The earliest murine fossils are from the middle Miocene of northern Pakistan. The group is thought to have evolved in southern Asia and from there expanded outward into other parts of the Old World.
Murines perceive the world using vision, hearing, touch, smell, and taste. The relative importance of these senses varies among species and relates to each species' lifestyle. For example, murines that forage under the cover of darkness might rely more on smell, touch, and hearing than on vision, while the opposite might be true for diurnal murines. The range of murine perception often surpasses that of humans; for example, some murines can hear ultrasounds, as youngsters that have been separated from their mothers often emit ultrasonic calls, to which mothers quickly respond (Ehret 2005). In general, murine communication involves a combination of chemical, tactile, visual, and auditory cues--the relative importance of which, again, varies among species. As is the case for many mammals, pheromones play a large role in intraspecific interactions in murines, allowing individuals to attract and locate mates, assess each other's status in the dominance hierarchy, or to synchronize their reproductive cycles (Thompson et al. 2004). Males of many territorial species demarcate their boundaries by scent-marking with their large ventral sebaceous glands.
Communication Channels: visual ; tactile ; acoustic ; chemical
Other Communication Modes: pheromones ; scent marks
Perception Channels: visual ; tactile ; acoustic ; ultrasound ; chemical
The subfamily Murinae contains some of the most common species on Earth--the house mouse (Mus musculus) and Norway rat (Rattus norvegicus) come to mind--but it also contains a large number of species with small populations and restricted ranges. In fact, 41% of the species in this subfamily are on the IUCN's Red List of threatened species. This includes 20 critically endangered species, 41 endangered species, 66 vulnerable species, 13 near threatened species, 53 lower risk species, and 25 species that cannot be classified due to lack of information. Another 13 species are presumed to have gone extinct in recent years. The largest threat to most of these species is also the largest threat to the Earth's biodiversity overall: human-induced habitat loss and degradation. Specific conservation measures have not been enacted for many species, but for some, research is underway to better understand their ecology and for a few, protected areas have been established to offset the effects of habitat loss.
Murinae, the Old World rats and mice, is the largest subfamily of muroid rodents. There are an astonishingly diverse 561 species in this subfamily, which are divided among 126 genera in 29 divisions.
Although most murines have no direct impact whatsover on humans, those that do cause enough damage and suffering to give the entire group a bad name. Every year, rats and mice cause billions of dollars worth of property damage worldwide by gnawing on structures and on electrical wires, damaging buildings and starting fires. They are common household pests, raiding kitchens and granaries and causing much crop damage when they are abundant. In addition, they are carriers of numerous human diseases, from mild cases of food poisoning, to murine typhus and the highly deadly plague, which has had an enormous impact on human history, wiping out a quarter of Europe's population in a single 14th century epidemic.
Negative Impacts: injures humans (carries human disease); crop pest; household pest
Murines have an immense positive economic impact on human populations. First, some murine species are kept as pets, and some are sold by pet stores as food for other types of pets, such as snakes and lizards. Also, murines have been used as model organisms in laboratories for years, and their contribution to scientific and medical research cannot be overstated. Throughout history, humans have resorted to eating rats during times of famine to avoid starvation (although this practice probably contributes greatly to the spread of disease), and some murine species are prized as food or for their pelts and hunted regularly.
Positive Impacts: pet trade ; food ; body parts are source of valuable material; research and education
Murines are essential components of many ecosystems. They have roles as seed dispersers, pollinators (Johnson et al. 2001), predators, and/or prey. Not all ecosystem roles are positive, however. Some murine species have been introduced to areas where they were previously absent, and they have devastated ecosystems by outcompeting or feeding on native wildlife. A few murine species have developed a commensal relationship with humans, and, especially in urban areas, rely on human-produced waste to survive. In turn, various parasites use murines as hosts, including ticks and mites, fleas, lice, bot flies, nematodes, tapeworms, and trypanosomes.
