Peromyscus keeni includes the previously recognized species Peromyscus keeni oreas and Peromyscus keeni sitkensis as well as some populations previously recognized as Peromyscus maniculatus (P. m. algidus, P. m. hylaeus, P. m. keeni, P. m. macrorhinus, and P. m. prevostensis). It is possible that 3 other P. maniculatus subspecies should be included in P. keeni: P. m. carli, P. m. doylei, and P. m. triangularis.
A health condition of the genus Peromyscus that is prevalent at a similar rate in humans is periodontal disease. Peromyscus keeni exhibited this disease at rates between 7 and 13.5%, with a significantly increased rate in populations on isolated islands. This condition occurs rarely in any other mammalian species, which may make Peromyscus a valuable research model.
Rodents rely heavily on their sense of olfaction to interact within their social hierarchies. Dominance can be conveyed to other members of the community solely by odor. A recent topic of interest for research is rodent ultrasound. Ultrasonic vocalizations have been observed in research mice as well as in wild populations of P. californicus and P. boylii. Based on literature on other mammal and bird ultrasound, it is likely that this method of communication is used by all Peromyscus species to communicate with offspring, maintain territory boundaries, and to communicate with as well as attract mates. It is unlikely that ultrasonic vocalizations are used as a alarm calls as this behavior is only known from diurnal animals.
Communication Channels: acoustic ; chemical
Perception Channels: visual ; tactile ; acoustic ; ultrasound ; chemical
Peromyscus keeni is listed as “least concern” by the IUCN because of their widespread, stable populations and adaptability to various habitats.
US Federal List: no special status
CITES: no special status
State of Michigan List: no special status
IUCN Red List of Threatened Species: least concern
Peromyscus maniculatus is a natural reservoir for Lyme disease and hantavirus. Peromyscus keeni may also transmit these pathogens and negatively affect human health. Northwestern deer mice may also enter homes and become a nuisance.
Negative Impacts: injures humans (carries human disease); household pest
Species in the genus Peromyscus are useful for the research of genomic imprinting. Peromyscus has been an important model for showing an X-linked locus in hybrid dysgenesis when crossing different species. They have also been used for researching reproductive isolation in mammals. Peromyscus have a much longer lifespan than typical lab mice, making them useful for many forms of research. The longevity of Peromyscus has been analyzed as baseline research for comparative aging research. Their physiological characteristics may help us understand and treat age-related diseases such as cancer.
Positive Impacts: research and education
Northwestern deer mice influence seabird populations in coastal areas by preying on their eggs and nestlings. Marbled murrelet (Brachyramphus marmoratus) and rhinoceros auklet (Cerorhinca monocerata) are preyed on by these mice. In one study area, 34% of rhinoceros auklet eggs had been preyed on by northwestern deer mice. Predation occurs mostly during the early post-laying period when adults are foraging and occurs minimally in later incubation and hatchling periods. If food sources for the rhinoceros auklets become limited their foraging time increases, which puts their eggs at an even greater risk for predation.
Seed dispersal mutualism has been suggested between Peromyscus maniculatus and limber pine (Pinus flexilis). Other Peromyscus species may drive seed defense evolution through their secondary dispersal effects, causing the method of seed dispersal which plants rely on to change in the presence of ground scavengers.
Peromyscus keeni can be a host to several invertebrate parasites such as lice, ticks, bots and fleas. The flea species that are known to use P. keeni as a host are: Hystrichopsylla occidentalis, Catallagia charlottensis, Ceratophyllus ciliates protinus, Megabothris abantis, Opisodasys keeni, and Malaraeus telchinus.
Ecosystem Impact: disperses seeds
Commensal/Parasitic Species:
Northwestern deer mice are mainly granivorous ground foragers. In an intake preference study done on foods from southeastern Alaska seeds from trees, shrubs and fruits were compared as well as fruits for palatability. It was found that salmonberry, stink currants, devil's club seeds, and Sitka spruce seeds were preferred. When diet composition in different ecological habitats was compared, stomach contents did not vary significantly. All diets were composed mostly of fruits and seeds of understory plants, followed by tree seeds and leaf material, with small amounts of arthropods and traces of fungi. Tree seeds become a more important part of their diets during winter and early spring because these mice do not cache food or store seasonal fat. In some areas they eat the eggs of nesting birds, including marbled murrelets (Brachyramphus marmoratus) and rhinoceros auklets (Cerorhinca monocerata).
Animal Foods: birds; fish; eggs; carrion ; insects; terrestrial non-insect arthropods
Plant Foods: leaves; seeds, grains, and nuts; fruit
Other Foods: fungus
Primary Diet: herbivore (Granivore ); omnivore
Peromyscus keeni is found in western British Columbia, western Washington, and southeastern Alaska, including the Haida Gwaii (Queen Charlotte) islands, the Alexander Archipelago, and other coastal islands.
