесување на отровниот брадавичар, но тие се набљудувани, фатени во борба мажјак со мажјак, во која доминантниот лежи врз потчинетиот и го боцка со предните и задните екстремитети. Двата гуштера ги свиткуваат своите тела, туркајќи се меѓу себе и извртувајќи се во обид да се добие доминантна положба. Боречкиот натпревар завршува кога притисокот при напрегањето ќе ги присили да се разделат, иако натпреварите може да се повторат во непрекинато времетраење. Овие натпревари се типично набљудувани точно пред сезоната на парење. Се верува дека тие со поголема сила и издржливост често победуваат и уживаат одличен репродуктивен успех. Иако отровниот брадавичар има слаб метаболизам и е еден од најслабите гуштери спринтери, има една од вредностите од обем на воздух (зголемено трошење на кислород од остатокот до максимално метаболичко напрегнување) меѓу гуштерите, што им овозможува да се вовлечат во силна аеробик активност за постојан период од времето. Набљудувани се дека мажјаците имаат поголем обем на воздух од женките веројатно поради сексуалниот избор за карактеристика корисна за продолжената борба. отровниот брадавичар може да живее до 20 години во дивината или 30 години во заробеништво.

Заштитна состојба

Градкото ширење, трговијата со миленици и уништувањето на средината делуваат на бројот на отровни брадавичари. Како резултат на тоа, тие се заштитени од државните закони на Аризона и Невада, нелегалн е да се „ малтретира, повредува, прогонува, лови, да се пука во, да се рани, убива, да се намамува, заробува или да се собира отровниот брадавичар“. Во 1952 година тие станале првите отровни животни на кои им е дадена правна заштита. Отровните брадавичари се запишани како скоро загрозени според Меѓународната унија за заштита на природата (IUCN). Зоолошката градина Сан Диего е првата зоолошка која успешно размножила единки во заробеништво, правејќи го тоа во 1963 година.

Односи со луѓето

Иако отровниот брадавичар е отровен, неговите бавни движења значат дека тоа преставува мала закана за луѓето. Сепак има заслужено застрашувачки углед и често е убивано од луѓето што се плашат. Меѓу северноамериканските индијански племиња отровниот брадавичар имало измешана положба. Апачите верувале дека неговиот здив може да убие човек, а Тохоно одам( Tohono O’Odham) и Пимите (Pima) верувале дека поседува духовни моќи кои можат да предизвикаат болест. Во спротивност, Серите (Seri) и Јакуаите (Yaquai) верувале дека засолништето на отровниот брадавичар има лековити својства. Отровниот брадавичар има настапено како чудовиште во филм од Б катергорија, „Џиновското гилско чудовиште“. Митовите дека здивот на животното е доволно отровно да убие луѓе, дека може да плука отров или да скокне неколку стапки во воздухот за да нападне се сите невистинити. Друг мит верувал дека отровниот брадавичар немал анус и дека исфрлало отпадок низ устата, изворот од отровот и „смрдлив здив“.

Поврзано

Литература

  • Beck, Daniel D. (2005). Biology of Gila Monsters and Beaded Lizards. Berkeley: University of California Press. ISBN 0-520-24357-9.
  • Capula, Massimo; Behler (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. New York: Simon & Schuster. ISBN 0671690981.
  • Carmony, Neil B.; Brown, David (1991). Gila Monster: Facts and Folklore of America's Aztec Lizard. Silver City, NM: High-Lonesome Books. ISBN 0-944383-18-1.
  • Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0831727861.
  • Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. New York: Macmillian. стр. 321.
  • Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. New Jersey: TFH Publications. ISBN 0876665679.
  • Roever, J. M.; Hiser, Iona Seibert (1972). The Gila Monster. Austin, Tex: Steck-Vaughn Co. ISBN 0-8114-7739-8.
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Отровен брадавичар: Brief Summary ( Macedonian )

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Отровниот брадавичар, аризонски брадавичар наречен и гилско чудовиште (науч. Heloderma suspectum), е вид на отровен гуштер брадавичар населен во југозападните Американски држави и северно Мексико (но не и во Баја Калифорнија). Тежок, спор гуштер, долг до 60 сантиметри, отровниот брадавичар е единствениот отровен гуштер населен во Америка и еден од единствените два вида на отровни гуштери во Северна Америка, а другиот е близу сроден со мексиканскиот брадавичар (H. horridum)

src= Отровен брадавичар во зоолшката градина во Луисвил, Кентаки.

И покрај тоа што отровниот брадавичар е отроен, неговата мрзеливост значи дека претставува најмала закана за луѓето. Како и да е, има добиено застрашувачка репутација и најчесто се убивани од пешаци и сопственици на куќи и покрај тоа што се заштитени со закон во државите Аризона и Невада.

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ਗਿਲਾ ਮੌਂਸਟਰ ( Punjabi )

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Gila monster

ਗਿਲਾ ਮੌਂਸਟਰ ਇਕ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਦੀ ਇਕ ਪ੍ਰਜਾਤੀ ਹੈ ਜੋ ਦੱਖਣ-ਪੱਛਮੀ ਸੰਯੁਕਤ ਰਾਜ ਅਤੇ ਉੱਤਰ-ਪੱਛਮੀ ਮੈਕਸੀਕਨ ਰਾਜ ਸੋਨੌਰਾ ਦੀ ਹੈ।ਇੱਕ ਭਾਰੀ, ਆਮ ਤੌਰ 'ਤੇ ਹੌਲੀ-ਹੌਲੀ ਹੌਲੀ ਚਲਣ ਵਾਲੀ ਕਿਰਲੀ, 60 cਮੀ (2.0 ਫ਼ੁੱਟ) ਲੰਬੀ ਹੁੰਦੀ ਹੈ। ਗਿਲਾ ਮੌਂਸਟਰ ਸੰਯੁਕਤ ਰਾਜ ਦੀ ਇਕੋ ਇਕ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਹੈ ਅਤੇ ਉੱਤਰੀ ਅਮਰੀਕਾ ਵਿਚ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਦੀਆਂ ਸਿਰਫ ਦੋ ਜਾਣੀਆਂ ਜਾਂਦੀਆਂ ਪ੍ਰਜਾਤੀਆਂ ਵਿਚੋਂ ਇਕ ਹੈ, ਦੂਜੀ ਇਸ ਦੀ ਨੇੜਲੀ ਪ੍ਰਜਾਤੀ ਮੈਕਸੀਕਨ ਮਣਕੇ ਵਾਲੀ ਕਿਰਲੀ ( ਐਚ. ਹੌਰਡਿਮ ) ਹੈ। [2] ਗਿਲਾ ਮੌਂਸਟਰ ਹਾਲਾਂਕਿ ਜ਼ਹਿਰੀਲਾ ਹੈ, ਇਸ ਦੇ ਸੁਸਤ ਸੁਭਾਅ ਦਾ ਅਰਥ ਹੈ ਕਿ ਇਹ ਮਨੁੱਖਾਂ ਲਈ ਬਹੁਤ ਘੱਟ ਖ਼ਤਰਾ ਦਰਸਾਉਂਦਾ ਹੈ। ਹਾਲਾਂਕਿ, ਇਸਨੇ ਇੱਕ ਡਰਾਉਣੀ ਪ੍ਰਤਿਸ਼ਠਾ ਪ੍ਰਾਪਤ ਕੀਤੀ ਹੈ, ਅਤੇ ਕਈ ਵਾਰ ਐਰੀਜ਼ੋਨਾ ਵਿੱਚ ਰਾਜ ਦੇ ਕਾਨੂੰਨ ਦੁਆਰਾ ਸੁਰੱਖਿਅਤ ਕੀਤੇ ਜਾਣ ਦੇ ਬਾਵਜੂਦ ਮਾਰਿਆ ਜਾਂਦਾ ਹੈ। [1] ਸਾਲ 2019 ਵਿਚ, ਯੂਟਾ ਰਾਜ ਨੇ ਗਿਲਾ ਮੌਂਸਟਰ ਵਾਲਾ ਆਧਿਕਾਰਕ ਰਾਜ [3] ਸੂਬਾ ਬਣਾਇਆ ।[4]

ਇਤਿਹਾਸ

ਗਿਲਾ ਮੌਂਸਟਰ ਮੈਕਸੀਕਨ ਦੀ ਸਰਹੱਦ ਦੇ ਉੱਤਰ ਵਿਚ ਉੱਤਰ ਅਮਰੀਕਾ ਦਾ ਸਭ ਤੋਂ ਵੱਡਾ ਛੋਟੀ ਜਿਹੀ ਜੱਦੀ ਧਰਤੀ ਤੇ ਰਹਿਣ ਵਾਲਾ ਹੈ (ਗ੍ਰੀਨ ਇਗੂਆਨਾ ਵਰਗੇ ਗੈਰ-ਮੂਲ ਵਾਸੀ ਵੱਡੇ ਹੁੰਦੇ ਹਨ)। ਇਸ ਦੀ ਸਨਾਉਟ-ਟੂ-ਵੈਂਟ ਲੰਬਾਈ 26 to 36 cਮੀ (10 to 14 ਇੰਚ)ਹੈ। ਪੂਛ ਸਰੀਰ ਦੇ ਆਕਾਰ ਦੇ ਲਗਭਗ 20% ਹੈ ਅਤੇ ਸਭ ਤੋਂ ਵੱਡੇ ਨਮੂਨੇ 51 to 56 cਮੀ (20 to 22 ਇੰਚ) ਤਕ ਪਹੁੰਚ ਸਕਦੇ ਹਨ। ਸਰੀਰ ਦਾ ਪੁੰਜ ਆਮ ਤੌਰ 'ਤੇ 350 to 700 g (0.77 to 1.54 lb) ਦੇ ਦਾਇਰੇ ਵਿੱਚ ਹੁੰਦਾ ਹੈ। ਖਬਰਾਂ ਅਨੁਸਾਰ ਸਭ ਤੋਂ ਵੱਡੇ ਨਮੂਨਿਆਂ ਦਾ ਭਾਰ 2,300 g (5.1 lb) ਹੋ ਸਕਦਾ ਹੈ। [5] [6] [7]

ਵੰਡ ਅਤੇ ਰਿਹਾਇਸ਼

src=
ਮਣਕੇ ਵਰਗੇ ਪੈਮਾਨੇ ਅਤੇ ਮਜ਼ਬੂਤ ਫੋਰਲੈਗਸ ਅਤੇ ਖੁਦਾਈ ਲਈ ਯੋਗ ਪੰਜੇ ਵਾਲਾ ਸਿਰ

ਗਿਲਾ ਮੌਂਸਟਰ ਦੱਖਣ-ਪੱਛਮੀ ਯੂਨਾਈਟਿਡ ਸਟੇਟ ਅਤੇ ਮੈਕਸੀਕੋ, ਸੋਨੋਰਾ, ਐਰੀਜ਼ੋਨਾ, ਕੈਲੀਫੋਰਨੀਆ ਦੇ ਕੁਝ ਹਿੱਸੇ, ਨੇਵਾਦਾ, ਯੂਟਾ ਅਤੇ ਨਿਉ ਮੈਕਸੀਕੋ (ਸੰਭਾਵੀ ਤੌਰ 'ਤੇ ਬਾਜਾ ਕੈਲੀਫੋਰਨੀਆ ਸਮੇਤ), ਵਿਚ ਪਾਇਆ ਜਾਂਦਾ ਹੈ। ਉਹ ਘੁੰਮਣਘੇਰੀ, ਰੇਸ਼ੇ ਹੋਏ ਮਾਰੂਥਲ ਅਤੇ ਓਕ ਵੁੱਡਲੈਂਡ ਦੇ ਵਸਨੀਕ ਹਨ, ਨਮੀ ਤੱਕ ਪਹੁੰਚਣ ਵਾਲੇ ਟਿਕਾਣਿਆਂ ਵਿਚ ਬੁਰਜ, ਝਾੜੀਆਂ ਅਤੇ ਚੱਟਾਨਾਂ ਹੇਠ ਪਨਾਹ ਮੰਗਦੇ ਹਨ। [8] ਦਰਅਸਲ,ਗਿਲਾ ਮੌਂਸਟਰ ਪਾਣੀ ਨੂੰ ਪਸੰਦ ਕਰਦੇ ਹਨ ਅਤੇ ਗਰਮੀ ਦੀ ਬਾਰਸ਼ ਤੋਂ ਬਾਅਦ ਆਪਣੇ ਆਪ ਨੂੰ ਪਾਣੀ ਦੇ ਛੱਪੜਾਂ ਵਿੱਚ ਡੁੱਬੋਂਉਂਦੇ ਵੇਖੇ ਜਾ ਸਕਦੇ ਹਨ। [9] ਉਹ ਖੁੱਲ੍ਹੇ ਖੇਤਰਾਂ ਜਿਵੇਂ ਫਲੈਟਾਂ ਅਤੇ ਖੇਤ ਵਿੱਚ ਰਹਿਣ ਤੋਂ ਬਚਦੇ ਹਨ। [10]

ਗੈਲਰੀ

  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg
  • src=

    Arizona Gila monster.

  • src=

    Arizona Gila monster.

  • src=

    Illustration in Animaux venimeux et venins, 1922

ਹਵਾਲੇ

  1. 1.0 1.1 1.2 "2007 IUCN Red List – Search". Iucnredlist.org. Retrieved 2008-09-19.
  2. Fry, Bryan G.; et al. (February 2006). "Early evolution of the venom system in lizards and snakes". Nature. 439 (7076): 584–588. PMID 16292255. doi:10.1038/nature04328. Retrieved 2008-05-14.
  3. "HB0144". le.utah.gov. Retrieved 2019-05-15.
  4. "HB0144". le.utah.gov. Retrieved 2019-05-15.
  5. Christel CM, DeNardo DF, Secor SM (October 2007). "Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum)". Journal of Experimental Biology. 210: 3430–9. PMID 17872997. doi:10.1242/jeb.004820. CS1 maint: Multiple names: authors list (link)
  6. Davis, Jon R.; DeNardo, Dale F. (2010). "Seasonal patterns of body condition, hydration state, and activity of Gila monsters (Heloderma suspectum) at a Sonoran Desert site". Journal of Herpetology. 44 (1): 83–93. doi:10.1670/08-263.1.
  7. Beck, D. D. (2005). Biology of Gila monsters and beaded lizards (Vol. 9). University of California Press.
  8. Stebbins, Robert (2003). Western Reptiles and Amphibians. New York: Houghton Mifflin. pp. 338–339, 537. ISBN 0-395-98272-3.
  9. Endangered Wildlife and Plants of the World. London: Marshall Cavendish. 2001. pp. 629–630. ISBN 0-7614-7199-5.
  10. "Gila Monster Fact Sheet". National Zoological Park. Retrieved 2008-06-06.
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ਗਿਲਾ ਮੌਂਸਟਰ: Brief Summary ( Punjabi )

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Gila monster

ਗਿਲਾ ਮੌਂਸਟਰ ਇਕ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਦੀ ਇਕ ਪ੍ਰਜਾਤੀ ਹੈ ਜੋ ਦੱਖਣ-ਪੱਛਮੀ ਸੰਯੁਕਤ ਰਾਜ ਅਤੇ ਉੱਤਰ-ਪੱਛਮੀ ਮੈਕਸੀਕਨ ਰਾਜ ਸੋਨੌਰਾ ਦੀ ਹੈ।ਇੱਕ ਭਾਰੀ, ਆਮ ਤੌਰ 'ਤੇ ਹੌਲੀ-ਹੌਲੀ ਹੌਲੀ ਚਲਣ ਵਾਲੀ ਕਿਰਲੀ, 60 cਮੀ (2.0 ਫ਼ੁੱਟ) ਲੰਬੀ ਹੁੰਦੀ ਹੈ। ਗਿਲਾ ਮੌਂਸਟਰ ਸੰਯੁਕਤ ਰਾਜ ਦੀ ਇਕੋ ਇਕ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਹੈ ਅਤੇ ਉੱਤਰੀ ਅਮਰੀਕਾ ਵਿਚ ਜ਼ਹਿਰੀਲੀ ਕਿਰਲੀ ਦੀਆਂ ਸਿਰਫ ਦੋ ਜਾਣੀਆਂ ਜਾਂਦੀਆਂ ਪ੍ਰਜਾਤੀਆਂ ਵਿਚੋਂ ਇਕ ਹੈ, ਦੂਜੀ ਇਸ ਦੀ ਨੇੜਲੀ ਪ੍ਰਜਾਤੀ ਮੈਕਸੀਕਨ ਮਣਕੇ ਵਾਲੀ ਕਿਰਲੀ ( ਐਚ. ਹੌਰਡਿਮ ) ਹੈ। ਗਿਲਾ ਮੌਂਸਟਰ ਹਾਲਾਂਕਿ ਜ਼ਹਿਰੀਲਾ ਹੈ, ਇਸ ਦੇ ਸੁਸਤ ਸੁਭਾਅ ਦਾ ਅਰਥ ਹੈ ਕਿ ਇਹ ਮਨੁੱਖਾਂ ਲਈ ਬਹੁਤ ਘੱਟ ਖ਼ਤਰਾ ਦਰਸਾਉਂਦਾ ਹੈ। ਹਾਲਾਂਕਿ, ਇਸਨੇ ਇੱਕ ਡਰਾਉਣੀ ਪ੍ਰਤਿਸ਼ਠਾ ਪ੍ਰਾਪਤ ਕੀਤੀ ਹੈ, ਅਤੇ ਕਈ ਵਾਰ ਐਰੀਜ਼ੋਨਾ ਵਿੱਚ ਰਾਜ ਦੇ ਕਾਨੂੰਨ ਦੁਆਰਾ ਸੁਰੱਖਿਅਤ ਕੀਤੇ ਜਾਣ ਦੇ ਬਾਵਜੂਦ ਮਾਰਿਆ ਜਾਂਦਾ ਹੈ। ਸਾਲ 2019 ਵਿਚ, ਯੂਟਾ ਰਾਜ ਨੇ ਗਿਲਾ ਮੌਂਸਟਰ ਵਾਲਾ ਆਧਿਕਾਰਕ ਰਾਜ ਸੂਬਾ ਬਣਾਇਆ ।

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கிலா அரக்கப் பல்லி ( Tamil )

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கிலா அரக்கப் பல்லி என்பது பயங்கரமான தோற்றத்தைக் கொண்ட ஓணான் இனமாகும். இது பொந்துகளுக்குள் பதுங்கி வாழும் தன்மையுடையது. திடீரென்று தாக்குதல்களை நடத்தி பறவைக் குஞ்சுகளை பிடித்து உண்ணும். கடினத்தன்மை கொண்ட அதன் வால்ப்பகுதியில் கொழுப்பு சேகரிக்கப்படுகிறது. வேட்டையாடும் போது, இதன் வால்ப்பகுதி அதற்கு உதவி புரிகின்றது. இதனால் வேகமாக இரைகளை இறுக்கமாக பிடித்துக் கடிக்க முடியும், எனினும் மனிதனைக் கொல்ல முடியாது. இதன் பொதுவான உணவு கொறித்துண்ணும் பிராணிகள், சிறு பறைவைகள், மற்றும் முட்டைகள் போன்றவையாகும். இதனால் வாலில் உணவையும் சேகரித்துக்கொள்ள முடியும். 2005 இல் இவற்றினுடைய உமிழ் நீரில் இருந்து நீரிழிவு நோய்க்கு மருந்து கண்டுபிடிக்கப்பட்டது. [1]

மேற்கோள்கள்

  1. Bond, Aaron (July 2006). "Exenatide (Byetta) as a novel treatment option for type 2 diabetes mellitus". Baylor University Medical Center Proceedings 19 (3): 281–4. பப்மெட்:17252050.

மேலும் வாசிக்க

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கிலா அரக்கப் பல்லி: Brief Summary ( Tamil )

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கிலா அரக்கப் பல்லி என்பது பயங்கரமான தோற்றத்தைக் கொண்ட ஓணான் இனமாகும். இது பொந்துகளுக்குள் பதுங்கி வாழும் தன்மையுடையது. திடீரென்று தாக்குதல்களை நடத்தி பறவைக் குஞ்சுகளை பிடித்து உண்ணும். கடினத்தன்மை கொண்ட அதன் வால்ப்பகுதியில் கொழுப்பு சேகரிக்கப்படுகிறது. வேட்டையாடும் போது, இதன் வால்ப்பகுதி அதற்கு உதவி புரிகின்றது. இதனால் வேகமாக இரைகளை இறுக்கமாக பிடித்துக் கடிக்க முடியும், எனினும் மனிதனைக் கொல்ல முடியாது. இதன் பொதுவான உணவு கொறித்துண்ணும் பிராணிகள், சிறு பறைவைகள், மற்றும் முட்டைகள் போன்றவையாகும். இதனால் வாலில் உணவையும் சேகரித்துக்கொள்ள முடியும். 2005 இல் இவற்றினுடைய உமிழ் நீரில் இருந்து நீரிழிவு நோய்க்கு மருந்து கண்டுபிடிக்கப்பட்டது.