Ecosystem Impact: disperses seeds; pollinates; keystone species
Species Used as Host:
Commensal/Parasitic Species:
As a group, murines consume an astonishing array of food items, including (but not limited to) roots, grains, leaves, shoots, seeds, berries, nuts, fungi, fruits, insects, earthworms, arachnids, fish, small birds and eggs, turtles, lizards, frogs, mussels, carrion, and even household items such as glue, paste, and soap. Individual murine species range from dietary generalists that will eat just about anything to specialist herbivores and specialist carnivores. Many murine species cache their food in burrows or crevices for later use.
Foraging Behavior: stores or caches food
Primary Diet: carnivore (Eats terrestrial vertebrates, Piscivore , Eats eggs, Insectivore , Eats non-insect arthropods, Molluscivore , Scavenger ); herbivore (Folivore , Frugivore , Granivore ); omnivore ; mycophage
Rats and mice are native to the Ethiopian, Palearctic, and Oriental regions, including Africa, the Arabian Peninsula, Europe, the Middle East, India, China, Taiwan, Korea, Japan, the Indo-Malayan region, the Philippines, New Guinea, Australia, and Tasmania. In addition, murines have been introduced around the world by humans, and now have a virtually cosmopolitan distribution.
Biogeographic Regions: nearctic (Introduced ); palearctic (Native ); oriental (Native ); ethiopian (Native ); neotropical (Introduced ); australian (Native ); oceanic islands (Introduced )
Other Geographic Terms: cosmopolitan
Murines occupy a wide variety of boreal, temperate, subtropical, and tropical habitats, including: coniferous and deciduous forests, subtropical broadleaf forests, tropical rainforests, monsoon forests, savannahs, steppes, grasslands, scrub forests, alpine meadows, deserts, rocky outcrops, river valleys, marshes, swamps, lakes, rivers, streams, agricultural fields, cities, and towns. Murines span a greater elevational range than any other muroid subfamily; they have been found in high mountains at more than 4,000 meters, and in mine shafts more than 500 meters below the earth's surface.
Habitat Regions: temperate ; tropical ; terrestrial
Terrestrial Biomes: tundra ; taiga ; desert or dune ; savanna or grassland ; chaparral ; forest ; rainforest ; scrub forest ; mountains
Aquatic Biomes: lakes and ponds; rivers and streams
Wetlands: marsh ; swamp ; bog
Other Habitat Features: urban ; suburban ; agricultural ; riparian
Murines usually do not live more than a few months in the wild, and those that do rarely live to be three years old. In captivity, however, some murines may live nearly a decade.
There is an incredibly diverse range of body types in this subfamily. Murines can be shrew-like, gerbil-like, vole-like, gopher-like, squirrel-like, mouse-like, and rat-like, with many variations on each body plan. Some are small and gracile, like tiny African pygmy mice (Mus minutoides), which are less than 9 cm long and weigh in at under 5 grams, and some are large and robust, like southern Luzon giant cloud rats (Phloeomys cumingi), which grow to over 48 cm long and weigh over 2 kg. Murines usually have prominent ears, and their tails can be long or short. The fur is smooth and silky, woolly, short and velvety, coarse and thin, or spiny. The tail is naked to bushy, and is prehensile or semi-prehensile in some species. The ears can be either scantily-haired or furry, and the soles of the feet are hairless. The fur may be various shades of brown and gray on the dorsal surface, and is usually white, buff, or grayish on the ventral surface. Some species have dorsal stripes. The tail is usually monocolored but is sharply bicolored in some. Polymorphism is present in some species, with two or more color morphs living in sympatry. Male murines have large ventral sebaceous glands. There are no cheek pouches. The feet are cursorially adapted in most, and can be either short and wide or long and narrow. In some species, the feet are webbed. The front feet each have four digits that bear claws plus a stubby thumb bearing a nail. All five digits on each hind foot bear claws in most genera. Some arboreal species have semiopposable thumbs.