Biogeographic Regions: nearctic (Native )
Northwestern deer mice are adapted to many habitats, but appear to thrive in upland and new-growth forests. They also commonly inhabit old-growth forests and floodplains, although those are less favorable because they lack the spatial and temporal complexity that promotes survivorship. They are found in rainy areas with mild climates and semi-open canopies. They are found at higher elevations than Peromyscus maniculatus in the same region. On small islands, northwestern deer mice are found along the edges of cedar-spruce forest and on beaches where logs, rocks, and debris provide sufficient cover.
Habitat Regions: temperate ; terrestrial
Terrestrial Biomes: forest ; rainforest
Aquatic Biomes: coastal
Other Habitat Features: riparian
Little research has been conducted on the lifespan of northwestern deer mice. Related species (P. maniculatus, P. californicus, and P. leucopus) have expected lifespans in the wild of 342.2 days for males and 280.9 days for breeding females. Some individuals survive to reproduce for a second breeding season.
Range lifespan
Status: wild: 3 (high) years.
Average lifespan
Status: wild: 1 years.
Northwestern deer mice are medium sized cricetids. Juveniles are a grayish color, while adults are tri-colored. They are brown dorsally and light grey ventrally with tails that are brown dorsally and white ventrally. Northwestern deer mice have long tails (more than 100 mm) and large, naked ears. The tail is slender with short hair and is distinctly bi-colored. Peromyscus keeni is distinguishable from P. maniculatus because of its darker fur color and longer tail (tail length in P. maniculatus is less than 100 mm). Body size in northwestern deer mice is significantly correlated with elevation, with body size peaking at intermediate elevations.
Range mass: 10 to 30 g.
Range length: 181 to 236 mm.
Other Physical Features: endothermic ; homoiothermic; bilateral symmetry
Sexual Dimorphism: sexes alike
Primary predators are American martens (Martes americana), owls (Strigidae), red foxes (Vulpes vulpes). Other terrestrial predators are likely to take northwestern deer mice and their young, including large snakes, other raptors, and weasels (Mustela). Northwestern deer mice are cryptically colored and secretive to avoid predation.
Known Predators:
Anti-predator Adaptations: cryptic
There is no available information on mating systems in northwestern deer mice. Mating systems in Peromyscus are variable, and include monogamous, roving, or polygynous mating behaviors. At high female densities, males become more territorial and defend a small number of females or maintain a monogamous relationship with one female. In areas with low female densities, females become solitary and males develop a less territorial, roving strategy where they mate with multiple females. Females generally maintain small, solitary home areas in all mating systems.
During the breeding season, northwestern deer mice females with mates have short breeding intervals and exhibit postpartum estrus. Breeding intervals are increased among females that do not have established mates. In wild populations, many adults only live long enough to reproduce during one breeding season. Adult males enter breeding condition prior to adult females and all females average 2 to 3 litters per breeding season. Females give birth to 2 to 5 young after a gestation period of 23 to 25 days. Gestation periods are shorting when females are nursing a previous litter. Litter size is positively correlated with relative litter mass: larger litter sizes result in smaller body sizes of young in that litter. Young are weaned and independent at 3 to 4 weeks old and may be able to breed as early as 5 to 6 weeks old. Males have a lifetime reproductive success that is twice that of females.
Breeding interval: Female northwestern deer mice breed two to three times per breeding season.
Breeding season: Breeding occurs from February to October.
Range number of offspring: 2 to 5.
Average number of offspring: 4.3.
Range gestation period: 23 to 25 days.
Range weaning age: 3 to 4 weeks.
Range time to independence: 3 to 4 weeks.
Range age at sexual or reproductive maturity (female): 5 to 6 weeks.
Range age at sexual or reproductive maturity (male): 5 to 6 weeks.
Key Reproductive Features: iteroparous ; seasonal breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; viviparous ; post-partum estrous
Parental investment in northwestern deer mice has not been well-studied. Like all mammals, females invest substantially in young through gestation and lactation.
Parental Investment: altricial ; pre-fertilization (Provisioning, Protecting: Female); pre-hatching/birth (Provisioning: Female, Protecting: Female); pre-weaning/fledging (Provisioning: Female, Protecting: Female)
The northwestern deer mouse or Keen's mouse (Peromyscus keeni) is a species of rodent in the family Cricetidae. It is found in British Columbia in Canada and in Alaska and Washington in the United States.[1] It was named after the Rev. John Henry Keen in 1894.[2]
Hanley, Thomas A., and Jeffrey C. Barnard. “Spatial Variation in Population Dynamics of Sitka Mice in Floodplain Forests.” Journal of Mammalogy, vol. 80, no. 3, 1999, pp. 866–879. JSTOR, www.jstor.org/stable/1383255.
The northwestern deer mouse or Keen's mouse (Peromyscus keeni) is a species of rodent in the family Cricetidae. It is found in British Columbia in Canada and in Alaska and Washington in the United States. It was named after the Rev. John Henry Keen in 1894.