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Gila monster

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A Gila monster

The Gila monster (Heloderma suspectum, /ˈhlə/ HEE-lə) is a species of venomous lizard native to the Southwestern United States and the northwestern Mexican state of Sonora. It is a heavy, typically slow-moving reptile, up to 56 centimetres (22 in) long, and it is the only venomous lizard native to the United States. Its venomous close relatives, the four beaded lizards (all former subspecies of Heloderma horridum) inhabit Mexico and Guatemala.[3][4] The Gila monster is sluggish in nature, so it is not generally dangerous and very rarely poses a real threat to humans. However, it has a fearsome reputation and is sometimes killed in spite of the species being protected by state law in Arizona.[1][5]

History

Evolutionary splitting of the genus Heloderma into species
Evolutionary splitting of the genus Heloderma into species (Reiserer et al)[6]

The name "Gila" refers to the Gila River Basin in the U.S. states of Arizona and New Mexico, where the Gila monster was once plentiful.[7] Heloderma means "studded skin", from the Ancient Greek words helos (ἧλος), "the head of a nail or stud", and derma (δέρμα), "skin". Suspectum comes from the describer, paleontologist Edward Drinker Cope. At first, this new specimen of Heloderma was misidentified and considered to be a northern variation of the beaded lizard already known to live in Mexico. He suspected that the lizard might be venomous due to the grooves in the teeth.[8]

The first drawing of Gila monster from 1857
The first drawing of a Gila monster by Baird, S. F. (1857)[8]

The Gila monster is the largest extant lizard species native to North America north of the Mexican border. Its snout-to-vent length ranges from 26 to 36 cm (10 to 14 in). The tail is about 20% of the body size, and the largest specimens may reach 51 to 56 cm (20 to 22 in) in total length. Body mass is typically in the range of 550 to 800 g (1.21 to 1.76 lb). They appear strong in their body structure with a stout snout, massive head, and "little"-appearing eyes, which can be protected by a nictitating membrane.[9][10][3]

The Gila monster has four close living relatives, all of which are beaded lizards. There are three species in Mexico: Heloderma exasperatum, Heloderma horridum and Heloderma alvarezi, as well as another species in Guatemala: Heloderma charlesbogerti.[3][4]

The evolutionary history of the Helodermatidae may be traced back to the Cretaceous period (145 to 166 million years ago), when Gobiderma pulchrum and Estesia mongolensis were present. The genus Heloderma has existed since the Miocene, when H. texana lived. Fragments of osteoderms from the Gila monster have been found in Late Pleistocene (10,000 to 8,000 years ago) deposits near Las Vegas, Nevada. Because the helodermatids have remained relatively unchanged morphologically, they are occasionally regarded as living fossils. Although the Gila monster appears closely related to the monitor lizards (varanids) of Africa, Asia, and Australia, their wide geographical separation and distinct features indicate that Heloderma is better placed in a separate family.[11]

Skin

A plate from the Century Cyclopedia that depicts the Gila monster
The dorsal skin of a Gila monster
The dorsal skin of a Gila monster
The total molt of a female Gila monster about 2 weeks before egg-laying
The total molt of a female Gila monster about 2 weeks before egg-laying

The scales of the head, back, and tail contain little pearl-shaped bones (osteoderms) similar to those found in the beaded lizards from further south. The scales of the belly are free from osteoderms. Female Gila monsters go through a total shed lasting about 2 weeks before depositing their eggs. The dorsal part is often shed in one large piece. Adult males normally shed in smaller segments in August. The young seem to be in constant shed. Adults have more or less yellow to pink colors on a black surface. Hatchlings have a uniform, simple, and less colorful pattern. This drastically changes within the first 6 months of their lives.[12] Hatchlings from the northern area of the species' distribution have a tendency to retain most of their juvenile pattern.

The heads of males are very often larger and more triangular-shaped than in females. The length of the tail of the two sexes is statistically very similar, so it does not help in differentiation of the sexes.[13] Individuals with stout tail ends occur in both nature and under human breeding.

Distribution and habitat

The head of a Gila monster with bead-like scales and strong forelegs and claws suitable for digging

The Gila monster is found in the Southwestern United States and Mexico, across a range including Sonora, Arizona, and parts of California, Nevada, Utah, and New Mexico. No records have been given from Baja California.[3] They inhabit scrubland, succulent desert, and oak woodland, seeking shelter in burrows, thickets, and under rocks in locations with a favorable microclimate and adequate humidity. Gila monsters rely heavily on the use of shelters and spend much of their time dwelling here.[14] Often times these shelters are in rocky areas in Navajo Sandstone and basaltic lava flows.[15] Gila monsters depend on water resources and can be observed in puddles of water after a summer rain. They avoid living in open areas, such as flats and open grasslands.[3]

Ecology

A Gila monster in captivity

Gila monsters spend 90% of their lifetime underground in burrows or rocky shelters.[3] They are active in the morning during the dry season (spring and early summer). The lizards move to different shelters every 4–5 days up to the beginning of the summer season. By doing so, they optimize for a suitable microhabitat.[3][16][17] Later in the summer, they may be active on warm nights or after a thunderstorm. They maintain a surface body temperature of about 30 °C (86 °F).[3] Close to 37 °C (99 °F), they are able to decrease their body temperature by up to 2 °C (3.6 °F) by an activated, limited evaporation via the cloaca.[18] One study investigating a population of Gila monsters in southwestern Utah noted that the lizard's activity peaked from late April to mid June. The average distance traveled during their bouts of activity was 210 metres (690 ft), but on occasion some lizards would travel distances greater than 1 kilometre (0.62 mi). During the Gila monster's active season of approximately 90 days, only ten days were spent active.[15] Gila monsters are slow sprinters, but they have relatively high endurance and maximal aerobic capacity (VO2 max) compared to other lizards.[19] They are preyed upon by coyotes, badgers and raptors. Hatchlings are preyed on by snakes, such as kingsnakes (Lampropeltis sp.).

Diet

The Gila monster's diet consists of a variety of food items – small mammals (such as young rabbits, hares, mice, ground squirrels, and other rodents), small birds, snakes, lizards, frogs, insects, other invertebrates, carrion, and the eggs of birds, lizards, snakes, and tortoises.[20][21][22][23][24] Three to four extensive meals in spring are claimed to give them enough energy for a whole season.[25][26][15] They can store fat in their tails and therefore do not need to eat often.[27] Nevertheless, they feed whenever they come across suitable prey. Young Gila monsters can swallow up to 50% of their body weight in a single meal.[18] Adults may eat up to one third of their body weight in one meal.[9]

The Gila monster uses its extremely acute sense of smell to locate prey. The strong, two-ended tipped tongue, which is pigmented in black-blue colors,[12] picks up scent molecules to be transferred to the opening of the Jacobson organ around the middle of the upper mouth cavern.

Prey may be crushed to death if large, or eaten alive, most of the time head first, and helped down by muscular contractions and neck flexing. After food has been swallowed, the Gila monster may immediately resume tongue flicking and search behavior for identifying more prey such as eggs or young in nests. Gila monsters are able to climb trees, cacti, and even fairly straight, rough-surfaced walls.[3][28]

Venom

"I have never been called to attend a case of Gila monster bite, and I don't want to be. I think a man who is fool enough to get bitten by a Gila monster ought to die. The creature is so sluggish and slow of movement that the victim of its bite is compelled to help largely in order to get bitten."

—Dr. Ward, Arizona Graphic, September 23, 1899

Pioneer beliefs

In the Old West, the pioneers believed a number of myths about the Gila monster, including that the lizard had foul or toxic breath and that its bite was fatal.[29] The Tombstone Epitaph of Tombstone, Arizona, wrote about a Gila monster that a local person caught on May 14, 1881:

This is a monster, and no baby at that, it being probably the largest specimen ever captured in Arizona. It is 27 inches long and weighs 35 lb. It was caught by H. C. Hiatt on the road between Tombstone and Grand Central Mill, and was purchased by Messrs. Ed Baker and Charles Eastman, who now have it on exhibition at Kelley's Wine House, next door above Grand Hotel, Allen Street. Eastern people who have never seen one of these monsters should not fail to inspect his Aztecship, for they might accidentally stumble upon one some fine day and get badly frightened, except they know what it is.

On May 8, 1890, southeast of Tucson, Arizona Territory, Empire Ranch owner Walter Vail captured and thought he had killed a Gila monster. He tied it to his saddle and it bit the middle finger of his right hand and would not let go. A ranch hand pried open the lizard's mouth with a pocket knife, cut open his finger to stimulate bleeding, and then tied saddle strings around his finger and wrist. They summoned Dr. John C. Handy of Tucson, who took Vail back to Tucson for treatment, but Vail experienced swollen and bleeding glands in his throat for sometime afterward.[29]

Dr. Handy's friend, Dr. George Goodfellow of Tombstone, was among the first to research the actual effects of Gila monster venom. Scientific American reported in 1890, "The breath is very fetid, and its odor can be detected at some little distance from the lizard. It is supposed that this is one way in which the monster catches the insects and small animals which form a part of its food supply – the foul gas overcoming them." Goodfellow offered to pay local residents $5.00 for Gila monster specimens. He bought several and collected more on his own. In 1891, he purposely provoked one of his captive lizards into biting him on his finger. The bite made him ill and he spent the next five days in bed, but he completely recovered. When Scientific American ran another ill-founded report on the lizard's ability to kill people, he wrote in reply and described his own studies and personal experience. He wrote that he knew several people who had been bitten by Gila monsters, but had not died from the bite.[29]

Venom delivery

Venom Grooves and position of the exchange teeth
Venom grooves and position of the exchange teeth
Gila monster Skull showing dentition
Gila monster skull showing dentition (osteoderms are fused with the forehead), photo by A. Laube

The Gila monster produces venom in modified salivary glands at the end of its lower jaws, unlike snakes, whose venom is produced in glands behind the eyes.[30] The Gila monster lacks strong musculature in glands above the eyes; instead, in Heloderma, the venom is propelled from the gland via a tubing to the base of the lower teeth and then by capillary forces into two grooves of the tooth and then chewed into the victim.[3][27] The teeth are tightly anchored to the jaw (pleurodont). Broken and regular replacement teeth have to wait every time to go into position in a determinate "wavelike" sequence. They change/replace their teeth during their entire life.[31][32] The Gila monster's bright colors might be suitable to teach predators not to bother this "painful" creature. Because the Gila monster's prey consists mainly of eggs, small animals, and otherwise "helpless" prey, the Gila monster's venom is thought to have evolved for defensive rather than for hunting use.[15]

Toxicity

The venom of a Gila monster is normally not fatal to healthy adult humans.[29] No reports of fatalities have been confirmed after 1930, and the rare fatalities recorded before that time occurred in adults who were intoxicated by alcohol or had mismanaged the treatment of the bite.[33] The Gila monster can bite quickly, and may not release the victim without intervention. If bitten, the victim may attempt to fully submerge the lizard in water, pry the jaws open with a knife or stick, or physically yank the lizard free. While pulling the lizard directly increases risk of severe lacerations from the lizard's sharp teeth, it may also mitigate envenomation. Symptoms of the bite include excruciating pain, edema, and weakness associated with a rapid drop in blood pressure.

YouTuber and wildlife educator Coyote Peterson described the bite as "like hot lava coursing through your veins" and claimed it was "the worst pain [he] had ever experienced." It is generally regarded as the most painful venom produced by any vertebrate.[34]

More than a dozen peptides and other substances have been isolated from the Gila monster's venom, including hyaluronidase, serotonin, phospholipase A2, and several kallikrein-like glycoproteins responsible for the pain and edema caused by a bite, without producing a compartment syndrome. Four potentially lethal toxins have been isolated from the Gila monster's venom, which cause hemorrhage in internal organs and exophthalmos (bulging of the eyes),[35] and helothermine, which causes lethargy, partial paralysis of the limbs, and hypothermia in rats. Some are similar in action of the vasoactive intestinal peptide (VIP), which relaxes smooth muscle and regulates water and electrolyte secretion between the small and large intestines. These bioactive peptides are able to bind to VIP receptors in many different human tissues. One of these, helodermin, has been shown to inhibit the growth of lung cancer.[36][37]

Toxins and drug research

The constituents of H. suspectum venom that have received the most attention from researchers are the bioactive peptides, including helodermin, helospectin, exendin-3, and exendin-4.[38] Exendin-4, which is specific for H. suspectum, has formed the basis of a class of medications for the treatment of type 2 diabetes, known as Glucagon-like peptide-1 agonists.

In 2005, the U.S. Food and Drug Administration approved the drug exenatide (marketed as Byetta) for the management of type 2 diabetes. It is an extravagantly synthetic blueprint of the protein exendin-4, isolated from the Gila monster's venom.[39][40] In a 3-year study with people with type 2 diabetes, exenatide showed healthy sustained glucose levels. The effectiveness is because the lizard protein is 53% identical to glucagon-like peptide-1 analog (GLP-1), a hormone released from the human digestive tract that helps to regulate insulin and glucagon. Using a sophisticated injection formula with sustained release of the drug, the lizard protein remains effective much longer than the human hormone. This helps diabetics keep their blood glucose levels under control for a week by a single injection. Exenatide also slows the emptying of the stomach and causes a decrease in appetite, contributing to weight loss.[41]

The antidiabetic exenatide (Byetta®) from the venomous Gila monster is also an example of a medical value of venom peptides, targeting G protein-coupled receptors (GPCRs).[42]

Life cycle

The Gila monster emerges from brumation in early March. Gila monsters sexually mature at 4–5 years old. It mates in April and May.[3] The male initiates courtship by flicking his tongue to search for the female's scent. If the female rejects his advances, she will bite him and chase him away. When successful, copulation has been observed in captivity to last from 15 minutes to two and a half hours. There is only a single record of attempted mating outside of a shelter.[22] The female lays eggs at the end of May into June. A clutch may consist of up to six (rarely up to eight) eggs.[3][12] The incubation in captivity lasts about 5 months, depending on the incubation temperature. The hatchlings are about 16 cm (6.3 in) long and can bite and inject venom as soon as they are hatched.

The egg development and hatching time of young in the wild has been a subject of ongoing speculation. The first model stated that youngsters hatch in fall and stay underground. The second theory postulated a nearly developed embryo remains inside the egg over winter and hatches in spring. Hatchlings (weight about 35 g (1.2 oz)) are observed at the end of April to early June.

Discussions of the exact egg development and hatching cycle of the Gila monster came to an abrupt and unexpected end on October 28, 2016, when a backhoe was digging at the outer walls of a house in a suburb of northern Tucson. The backhoe extracted a nest of a female Gila monster with five eggs in the process of hatching. The Gila monster is now known to hatch near the end of October and immediately proceed into hibernation without surfacing.[16] They then appear on the surface from May through June the following year when prey should be abundant.

In summer, Gila monsters gradually spend less time on the surface to avoid the hottest part of the season; occasionally, they may be active at night. Females that have laid eggs are exhausted and thin, fighting for survival, and have to spend extra effort to "reconstitute". The brumation of Gila monsters begins in October.[3] Gila monsters can live up to 40 years in captivity, though rarely.

Little is known about the social behavior of Gila monster, but it has been observed engaging in male to male combat, in which the dominant male lies on top of the subordinate one and pins it with its front and hind limbs. While fighting, both lizards arch their bodies, pushing against each other and twisting around in an effort to gain the dominant position. A “wrestling match” ends when the pressure exerts their forces, although bouts may be repeated.[15] These bouts are typically observed in the mating season. Males with greater strength and endurance are thought to enjoy greater reproductive success.[3] Although the Gila monster has a low metabolism and one of the lowest lizard sprint speeds, it has one of the highest aerobic scope values (the increase in oxygen consumption from rest to maximum metabolic exertion) among lizards, allowing it to engage in intense aerobic activity for a sustained period of time.

Conservation status

Gila monsters are listed as near threatened by the IUCN.[1] They are listed as "Apparently Secure" by NatureServe.[43]

In 1952, the Gila monster became the first venomous animal to be given legal protection.[44] They are now protected in all states of their distribution. International trade in the species is regulated under Appendix II of CITES.

Relocation

"Possibly the greatest threat to the continued existence of helodermatids is the man-made destruction of their habitat as the land is developed for construction or to create more cultivable land."[45] Gila monsters found in these situations and relocated – with best intentions – up to 1.2 km (0.75 mi) away, return to where they were found within 2 months and at great effort. This is up to five times the normal energy use than if they had not been removed, which uses up their energy stores unnecessarily. The same is true for animals relocated to appropriate habitats. Besides this, they also become more exposed to predators. Therefore, the process of simple relocation is "naïve" and potentially dangerous for both the relocated animals and existing populations and for the inhabitants of the region where the resettlement is taking place. If relocating the lizards further away, they might be totally disoriented, thus their survival is still very questionable. A more successful strategy would be, for example, if the new "settlers" were offered intensive education about this species (e.g., limited toxicity, lifestyle) with the aim of tolerating the reptile or even being proud of having this unique "roommate" in one's own neighborhood.[44]

In 1963, the San Diego Zoo became the first zoo to successfully breed Gila monsters in captivity.[46] In the last two decades, experienced breeders have shared their knowledge and expertise to give advice to other herpetologists on overcoming the difficulties in Heloderma reproduction under human care.[12][47][48]

Relationship with humans

Though the Gila monster is venomous, it poses little threat to humans due to its sluggish nature. Nevertheless, it has a fearsome reputation and is often killed by humans. Myths that have formed about the Gila monster include that the animal's breath is toxic enough to kill humans, that it can spit venom like a spitting cobra, that it can leap several feet in the air to attack,[46] and that the Gila monster did not have an anus and therefore expelled waste from its mouth, the source of its venom and "fetid breath" (likely stemming from the fact that its venom in fact has an intense, specific smell).[12] Among Native American tribes, the Gila monster had a mixed standing. The Apache believed its breath could kill a man, and the Tohono O'Odham and the Pima believed it possessed a spiritual power that could cause sickness. In contrast, the Seri and the Yaqui believed the Gila monster's hide had healing properties.

In popular culture

The Gila monster starred as a monster in the film The Giant Gila Monster (though the titular monster was actually portrayed by a Mexican beaded lizard).[49] It played a minor role in the motion picture The Treasure of the Sierra Madre. In Brock Brower's 1971 novel The Late Great Creature, fictional horror movie star Simon Moro is presented as famous for playing the reptilian werewolf-like Gila Man. The 2011 animated film Rango featured a Gila monster as an Old West outlaw named Bad Bill, voiced by Ray Winstone.[50]

The Gila monster has also seen usage as a mascot and state symbol. The official mascot of Eastern Arizona College located in Thatcher, Arizona, is Gila Hank, a gun-toting, cowboy hat-wearing Gila monster. In 2017, the Vegas Golden Knights selected a Gila monster named Chance as their official mascot.[51] In 2019, the state of Utah made the Gila monster its official state reptile.[52]

In 2023, Australian band King Gizzard and the Lizard Wizard released a single titled "Gila Monster" from their upcoming album.[53]