The dental formula is 1/1, 0/0, 0/0, 3/3 = 16 in most murine genera. The incisors can be opisthodont, orthodont, or proodont. Most have ungrooved incisors. The molars are rooted and are not evergrowing. The molars range from brachydont to hypsodont, and the third molars are always smaller than the first and second molars. Most murines have three lingual cusps on the upper molars, giving a triserial cusp arrangement; there is always at least an anterolingual cusp on the second upper molars. In addition, the lower molars usually have labial cusplets. Murines vary widely in skull characteristics, and the diversity is so great that no synapomorphies of the skull can be identified, except of the lack of a sphenofrontal foramen or squamosoalisphenoid groove. A skeletal characteristic that all murine genera share is the presence of a prominent neural spine on the second thoracic vertebra. Diploid chromosome numbers for murines range from 25 to 68.
Other Physical Features: endothermic ; homoiothermic; bilateral symmetry ; polymorphic
Murines are a food source for a myriad of predators belonging to almost every extant vertebrate class, including mammalian carnivores (such as foxes, cats, and weasels), birds of prey (such as hawks, eagles, and owls), non-bird reptiles (such as snakes and large lizards), amphibians (such as large frogs and toads), and even large fish (Cochran and Cochran 1999).
Because they are up against such a large array of predators, murines have evolved numerous strategies for avoiding being eaten. Many are only active after dark, when diurnal predators (like snakes and hawks) may have a difficult time hunting them. Murines often seek refuge in burrows or crevices that are too small for predators to enter. In addition, many rely on their versatility to escape predators, and can run, leap, climb or swim in a pinch, even if they do not normally do so. Murines tend to have neutral-colored coats that blend in with the natural backgrounds of their habitats, affording them some degree of camouflage. Finally, like most wild mammals, murines often bite viciously when attacked and may inflict enough surprise or damage that predators release them.
Known Predators:
Anti-predator Adaptations: cryptic
Most murines have a polygynandrous mating system, with each male and female only associating for the brief time required for copulation and each individual having multiple mates. A few species are monogamous, at least within one breeding season, and males stay with their mates and help to raise their young.
Mating System: monogamous ; polygynandrous (promiscuous)
Many murines are prolific breeders. Females of some species are able to breed when they are just a few weeks old and give birth to litters of 7, 10, or even 13 young after a gestation that lasts less than a month. Many experience a postpartum estrus so that they give birth again shortly after weaning the first litter, and they may have ten or more litters per year. This incredible reproductive potential is, in part, what contributes to the success of this subfamily. However, most murines, while more prolific than many mammals, have a somewhat lower reproductive output. Litter sizes of one to four young are common for many species, and the young reach sexual maturity after three months. Many are seasonal breeders, and as a result, they produce three or four litters per year (instead of nine or ten) when the climate is favorable.
Key Reproductive Features: iteroparous ; seasonal breeding ; year-round breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; viviparous ; post-partum estrous
Female murines, like all mammals, provide their young with milk before the young are able to eat solid food. Many murines build nests--the size, shape and location of which varies among species--in which they raise their young. Yet females of other species simply allow their babies to clamp on to their teats and then carry their young around with them. The time to weaning is relatively short, as young murines grow and develop quickly. Both altricial and precocial murine species are known. Male parental care is rare, but not unheard of, in this group. For example, male four-striped grass mice (Rhabdomys pumilio) spend just as much time in the nest with their offspring as females do, grooming their young and retrieving them if they stray (Schradin and Pillay 2003). Most murine young do not associate with their parents for long, leaving to seek their own territories and mates shortly after they are weaned.