Gallery

  • Illustration in Animaux venimeux et venins, 1922

    Illustration in Animaux venimeux et venins, 1922

  • Tank setup offering nearly natural environment with hiding bowl

    Tank setup offering nearly natural environment with hiding bowl

  • Pattern variations of female Helderma suspectum

    Pattern variations of female H. suspectum

  • Egg deposit in captivity

    Egg deposit in captivity

  • End of hatching process

    End of hatching process

  • Absorbed yolk in the abdomen

    Absorbed yolk in the abdomen

  • Group of Gila monster hatchlings

    Group of Gila monster hatchlings

  • Gila monster twins hatching

    Gila monster twins hatching

References

  1. ^ a b c Hammerson, G.A.; Frost, D.R.; Gadsden, H. (2007). "Heloderma suspectum". IUCN Red List of Threatened Species. 2007: e.T9865A13022716. doi:10.2305/IUCN.UK.2007.RLTS.T9865A13022716.en. Retrieved 19 November 2021.
  2. ^ "Appendices | CITES". cites.org. Retrieved 2022-01-14.
  3. ^ a b c d e f g h i j k l m n Beck, D. D. (2005). Biology of Gila monsters and beaded lizards. Vol. 9. University of California Press.
  4. ^ a b Bogert, Charles M.; Rafael Martin del Campo (1956). The Gila Monster and its allies: the relationships, habits, and behavior of the lizards of the Family Helodermatidae. New York: Bulletin of the American Museum of Natural History.
  5. ^ "Heloderma suspectum". Integrated Taxonomic Information System. Retrieved 19 May 2008.
  6. ^ R. S. Reiserer; G. W. Schuett; D. D. Beck (2013). "Taxonomic Reassessment and conservation status of the beaded lizard, Heloderma horridum (Squamata Helodermatidae)". Amphibian & Reptile Conservation. 7: 74–96.
  7. ^ "Online Etymology Dictionary". Archived from the original on 2008-12-11. Retrieved 2008-06-10.
  8. ^ a b Baird, S. F. (1859). "Reptiles of the boundary, with notes by the naturalists on the survey". United States and Mexican Boundary Survey Under the Order of Lieut. Col. W.H. Emory. 3: 1–35.
  9. ^ a b Christel CM, DeNardo DF, Secor SM (October 2007). "Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum)". Journal of Experimental Biology. 210 (19): 3430–3439. doi:10.1242/jeb.004820. PMID 17872997.
  10. ^ Davis, Jon R.; DeNardo, Dale F. (2010). "Seasonal patterns of body condition, hydration state, and activity of Gila monsters (Heloderma suspectum) at a Sonoran Desert site". Journal of Herpetology. 44 (1): 83–93. doi:10.1670/08-263.1. S2CID 6808861.
  11. ^ Mattison, Chris (1998). Lizards of the World. London: Blandford. ISBN 0713723572.
  12. ^ a b c d e Schwandt, Hans-Joachim (2019). The Gila Monster – Heloderma suspectum. Frankfurt / Main: Edition Chimaira. ISBN 978-3-89973-441-6.
  13. ^ Gienger, C. M.; Beck, Daniel D. (2007). "Heads or tails? Sexual dimorphism in helodermatid lizards". Canadian Journal of Zoology. 85: 92–95. doi:10.1139/z06-198.
  14. ^ Davis, Jon R.; Denardo, Dale (November–December 2009). "Water supplementation affects the behavioral and physiological ecology of Gila monsters (Heloderma suspectum) in the Sonoran desert". Physiological and Biochemical Zoology. 82 (6): 739–748. doi:10.1086/605933. ISSN 1522-2152.
  15. ^ a b c d e Beck, Daniel D. (1990). "Ecology and Behavior of the Gila Monster in Southwestern Utah". Journal of Herpetology. 24 (1): 54–68. doi:10.2307/1564290. ISSN 0022-1511. JSTOR 1564290.
  16. ^ a b DeNardo, DF; Moeller, KT; Seward, M; Repp, R (2018). "Evidence for atypical nest overwintering by hatchling lizards, Heloderma suspectum". Proceedings of the Royal Society. 285 (1879). doi:10.1098/rspb.2018.0632. PMC 5998102. PMID 29794051.
  17. ^ Beck, D.D.; Jennings, R.D. (2003). "Habitat use by Gila Monsters. The importance of shelters". Herpetological Monographs. 17: 112–130. doi:10.1655/0733-1347(2003)017[0111:HUBGMT]2.0.CO;2. S2CID 54904180.
  18. ^ a b DeNardo, Dale F.; Zubal, Tricia E.; Hoffman, Ty C. M. (2004). "Cloacal evaporative cooling: a previously undescribed means of increasing evaporative water loss at higher temperatures in a desert ectotherm, the Gila monster Heloderma suspectum". The Journal of Experimental Biology. 207 (Pt 6): 945–953. doi:10.1242/jeb.00861. PMID 14766953.
  19. ^ Beck, D. D.; Dohm, M. R.; Garland, T. Jr.; Ramirez-Bautista, A.; Lowe, C. H. (1985). "Locomotor performance and activity energetics of helodermatid lizards". Copeia. 1995 (3): 577–585. doi:10.2307/1446755. JSTOR 1446755.
  20. ^ "Gila Monster". Archived from the original on 2021-06-02. Retrieved 2021-05-30.
  21. ^ "Heloderma suspectum (Gila Monster)". Archived from the original on 2021-02-12. Retrieved 2020-12-19.
  22. ^ a b Zylstra, E.T.; Seward, M.T.; Schuett, G.W.; Repp, R.; DeNardo, D.F.; Beck, D.D. (2015). "Heloderma suspectum (Gila Monster), Probable Courtship and Mating Behavior". Herpetological Review. 46: 258–259.
  23. ^ "Gila Monster (Heloderma suspectum)". Archived from the original on 2021-03-03. Retrieved 2021-03-07.
  24. ^ "Foothills Palo Verde Fact Sheet". Archived from the original on 2021-03-21. Retrieved 2021-03-07.
  25. ^ "Gila monster". Smithsonian's National Zoo & Conservation Biology Institute. Retrieved April 25, 2023.
  26. ^ Mozdy, Michael (March 22, 2017). "Gila: the Monster, the Myth, the Legend". Natural History Museum of Utah. Retrieved April 25, 2023.
  27. ^ a b "Gila Monster". National Geographic. Retrieved April 25, 2023.
  28. ^ Repp, Roger A.; Schuett, Gordon W. (2010). "Heloderma suspectum (Gila monster). Tree-climbing". Herpetological Review. 41 (4): 491–492.
  29. ^ a b c d Lapidus, Richard (June 3, 2011). "The Gila Monster Had a Killer Reputation". Wild West Magazine. Archived from the original on 22 January 2013. Retrieved 10 March 2013. Although the Gila monster's bite is extremely painful, none has resulted in a verifiable human fatality to a healthy person.
  30. ^ West, G. S. (1895). "On the Buceal-Glands and Teeth of certain poisonous Snakes". Proceed. Zool. Soc. Of London.
  31. ^ Odermatt, C. (Buochs) (1940). "Beiträge zur Kenntnis des Gebisses von Heloderma". Vierteljahresschrift der Naturforschenden Gesellschaft in Zürich. LXXXV.
  32. ^ Edmund, A. G. (1969). Biology of the Reptilia. London: Academic Press. pp. 117–200.
  33. ^ Strimple, Peter D.; Tomassoni, Anthony J.; Otten, Edward J.; Bahner, David (1997). "Report on envenomation by a Gila monster (Heloderma suspectum) with a discussion of venom apparatus, clinical findings, and treatment". Wilderness & Environmental Medicine. 8 (2): 111–116. doi:10.1580/1080-6032(1997)008[0111:ROEBAG]2.3.CO;2. ISSN 1080-6032. PMID 11990142.
  34. ^ Brave Wilderness (2015-12-01), Gila Monster BITE!, archived from the original on 2019-01-15, retrieved 2018-09-21
  35. ^ "Poisindex (R) Toxilogic Managements: Topic: Gila Monster (Heliderma Suspectum)". Archived from the original on 2010-12-03. Retrieved 2010-08-05.
  36. ^ Maruno K, Said SI (1993). "Small-cell lung carcinoma: inhibition of proliferation by vasoactive intestinal peptide and helodermin and enhancement of inhibition by anti-bombesin antibody". Life Sciences. 52 (24): PL267–271. doi:10.1016/0024-3205(93)90640-O. PMID 8389407.
  37. ^ Clarke, Toni. "Gila Monster Spit May Yield Alzheimer's Drug". Archived from the original on 2011-07-18. Retrieved 2011-05-29.
  38. ^ Aird SD (June 2008). "Nucleoside composition of Heloderma venoms". Comparative Biochemistry and Physiology B. 150 (2): 183–186. doi:10.1016/j.cbpb.2008.02.012. PMID 18430599.
  39. ^ Bond, Aaron (July 2006). "Exenatide (Byetta) as a novel treatment option for type 2 diabetes mellitus". Baylor University Medical Center Proceedings. 19 (3): 281–284. doi:10.1080/08998280.2006.11928181. PMC 1484540. PMID 17252050.
  40. ^ Chen, Tianbao H.K.; Kwok, C.; Ivanyi, Cristipher Shae (2006). "Isolation and cloning of exendin precursor cDNAs from single samples of venom from the Mexican beaded lizard (Heloderma horridum) and the Gila monster (Heloderma suspectum)". Toxicon. 47–3 (3): 288–295. doi:10.1016/j.toxicon.2005.11.004. PMID 16386282.
  41. ^ "Drug Derived From Gila Monster Saliva Helps Diabetics Control Glucose, Lose Weight". Science Daily. 2007-07-12. Archived from the original on 2018-03-23. Retrieved 2018-02-28.
  42. ^ An, Dongchen; Peigneur, Steve; Hendrickx, Louise Antonia; Tytgat, Jan (2020-07-17). "Targeting Cannabinoid Receptors: Current Status and Prospects of Natural Products". International Journal of Molecular Sciences. 21 (14): 5064. doi:10.3390/ijms21145064. ISSN 1422-0067. PMC 7404216. PMID 32709050.
  43. ^ "NatureServe Explorer 2.0". explorer.natureserve.org. Retrieved 4 April 2022.
  44. ^ a b Sullivan, Brian K.; Kwiatkowski, Matthew A.; Schuett, Gordon W. (2004). "Translocation of urban Gila Monsters: a problematic conservation tool". Biological Conservation. 117 (3): 235–242. doi:10.1016/j.biocon.2003.07.002.
  45. ^ Repp, Roger A. (2017). "A Monstrous Helloween Treat". Bulletin of the Chicago Herpetological Society. 52 (2): 28–35.
  46. ^ a b "San Diego Zoo's Animal Bytes: Gila Monster". San Diego Zoo. Archived from the original on 2008-05-27. Retrieved 2008-05-19.
  47. ^ Seward, Mark (2002). Dr. Mark Seward's Gila monster Propagation: How To Breed Gila monsters in Captivity. Natural Selections Publishing. p. 80. ISBN 0-9701395-0-0.
  48. ^ Eidenmüller, B; Reisinger, M. (2011). Beaded Lizards and Gila Monsters, Captive Care and Husbandry. Frankfurt am Main: Edition Chimaira. ISBN 978-3-89973-498-0.
  49. ^ "Gila Monsters And Beaded Lizards". Reptiles Magazine. 2011-12-01. Archived from the original on 2020-11-12. Retrieved 2021-01-08.
  50. ^ Coyle, Jake (March 4, 2011). "Movie review: 'Rango'". Associated Press via NorthJersey.com. Archived from the original on October 1, 2012.
  51. ^ "Vegas Golden Knights reveal Chance as team's mascot". Las Vegas Review-Journal. October 13, 2017. Archived from the original on 15 October 2017. Retrieved 1 May 2018.
  52. ^ "HB0144". le.utah.gov. Archived from the original on 2019-03-29. Retrieved 2019-05-15.
  53. ^ Cohen, Jonathan (4 March 2023). "King Gizzard And The Lizard Wizard Unleash 'Gila Monster' In Wild New Video". Spin. Retrieved 16 May 2023.{{cite web}}: CS1 maint: url-status (link)
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Gila monster: Brief Summary

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A Gila monster

The Gila monster (Heloderma suspectum, /ˈhiːlə/ HEE-lə) is a species of venomous lizard native to the Southwestern United States and the northwestern Mexican state of Sonora. It is a heavy, typically slow-moving reptile, up to 56 centimetres (22 in) long, and it is the only venomous lizard native to the United States. Its venomous close relatives, the four beaded lizards (all former subspecies of Heloderma horridum) inhabit Mexico and Guatemala. The Gila monster is sluggish in nature, so it is not generally dangerous and very rarely poses a real threat to humans. However, it has a fearsome reputation and is sometimes killed in spite of the species being protected by state law in Arizona.

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Gila monstro ( Esperanto )

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La Gila monstro (Heloderma suspectum) estas venena dezerta lacerto. La nomo de la Gila monstro venas de la Gila rivero en Arizono, Usono.

La Gila monstro estas peza kaj malrapida por lacerto. Ĝi povas fariĝi ĝis 60 cm longa. Ĝia haŭto aspektas kiel bidokovrita kaj estas nigra, roza, oranĝa, kaj flava. Ĝi multe similas al la "meksika bidita lacerto" (Heloderma horridum), kiu estas ĝia plej proksima parenco.

La Gila monstro povas rapide mordi kaj firme teni, sed ĝi ne mortigas homojn. Kutime ĝi manĝas etajn ronĝulojn, junajn birdojn kaj ovojn. La lacerto maĉas ĝian predon, injektante sian (venenon) en la beston per dentoj en sia malsupra makzelo. La Gila monstro ankaŭ povas konservi nutraĵon en sia vosto.

En 2005 oni faris medikamenton por flegi diabeton el la salivo de la Gila monstro.

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Heloderma suspectum ( Spanish; Castilian )

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El monstruo de Gila (Heloderma suspectum) es un lagarto venenoso propio de las regiones áridas y cálidas del extremo norte de México y del suroeste de los Estados Unidos. Es un lagarto pesado, de movimiento lento y mide hasta 60 cm de largo. El monstruo de Gila es una de las dos únicas especies conocidas de lagartos venenosos, junto a su familiar cercano, el lagarto de cuentas o escorpión (Heloderma horridum). Aunque el monstruo de Gila es venenoso, su naturaleza pasiva hace que represente poca amenaza a los seres humanos. Sin embargo, se ha ganado una reputación temible, y es matado a menudo por los caminantes y los dueños de las casas.

Descripción

El monstruo de Gila es el lagarto más grande nativo de América del Norte, mide aproximadamente entre 35 y 58,5 cm de largo. Tiene una figura corpulenta con patas pequeñas, poderosas garras y una cola corta y gruesa donde almacena la grasa que utiliza como energía durante la hibernación o cuando hay escasez de alimentos. La piel del monstruo de Gila es rugosa, con marcas irregulares brillantes de color rosado, amarillo o blanco, sobre escamas negras o marrones.[2]​ El monstruo de Gila se desplaza con exagerada lentitud. No sabe correr e intentaríamos en vano ahuyentar a uno de estos reptiles. De 500 g a 1 kg de peso, es un reptil pasivo de lentos movimientos.

Su nombre se debe a que se han encontrado varios de estos cerca del Río Gila en el estado de Arizona en Estados Unidos.

Hábitat

Habita en las zonas áridas y desiertos rocosos de América del Norte y bosques tropicales secos. Vive en madrigueras que él mismo excava, o que ocupa cuando se marcha el propietario. El monstruo de Gila generalmente evita los calores extremos del sol del mediodía y es más activo durante las horas de la mañana y el atardecer. Permanece días y semanas sin salir de su guarida, y cuando finalmente se decide a abandonar su albergue lo hace con tiempo lluvioso y casi exclusivamente de noche.[3]

Alimentación

src=
Cabeza de un monstruo de Gila.

El monstruo de Gila es un animal carnívoro que se alimenta principalmente de conejos jóvenes, ratones, ardillas, lagartijas, ranas, insectos, aves y huevos de aves, tortugas y serpientes. Detecta la presencia de las presas por el olfato, que tiene muy desarrollado, y también por el gusto, sirviéndose de su lengua como de un detector eficaz. Es un real tragón que devora todo lo comestible que encuentra.[cita requerida] Estos lagartos atacan a sus víctimas mordiéndolas y aferrándose a ellas a la vez que ruedan sobre la espalda para permitir que el veneno fluya al interior de la herida sin dejar de masticar para infligir heridas aún mayores. Engorda rápidamente y se le infla la cola, porque es en esa parte de su cuerpo donde se le acumulan las reservas de grasa. Esta forma singular de alimentarse permite al monstruo de Gila ayunar durante mucho tiempo sin perjuicio. El bajo ritmo metabólico y su relativamente fresca temperatura corporal reduce más aún su necesidad de ingesta regular de alimentos.

En gran medida, el monstruo de Gila posee una fisiología especializada que le ayuda a mantener los niveles energéticos durante sus largos intervalos entre alimentos. Cuando un monstruo de Gila come, una glándula salival modificada dentro de su boca libera un compuesto llamado exendin-4, que fluye dentro del tracto digestivo y del torrente sanguíneo del lagarto. Mientras que los científicos tienen aún que confirmar el rol que juega el exendin-4, parece que prepara al cuerpo del Gila para recibir, procesar y almacenar nutrientes. Además, se cree que el exendin-4 tiene un rol en la regeneración del intestino del Gila, que se atrofia entre las esporádicas comidas para conservar energía.[3]

Reproducción

src=
Monstruo de Gila.
src=
Animaux venimeux et venins, (Animales venenosos y venenos, 1922).

Es un animal ovíparo que pone de 3 a 15 huevos, incubándolos durante un periodo de 30 a 45 días. La dimensión del huevo es de 4x6,5 cm y el recién nacido tiene una longitud de 9 a 12 cm.

Veneno

Sus fauces van armadas, dentro de la mandíbula, de un par de dientes parecidos a los ganchos venenosos de las serpientes. El veneno, usado principalmente para defenderse, se segrega a través de unas glándulas situadas en la mandíbula inferior y fluye al exterior a través de unos surcos presentes en los dientes.

Estado de conservación

Próxima a la vulnerabilidad (NT). Está prohibido la caza de esta especie. Es considerado una especie protegida, ya que su hábitat se encuentra amenazado por el desarrollo urbano y agrícola, y la construcción de carreteras.

Subespecies

Existen dos subespecies de monstruo de Gila: el reticulado (Heloderma s. suspectum), que se encuentra principalmente en los estados de Sonora y norte de Sinaloa, en México, además de Arizona, en Estados Unidos; y el monstruo de Gila bandeado (Heloderma s. cinctum), localizado en los estados de Utah y Nevada, de los Estados Unidos.

Importancia en la Diabetes Tipo II

Un péptido análogo del péptido similar al glucagón de tipo 1 (GLP-1), localizado en la secreción salivar de este lagarto, ha sido aprobado para el tratamiento de pacientes con diabetes de tipo II. Esta aprobación se basa en la capacidad de este agente de aumentar la secreción de insulina y por tanto, mejorar la hiperglucemia con la que cursa la enfermedad en estos pacientes.

El péptido similar al glucagón de tipo 1 (GLP-1), es un factor intestinal que se libera en respuesta a la hiperglucemia resultante de la ingesta y que potencia la secreción de insulina. Es uno de los factores producidos en el intestino denominados incretinas, responsables del efecto incretina, conocido como la diferencia entre los niveles de insulina detectados tras una ingesta oral de glucosa y una intravenosa de igual cantidad. Siendo la respuesta insulínica a la sobrecarga oral de glucosa mucho mayor que a la intravenosa, debido a estos factores intestinales que potencian la liberación de insulina.

Referencias

  1. Hammerson, G.A., Frost, D.R. & Gadsden, H. (2007). «Heloderma suspectum». Lista Roja de especies amenazadas de la UICN 2015.2 (en inglés). ISSN 2307-8235. Consultado el 24 de junio de 2015.
  2. American Museum of Natural History. «Gila Monster» (en inglés). Consultado el 6 de febrero de 2009.
  3. a b Dr. Mark Seward. «Dr. Mark Seward Gila Monster Web» (en inglés). Consultado el 6 de febrero de 2009.

Bibliografía

  • Schauenberg, Paul (1983). Fichero Safari. Club internacional del libro S.A. (México). ISBN 968-49-0035-X.
  • Walter F. Boron MD PhD & Emile L. Boulpaep MD (2011). Medical Physiology, 2e Updated Edition. ElSevier.
  • Triplitt C, Chiquette E. Exenatide: from the Gila monster to the pharmacy. J Am Pharm Assoc (2003).

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Heloderma suspectum: Brief Summary ( Spanish; Castilian )

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El monstruo de Gila (Heloderma suspectum) es un lagarto venenoso propio de las regiones áridas y cálidas del extremo norte de México y del suroeste de los Estados Unidos. Es un lagarto pesado, de movimiento lento y mide hasta 60 cm de largo. El monstruo de Gila es una de las dos únicas especies conocidas de lagartos venenosos, junto a su familiar cercano, el lagarto de cuentas o escorpión (Heloderma horridum). Aunque el monstruo de Gila es venenoso, su naturaleza pasiva hace que represente poca amenaza a los seres humanos. Sin embargo, se ha ganado una reputación temible, y es matado a menudo por los caminantes y los dueños de las casas.

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Heloderma suspectum ( Basque )

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(RLQ=window.RLQ||[]).push(function(){mw.log.warn("Gadget "ErrefAurrebista" was not loaded. Please migrate it to use ResourceLoader. See u003Chttps://eu.wikipedia.org/wiki/Berezi:Gadgetaku003E.");});
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Heloderma suspectum: Brief Summary ( Basque )

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Heloderma suspectum Heloderma generoko animalia da. Narrastien barruko Helodermatidae familian sailkatuta dago.

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Gilalisko ( Finnish )

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Gilalisko eli gilahirviö[2] (Heloderma suspectum) on Yhdysvaltain lounaisosien ja Meksikon luoteisosien Sonoran aavikolla elävä myrkyllinen lisko. Gilalisko liikkuu kömpelösti, mutta puree kivuliaasti. Lisko tarraa tukevat leukansa saaliseläimeen ja valuttaa haavaan myrkyllistä sylkeä, myrkky valmistuu kahdessa alaleuan takaosan rauhasessa. Gilalisko rusentaa saaliinsa vahvoilla lihaksikkailla leuoillaan, joissa on pitkät ja terävät hampaat, lopuksi se ahmaisee murskaamansa ja lamauttamansa uhrin pää edellä sisuksiinsa. Gilaliskon häntä toimii rasvavarastona. Kylmillä säillä gilalisko lepäilee ja paastoaa, jolloin se ylläpitää elintoimintojaan häntänsä rasvaa kuluttamalla.

Koko ja ulkonäkö

Gilalisko kasvaa 45–55 senttimetriä pitkäksi, josta häntä muodostaa 10–20 senttimetriä. Painoa kertyy 4–5 kiloa. Ruumis on litteä, vankkarakenteinen ja roteva. Pään suomut ovat leveät ja litteät, mutta selästä, raajoista ja kyljestä pyöreät ja nystyrämäiset. Ruumiin takaosassa ja hännässä suomurivit eivät ole yhtä säännöllisiä kuin eturuumiissa. Jalat ovat lyhyehköt ja tukevat. Jaloissa on viisi varvasta, joissa on vahvat kynnet. Väritys vaihtelee paljon. Yleensä pään yläosassa, vartalossa ja raajoissa näkyy marmorimainen kuviointi ja juovia tai oranssin, vaaleanpunaisen sekä mustan ja ruskean muodostamaa verkkokuviointia. Leuka, kaula, kuononpää ja pään sivut ovat yleensä tummat ja niitä koristavat oranssit tai vaaleanpunaiset kyhmyt. Hännässä on poikkijuovia. Vatsa on oranssi tai vaaleanpunainen ja siinäkin näkyy ruskeaa tai mustaa mosaiikkikuviointia.

Väritys tekee gilaliskosta kirjavan ja antaa hyvän suojavärin, minkä ansiosta liikkumatonta gilaliskoa on vaikea erottaa maastosta. Gilaliskon myrkkyrauhaset ovat alaleuassa poskien alaosan kohdalla. Myrkkyrauhaset ovat muuntuneita sylkirauhasia ja niitä on useita. Myrkky valuu uhriin tiehyitä kautta, mutta gilaliskon on purtava jonkin aikaa ennen kuin myrkkyä erittyy riittävästi. Gilaliskon leuat ovat erittäin vahvat ja jos lisko puree esimerkiksi ihmisen kättä, sitä on lähes mahdoton saada paljain käsin irti. Terve ihminen selviää yleensä liskon puremasta, mutta heikkokuntoinen tai lapsi on jo vakavassa vaarassa. Myrkky lamauttaa hengityselimistön, joten uhri tukehtuu vähitellen. Myrkky laajentaa valtimoita, hidastaa sydämen toimintaa sekä estää verta hyytymästä. Petoeläimet jättävätkin myrkyllisen liskon rauhaan.

Gilaliskon hampaat ovat pitkät ja terävät. Suussa elää tulehduksia aiheuttavia bakteereja, jotka voivat olla yhtä vaarallisia kuin myrkky. Silmät ovat likinäköiset ja lisko näkee saaliin tai muun vastaantulijan vasta lähietäisyydellä. Hajuaisti sitä vastoin on erinomainen. Coloradosta on löydetty gilaliskon 30–40 miljoonaa vuotta vanhoja fossiileja, ja gilalisko on muuttunut erittäin vähän noista ajoista.

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Gilaliskon nahka ja kuviointi.

Levinneisyys ja elinympäristö

Gilalisko elää Sonoran aavikolla Yhdysvalloissa ja Meksikossa. Yhdysvalloissa sitä tavataan Arizonassa, Kalifornian kaakkoisosissa, Utahin lounaisosissa, New Mexicossa ja Nevadassa, Meksikossa Baja Californian ja Sonoran osavaltioissa. Gilalisko viihtyy kuivilla tai puolikuivilla aavikoilla ja vuoristojen alarinteillä sekä jokia ja kanjoneita reunustavilla tasangoilla ja pensaikkomailla. Alueella lämpötila voi nousta kesäpäivisin jopa 50 celsiusasteeseen ja talvella on kylmää, jolloin gilaliskon täytyy horrostaa. Säännöllinen vedensaanti on välttämätöntä. Laji nimi tulee Arizonassa virtaavasta Gila-joesta.

Gila Monsters 001.jpg

Elintavat

Gilalisko viettää 95 prosenttia ajastaan maakolossa ja viettää siellä koko kuivan kauden. Se selviää kolossa häntäänsä varastoiman rasvavaraston avulla. Vasta kesä–syyskuussa lisko tulee esiin piilostaan ja lähtee ravinnonhakuun. Ruokaa se löytää lipomalla kielellään ja analysoimalla hajumolekyylejä. Gilalisko suosii hitautensa takia helppoja saaliita, kuten matelijoiden ja lintujen munia sekä pienten nisäkkäiden poikasia. Tällaista ravintoa on sadekauden aikana tarjolla runsaasti, joten se on hyvää aikaa kartuttaa rasvavarastoa. Saaliin gilalisko nielee pää edellä, jos se ei ole liian suuri. Suuret munat se rikkoo ja latkii sisällön. Se saalistaa myös aktiivisesti erityisesti muita matelijoita, jotka se tappaa myrkyllään. Vaikka saalis pääsisi karkuun, se menehtyy nopeasti myrkkyyn ja gilalisko löytää saaliinsa hajujälkeä seuraamalla. Eräs yksilö eli vankeudessa yli kolme vuotta syömättä kuluttaen hitaasti häntänsä rasvavarastoa. Vettä lisko kuitenkin tarvitsee säännöllisesti.

Gilaliskolla on vain vähän vihollisia ja pedot jättävät sen rauhaan yleensä heti kun vain tunnistavat sen. Jos kojootti erehtyy hyökkäämään sen kimppuun, se ei tee sitä enää toiste, jos jää henkiin. Pienempi peto kuten kissa kuolee varmasti. Gilaliskot ovat immuuneja oman lajinsa myrkylle, minkä lisäksi myös sammakot kestävät myrkkyä tuntemattomasta syystä. Ihmisellä purema aiheuttaa hikoilua, oksentelua ja usein myös tajunnan menetyksen. Puremakohta paisuu ja mustuu. Toipuminen puremasta voi viedä kuukausia. Gilalisko puree kuitenkin vasta ärsytettynä ja on melko vaaraton.

Gilaliskojen kiima on todennäköisesti heinäkuussa ja vajaan kuukauden kuluttua gilaliskonaaras kaivaa ennen munintaa noin kymmenen sentin syvyisen kuopan kosteaan hiekkaan lähelle pensaita, jotta munat olisivat suojassa auringonpaisteelta. Useimmiten lähellä on jokin juomapaikka. Naaras munii kerralla korkeintaan 13 munaa. Munat ovat ohutkuorisia ja 3,5–7 sentin pituisia. Munittuaan naaras peittää munat hiekalla. Poikaset kuoriutuvat noin kuukauden kuluttua muninnasta. Ne ovat kuoriutuessaan 10 sentin pituisia ja muistuttavat aikuisia. Poikaset lähtevät heti pesältä ja alkavat etsiä ravintoa. Muutamassa vuodessa ne kasvavat täyteen kokoonsa. Gilaliskot elävät erakkoina. Gilalisko elää luonnossa noin 20 vuotta, vankeudessa jopa 40 vuotta.

Gila monster.jpg

Uhat ja suojelu

Gilaliskojen määrä on jatkuvasti pienentynyt, koska sen elinalueita katoaa puuvillapeltojen, laitumien, vihannesviljelmien ja asutuksen tieltä. Gilaliskoa uhkaa myös pyynti sen erikoisen ulkonäön takia, ja sitä pyydetään lemmikiksi usein laittomasti ja kuljetetaan ulkomaille. Laji lisääntyy vankeudessa huonosti, joten on tärkeää, että luonnossa säilyy elinvoimainen kanta. Laji on vaarantunut.

Viittaukset populaarikulttuurissa

Gilaliskon käyttö ihmistä kuvaavana sanana sai suosionsa Rupaul’s Drag Race All Stars -tositelevisiosarjasta.

Simo Penttilä käyttää gilaliskoa erään rikollisen peitenimenä samannimisessä Punavyö-sarjan kirjassaan.

Lähteet

  • Koivisto, I.; Terhivuo, J.; Pakarinen, R. & Paalosmaa, H.: Maailman uhanalaiset eläimet – Osa 5: Matelijat, sammakkoeläimet, linnut. Weilin + Göös, 1993. ISBN 951-35-4690-X.
  • Lahti, S.; Heikkilä, M. & Viitanen, J. (toim.): Zoo Suuri eläinkirja Osa 5: Kalat, sammakkoeläimet, matelijat. WSOY, 1980. ISBN 951-0-08250-3.

Viitteet

  1. Hammerson, G.A., Frost, D.R. & Gadsden, H.: Heloderma suspectum IUCN Red List of Threatened Species. Version 2014.1. 2007. International Union for Conservation of Nature, IUCN, Iucnredlist.org. Viitattu 25.6.2014. (englanniksi)
  2. Palmén, Ernst & Nurminen, Matti (toim.): Eläinten maailma, Otavan iso eläintietosanakirja. 1. Aarnikotka–Iibikset, s. 253. Helsinki: Otava, 1974. ISBN 951-1-01065-4.
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Gilalisko: Brief Summary ( Finnish )

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Gilalisko eli gilahirviö (Heloderma suspectum) on Yhdysvaltain lounaisosien ja Meksikon luoteisosien Sonoran aavikolla elävä myrkyllinen lisko. Gilalisko liikkuu kömpelösti, mutta puree kivuliaasti. Lisko tarraa tukevat leukansa saaliseläimeen ja valuttaa haavaan myrkyllistä sylkeä, myrkky valmistuu kahdessa alaleuan takaosan rauhasessa. Gilalisko rusentaa saaliinsa vahvoilla lihaksikkailla leuoillaan, joissa on pitkät ja terävät hampaat, lopuksi se ahmaisee murskaamansa ja lamauttamansa uhrin pää edellä sisuksiinsa. Gilaliskon häntä toimii rasvavarastona. Kylmillä säillä gilalisko lepäilee ja paastoaa, jolloin se ylläpitää elintoimintojaan häntänsä rasvaa kuluttamalla.

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Monstre de Gila ( French )

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Heloderma suspectum

Heloderma suspectum, le Monstre de Gila, est une espèce de sauriens venimeux de la famille des Helodermatidae[1]. C'est un lézard lent, d'aspect massif, pouvant atteindre 60 cm. C'est le seul lézard venimeux connu d'Amérique du Nord avec son proche cousin Heloderma horridum[2]. Bien qu'il soit venimeux son caractère tranquille voire passif fait qu'il est peu dangereux pour les humains. Il a toutefois mauvaise réputation et est parfois tué pour cette raison bien qu'il soit protégé en Arizona[3].

Distribution et habitat

Cette espèce se rencontre en Californie, au Nevada, en Utah, en Arizona et au Nouveau-Mexique aux États-Unis[4].

Ce lézard vit dans des zones assez arides comme les garrigues, déserts, forêts de chênes, se cachant dans des terriers, fourrés ou sous des rochers, de préférence proches de zones plus humides[5]. Il semble en effet apprécier l'eau et peut être observé se plongeant dans les flaques après une pluie d'été[6]. Il évite de s'aventurer dans les espaces découverts comme les terres cultivées[7].

Description

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Heloderma suspectum
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Heloderma suspectum

C'est l'un des rares lézards venimeux du monde, et un des deux seuls d'Amérique.

Sa taille atteint 60 centimètres. La couleur de sa peau peut être noire, rose, orange ou jaune, en général avec un fond noir moucheté de couleur, les taches s'organisant parfois en bandes transversales.

Alimentation

Le monstre de Gila se nourrit de grenouilles, d'insectes, de souris, de lapins et de charognes et d'œufs[8]. Il a la capacité de ne se nourrir que cinq à dix fois par an[9], et garde en réserve les graisses nécessaires pour l'hiver dans sa queue. Mais lorsqu'il se nourrit il peut avaler jusqu'à un tiers de son poids[10].

Il utilise son sens très développé de l'odorat pour localiser ses proies − en particulier les œufs − et est capable de localiser un œuf de poule enterré à 15 cm de profondeur et de suivre la trace d'un œuf déplacé[11].

Les proies sont tuées par mastication si elles sont grosses ou avalées vivantes sinon. Il est capable d'escalader des arbres et des cactus pour chercher des œufs et des petits dans leurs nids[12].

Comportement

Le Monstre de Gila sort d'hibernation en janvier ou février. La reproduction a lieu en mai-juin. À l'approche de la saison des amours les mâles se combattent en se poussant et se frappant des pattes, jusqu'à ce que l'un d'entre eux prenne le dessus sur l'autre[13]. Le mâle cherche une femelle à l'odeur. Si elle est réceptive, la copulation peut durer de 15 minutes à deux heures et demie. La femelle pond en juillet-août de 2 à 12 œufs (5 en moyenne) qu'elle enterre dans le sable. L'incubation dure environ 9 mois, les petits naissant d'avril à juin de l'année suivante[14]. Ils mesurent environ 16 cm à la naissance et produisent du venin dès leur sortie. Les jeunes atteignent la maturité sexuelle entre 3 et 5 ans.

Bien qu'il ait un faible métabolisme et une vitesse de course les plus faibles chez les reptiles il possède une grande capacité aérobie − en particulier chez les mâles − probablement parce que c'est un avantage lors des combats pour la reproduction[15].

Le Monstre de Gila peut vivre jusqu'à 20 ans dans la nature et 30 ans en captivité[16].

Venin

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Un monstre de Gila au zoo de Bristol à Bristol, Royaume-Uni. Photographie prise en mai 2005.
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Animaux venimeux et venins, 1922.
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Heloderma suspectum à la ménagerie du jardin des plantes de Paris
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Heloderma suspectum à la ménagerie du jardin des plantes de Paris

Cette espèce produit du venin, bien qu'elle soit moins venimeuse que son cousin le lézard perlé (Heloderma horridum). La morsure du monstre de Gila n'est normalement pas mortelle pour l'homme, mais il est difficile de lui faire lâcher prise quand il a mordu, ses dents étant légèrement recourbées vers l'arrière.

Production du venin

Le monstre de Gila produit son venin dans des glandes salivaires modifiées situées dans la mâchoire inférieure − contrairement aux serpents dont le venin vient de la mâchoire supérieure. Il ne possède aucun mécanisme permettant d'injecter ce venin et ce dernier est envoyé sur les dents par la mastication et passe à sa victime lors d'une morsure par simple capillarité. Certaines observations montrent que cette espèce se retourne lors d'une morsure, probablement pour faciliter l'écoulement du venin dans la plaie. Les dents sont faiblement attachées et peuvent tomber facilement, mais elles sont remplacées par de nouvelles tout au long de la vie de l'animal. Les proies du Monstre de Gila étant de petits animaux ne pouvant se défendre, son venin est supposé avoir évolué pour la défense plutôt que pour la chasse, ce que corrobore la coloration d'avertissement.

Toxicité

Bien que son venin soit un neurotoxique aussi puissant que celui du serpent corail, cette espèce en produit peu. La morsure d'un Monstre de Gila est habituellement non fatale à un homme adulte, aucun décès à la suite d'une morsure n'a été confirmé depuis 1939, et ceux qui ont précédé sont douteux de par les traitements « primitifs » appliqués aux victimes. Le Monstre de Gila peut mordre rapidement − en particulier grâce à une rotation rapide de la tête − et maintient avec vigueur sa morsure douloureuse. En cas de morsure la victime peut être amenée à plonger ce lézard dans l'eau pour le forcer à lâcher tant il est tenace. Les symptômes d'une morsure incluent une forte douleur, un œdème et une faiblesse associée à une rapide baisse de la pression sanguine.

Molécules liées au venin

Plus d'une douzaine de peptides et protéines ont été isolées à partir du venin du Monstre de Gila, incluant hyaluronidase, sérotonine et phospholipase ainsi que plusieurs kallicréines comme les glycoprotéines, responsables de la douleur et de l'œdème liés au venin.

En 2005 la Food and Drug Administration (États-Unis) a approuvé un médicament (commercialisé depuis 2005) contre le diabète de type 2 basé sur l'exénatide-4 dérivé de la salive du Monstre de Gila[17],[18], cette protéine étant proche d'une hormone humaine servant à réguler l'insuline et le glucagon, et réduit de plus l'appétit, contribuant à une perte de poids[19].

D'autres composés présents dans la salive de cette espèce sont à l'étude. L'un d'entre eux agit sur la mémoire et pourrait fournir des médicaments susceptibles d'aider les patients souffrant de la maladie d'Alzheimer, de schizophrénie ou de TDA.

Liste des sous-espèces

Selon Reptarium Reptile Database (9 août 2013)[20] :

Protection

Le monstre de Gila est une espèce considérée comme quasi menacée par l'UICN[3] et elle est protégée par la loi de l'État de l'Arizona.

Il apparaît dans l'Appendix II de CITES[21].

Étymologie

Le nom de Monstre de Gila est une référence à la rivière Gila, qui traverse en particulier l'Arizona. L'épithète spécifique, suspectum, a été donné par Cope car, lors de sa découverte en 1869, celui-ci suspectait seulement qu'il soit venimeux[1]. Le nom de ce genre, Heloderma vient du grec hêlos, la tête d'un clou, et du latin derma, la peau, et signifie « à la peau cloutée » en référence aux écailles particulières de cet animal.

Publications originales

  • Bogert & Martín del Campo, 1956 : The gila monster and its allies. Bulletin of the American Museum of Natural History, vol. 109, n. 1, p. 1-238 (texte intégral).
  • Cope, 1869 : Protocol of the March 9, 1869 meeting. Proceedings of the Academy of Natural Sciences of Philadelphia, vol. 21, p. 5 (texte intégral).

Notes et références

  1. a et b (en) Référence Reptarium Reptile Database : Heloderma suspectum
  2. (en) Bryan G. Fry et al., « Early evolution of the venom system in lizards and snakes. », Nature, vol. 439, no 7076,‎ février 2006, p. 584-588 (PMID , DOI , lire en ligne)
  3. a et b UICN, consulté le 26 mai 2015
  4. Reptarium Reptile Database, consulté lors d'une mise à jour du lien externe
  5. Robert Stebbins, Western Reptiles and Amphibians, New York, Houghton Mifflin, 2003 (ISBN 0-395-98272-3), p. 338-339, 537
  6. (en) Endangered Wildlife and Plants of the World, Londres, Marshall Cavendish, 2001, 1872 p. (ISBN 0-7614-7199-5, lire en ligne), p. 629–630
  7. (en) Parc zoologique national de Washington, « Gila Monster Fact Sheet » (consulté le 6 juin 2008)
  8. Don W Wilson et David Burnie, Animal, Londres, DK, 2001, 419 p. (ISBN 0-7894-7764-5)
  9. (en) « Meet Our Animals: Gila monster », Zoo de Philadelphie (consulté le 20 septembre 2008)
  10. (en) C.M. Christel, D.FF. DeNardo et S.M. Secor, « Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum) », J. Exp. Biol., vol. 210, no 19,‎ octobre 2007, p. 3430-9 (PMID , DOI )
  11. (en) Chris Mattison, Lizards of the World, Londres, Blandford, 1998 (ISBN 0-7137-2357-2)
  12. John Netherton et David P. Badger, Lizards : A Natural History of Some Uncommon Creatures, Extraordinary Chameleons, Iguanas, Geckos, and More, Stillwater, MN, Voyageur Press, 2002 (ISBN 0-7603-2579-0)
  13. (en) D.D. Beck, « Ecology and behavior of the Gila monster in southwestern Utah », Journal of Herpetology, Society for the Study of Amphibians and Reptiles, vol. 24, no 1,‎ 1990, p. 54–68 (DOI , JSTOR )
  14. Mark Seward, Dr. Mark Seward's Gila monster Propagation : How To Breed Gila monsters in Captivity, Natural Selections Publishing, 2002, 80 p. (ISBN 0-9701395-0-0)
  15. (en) D.D. Beck, M.R. Dohm, T. Garland, Jr., A. Ramirez-Bautista et C.H. Lowe, « Evolutionary physiology », Copeia, vol. 1995, no 3,‎ 1985, p. 577-585 (DOI )
  16. « San Diego Zoo's Animal Bytes: Gila Monster », Zoo de San Diego (consulté le 19 mai 2008)
  17. Christel, DeNardo & Secor, 2007 : Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum). The Journal of Experimental Biology, vol. 210, p. 3430–3439 (texte intégral).
  18. (en) Aaron Bond, « Exenatide (Byetta) as a novel treatment option for type 2 diabetes mellitus », Baylor University Medical Center Proceedings, vol. 19, no 3,‎ juillet 2006, p. 281-4 (PMID , PMCID )
  19. (en) « Drug Derived From Gila Monster Saliva Helps Diabetics Control Glucose, Lose Weight », Science Daily,‎ 12 juillet 2007 (lire en ligne)
  20. Reptarium Reptile Database, consulté le 9 août 2013
  21. (fr+en) Référence CITES : espèce Heloderma suspectum Cope, 1869 (+ répartition) (sur le site de l’UNEP-WCMC)
  • (en) Cet article est partiellement ou en totalité issu de l’article de Wikipédia en anglais intitulé .
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Monstre de Gila: Brief Summary ( French )

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Heloderma suspectum

Heloderma suspectum, le Monstre de Gila, est une espèce de sauriens venimeux de la famille des Helodermatidae. C'est un lézard lent, d'aspect massif, pouvant atteindre 60 cm. C'est le seul lézard venimeux connu d'Amérique du Nord avec son proche cousin Heloderma horridum. Bien qu'il soit venimeux son caractère tranquille voire passif fait qu'il est peu dangereux pour les humains. Il a toutefois mauvaise réputation et est parfois tué pour cette raison bien qu'il soit protégé en Arizona.

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Ollphéist Gila ( Irish )

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Laghairt Mheiriceánach, an t-aon laghairt nimhiúil, bíodh is gur annamh a greim a bheith marfach. Suas le 60 cm ar fhad, dorcha le breacra buí, na lanna cosúil le coirníní, an soc maol, an t-eireaball ramhar. Itheann sí uibheacha is veirteabraigh bheaga.

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Tá an t-alt seo bunaithe ar ábhar as Fréamh an Eolais, ciclipéid eolaíochta agus teicneolaíochta leis an Ollamh Matthew Hussey, foilsithe ag Coiscéim sa bhliain 2011. Tá comhluadar na Vicipéide go mór faoi chomaoin acu beirt as ucht cead a thabhairt an t-ábhar ón leabhar a roinnt linn go léir.
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Is síol é an t-alt seo. Cuir leis, chun cuidiú leis an Vicipéid.
Má tá alt níos forbartha le fáil i dteanga eile, is féidir leat aistriúchán Gaeilge a dhéanamh.


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Heloderma suspectum ( Galician )

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Monstro do Xila.

Heloderma suspectum, xeralmente coñecido como monstro do Xila ou de Xila (polo río Xila), é unha especie de réptil varanoideo velenoso nativo do suroeste de Estados Unidos e o noroeste do estado mexicano de Sonora. Trátase dun réptil con aspecto de pesado lagarto de lentos movementos de ata case 60 cm de longo, que é un dos dous únicos lagartos velenosos nativos de Norteamérica (o outro é a especie mexicana do mesmo xénero Heloderma horridum).[2] Aínda que é velenoso, a súa natureza lenta e pouco activa fai que supoña un escaso perigo para os humanos. Porén, adquiriu unha sona de temible e ás veces mátano malia estar protexido pola lei estatal en Arizona.[1][3]

Etimoloxía

O nome "Xila" fai referencia á cunca do río Xila (Gila) que discorre en Estados Unidos polos estados de Novo México e Arizona, onde antes este animal era moi abondoso.[4] Heloderma significa "pel chatolada", do antigo grego helos (ἧλος), 'cabeza de cravo ou chatola', e derma (δέρμα), 'pel'. Suspectum, 'sospeitoso' en latín, púxollo o seu descubridor o paleontólogo Edward Drinker Cope, porque sospeitaba que esta animal podería ser velenoso debido ás canles dos seus dentes.[5]

Descrición e taxonomía

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Placa da Century Cyclopedia que mostra o H. suspectum.