Parental Investment: altricial ; precocial ; pre-fertilization (Provisioning, Protecting: Female); pre-hatching/birth (Provisioning: Female, Protecting: Female); pre-weaning/fledging (Provisioning: Female, Protecting: Male, Female); pre-independence (Provisioning: Female, Protecting: Male, Female)
The Old World rats and mice, part of the subfamily Murinae in the family Muridae, comprise at least 519 species. Members of this subfamily are called murines. In terms of species richness, this subfamily is larger than all mammal families except the Cricetidae and Muridae, and is larger than all mammal orders except the bats and the remainder of the rodents.[1]
The Murinae are native to Africa, Europe, Asia, and Australia. They are terrestrial placental mammals. They have also been introduced to all continents except Antarctica, and are serious pest animals. This is particularly true in island communities where they have contributed to the endangerment and extinction of many native animals.[2][3]
Two prominent murine species have become vital laboratory animals: the brown rat and house mouse are both used as medical subjects.
The murines have a distinctive molar pattern that involves three rows of cusps instead of two, the primitive pattern seen most frequently in muroid rodents.[4]
The first known appearance of the Murinae in the fossil record is about 14 million years ago with the fossil genus Antemus. Antemus is thought to derive directly from Potwarmus, which has a more primitive tooth pattern. Likewise, two genera, Progonomys and Karnimata, are thought to derive directly from Antemus. Progonomys is thought to be the ancestor of Mus and relatives, while Karnimata was previously thought to lead to Rattus and relatives, although it is now thought to be a member of the extant tribe Praomyini.[4][5] All of these fossils are found in the well-preserved and easily dated Siwalik fossil beds of Pakistan. The transition from Potwarmus to Antemus to Progonomys and Karnimata is considered an excellent example of anagenic evolution.[4]
Most of the Murinae have been poorly studied. Some genera have been grouped, such as the hydromyine water rats, conilurine or pseudomyine Australian mice, or the phloeomyine Southeast Asian forms. It appears as if genera from Southeast Asian islands and Australia may be early offshoots compared to mainland forms. The vlei rats in the genera Otomys and Parotomys are often placed in a separate subfamily, Otomyinae, but have been shown to be closely related to African murines in spite of their uniqueness.
Three genera, Uranomys, Lophuromys, and Acomys, were once considered to be murines, but were found to be more closely related to gerbils through molecular phylogenetics. They have been assigned a new subfamily status, Deomyinae.
Molecular phylogenetic studies of Murinae include Lecompte, et al. (2008),[6] which analyzes African murine species based on the mitochondrial cytochrome b gene and two nuclear gene fragments. Lecompte, et al. (2008) estimates that African murines colonized Africa from Asia approximately 11 million years ago during the Miocene.
The following phylogeny of 16 Murinae genera, based on molecular phylogenetic analysis of the Interphotoreceptor Retinoid Binding Protein (IRBP) gene, is from Jansa & Weksler (2004: 264).[7]
MurinaeThe following is a list of Murinae genus divisions ordered by the continents that they are endemic to. Most of the diversity is located in Southeast Asia and Australasia.
As of 2005, the Murinae contained 129 genera in 584 species. Musser and Carleton (2005) divided the Murinae into 29 genus divisions. They treated the Otomyinae as a separate subfamily, but all molecular analyses conducted to date have supported their inclusion in the Murinae as relatives of African genera.[7][8][9][10] In a recent expedition in the Philippines, seven more Apomys mice were added and the genus was proposed to split into two subgenera - Apomys and Megapomys, based on morphological and cytochrome b DNA sequences.[11] In 2021, a major revision was taken of Praomyini.[12]
The tribes are based on the classification by the American Society of Mammalogists.[13] Some of the division placement is based on Pages et al., 2015 and Rowe et al., 2019.[2][14]
SUBFAMILY MURINAE - Old World rats and mice
{{cite web}}: CS1 maint: url-status (link) The Old World rats and mice, part of the subfamily Murinae in the family Muridae, comprise at least 519 species. Members of this subfamily are called murines. In terms of species richness, this subfamily is larger than all mammal families except the Cricetidae and Muridae, and is larger than all mammal orders except the bats and the remainder of the rodents.