Esta especie é o lagarto nativo existente máis grande de Norteamérica despois dalgunhas iguanas (por exemplo, a iguana verde), e do extremo do fociño ao ano mide de 26 a 36 cm. A cola é un 20% do tamaño total do corpo e os espécimes máis grandes poden chegar a uns 51 a 56 de lonxitude total. A masa corporal está normalmente entre 350 e 700 g, e nunha medición de 11 machos pesaban unha media de 468 g. Os espécimes máis pesados e grandes dos que se informou chegaban aos 2 300 g.[6][7][8]

H. suspectum ten un parente próximo vivo, que é H. horridum, e moitos parentes extintos da familia Helodermatidae, cuxa historia evolutiva remóntase ao Cretáceo. O xénero Heloderma existe desde o Mioceno, cando vivía H. texana, e encontráronse depósitos de fragmentos de osteodermos do monstro do Xila do Plistoceno tardío (hai 10 000–8 000 anos) preto de Las Vegas, Nevada. Como os helodermátidos permaneceron case sen cambiar morfoloxicacmente, ás veces considéranse fósiles viventes.[5] Aínda que o monstro do Xila parece estar estreitamente emparentado cos lagartos monitor (varánidos) de África, Asia e Australia, a súa distante separación xeográfica e as súas caracterísitcas únicas, que non se encontran nos varánidos, indican que é mellor clasificalo nunha familia distinta, a dos holodermátidos.[9]

Distribución e hábitat

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Cabeza con escamas con forma de doas e fortes patas anteriores e garras axeitadas para cavar.

Vive no suroeste de Estados Unidos e norte de México, nunha área que abrangue Sonora, Arizona, partes de California, Nevada, Utah e Novo México (potencialmente tamén en Baixa California). Habita en áreas de mato, desertos de plantas suculentas, e bosques de carballos, onde procura abrigarse en tobeiras, matorrais e baixo rochas en sitios con fácil acceso á humidade.[10] De feito, parece gustarlles a auga e mergúllanse nas pozas de auga formadas despois das tormentas de verán.[11] Evitan vivir en áreas abertas como chairas e terras de labor.[12]

Ecoloxía

Pasan a maior parte do tempo baixo terra en tobeiras ou refuxios rochosos. Están activos pola mañá durante a estación seca (primavera e principio do verán); posteriormente no verán, poden ser activos nas noites cálidas ou despois dunha tormenta eléctrica. Manteñen unha temperatura corporal de 30 °C.[13] Son lentos correndo, pero teñen unha resistencia e capcidade aeróbica máxima grandes (VO2 max) para un lagarto.[14] Son depredados por coiotes e aves rapaces.

Dieta

Aliméntase de pequenos paxaros, mamíferos, ras, lagartos, insectos, e prea.[15] Os seus alimentos máis comúns son ovos de paxaros e réptiles, e só ten que comer poucas veces ao ano na natureza (de 5 a 10 veces ao ano),[16] pero as veces que se alimenta pode comer o equivalente a un terzo da súa masa corporal.[6] Usa o seu extremadamente agudo sentido do olfacto para localizar presas, especialmente ovos. O seu olfacto é tan sensible que pode localizar e desenterrar ovos de galiña enterrados a 15 cm de profundidade e pode seguir perfectamente o traxecto que seguiu un ovo rodante.[9]

Pode esmagar as presas ata que morren se son grandes ou trágaas vivas se son pequenas, empezando pola cabeza e axudándose de contraccións musculares e flexións do pescozo. Despois de que tragou a comida, reinicia inmediatamente o seu comportamento de busca de máis comida sacando e metendo rapidamente a lingua, probablemente como resultado dunha historia de encontrar varias presas agrupadas como adoitan estar os ovos ou a rolada de pitos dun niño.[13] Teñen a capacidade de trepar ás árbores e cactos na procura de ovos.[17]

Veleno

Producen veleno en glándulas salivares modificadas da súa mandíbula inferior, o que os diferenza das serpes, cuxo veleno se produce na mandíbula superior.[15] Non obstante, carecen de musculatura para inxectar a presión o veleno, xa que este é impulsado desde a glándula ao dente cando o animal morde, e debido a unha acción capilar leva o veleno desde o dente á súa vítima.[5] Os dentes están feblemente fixados á mandíbula, polo que se lle rompen e desprenden ao longo da vida e son substituídos por outros. Observouse que se dan a volta cando están mordendo a súa vítima, presumiblemente para axudar a que o fluxo de veleno pase máis facilmente á ferida. Como as súas presas consisten principalmene en ovos, pequenos animais e outras presas bastante "indefensas", o veleno deste réptil crese que evolucionou para a súa defensa máis que para usalo na caza. Un uso defensivo explicaría tamén a brillante coloración de advertencia que ten este animal.[9]

Toxicidade

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Un monstro do Xila reticulado (H. s. suspectum).

Aínda que o seu veleno é unha neurotoxina tan tóxica coma a da serpe coral, H. suspectum produce só pequenas cantidades.[12] A súa mordedura non é mortal para un adulto humano con boa saúde.[18] Non hai informes de falecementos confirmados desde 1939 e os informes anteriores non sempre son exactos. Poden morder bastante rapidamente (especialmente movendo a súa cabeza a un lado) e manter a sús dolorosa trabada moito tempo tenazmente.[13] Se unha vítima sofre unha mordedura pode ter que mergullar totalmente ao lagarto atacante en auga para liberarse da trabada. Síntomas da mordedura son dor moi intensa, edema e debilidade asociada cunha rápida baixada da presión sanguínea.

Illáronse do veleno de H. suspectum máis dunha ducia de péptidos e outras substancias, incluíndo a hialuronidase, serotonina, fosfolipase A2 e varias glicoproteínas do tipo da calicreína responsables da dor e o edema causdos pola mordedura. Illáronse catro toxinas potencialmente letais do seu veleno, entre as que está o veleno horridum,que causa hemorraxias en órganos internos e exoftalmos (avultamento dos ollos),[19] e helotermina, que causa atonía, parálise parcial das extremidades e hipotermia en ratas. A maioría son similares en forma ao péptido intestinal vasoactivo (VIP), que relaxa o músculo liso e regula a absorción de auga e as secrecións de electrólitos nos intestinos delgado e groso. Estes péptidos bioactivos son capaces de unirse aos receptores do VIP en moitos tecidos humanos. Un deles, a helodermina, viuse que inhibe o crecemento do cancro de pulmón.[5][20][21]

Os constituíntes do seu veleno que recibiron máis atención dos investigadores son, precisamente, os péptidos bioactivos, como a helodermina, helospectina, exendina-3 e exendina-4.[22] A exendina-4 converteuse na base dun tipo de medicamentos para tratar a diabetes tipo 2, coñecidos como agonistas do péptido-1 similares ao glicagón. A exenatida foi o primeiro produto desta clase que chegou ao mercado en 2005.

Investigación de fármacos

En 2005, a Food and Drug Administration (FDA) de EUA aprobou o fármaco exenatida (exenatide) (comercializada como Byetta) para o tratamento da diabetes de tipo 2. É unha versión sintética dunha proteína, a exendina-4, derivada da saliva do H. suspectum.[23] Nun estudo que durou tres anos de pacientes de diabetes de tipo 2, a exenatida orixinou niveis saudables sostidos de glicosa e unha progresiva perda de peso. A efectividade débese a que a proteína deste animal é idéntica en aproximadamente un 50% ao análogo do péptido 1 similar ao glicagón (GLP-1), unha hormona liberada polo tracto dixestivo humano que axuda a regular a insulina e o glicagón. A proteína do animal mantén a súa efectividade moito máis tempo que a hormona humana, o que axuda aos diabéticos a manter os seus niveis de azucre sanguíneos baixo control. A exenatida fai máis lento o baleiramento do estómago e causa unha diminución do apetito, contribuíndo á perda de peso.[24] A saliva de H. suspectum contén moitos compostos químicos que poden ser mortais. Un deles viuse que afecta á memoria. Varias compañías estiveron investigando as capacidades deste composto para axudar en casos de perda de memoria debida a varias doenzas como o alzhéimer, esquizofrenia e trastorno por déficit de atención con hiperactividade. A xilatida (gilatide), derivada da exendina-4, tamén aumenta moito a memoria segundo un estudo feito en ratos, e probablemente será estudada nun futuro como posible tratamento do alzhéimer.

Vida e comportamento

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Un mostro do Xila no zoo de Bristol.

H. suspectum sae da hibernación en xaneiro ou febreiro e aparéase en maio e xuño.[15] O macho inicia o cortexo rastreando os cheiros da femia coa súa lingua. Se a encontra e a femia rexeita os seus avances, ela mórdeo e vaise. Cando o apareamento é exitoso, a copulación dura de 15 minutos a dúas horas e media. A femia pon ovos en xullo ou agosto, enterrándoos na area a uns 13 cm de profundidade. A deitada de ovos consta de 12 ovos; a media son 5.[10] A incubación dura nove meses, xa que as crías saen de abril a xuño do seguinte ano.[25] As crías saídas do ovo teñen unha lonxitude duns 16 cm e poden morder e inxectar veleno desde o primeiro momento. Os individuos xuvenís normalmente teñen bandas máis grandes de escamas rosas que os adultos, aínda que o monstro do Xila bandeado (H. s. cinctum) ten unha tendencia a conservar ese patrón de bandas. H. suspectum madura sexualmente entre os tres e cinco anos de idade. Despois de poñer os ovos, os adultos pasan gradualmente menos tempo sobre a superficie para evitar a parte máis cálida do verán (aínda que poden ser activos ao serán), e finalmente empezan a súa hibernación contra novembro.[9]

Sábese pouco sobre o comportamento social de H. suspectum, pero observouse que realizan combates entre machos, nos cales o macho dominante sobe enriba do subordinado e suxéitao coas catro patas. Ambos os animais arquean o corpo, empurándose e retorcéndose nun esforzo por colocarse unha posición dominante. Este combate de loita libre finaliza cando a presión exercida os forza a separarse, aínda que os combates poden repetirse unha e outra vez. Os combates ocorren normalmente antes da estación de apareamento. Os que son máis fortes e resistentes crese que gañan máis a miúdo e teñen un éxito reprodutor maior.[26] Aínda que estes réptiles teñen un baixo metabolismo e unha das menores velocidades en carreira rápida, teñen un dos valores maiores de alcance aeróbico (aerobic scope, o incremento no consumo do oxíxeno desde o repouso ao esforzo metabólico máximo) entre os lagartos, o que lles permite realizar unha actividade aeróbica intensa durante un período de tempo sostido. Os machos teñen alcances aeróbicos máis altos que as femias, probablemente porque a selección sexual para un trazo xenético vantaxoso en combate prolongado.[14] H. suspectum poden vivir 20 anos na natureza e 30 en catividade.[27]

Status de conservación

O aumento das zonas urbanizadas e a destrución do hábitat afectaron adversamente ás poboacións desta especie. En 1952 converteuse no primeiro animal velenoso ao que se lle deu protección legal en EUA.[11][28][29] A especie está na lista da IUCN como case ameazada.[1] En 1963, o zoo de San Diego foi o primeiro zoo en conseguir que se reproducisen en catividade os monstros do Xila.[27]

Relacións cos humanos

Aínda que H. suspectum é velenoso, os seus lentos movementos fan que teña un escaso perigo para os humanos. Porén, gañou unha reputación de ser temible e a miúdo as persoas mátano por medo. Entre as tribos indias nativas de América, este animal ten unha sona mixta. Os apaches crían que o seu alento podería matar un home, e os tohono O'odham e o pobo pima crían que posuía un poder espiritual que podía causar enfermidades. En contraste, o pobo seri e o yaqui crían que a pel deste animal tiña propiedades curativas.[12]

O mostro do Xila apareceu en películas como The Giant Gila Monster[30], The Treasure of the Sierra Madre e Rango.[31].

No Vello Oeste americano os pioneiros crían en varios mitos sobre o monstro de Xila, como que o lagarto tiña alento fétido ou tóxico e que a súa mordedura era mortal.[18]

No século XIX un dos primeiros en estudar cientificamente os efectos reais do veleno, moi esaxerados naquela época, foi o Dr. George Goodfellow de Tombstone, que publicou artigos en Scientific American e o Southern California Practitioner.[32], e mesmo fixo que un monstro o mordese para estudar en si mesmo os efectos.[18]

Galería

  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg
  • Gila monster2.JPG
  • src=

    Monstro do Xila de Arizona.

  • src=

    Ilustración en Animaux venimeux et venins, 1922

Notas

  1. 1,0 1,1 1,2 "2007 IUCN Red List – Search". Iucnredlist.org. Consultado o 2008-09-19.
  2. Fry, Bryan G.; et al. (February 2006). "Early evolution of the venom system in lizards and snakes". Nature 439 (7076): 584–588. PMID 16292255. doi:10.1038/nature04328. Consultado o 2008-05-14.
  3. Sistema Integrado de Información Taxonómica. "'Heloderma suspectum' (TSN 174113)" (en inglés).
  4. "Online Etymology Dictionary". Consultado o 2008-06-10.
  5. 5,0 5,1 5,2 5,3 King, Ruth Allen; Pianka, Eric R.; King, Dennis (2004). Varanoid Lizards of the World. Bloomington: Indiana University Press. ISBN 0-253-34366-6.
  6. 6,0 6,1 Christel CM, DeNardo DF, Secor SM (October 2007). "Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum)". Journal of Experimental Biology 210: 3430–9. PMID 17872997. doi:10.1242/jeb.004820.
  7. Davis, Jon R.; DeNardo, Dale F. (2010). "Seasonal patterns of body condition, hydration state, and activity of Gila monsters (Heloderma suspectum) at a Sonoran Desert site". Journal of Herpetology 44 (1): 83–93. doi:10.1670/08-263.1.
  8. Beck, D. D. (2005). Biology of Gila monsters and beaded lizards (Vol. 9). University of California Press.
  9. 9,0 9,1 9,2 9,3 Mattison, Chris (1998). Lizards of the World. London: Blandford. ISBN 0-7137-2357-2.
  10. 10,0 10,1 Stebbins, Robert (2003). Western Reptiles and Amphibians. Nova York: Houghton Mifflin. pp. 338–339, 537. ISBN 0-395-98272-3.
  11. 11,0 11,1 Endangered Wildlife and Plants of the World. London: Marshall Cavendish. 2001. pp. 629–630. ISBN 0-7614-7199-5.
  12. 12,0 12,1 12,2 "Gila Monster Fact Sheet". National Zoological Park. Arquivado dende o orixinal o 30 de maio de 2008. Consultado o 2008-06-06.
  13. 13,0 13,1 13,2 Greene, Harry L.; Pianka, Eric R.; Vitt, Laurie J. (2003). Lizards: Windows to the Evolution of Diversity. Berkeley: University of California Press. ISBN 0-520-23401-4.
  14. 14,0 14,1 Beck, D. D.; M. R. Dohm; T. Garland, Jr.; A. Ramirez-Bautista; C. H. Lowe (1985). "Locomotor performance and activity energetics of helodermatid lizards". Copeia 1995 (3): 577–585. doi:10.2307/1446755.
  15. 15,0 15,1 15,2 Wilson, Don W.; Burnie, David (2001). Animal. London: DK. p. 419. ISBN 0-7894-7764-5.
  16. "Meet Our Animals: Gila monster". Philadelphia Zoo. Consultado o 2008-09-20.
  17. Netherton, John; Badger, David P. (2002). Lizards: A Natural History of Some Uncommon Creatures, Extraordinary Chameleons, Iguanas, Geckos, and More. Stillwater, MN: Voyageur Press. ISBN 0-7603-2579-0.
  18. 18,0 18,1 18,2 Lapidus, Richard (3 de xuño de 2011). "The Gila Monster Had a Killer Reputation". Wild West Magazine. Consultado o 10 de marszo de 2013. Aínda que a mordedura do monstro do Xila é extremadamente dolorosa, ningunha tivo como resultado unha morte verificable dunha persoa sa.
  19. POISINDEX(R) TOXICOLOGIC MANAGEMENTS: Topic: GILA MONSTER (HELODERMA SUSPECTUM)
  20. Maruno K, Said SI (1993). "Small-cell lung carcinoma: inhibition of proliferation by vasoactive intestinal peptide and helodermin and enhancement of inhibition by anti-bombesin antibody". Life Sciences 52 (24): PL267–71. PMID 8389407. doi:10.1016/0024-3205(93)90640-O.
  21. Clarke, Toni. "Gila Monster Spit May Yield Alzheimer's Drug". Consultado o 2011-05-29.
  22. Aird SD (June 2008). "Nucleoside composition of Heloderma venoms". Comp. Biochem. Physiol. B, Biochem. Mol. Biol. 150 (2): 183–6. PMID 18430599. doi:10.1016/j.cbpb.2008.02.012.
  23. Bond, Aaron (July 2006). "Exenatide (Byetta) as a novel treatment option for type 2 diabetes mellitus". Baylor University Medical Center Proceedings 19 (3): 281–4. PMC 1484540. PMID 17252050.
  24. "Drug Derived From Gila Monster Saliva Helps Diabetics Control Glucose, Lose Weight". Science Daily. 2007-07-12.
  25. Seward, Mark (2002). Dr. Mark Seward's Gila monster Propagation: How To Breed Gila monsters in Captivity. Natural Selections Publishing. p. 80. ISBN 0-9701395-0-0.
  26. Beck, D.D. (1990). "Ecology and behavior of the Gila monster in southwestern Utah". Journal of Herpetology (Society for the Study of Amphibians and Reptiles) 24 (1): 54–68. JSTOR 1564290. doi:10.2307/1564290.
  27. 27,0 27,1 "San Diego Zoo's Animal Bytes: Gila Monster". San Diego Zoo. Consultado o 2008-05-19.
  28. "Gila Monster – Heloderma suspectum". Sedgwick County Zoo. Arquivado dende o orixinal o 06 de abril de 2008. Consultado o 2008-06-09.
  29. Brennan, Thomas C. "Reptiles of Arizona – Gila Monster (Heloderma suspectum)". Consultado o 2008-06-10.
  30. Gila Monsters And Beaded Lizards
  31. Coyle, Jake (March 4, 2011). "Movie review: 'Rango'". Associated Press via NorthJersey.com. Arquivado dende o orixinal o 18 de outubro de 2012. Consultado o 02 de decembro de 2016.
  32. Allen, Paul L. (June 2, 1999). "1800s doc helped get the lead out". Tucson Citizen. Tucson (Arizona). Arquivado dende o orixinal o 12/04/2013. Consultado o 9 March 2013.

Bibliografía

  • Beck, Daniel D. (2005). Biology of Gila Monsters and Beaded Lizards. Berkeley: University of California Press. ISBN 0-520-24357-9.
  • Bogert, Charles M.; Rafael Martin del Campo (1956). The Gila Monster and its allies: the relationships, habits, and behavior of the lizards of the Family Helodermatidae. Nova York: Bull. Amer. Mus. Natur. Hist. 109:1–238. p. 238. Online .pdf
  • Capula, Massimo; Behler (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. Nova York: Simon & Schuster. ISBN 0-671-69098-1.
  • Carmony, Neil B.; Brown, David (1991). Gila Monster: Facts and Folklore of America's Aztec Lizard. Silver City, NM: High-Lonesome Books. ISBN 0-944383-18-1.
  • Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0-8317-2786-1.
  • Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. Nova York: Macmillan. p. 321.
  • Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. Nova Jersey: TFH Publications. ISBN 0-87666-567-9.
  • Roever, J. M.; Hiser, Iona Seibert (1972). The Gila Monster. Austin, Tex: Steck-Vaughn Co. ISBN 0-8114-7739-8.
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Heloderma suspectum: Brief Summary ( Galician )

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Monstro do Xila.

Heloderma suspectum, xeralmente coñecido como monstro do Xila ou de Xila (polo río Xila), é unha especie de réptil varanoideo velenoso nativo do suroeste de Estados Unidos e o noroeste do estado mexicano de Sonora. Trátase dun réptil con aspecto de pesado lagarto de lentos movementos de ata case 60 cm de longo, que é un dos dous únicos lagartos velenosos nativos de Norteamérica (o outro é a especie mexicana do mesmo xénero Heloderma horridum). Aínda que é velenoso, a súa natureza lenta e pouco activa fai que supoña un escaso perigo para os humanos. Porén, adquiriu unha sona de temible e ás veces mátano malia estar protexido pola lei estatal en Arizona.

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Monster gila ( Indonesian )

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Monster gila (pengucapan: /ˈhiːlə/, HEE-la), Heloderma suspectum, adalah kadal jenis keluarga varan. Kulitnya tebal, ekornya pendek, dan tubuhnya gemuk. Monster gila memiliki ekor yang gemuk dan berisi lemak yang menjadi cadangan makanan. Monster gila juga dapat dikenali dari motif gelang-gelang kuning atau jingga. Berbeda dengan sebagian besar kadal lainnya, monster gila memiliki pupil berbentuk bundar. Monster Gila hidup di balik batu atau di dalam tanah untuk menghindari terik matahari dan udara yang sangat panas, karena monster gila hidup di gurun pasir. Monster gila tergolong kadal yang sangat beracun. Kelenjar racunnya terletak di rahang. Racun itu digunakan saat monster gila akan mengigit mangsa seperti halnya komodo. Untuk mencium bau mangsanya, monster gila menggunakan lidahnya.

Habitat

Monster gila hidup di gurun dan gersang di bagian barat daya Amerika Serikat dan Utara Meksiko.

Pola makan

Makanan

Monster gila adalah karnivora yang memangsa vertebrata kecil seperti pengerat dan burung. Monster gila juga memakan telur reptilia lainnya dan telur burung.

Ancaman dan perlindungan

Monster gila tidak memiliki musuh secara alamiah. tetapi terancam oleh manusia karena sering diawetkan untuk koleksi, ditangkap dan diambil kulitnya untuk tas, dompet, dll. Monster gila terancam punah dan sangat dilindungi.

Hibernasi

Beberapa Bulan sebelum musim dingin, monster gila mengumpulkan lemak yang cukup banyak pada kulitnya (terutama ekor) untuk bertahan hidup saat tidur panjang.

Kehidupan sosial

Monster gila hidup berkelompok, tetapi sering terlihat berkeliaran dan mencari makan sendiri.

Reproduksi

Monster gila kawin pada musim panas, betinanya dapat menghasilkan 3-5 telur silindris sekali bertelur. Umumnya, bertelur pada musim gugur, dan mengerami telurnya selama kira-kira 10 bulan, sedangkan jantan pergi untuk kawin lagi.

Manfaat Untuk Manusia

Manusia memiliki hormon incretin, salah satu dari hormon tersebut adalah hormon GLP-1 (Glucagon Like Peptide-1) yang bisa untuk mengatur kadar gula darah normal, sehingga baik untuk penderita diabetes tipe 2. Namun, GLP-1 ini akan langsung didegradasi oleh enzim tubuh juga yang bernama DPP-IV (Dipeptidyl peptidase-IV), sehingga efek dari GLP-1 hanya sebentar dan harus diberi secara intravena dari luar. Oleh karena itu, dibutuhkan zat yang serupa sifatnya dengan GLP-1 tetapi tahan dengan degradasi DPP-IV. Zat tersebut ditemukan dari saliva (air liur) Monster Gila ini. salah satu produk dari saliva Mosnter Gila ini adalah Exenatide.

Referensi

Bacaan lanjutan

  • Beck, Daniel D. (2005). Biology of Gila Monsters and Beaded Lizards. Berkeley: University of California Press. ISBN 0-520-24357-9.
  • Capula, Massimo (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. New York: Simon & Schuster. ISBN 0671690981. Parameter |coauthors= yang tidak diketahui mengabaikan (|author= yang disarankan) (bantuan)
  • Carmony, Neil B.; Brown, David (1991). Gila Monster: Facts and Folklore of America's Aztec Lizard. Silver City, NM: High-Lonesome Books. ISBN 0-944383-18-1.Pemeliharaan CS1: Banyak nama: authors list (link)
  • Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0831727861.
  • Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. New York: Macmillian. hlm. 321.
  • Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. New Jersey: TFH Publications. ISBN 0876665679.
  • Roever, J. M.; Hiser, Iona Seibert (1972). The Gila Monster. Austin, Tex: Steck-Vaughn Co. ISBN 0-8114-7739-8.Pemeliharaan CS1: Banyak nama: authors list (link)

Templat:Varanoidea

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Monster gila: Brief Summary ( Indonesian )

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Monster gila (pengucapan: /ˈhiːlə/, HEE-la), Heloderma suspectum, adalah kadal jenis keluarga varan. Kulitnya tebal, ekornya pendek, dan tubuhnya gemuk. Monster gila memiliki ekor yang gemuk dan berisi lemak yang menjadi cadangan makanan. Monster gila juga dapat dikenali dari motif gelang-gelang kuning atau jingga. Berbeda dengan sebagian besar kadal lainnya, monster gila memiliki pupil berbentuk bundar. Monster Gila hidup di balik batu atau di dalam tanah untuk menghindari terik matahari dan udara yang sangat panas, karena monster gila hidup di gurun pasir. Monster gila tergolong kadal yang sangat beracun. Kelenjar racunnya terletak di rahang. Racun itu digunakan saat monster gila akan mengigit mangsa seperti halnya komodo. Untuk mencium bau mangsanya, monster gila menggunakan lidahnya.

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Gilaeðla ( Icelandic )

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Gilaeðla (eða gila) (fræðiheiti: Heloderma suspectum) er eðlutegund sem lifir í norður Mexíkó og á vesturströnd Bandaríkjanna og í Arizona-fylki. Dregur hún annaðhvort nafn sitt af ánni Gila, sem sprettur upp í Arizona, eða þá að áin dregur nafn af henni.

Tengt efni

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Gilaeðla: Brief Summary ( Icelandic )

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Gilaeðla (eða gila) (fræðiheiti: Heloderma suspectum) er eðlutegund sem lifir í norður Mexíkó og á vesturströnd Bandaríkjanna og í Arizona-fylki. Dregur hún annaðhvort nafn sitt af ánni Gila, sem sprettur upp í Arizona, eða þá að áin dregur nafn af henni.

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Heloderma suspectum ( Italian )

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La lucertola perlinata, meglio nota come mostro di Gila (Heloderma suspectum Cope, 1869) è un grosso sauro velenoso della famiglia Helodermatidae, diffuso nel sud-ovest del Nord America[2].

Origine del nome

Il nome «mostro di Gila» deriva dal fiume omonimo che attraversa l'Arizona. Il termine "perlinata" fa riferimento alla caratteristica forma degli osteodermi nelle squame presenti su tutto il corpo dell'animale, fatta eccezione per le squame ventrali.

Descrizione

Questo sauro dal corpo massiccio possiede una coda corta e tozza, in cui può immagazzinare grasso per i periodi di carestia. Presenta inoltre una colorazione aposematica, con colori che vanno dal giallo al rosso alternati al nero. Misura fino a 40–60 cm di lunghezza compresa la coda.

Biologia

Conduce uno stile di vita fossorio passando oltre il 90% della sua vita sottoterra o nascosto tra le rocce, in una tana che scava o sottrae ad un altro animale. Anche se è essenzialmente notturno, in primavera, uscito dal letargo, non disdegna le uscite diurne. Il mostro di Gila si nutre prevalentemente di piccoli vertebrati, ma mangia anche uova di uccelli e rettili. Stringe le prede fra le mandibole, iniettando il veleno che, per creature di piccole dimensioni, si rivela letale nel giro di pochi minuti. Può vivere oltre 40 anni.

Riproduzione

L'accoppiamento avviene tra Aprile e Maggio; la femmina depone in media 4-6 uova, raramente 8, che si schiudono dopo circa 5 mesi. Appena usciti dall'uovo, i piccoli misurano circa 16 cm e sono già in grado di iniettare veleno.

Veleno

Gli elodermi (H. suspectum; H. horridum) sono le uniche lucertole in grado di inoculare veleno, il quale, secreto da ghiandole presenti nella mandibola, si riversa in bocca attraverso i denti scanalati sulla parte anteriore della mandibola e penetra nella vittima con il morso. Generalmente non è letale per gli esseri umani, tuttavia può provocare conseguenze a lungo termine per il fisico se non viene curato tempestivamente.

Distribuzione e habitat

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Un mostro di Gila nel Museo del Deserto di Arizona-Sonora

L'areale di questa specie comprende gli Stati Uniti sud-occidentali (California, Nevada, Utah, Arizona, Nuovo Messico) e il Messico nord-occidentale (Sonora)[2]. Non si registra la sua presenza in Bassa California.[3]

Interesse farmacologico

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Animaux venimeux et venins, 1922

Nel 2005 la Food and Drug Administration ha approvato un farmaco per il trattamento del diabete di tipo 2, la exenatide, che è la versione sintetica di una proteina derivata dalla saliva dell'eloderma, l'ormone exendin-4. Nel 2008 il farmaco è stato approvato anche in Italia e inserito in fascia A.

Nel gennaio del 2015 i ricercatori della Aarhus University hanno annunciato di aver scoperto nuove proteine nella mappatura del veleno di H. suspectum. Queste proteine potranno essere utilizzate per la preparazione di nuovi farmaci.[4]

Note

  1. ^ (EN) Hammerson, G.A., Frost, D.R. & Gadsden, H. 2007, Heloderma suspectum, su IUCN Red List of Threatened Species, Versione 2020.2, IUCN, 2020.
  2. ^ a b (EN) Heloderma suspectum, in The Reptile Database. URL consultato il 29 maggio 2014.
  3. ^ (EN) D.D. Beck, Biology of Gila monsters and beaded lizards, vol. 9, University of California Press, 2005.
  4. ^ Nuovi farmaci dal veleno del mostro di Gila, su anfibierettili.it.

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Heloderma suspectum: Brief Summary ( Italian )

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La lucertola perlinata, meglio nota come mostro di Gila (Heloderma suspectum Cope, 1869) è un grosso sauro velenoso della famiglia Helodermatidae, diffuso nel sud-ovest del Nord America.

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Šiurpusis nuodadantis ( Lithuanian )

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Binomas Heloderma suspectum

Šiurpusis nuodadantis (Heloderma suspectum) – vienas iš dviejų nuodingų pasaulio driežų, priklausantis nuodadančių šeimai. Paplitęs Šiaurės Amerikos vakarinėse dykumose. Tai didžiausias natūraliai JAV gyvenantis driežas, užauga iki 30–50 cm ilgio, sveria 0,5–1,4 kg. Minta smulkiais žinduoliais, ropliais (tarp jų ir mažomis gyvatėmis), vabzdžiais, roplių ir paukščių kiaušiniais. Retas, saugomas. Vikiteka

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Šiurpusis nuodadantis: Brief Summary ( Lithuanian )

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Šiurpusis nuodadantis (Heloderma suspectum) – vienas iš dviejų nuodingų pasaulio driežų, priklausantis nuodadančių šeimai. Paplitęs Šiaurės Amerikos vakarinėse dykumose. Tai didžiausias natūraliai JAV gyvenantis driežas, užauga iki 30–50 cm ilgio, sveria 0,5–1,4 kg. Minta smulkiais žinduoliais, ropliais (tarp jų ir mažomis gyvatėmis), vabzdžiais, roplių ir paukščių kiaušiniais. Retas, saugomas. Vikiteka

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Gilaøgle ( Norwegian )

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Gilaøgle er en øgle som lever i halvørken i det sørvestlige USA og det nordvestlige Mexico. Den er kjent for sitt giftig bitt, og særpregede utseende.

Den er en stor øgle med kraftig kropp, stort hode, korte, men kraftige lemmer, og en kort, tjukk hale. Kroppslengden varierer fra 23–35 cm, og med halen kan den bli 60 cm lang. Tunga er mørk, og kløftet, som hos slanger. Gilaøglen er giftig og leverer giften ved å tygge gjentatte ganger på offeret. Giften er ikke dødelig for mennesker.

Gilaøglen lever for det meste på marka, men kan klatre opp i busker. Den beveger seg sakte, og forsvarer seg ikke uten å bli provosert. Det meste av tiden tilbringes i skjul i hiet til pattedyr, under steiner og i fjellsprekker. Den er dagaktiv om våren når den kommer ut av dvale, men når temperaturen stiger går den over til å være nattaktiv.

Føden består av små pattedyr, reptiler og deres egg, insekter, og egg og unger til fugler som hekker på marka. Den tjukke halen brukes til å lagre fett, og den kan antakelig klare seg med å ete bare 3–4 ganger på ett år.

Paringstiden er om våren og tidlig på sommeren, og da kjemper hannene med hverandre. Hunnene legger egg annet hvert år fra juli til august. Nyklekkede unger er observert om våren, noe som tyder på eggene ligger i jorda 8–10 måneder.

Utbredelsen til gilaøgle omfatter det sørøstlige California, det aller sørvestligste Utah, sørlige Nevada, sørlige Arizona, sørvestlige New Mexico, det meste av Sonora, og det aller nordligste Sinaloa. Innenfor dette området forekommer den fra havnivå i Sonora til nesten 2000 m over havet i New Mexico.

Det er to underarter. Den nordlige H. s. cinctum har tversgående, lyse bånd på ryggen, og forekommer i Mojaveørkenen. Den andre underarten H. s. suspectum har et nettaktig mønster på ryggen, og overtar lenger øst og sør.

Eksterne lenker

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Gilaøgle
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Gilaøgle: Brief Summary ( Norwegian )

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Gilaøgle er en øgle som lever i halvørken i det sørvestlige USA og det nordvestlige Mexico. Den er kjent for sitt giftig bitt, og særpregede utseende.

Den er en stor øgle med kraftig kropp, stort hode, korte, men kraftige lemmer, og en kort, tjukk hale. Kroppslengden varierer fra 23–35 cm, og med halen kan den bli 60 cm lang. Tunga er mørk, og kløftet, som hos slanger. Gilaøglen er giftig og leverer giften ved å tygge gjentatte ganger på offeret. Giften er ikke dødelig for mennesker.

Gilaøglen lever for det meste på marka, men kan klatre opp i busker. Den beveger seg sakte, og forsvarer seg ikke uten å bli provosert. Det meste av tiden tilbringes i skjul i hiet til pattedyr, under steiner og i fjellsprekker. Den er dagaktiv om våren når den kommer ut av dvale, men når temperaturen stiger går den over til å være nattaktiv.

Føden består av små pattedyr, reptiler og deres egg, insekter, og egg og unger til fugler som hekker på marka. Den tjukke halen brukes til å lagre fett, og den kan antakelig klare seg med å ete bare 3–4 ganger på ett år.

Paringstiden er om våren og tidlig på sommeren, og da kjemper hannene med hverandre. Hunnene legger egg annet hvert år fra juli til august. Nyklekkede unger er observert om våren, noe som tyder på eggene ligger i jorda 8–10 måneder.

Utbredelsen til gilaøgle omfatter det sørøstlige California, det aller sørvestligste Utah, sørlige Nevada, sørlige Arizona, sørvestlige New Mexico, det meste av Sonora, og det aller nordligste Sinaloa. Innenfor dette området forekommer den fra havnivå i Sonora til nesten 2000 m over havet i New Mexico.

Det er to underarter. Den nordlige H. s. cinctum har tversgående, lyse bånd på ryggen, og forekommer i Mojaveørkenen. Den andre underarten H. s. suspectum har et nettaktig mønster på ryggen, og overtar lenger øst og sør.

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Heloderma arizońska ( Polish )

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Heloderma arizońska[3], gila[3] (Heloderma suspectum) – gatunek jadowitej jaszczurki z rodziny heloderm[1]. Zamieszkuje tereny Stanów Zjednoczonych i Meksyku[3]. W ślinie Helodermy arizońskiej wykryto eksenatyd, substancję która następnie stała się prekursorem leków inkretynowych i znalazła zastosowanie w lecznictwie, jako lek stosowany w terapii cukrzycy[4].

Systematyka

Gatunek obejmuje dwa podgatunki[1]:

  • Heloderma suspectum cinctum
  • Heloderma suspectum suspectum

Budowa ciała

Ciało helodermy arizońskiej osiąga długość do 50 cm. Ogon gada jest krótszy od reszty ciała. Grzbiet wybarwiony jest na ciemnobrązowo i jest pokryty różowymi, nieregularnymi plamami. Tworzą one szerokie, poprzeczne pasy, które w sposób szczególny uwidaczniają się na ogonie[3].

Tryb życia

Wiedzie zasadniczo naziemny tryb życia, lecz czasem może się wspinać na roślinność w poszukiwaniu pożywienia[2]. Samotnik, aktywna w nocy, mięsożerna.

W okresie lęgowym samica składa około 15 jaj osłoniętych cienkimi otoczkami. Jaja, o wielkości zbliżonej do jaj kurzych, lokowane są w jamach w wilgotnej ziemi. Rozwój trwa około jednego miesiąca[3].

Siedlisko

Heloderma arizońska rzadko jest spotykane na obszarach rolniczych. Na obszarach amerykańskich pustyń Mojave i Sonora heloderma arizońska zasiedla tereny położone na wysokości od poziomu morza (Sonora) do 30 m.n.p.m. (Arizona), 1180 do 1950 m. n.m.m. (Nowy Meksyk) oraz do 1545 m.n.p.m. (w rejonie dolnych części stoków górskich i nadbrzeży w południowej Arizonie). Siedliska pokryte są trawiastą, pustynną roślinnością, a na terenie pustyni Sonora także krzewami ciernistymi. Drzewostan dębowy lub sosnowy. Ostoję znajdują pod gęstymi krzewami, pod skałami albo w norach nowików. Helodermy mieszkające w Arizonie spędzają większość czasu (ok. 98%) pod osłoną, zaś w Utah 95% czasu pod ziemią[2].

Zasięg geograficzny

Północno-zachodni Meksyk i południowo-zachodnie USA z głównymi zakresami w Arizonie i Sonorze: od południowo-zachodnich części stanu Utah, przez południową Nevadę, południową Arizonię, południowo-zachodni Nowy Meksyk po stan Sinaloa w Meksyku[2].

Przypisy

  1. a b c Heloderma suspectum, w: Integrated Taxonomic Information System (ang.).
  2. a b c d Heloderma suspectum. Czerwona księga gatunków zagrożonych (IUCN Red List of Threatened Species) (ang.).
  3. a b c d e Włodzimierz Juszczyk: Mały słownik zoologiczny: gady i płazy. Warszawa: Wydawnictwo „Wiedza Powszechna”, 1986, s. 319. ISBN 83-214-0464-2.
  4. Ivan Koludarov, Timothy N. W. Jackson, Kartik Sunagar, Amanda Nouwens, Iwan Hendrikx, Bryan G. Fry. Fossilized Venom: The Unusually Conserved Venom Profiles of Heloderma Species (Beaded Lizards and Gila Monsters). „Toxins”. 6, s. 3582-3595, 2014. DOI: doi:10.3390/toxins6123582. ISSN 2072-6651 (ang.).
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Heloderma arizońska: Brief Summary ( Polish )

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Heloderma arizońska, gila (Heloderma suspectum) – gatunek jadowitej jaszczurki z rodziny heloderm. Zamieszkuje tereny Stanów Zjednoczonych i Meksyku. W ślinie Helodermy arizońskiej wykryto eksenatyd, substancję która następnie stała się prekursorem leków inkretynowych i znalazła zastosowanie w lecznictwie, jako lek stosowany w terapii cukrzycy.

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Monstro-de-gila ( Portuguese )

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O monstro-de-gila (Heloderma suspectum) é um lagarto peçonhento da família dos helodermatídeos, encontrado no sudoeste dos E.U.A. e noroeste do México, com até 60 cm de comprimento coloração preta e rosada. É um dos três únicos lagartos venenosos do mundo (os outros dois são: Lagarto de contas (Heloderma horridum ) e o Dragão-de-komodo (Varanus komodoensis) .[1]

Características

Tem até 60 cm de comprimento, o que faz dele o maior lagarto norte-americano.

Habita o Sudoeste da América do Norte (EUA e México), em regiões desérticas.

Os seus hábitos são principalmente noturnos e terrestres. Move-se lentamente, usando a língua para sentir cheiros deixados na areia e capturar as suas presas.

Alimenta-se de aves, de outros lagartos e de todos os ovos que conseguirem encontrar no seu caminho. Também aceitam camundongos e outro roedores. Em cativeiro podem-lhes ser dados camundongos, ratos (vivos ou previamente abatidos), ovos, pedaços de carne, etc, e a dieta deve ser enriquecida com suplemento de vitaminas e cálcio. Animais coletados em seu habitat podem recusar alimento.

Reprodução

Os dimorfismos sexuais são inexistentes visualmente. A determinação do sexo pode ser feita em grandes viveiros, observando-se o comportamento dos animais na estação de acasalamento (que ocorre no verão); mesmo assim, não são todas as fêmeas que cruzam anualmente. Pode-se também usar sexadores para descobrir o sexo do animal. Machos e fêmeas tornam-se mais ativos com a elevação da temperatura, e passam a investigar todo o movimento ao seu redor. Uma vez formado, o par vai se ocultar e realizar o coito.

Depois do acasalamento, o macho deve ser retirado antes que a fêmea ponha os ovos (o que pode levar uma ou duas semanas), para impedir ataques. A mãe oculta os ovos sob a areia.

Incubação: Por volta de 1 mês depois da postura, nascem os novos lagartos. A cada ninhada, nascem de 3 a 15 crias.

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Imagem ampliada de sua pele

Embora os monstros-de-gila vivam no deserto, não apreciam muito o calor: a cor predominante que apresenta - o preto, apesar de combinada com o amarelo, rosa ou laranja - resplandece ao sol, o que provoca o aquecimento excessivo do corpo. Na natureza, durante os meses mais frios, hibernam; nos meses mais quentes, exibem hábitos noturnos e, no restante do ano, ficam ativos durante o dia.

Durante os meses de inverno, quando se mostram menos ativos e as presas e ninhos escasseiam, utilizam a gordura que acumulam na cauda larga e alongada (correspondente a um terço do comprimento total).

O ciclo reprodutivo das fêmeas parece estar relacionado com a quantidade de alimentos e minerais armazenados em seu organismo; quando as reservas estão baixas, elas não atraem os machos para acasalar, o que ocorre, em condições normais, uma vez por ano. Depois da cruza, as fêmeas demoram de 3 semanas a 2 meses para botar os ovos; no terrário, uma quantidade maior de areia umedecida, parcialmente escondida por pedras, certamente será o local escolhido para a desova. Dependendo da idade da mãe e das suas reservas energéticas, podem ser postos entre 3 e 15 ovos, que são protegidos por uma membrana firme. As crias nascem por volta de 4 semanas depois da postura, medindo cerca de 10 cm.

Ecologia

Os animais nascidos no ambiente natural podem apresentar dificuldades para se adaptar ao cativeiro,por vezes recusando-se a comer. os que já nasceram em cativeiro, por outro lado aclimatam-se rapidamente em novos ambientes,podendo ser mantidos sozinhos ou em grupos. Nesse caso, a única providência a ser tomada é separar as fêmeas chocas, para evitar ataques de outros animais: os monstros-de-gila adoram ovos, e alguns animais coletados em seu habitat não aceitam outro alimento.

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Monstro-de-gila reticulado

Dois fatores vem prejudicando a sobrevivência dos monstros-de-gila: a ampliação das áreas irrigadas para a lavoura - o que determina a redução do seu território - e o consumo de sua carne (que teria efeitos afrodisíacos). No estado do Arizona (EUA), onde se encontram as maiores populações, a coleta é proibida por lei. Somente podem ser comercializados animais nascidos em cativeiro.

Na família Helodermatidae há somente duas espécies e diversas subespécies.

Veneno

Os monstros-de-gila são venenosos. Além deles, os únicos lagartos da Terra capazes de matar seres humanos são os seus primos da espécie Heloderma horridum. Esses são alguns dos fatores que chamaram a atenção de zoólogos e criadores.

Ao contrário das cobras, o monstro-de-gila inocula a sua peçonha com os dentes da mandíbula, dois grandes incisivos muito afiados. Não são capazes de dar mordidas secas: depois que mordem, inoculam veneno. Os efeitos são imediatos e bastantes dolorosos, e são totalmente fatais para algumas espécies. Um monstro-de-gila morde para se defender a afastar possíveis invasores; só ataca animais maiores do que ele quando se sente ameaçado ou quando está ferido. Os monstros-de-gila são animais gregários; vivem em bandos organizados hierarquicamente (existe sempre um macho dominante e uma fêmea dominante). Dificilmente verificam-se brigas por território, porque estes animais não são caçadores por excelência; antes, identificam uma "refeição" com sensível olfato e ficam à espera de que a presa indefesa se aproxime.

Pesquisas

De uma substância encontrada em sua saliva extrai-se exenatida, um composto sintético que é a primeira droga de uma nova classe de medicamentos a chegar ao mercado, a dos miméticos do hormônio incretina, para o tratamento do diabetes tipo 2.

Agindo no pâncreas, injetada antes das refeições, a exenatida imita os efeitos da incretina, responsável natural pela liberação de insulina após o consumo de alimentos e a posterior elevação de glicose no sangue.

O veneno deste lagarto está a ser alvo de estudo para o possível tratamento da doença de Alzheimer.

Referências

  1. «Cópia arquivada» (PDF). Consultado em 18 de outubro de 2009. Arquivado do original (PDF) em 22 de novembro de 2009
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Monstro-de-gila: Brief Summary ( Portuguese )

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O monstro-de-gila (Heloderma suspectum) é um lagarto peçonhento da família dos helodermatídeos, encontrado no sudoeste dos E.U.A. e noroeste do México, com até 60 cm de comprimento coloração preta e rosada. É um dos três únicos lagartos venenosos do mundo (os outros dois são: Lagarto de contas (Heloderma horridum ) e o Dragão-de-komodo (Varanus komodoensis) .

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Heloderma suspectum ( Romanian; Moldavian; Moldovan )

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Heloderma suspectum este un reprezentant veninos al familiei de șopârle Heloderma. Aceste reptile trăiesc în regiuni deșertice precum Sonora care se află în sud-vestul Statelor Unite și nordul-vestul Mexicului. Șopârla mai este numită monstrul Gila, nume provenit de la Gila River. Genul Heloderma cuprinde și specia Heloderma horridum⁠(en), specie care trăiește în sudul Mexicului și al Guatemalei. Aceste două specii sunt singurele șopârle veninoase cunoscute.

Caractere morfologice

Șopârla atinge 70 – 100 cm lungime, ea are un corp lat masiv termintă cu o coadă musculoasă, picioare scurte și gheare puternice, un cap mare, ochii mici. În coada își depozitează rezervele sub formă de grăsime. Pielea este prevăzută cu solzi de culoare albă cu pete roze portocolii sau gălbui, cu un contur brun.

Arealul de răspândire, mod de viață

Heloderma suspectum trăiește în regiuni deșertice la granița dintre SUA și Mexic. Este un animal nocturn care vânează noaptea, ziua acunzându-se în grote sau sub pietre. Hrana ei constă din ouă de păsări, reptile și nevertebrate mici. Prada este descoperită cu ajutorul organului olfactiv al lui Jacobson din osul nazal (vomer). Șopârla poate trăi fără hrană mai multe luni, trebuind însă din când în când să bea apă.

Femela depune până la 15 ouă în nisip umed din care într-o eclozează puii. Heloderma suspectum trăiește între 20 și 30 de ani, ea fiind o specie periclitată de dispariție.

Otrava este produsă de o glanda submandibulară, care se scurge printr-un canal de-a lungul caninului de pe mandibulă. Șopârla, după ce a mușcat, folosește mișcările de masticație pentru a injecta otrava și pentru a masa țesutul favorizând difuzarea toxinei în corpul pradei. Fără ajutor medical otrava ei poate fi mortală pentru om. Toxina produce tumefiere, edeme și cianoza extremităților însoțite de hipotonie, amețeli, transpirație și șoc circulator. Toxina este o glicoproteină cu acțiune neurotoxică. O fracțiune extrasă din otravă este folosită la tratarea diabetului zaharat de tip 2[necesită citare].

Galerie

  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg
  • AZ Gila Monster 01.jpg
  • AZ Gila Monster 02.jpg

Referințe

  1. ^ „2007 IUCN Red List – Search”. Iucnredlist.org. Accesat în 19 septembrie 2008.

Bibliografie

  • Beck, Daniel D. (2005). Biology of Gila Monsters and Beaded Lizards. Berkeley: University of California Press. ISBN 0-520-24357-9.
  • Bogert, Charles M.; Rafael Martin del Campo (1956). The Gila Monster and its allies: the relationships, habits, and behavior of the lizards of the Family Helodermatidae. New York: Bull. Amer. Mus. Natur. Hist. 109:1–238. p. 238. Online .pdf
  • Capula, Massimo; Behler (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. New York: Simon & Schuster. ISBN 0-671-69098-1.
  • Carmony, Neil B.; Brown, David (1991). Gila Monster: Facts and Folklore of America's Aztec Lizard. Silver City, NM: High-Lonesome Books. ISBN 0-944383-18-1.Mentenanță CS1: Nume multiple: lista autorilor (link)
  • Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0-8317-2786-1.
  • Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. New York: Macmillian. p. 321.
  • Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. New Jersey: TFH Publications. ISBN 0-87666-567-9.
  • Roever, J. M.; Hiser, Iona Seibert (1972). The Gila Monster. Austin, Tex: Steck-Vaughn Co. ISBN 0-8114-7739-8.Mentenanță CS1: Nume multiple: lista autorilor (link)

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Heloderma suspectum: Brief Summary ( Romanian; Moldavian; Moldovan )

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Heloderma suspectum este un reprezentant veninos al familiei de șopârle Heloderma. Aceste reptile trăiesc în regiuni deșertice precum Sonora care se află în sud-vestul Statelor Unite și nordul-vestul Mexicului. Șopârla mai este numită monstrul Gila, nume provenit de la Gila River. Genul Heloderma cuprinde și specia Heloderma horridum⁠(en), specie care trăiește în sudul Mexicului și al Guatemalei. Aceste două specii sunt singurele șopârle veninoase cunoscute.

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Strupeni bradavičar ( Spanish; Castilian )

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Strupeni bradavičar ali gilska pošast (znanstveno ime Heloderma suspectum) je strupeni kuščar, ki prebiva na jugozahodu ZDA in severozahodu Mehike. Je edini strupeni kuščar, ki je avtohton v ZDA, ter eden od dveh znanih vrst strupenih kuščarjev v Severni Ameriki (drugi je H. horridum).[2] Kljub strupenosti predstavlja zaradi svoje počasne narave majhno nevarnost za ljudi. Skozi zgodovino je pridobil sloves pošasti, zaradi česar je včasih žrtev pohodnikov in domačinov, čeprav ima status zavarovane živalske vrste v Arizoni in Nevadi.[1][3]

Etimologija

Ime Gila se nanaša na porečje reke Gila v Arizoni, kjer so nekdaj bili številni.[4] Heloderma pomeni posuta koža, in je sestavljena iz starogrških besed Helos (ηλος), glava žebljička ali gumba, ter derma (δερμα), koža. Vrstno ime Suspectum je določil opisovalec kuščarja, paleontolog Edward Drinker Cope, ki je domneval, da je kuščar strupen zaradi utorov v zobeh.[5]

Življenjski prostor in navade

Bradavičar prebiva na območju jugozahoda ZDA, ki zajema zvezne države Arizona, Nevada, Utah, Nova Mehika in dele Kalifornije, ter na severovzhodu Mehike, v zvezni državi Sonora. Naseljujejo grmičevja, puščave s sukulenti in hrastove gozdove, kjer iščejo zavetje v brlogih, goščavah in pod kamni, kjer je prisotna vlaga.[6] Radi imajo vodo, zato se pogosto potopijo v mlakuže po poletnem dežju.[7] Izogibajo se ravnic in kmetijskih površin.[8]

Domnevano je, da preživi bradavičar 95 % vsega časa pod zemljo v brlogih sesalcev ali pod kamni. Dejaven je zjutraj v suhih obdobjih (pomlad in zgodnje poletje); v poznem poletju se dejaven v toplih nočeh ali po nevihti. Na kopnem vzdržuje telesno temperaturo okoli 30 °C.[9] Je počasen, vendar ima v primerjavi z drugimi kuščarji visoko vzdržljivost in visoko maksimalno aerobno kapaciteto (VO2 max).[10]

src=
Glava kuščarja. Močne sprednje noge in kremplji so prilagojeni za izkopavanje jajc.

Prehrana

V glavnem se prehranjuje s ptičjimi in plazilčjimi jajci, občasno pa tudi z manjšimi pticami, sesalci, žabami, kuščarji, žuželkami in truplimi živali.[11] Prehranjuje se nestalno, tj. od 5 do 10-krat na leto v divjini,[12] vendar lahko poje tudi do tretjine mase svojega telesa.[13] Za odkrivanje plena uporablja izjemno natančen voh, ki je prilagojen predvsem za iskanje jajc. Z njegovo pomočjo lahko odkrije in izkoplje kurja jajca, ki so zakopana do 15 cm pod zemljo in lahko natančno sledi črti, po kateri se je kotalilo jajce.[14]

Plen lahko zdrobi do smrti, če je živ ali velik, in ga požre tako, da gre skozi usta najprej glava plena, pomaga pa si tudi s krčenji mišič in zvijanja vratu. Takoj po zaužitju nadaljuje z iskanjem plena, kar je v evolucijskem pomenu povezano z nahajanji jajc in mladičev na kupu.[9] V iskanju jajc lahko spleza na drevo in kaktus.[15]

Razmnoževanje in življenjski krog

Bradavičar se zbudi iz hibernacije v januarju ali februarju, pariti pa se začne v maju in juniju.[11] Samec začne iskati samice preko vonja. V primeru, da samica zavrne samca, ga ugrizne in se odplazi stran. Ob uspešnem pristopu traja parjenje od 15 minut do 2 uri in pol. Samica izleže od dveh do 12 jajc (v povprečju pet) v juliju ali avgustu in jih zakoplje 12–13 cm globoko pod zemljo.[6] Proces inkubacije traja okoli 9 mesecev, torej se mladiči izvalijo v obdobju od aprila do junija.[16] Mladiči so dolgi okoli 16 cm in imajo že strupeni ugriz. Po izleženju jajc preživi kuščar manj časa na kopnem, da se izogne najbolj vročih obdobij v poletju. V stanje hibernacije preidejo okoli novembra.[14]

O socialnih odnosih je malo znanega, opaženo pa je bilo, da se za pogostejša parjenja samci pogostejo spopadejo med seboj.[17] Za tovrstne boje je potrebna velika poraba kisika, s čemer se lahko razloži njihovo visoko maksimalno aerobno kapaciteto v primerjavi z drugimi kuščarji.[10] V divjini doživijo do 20 let, v ujetništvu pa tudi do 30 let.[18]

Strupenost

»Nikoli nisem bil poklican zaradi ugriza strupenega bradavičarja in tudi nočem biti. Mislim, da bi človek, ki je dovolj neumen, da dopusti ugriz, moral umreti. Bitje je tako počasno, da mora žrtev pravzaprav pomagati kuščarju, da lahko ugrizne.«

Dr. Ward, Arizona Graphic, 23. september 1899

Strupeni izloček se nahaja v spremenjenih žlezah slinavkah v spodnji čeljusti, za razliko od kač, pri katerih se toksin nahaja v zgornji čeljusti.[11] Bradavičar nima posebnih mišic, s katerimi bi lahko namerno iztisnil toksine iz mešičkov, zato ga iztisne s pomočjo zvečenja pri ugrizu v plen. Preko učinkov kapilarnosti preide toksin iz zob v tkivo plena.[5] Zobje so rahlo utrjeni v dlesni, zato lahko kuščar zlahka odlomi več zob, ki mu nato skozi čas znova zrastejo. Med grizenjem se bradavičar vrže na plen, kar naj bi olajšalo iztekanje toksinov v plen. Glede na to, da predstavljajo večino njegove hrane jajca, manjše živali in drugi »brezpomočen« plen, je domnevano, da se je strupenost razvila v obrambne namene in ne za plenjenje, kar bi pojasnilo tudi opozorilne barvne vzorce na koži (aposematizem).[14]

Čeprav je nevrotoksin bradavičarja po moči primerljiv s toksinom koralne kače, ga kuščar izloča v majhnih količinah.[19] Iz strupenega izločka je bilo izoliranih še več kot ducat različnih peptidov in beljakovin, med drugim hialuronidaza, serotonin, fosfolipaza A2 ter več kalikreinu-podobnih glikoproteinov, ki so odgovorni za nastanek bolečine in otekline. Potencialno smrtonosna toksina sta helotermin, ki pri podganah povzroča letargijo, delno ohromelost udov in podhladitev (hipotermijo), ter toksin horridum, ki povzroča krvavitve notranjih organov in eksoftalmus (nenormalni pomik očesa navzven iz jamice, izbuljenost oči).[20] Ostali bioaktivni peptidi, kot so helodermin, helospektin, eksendin-3 in eksendin-4,[21] imajo druge funkcije; večina teh je podobnih vazoaktivnemu intestinalnemu peptidu (VIP), ki sprosti gladke mišice in uravnava izločanje vode ter elektrolitov v črevesu. Omenjeni peptidi so se sposobni vezati na različne receptorje za VIP v različnih tkivih.[5][22]

Diagnoza in zdravljenje

Ugriz za odraslega človeka navadno ni smrten; po letu 1939 ni bilo potrjenih smrtnih žrtev, v letih pred tem pa je večina ljudi umrla zaradi laičnih neustreznih načinov zdravljenja. Ugriz kuščarja je hiter, za žrtev pa se z zobmi drži vztrajno, kar samo po sebi že povzroča bolečino.[9] Za osvoboditev iz prijema pomaga, če se kuščarja postavi na tla. Simptomi ugriza so v glavnem huda bolečina in oteklina (edem), redkeje se pojavijo sistemski učinki, ki se kažejo s slabostjo, občutki mravljinčenja, zbadanja ali žganja (parestezijami), znojenjem in močnim zvišanjem krvnega tlaka (hipertenzijo, ki se razreši po nekaj urah.[19]

Prva pomoč zajema odstranitev kuščarja, zatem pa se mora rano očistiti in odstraniti vse odlomljene zobe, če je le mogoče. V bolnišnici se mora preveriti status cepljenja proti tetanusu, v primeru okužbe pa se mora predpisati antibiotike. Ob sumu na zlom kosti se mora opraviti slikovne preiskave.[19]

Aplikativne raziskave

Raziskave so pokazale, da helodermin, eden od bioaktivnih peptidov, zavira rast pljučnega raka.[5][22]

Leta 2005 je ameriška FDA dovolila promet zdravila eksenatid (trgovsko ime Byetta®) za zdravljenje sladkorne bolezni tipa 2. Je sintetična različica eksendina-4.[23] V času triletne uporabe zdravila se je pri bolniki s sladkorno boleznijo stabilizirala raven glukoze ter znižala telesna teža. Omenjena beljakovina je v okoli 50 % podobna glukagonu-podobnemu peptidu 1 (GLP-1), ki ga izloča prebavni trakt, in pomaga nadzirati raven inzulina ter glukagona. Eksenatid napram GPL-1 učinkuje dosti daljše kot pa človeški hormon. Izguba telesne teže izvira iz dejstev, da zdravilo upočasnjuje praznjenje želodca in povzroči znižanje apetita.[24]

Ogroženost

src=
Strupeni bradavičar v Bristolskem zoološkem vrtu

Urbanizacija in s tem uničevanje življenjskega prostora je začela vplivati na populacijo bradavičarjev. Zaradi tega imajo v Arizoni in Nevadi status zavarovane živalske vrste; glede na zakon je nezakonito nadlegovati, poškodovati, zasledovati, loviti, ustreliti, ujeti ali zbirati strupene bradavičarje. Leta 1952 so tako postali prva strupena vrsta, ki je dobila zakonsko zaščito.[7][25] Glede na IUCN spada med potencialno ogrožene vrst.[1] Prvo zoološki vrt, ki je uspešno vzgojil bradavičarje v ujetništvu, je bil San Diego Zoo leta 1963.[18]

Pomen za človeka

Kljub svoji strupenosti je zaradi svoje počasne narave malo nevaren za človeka. Kljub temu je skozi zgodovino pridobil sloves strahotne pošasti, zato je včasih žrtev pohodnikov in domačinov. Med ameriškimi staroselci ima kuščar različen pomen. Apači so verjeli, da lahko sapa kuščarja ubije človeka, plemeni Tohono O'Odham in Pima pa sta verjeli, da ima kuščar duhovno moč, ki lahko povzroči slabost. V nasprotju s tem sta plemeni Seri in Yaqui verjeli, da ima kuščarjeva koža zdravilne lastnosti.[8] Gleden na to, da prebiva v vročih in suhih krajih, je simbol strupenega bradavičarja označeval puščavo (drug pogost simbol za to je sicer bil kaktus).[26] Zaradi svoje zloglasnosti je bila gigantska različica kuščarja glavna pošast v ameriškem filmu The Giant Gila Monster. Obstaja tudi mit, po katerem bradavičarji naj ne bi imeli zadnjične odprtine (anusa), zaradi česar izločajo odpadne snovi skozi usta, kar je vir njihove strupenosti in smrdljivega zadaha.[9] Vsi miti glede strupenosti zadaha, pljuvanja strupenega izločka ali skakanja v višino med napadom so seveda napačni.[18]

Opombe in sklici

  1. 1,0 1,1 1,2 "2007 IUCN Red List – Search". Iucnredlist.org. Pridobljeno dne 2010-11-27.
  2. Fry, B.G.; s sod. (2006). "Early evolution of the venom system in lizards and snakes.". Nature 439 (7076): 584–588. PMID 16292255. doi:10.1038/nature04328. Navedi uporablja nezaželen parameter |coauthors= (pomoč)
  3. "Heloderma suspectum". Integrirani taksonomski informacijski sistem.
  4. "Online Etymology Dictionary". Pridobljeno dne 2010-11-27.
  5. 5,0 5,1 5,2 5,3 King R.A., Pianka E.R. in King D. (2004). Varanoid Lizards of the World. Bloomington: Indiana University Press. ISBN 0-253-34366-6.
  6. 6,0 6,1 Stebbins, R. (2003). Western Reptiles and Amphibians. New York: Houghton Mifflin. str. 338–339, 537. ISBN 0395982723.
  7. 7,0 7,1 Endangered Wildlife and Plants of the World. London: Marshall Cavendish. 2001. str. 629–630. ISBN 0-7614-7199-5.
  8. 8,0 8,1 "Gila Monster Fact Sheet". Smithsonian National Zoological Park. Pridobljeno dne 2010-11-27.
  9. 9,0 9,1 9,2 9,3 Greene H.L., Pianka E.R. in Vitt L.J. (2003). Lizards: Windows to the Evolution of Diversity. Berkeley: University of California Press. ISBN 0-520-23401-4.
  10. 10,0 10,1 Beck, D.D.; s sod. (1985). "Evolutionary physiology". Copeia 1995: 577–585. Navedi uporablja nezaželen parameter |coauthors= (pomoč)
  11. 11,0 11,1 11,2 Wilson, D.W. & Burnie, D. (2001). Animal. London: DK. str. 419. ISBN 0-7894-7764-5. CS1 vzdrževanje: Večkratna imena: authors list (link)
  12. "Meet Our Animals: Gila monster". Philadelphia Zoo. Pridobljeno dne 2010-11-27.
  13. Christel C.M., DeNardo D.F. in Secor S.M. (2007). "Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum)". J. Exp. Biol. 210 (Pt. 19): 3430–9. PMID 17872997. doi:10.1242/jeb.004820.
  14. 14,0 14,1 14,2 Mattison, C. (1998). Lizards of the World. London: Blandford. ISBN 0-7137-2357-2.
  15. Netherton, J. & Badger, D.P. (2002). Lizards: A Natural History of Some Uncommon Creatures, Extraordinary Chameleons, Iguanas, Geckos, and More. Stillwater, MN: Voyageur Press. ISBN 0-7603-2579-0. CS1 vzdrževanje: Večkratna imena: authors list (link)
  16. Seward, Mark (2002). Dr. Mark Seward's Gila monster Propagation: How To Breed Gila monsters in Captivity. Natural Selections Publishing. str. 80. ISBN 0970139500.
  17. Beck, D.D. (1990). "Ecology and behavior of the Gila monster in southwestern Utah". Journal of Herpetology (Society for the Study of Amphibians and Reptiles) 24 (1): 54–68. doi:10.2307/1564290.
  18. 18,0 18,1 18,2 "San Diego Zoo's Animal Bytes: Gila Monster". San Diego Zoo. Pridobljeno dne 2010-12-01.
  19. 19,0 19,1 19,2 Dart, R.C. & Daly, F.F. (2011). "Chapter 206: Reptile Bites". V: Tintinalli's Emergency Medicine: A Comprehensive Study Guide [elektronski vir], 7. izdaja, uredniki Tintinalli, J.E. s sod. Pridobljeno 2013-06-27.
  20. "Poisindex(R) toxicologic managements: Gila monster (Heloderma Suspectum)". Herp-Net BBS. Pridobljeno dne 2010-11-27.
  21. Aird, S.D. (2008). "Nucleoside composition of Heloderma venoms". Comp. Biochem. Physiol. B, Biochem. Mol. Biol. 150 (2): 183–6. PMID 18430599. doi:10.1016/j.cbpb.2008.02.012.
  22. 22,0 22,1 Maruno, K. & Said, S.I. (1993). "Small-cell lung carcinoma: inhibition of proliferation by vasoactive intestinal peptide and helodermin and enhancement of inhibition by anti-bombesin antibody". Life Sci. 52 (24): PL267–71. PMID 8389407. doi:10.1016/0024-3205(93)90640-O. CS1 vzdrževanje: Večkratna imena: authors list (link)
  23. Bond, A. (2006). "Exenatide (Byetta) as a novel treatment option for type 2 diabetes mellitus". Baylor University Medical Center Proceedings 19 (3): 281–4. PMC 1484540. PMID 17252050.
  24. "Drug Derived From Gila Monster Saliva Helps Diabetics Control Glucose, Lose Weight". Science Daily. 2007-07-12.
  25. Brennan, T.C. "Reptiles of Arizona - Gila Monster (Heloderma suspectum)". Pridobljeno dne 2010-12-01.
  26. Forty S. (2006). Simboli. Ljubljana: Mladinska knjiga, str. 176. ISBN 86-11-17159-4
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Strupeni bradavičar: Brief Summary ( Spanish; Castilian )

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Strupeni bradavičar ali gilska pošast (znanstveno ime Heloderma suspectum) je strupeni kuščar, ki prebiva na jugozahodu ZDA in severozahodu Mehike. Je edini strupeni kuščar, ki je avtohton v ZDA, ter eden od dveh znanih vrst strupenih kuščarjev v Severni Ameriki (drugi je H. horridum). Kljub strupenosti predstavlja zaradi svoje počasne narave majhno nevarnost za ljudi. Skozi zgodovino je pridobil sloves pošasti, zaradi česar je včasih žrtev pohodnikov in domačinov, čeprav ima status zavarovane živalske vrste v Arizoni in Nevadi.

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Quái vật Gila ( Vietnamese )

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Quái vật Gila (tên khoa học: Heloderma suspectum, /ˈhlə/ HEE-lə) là một loài thằn lằn độc nguồn gốc ở tây nam Hoa Kỳ và tây bắc bang Sonora của Mexico. Nó là một loài thằn lăn nặng nề di chuyển chậm, dài tới 60 cm (2,0 ft), quái vật Gila là thằn lằn có nọc độc bản địa Mỹ và là một trong hai loài thằn lằn có nọc độc đã được biết đến ở Bắc Mỹ, loài còn lại là thằn lằn đính cườm (H. horridum).[2] Mặc dù quái vật Gila có nọc độc, nhưng bản chất chậm chạp của nó có nghĩa là con người ít bị nó mối đe dọa. Tuy nhiên, nó có một danh tiếng đáng sợ và đôi khi bị giết chết dù đã được bảo vệ bởi pháp luật bang Arizona.[1][3]

Phân bố và môi trường sống

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Quái vật Gila được tìm thấy tại tây nam Hoa KỳMéxico, một phạm vi bao gồm Sonora, Arizona, các phần của California, Nevada, UtahNew Mexico (nhưng không bao gồm Baja California). Chúng sinh sống ở bụi rậm, các sa mạc có cây mọng nước và rừng gỗ sồi, tìm nơi trú ẩn trong hang hốc, bụi rậm, và dưới các hốc đá ở vị trí dễ tiếp cận hơi ẩm.[4] Trên thực tế, quái vật Gila có vẻ thích nước và có thể thấy chúng ngâm mình trong vũng nước sau cơn mưa mùa hè.[5] Chúng tránh sống trong khu vực đất phẳng thoáng rộng và đất nông nghiệp.[6]

Sinh thái học

Quái vật Gila dành 90% thời gian của chúng dưới lòng đất trong hang đá hoặc nơi trú ẩn.[cần dẫn nguồn] Nó hoạt động vào buổi sáng vào mùa khô (mùa xuân và đầu mùa hè), sau đó vào mùa hè, chúng có thể hoạt động vào những đêm ấm áp hoặc sau cơn giông. Nó duy trì một nhiệt độ bề mặt cơ thể khoảng 30 °C (86 °F).[7] Quái vật Gila chạy chậm, nhưng có sức chịu đựng tương đối cao và khả năng háo khí tối đa (VO2 tối đa).[8] Chúng bị cả chó sói đồng cỏ Bắc Mỹ lẫn các loại chim ăn thịt săn bắt.

Chế độ ăn uống

Quái vật Gila ăn thịt các loại chim, thú, ếch, thằn lằn, côn trùng nhỏ và xác thối rữa.[9] Quái vật Gila chủ yếu ăn chim và trứng bò sát, và ăn không thường xuyên (chỉ 5-10 lần một năm trong tự nhiên),[10] nhưng khi nó ăn, có thể ăn lên đến một phần ba khối lượng cơ thể của nó.[11]

Con mồi có thể bị nghiền nát đến chết nếu lớn hoặc ăn sống nếu nhỏ, nó bị nuốt đầu vào trước và bị nuốt vào nhờ các cơn co và gập cong cổ. Điều bất thường là ngay sau khi thức ăn đã bị nuốt, quái vật Gila ngay lập tức lại tiếp tục búng lưỡi và thể hiện hành vi tìm kiếm, có thể là kết quả của lịch sử tìm kiếm con mồi ẩn nấp trong bụi như trứng và chim non trong tổ.[7] Quái vật Gila có thể trèo cây và xương rồng để tìm kiếm trứng.[12]

Tình trạng bảo tồn

Phá hoại môi trường đã tác động xấu đến số lượng quái vật Gila. Năm 1952, chúng trở thành loài động vật có độc đầu tiên được pháp luật bảo vệ.[5][13][14] Quái vật Gila được liệt kê như sắp bị đe dọa bởi IUCN.[1] Năm 1963, vườn thú San Diego trở thành vườn thú đầu tiên cho quái vật Gila sinh sản thành công trong điều kiện giam cầm.[15]

Bộ sưu tập

  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg

Chú thích

  1. ^ a ă â “2007 IUCN Red List – Search”. Iucnredlist.org. Truy cập ngày 19 tháng 9 năm 2008.
  2. ^ Fry, Bryan G.; et al. (tháng 2 2006). “Early evolution of the venom system in lizards and snakes.”. Nature 439 (7076): 584–588. PMID 16292255. doi:10.1038/nature04328. Truy cập ngày 14 tháng 5 năm 2008. Chú thích sử dụng tham số |coauthors= bị phản đối (trợ giúp); Kiểm tra giá trị ngày tháng trong: |date= (trợ giúp)
  3. ^ Heloderma suspectum (TSN 174113) tại Hệ thống Thông tin Phân loại Tích hợp (ITIS).
  4. ^ Stebbins, Robert (2003). Western Reptiles and Amphibians. New York: Houghton Mifflin. tr. 338–339, 537. ISBN 0-395-98272-3.
  5. ^ a ă Endangered Wildlife and Plants of the World. London: Marshall Cavendish. 2001. tr. 629–630. ISBN 0-7614-7199-5.
  6. ^ “Gila Monster Fact Sheet”. National Zoological Park (Hoa Kỳ). Truy cập ngày 6 tháng 6 năm 2008.
  7. ^ a ă Greene, Harry L.; Pianka, Eric R.; Vitt, Laurie J. (2003). Lizards: Windows to the Evolution of Diversity. Berkeley: Nhà in Đại học California. ISBN 0-520-23401-4.
  8. ^ Beck, D. D.; M. R. Dohm, T. Garland, Jr., A. Ramirez-Bautista, C. H. Lowe (1985). “Evolutionary physiology” (– Scholar search). Copeia 1995 (3): 577–585. doi:10.2307/1446755. Chú thích sử dụng tham số |coauthors= bị phản đối (trợ giúp)[liên kết hỏng]
  9. ^ Wilson, Don W.; Burnie, David (2001). Animal. London: DK. tr. 419. ISBN 0-7894-7764-5.
  10. ^ “Meet Our Animals: Gila monster”. Philadelphia Zoo. Truy cập ngày 20 tháng 9 năm 2008.
  11. ^ Christel CM, DeNardo DF, Secor SM (tháng 10 2007). “Metabolic and digestive response to food ingestion in a binge-feeding lizard, the Gila monster (Heloderma suspectum)”. J. Exp. Biol. 210 (Pt 19): 3430–9. PMID 17872997. doi:10.1242/jeb.004820. Chú thích sử dụng tham số |month= bị phản đối (trợ giúp); Kiểm tra giá trị ngày tháng trong: |date= (trợ giúp)
  12. ^ Netherton, John; Badger, David P. (2002). Lizards: A Natural History of Some Uncommon Creatures, Extraordinary Chameleons, Iguanas, Geckos, and More. Stillwater, MN: Voyageur Press. ISBN 0-7603-2579-0.
  13. ^ “Gila Monster – Heloderma suspectum”. Sedgwick County Zoo. Bản gốc lưu trữ ngày 6 tháng 4 năm 2008. Truy cập ngày 9 tháng 6 năm 2008.
  14. ^ Brennan, Thomas C. “Reptiles of Arizona – Gila Monster (Heloderma suspectum)”. Truy cập ngày 10 tháng 6 năm 2008.
  15. ^ “San Diego Zoo's Animal Bytes: Gila Monster”. San Diego Zoo. Truy cập ngày 19 tháng 5 năm 2008.

Tham khảo

src= Wikispecies có thông tin sinh học về Quái vật Gila src= Wikimedia Commons có thêm hình ảnh và phương tiện truyền tải về Quái vật Gila
  • Beck, Daniel D. (2005). Biology of Gila Monsters and Beaded Lizards. Berkeley: University of California Press. ISBN 0-520-24357-9.
  • Bogert, Charles M.; Rafael Martin del Campo (1956). The Gila Monster and its allies: the relationships, habits, and behavior of the lizards of the Family Helodermatidae. New York: Bull. Amer. Mus. Natur. Hist. 109:1–238. tr. 238. Chú thích sử dụng tham số |coauthors= bị phản đối (trợ giúp) Online.pdf
  • Capula, Massimo; Behler (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. New York: Simon & Schuster. ISBN 0-671-69098-1. Chú thích sử dụng tham số |coauthors= bị phản đối (trợ giúp)
  • Carmony, Neil B.; Brown, David (1991). Gila Monster: Facts and Folklore of America's Aztec Lizard. Silver City, NM: High-Lonesome Books. ISBN 0-944383-18-1.
  • Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0-8317-2786-1.
  • Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. New York: Macmillian. tr. 321.
  • Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. New Jersey: TFH Publications. ISBN 0-87666-567-9.
  • Roever, J. M.; Hiser, Iona Seibert (1972). The Gila Monster. Austin, Tex: Steck-Vaughn Co. ISBN 0-8114-7739-8.
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Quái vật Gila: Brief Summary ( Vietnamese )

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Quái vật Gila (tên khoa học: Heloderma suspectum, /ˈhlə/ HEE-lə) là một loài thằn lằn độc nguồn gốc ở tây nam Hoa Kỳ và tây bắc bang Sonora của Mexico. Nó là một loài thằn lăn nặng nề di chuyển chậm, dài tới 60 cm (2,0 ft), quái vật Gila là thằn lằn có nọc độc bản địa Mỹ và là một trong hai loài thằn lằn có nọc độc đã được biết đến ở Bắc Mỹ, loài còn lại là thằn lằn đính cườm (H. horridum). Mặc dù quái vật Gila có nọc độc, nhưng bản chất chậm chạp của nó có nghĩa là con người ít bị nó mối đe dọa. Tuy nhiên, nó có một danh tiếng đáng sợ và đôi khi bị giết chết dù đã được bảo vệ bởi pháp luật bang Arizona.

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美國毒蜥 ( Chinese )

provided by wikipedia 中文维基百科
二名法 Heloderma suspectum
Cope, 1869 亞種
  • H. s. suspectum
  • H. s. cinctum

美國毒蜥學名Heloderma suspectum)亦稱為希拉毒蜥或是鈍尾毒蜥,英文有「Gila Monster」之稱,因為希拉河盆地(Gila River Basin)而得名。美國毒蜥是世界上僅有的兩種毒蜥的其中一種〈另一種是墨西哥毒蜥〉,主要就分佈在美國西部,南部各州,以莫哈維沙漠(Mojave)為中心,延伸進入墨西哥, 美國毒蜥有兩個亞種:分佈區北部的黑帶美國毒蜥(H. s. cinctum)和分佈區南部的網紋美國毒蜥(H. s. suspectum),體色表現為通體金黃或橘色,上面佈滿黑色斑紋。

美國毒蜥主要以老鼠和雞蛋為主食,亦會捕食小型鳥類。除了覓食以外,希拉毒蜥90%的時間都躲在地下洞穴中,牠們攀爬的功夫一流,在野外常爬到樹上捕食幼鳥或鳥蛋。

圖片

  • Heloderma suspectum 'suspectum'.jpg
  • Heloderma suspectum 'suspectum' 2.jpg
  • Heloderma suspectum 'suspectum' 3.jpg

外部連結

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美國毒蜥: Brief Summary ( Chinese )

provided by wikipedia 中文维基百科

美國毒蜥(學名:Heloderma suspectum)亦稱為希拉毒蜥或是鈍尾毒蜥,英文有「Gila Monster」之稱,因為希拉河盆地(Gila River Basin)而得名。美國毒蜥是世界上僅有的兩種毒蜥的其中一種〈另一種是墨西哥毒蜥〉,主要就分佈在美國西部,南部各州,以莫哈維沙漠(Mojave)為中心,延伸進入墨西哥, 美國毒蜥有兩個亞種:分佈區北部的黑帶美國毒蜥(H. s. cinctum)和分佈區南部的網紋美國毒蜥(H. s. suspectum),體色表現為通體金黃或橘色,上面佈滿黑色斑紋。

美國毒蜥主要以老鼠和雞蛋為主食,亦會捕食小型鳥類。除了覓食以外,希拉毒蜥90%的時間都躲在地下洞穴中,牠們攀爬的功夫一流,在野外常爬到樹上捕食幼鳥或鳥蛋。

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アメリカドクトカゲ ( Japanese )

provided by wikipedia 日本語
アメリカドクトカゲ アメリカドクトカゲ
アメリカドクトカゲ Heloderma suspectum
保全状況評価[a 1][a 2] NEAR THREATENED
(IUCN Red List Ver.3.1 (2001))
Status iucn3.1 NT.svgワシントン条約附属書II 分類 : 動物界 Animalia : 脊索動物門 Chordata 亜門 : 脊椎動物亜門 Vertebrata : 爬虫綱 Reptilia : 有鱗目 Squamata 亜目 : トカゲ亜目 Sauria 下目 : オオトカゲ下目 Platynota : ドクトカゲ科 Helodermatidae : ドクトカゲ属 Heloderma : アメリカドクトカゲ H. suspectum 学名 Heloderma suspectum
Cope, 1867 和名 アメリカドクトカゲ 英名 Gila monster

アメリカドクトカゲHeloderma suspectum)は、爬虫綱有鱗目ドクトカゲ科ドクトカゲ属に分類されるトカゲ。別名ヒラモンスター

分布[編集]

アメリカ合衆国南西部、メキシコ北西部[1][2][3]

英名Gila monsterは「ヒラ川の怪物」の意[2]

H. s. suspectum アミメアメリカドクトカゲ
アメリカ合衆国(アリゾナ州南部、ニューメキシコ州南西部)、メキシコ(ソノラ州[2]
H. s. cinctum オビアメリカドクトカゲ
アメリカ合衆国(アリゾナ州西部、カリフォルニア州南西部、ネバダ州南東部、ユタ州南西部)、メキシコ(ソノラ州の一部)[2]

形態[編集]

全長23-35センチメートル、最大で50センチメートル以上に達する[3]。頭胴長22-35センチメートル[1]。尾は短く頭胴長の55%以下で、栄養状態の悪い個体でない限り太い[3]。体色はピンクや橙で、暗褐色の横帯が入る[1][3]。横帯にピンクや橙の斑紋が入る個体もいる[1]

H. s. suspectum アミメアメリカドクトカゲ
横帯に斑紋が入って不明瞭になり、不定形な斑紋や眼状斑に見える[2]
H. s. cinctum オビアメリカドクトカゲ
地色の部分が明瞭な横帯になる[2]

[編集]

噛まれると激しい痛みや患部の腫れ、浮腫眩暈吐き気、重篤な例では心臓への異常、アナフィラキシーショックなどの症状が出る[2]が、健康な成人の場合は噛まれても死に至ることは稀とされる[3]

分類[編集]

背面の模様により亜種が区別されているが分布域の境界では中間的な個体も見られ、生化学的解析でも亜種の有効性を疑う説もある[2]

  • Heloderma suspectum suspectum Cope, 1867 アミメアメリカドクトカゲ Reticulated gila monster
  • Heloderma suspectum cinctum Bogert & Martên Del Campo, 1956 オビアメリカドクトカゲ Banded gila monster

生態[編集]

砂漠や荒地、草原、乾燥した森林などに生息する[2]。地表棲だが、高木に登ることもある[2]。主に薄暮時に活動する[2]。昼間は岩の隙間や地中などで休むが、冬季や早春の晴天時には昼間に活動することもある[1]。危険を感じると口を開け、噴気音をあげて威嚇する[2]。突発的に素早く動くこともできる[2]

食性は動物食で、爬虫類の卵、鳥類の卵や雛、小型哺乳類などを食べる[1][2]

繁殖形態は卵生。夏季に交尾し、秋季から冬季にかけてに1回に3-5個の卵を産む[1]

人間との関係[編集]

マリコバ族などの原住民の間では、獲物や外敵に毒息を吹きかけ殺す怪物として恐れられていた[2]

過去にはペット用の乱獲によって生息数が減少し、生息環境の悪化も懸念されている[1]。多くの生息地では野生個体は保護の対象とされている[1]

ペットとして飼育されることもあり、日本にも輸入されている。2006年に動物愛護法により特定動物に指定されたため、2013年現在日本で本種を飼育するにあたり獣医師によるマイクロチップの埋め込みおよび個体登録、地方自治体の許可が必要になる[2]。取扱いには細心の注意を払い、革手袋を着用して絶対に素手で扱わないなどの安全対策を怠らないようにする[2]

唾液に含まれる毒は2型糖尿病者用の治療薬(リキシセナチド KEGG D09729)として用いられている。

参考文献[編集]

[ヘルプ]
  1. ^ a b c d e f g h i 太田英利 「アメリカドクトカゲ」『動物世界遺産 レッド・データ・アニマルズ1 ユーラシア、北アメリカ』小原秀雄・浦本昌紀・太田英利・松井正文編著、講談社2000年、209頁。
  2. ^ a b c d e f g h i j k l m n o p q Go!!Suzuki 『爬虫・両生類ビジュアルガイド オオトカゲ&ドクトカゲ』、誠文堂新光社2006年、124-125、156-157頁。
  3. ^ a b c d e 越河暁洋「アメリカドクトカゲ」『爬虫類・両生類800種図鑑 第3版』千石正一監修 長坂拓也編、ピーシーズ、2002年、64頁。

関連項目[編集]

src= ウィキメディア・コモンズには、アメリカドクトカゲに関連するメディアがあります。 src= ウィキスピーシーズにアメリカドクトカゲに関する情報があります。

外部リンク[編集]

  1. ^ CITES homepage
  2. ^ The IUCN Red List of Threatened Species
    • Hammerson, G.A., Frost, D.R. & Gadsden, H. 2007. Heloderma suspectum. In: IUCN 2013. IUCN Red List of Threatened Species. Version 2013.1.
執筆の途中です この項目は、動物に関連した書きかけの項目です。この項目を加筆・訂正などしてくださる協力者を求めていますPortal:生き物と自然プロジェクト:生物)。
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アメリカドクトカゲ: Brief Summary ( Japanese )

provided by wikipedia 日本語

アメリカドクトカゲ(Heloderma suspectum)は、爬虫綱有鱗目ドクトカゲ科ドクトカゲ属に分類されるトカゲ。別名ヒラモンスター。

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아메리카독도마뱀 ( Korean )

provided by wikipedia 한국어 위키백과

아메리카독도마뱀(Heloderma suspectum)은 독도마뱀과 독도마뱀속에 속하는 도마뱀의 일종이다.[1][2] 별명이 힐라몬스터(Gila monster)로 "힐라 강의 괴물"이라는 뜻이다.

분포

미국 (애리조나주, 캘리포니아주, 콜로라도주, 뉴멕시코주, 유타주), 멕시코 (소노라주)에 서식한다.[3]

형태

길이는 20-40cm이며 최대 50cm정도이다. 체색은 검은색 또는 흑갈색으로, 주황색 혹은 분홍색의 얼룩무늬가 들어간다.

  • H. s. cinctum - 주황색 또는 분홍색 그물모양의 얼룩무늬가 있다.
  • H. s. suspectum - 주황색 또는 분홍색 가로줄이 있다.

물리면 심한 통증이나 환부의 부기, 부종, 현기증, 구역질, 오한, 아나필락스 허탈 등의 증상이 나타난다. 건강한 성인이 물려 사망하는 경우는 극히 드물다.

분류

얼룩무늬 형태 이외에 아종의 구분점이 없는 경우나 중간적인 개체가 눈에 뜨이는 경우, 그리고 분자계통학의 연구결과 등에서 아종의 유효성을 의심하기도 한다.

  • Heloderma suspectum cinctum Bogert & Martên Del Campo, 1956
  • Heloderma suspectum suspectum Cope, 1867

각주

  1. “2007 IUCN Red List – Search”. Iucnredlist.org. 2008년 11월 22일에 원본 문서에서 보존된 문서. 2008년 9월 19일에 확인함.
  2. Heloderma suspectum. 미국 통합 분류학 정보 시스템(Integrated Taxonomic Information System, ITIS).
  3. Hammerson, G.A., Frost, D.R. & Gadsden, H. 2007. Heloderma suspectum Archived 2008년 11월 22일 - 웨이백 머신. In: IUCN 2007. 2007 IUCN Red List of Threatened Species.
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