Hispid cotton rat

Taxonomy

The currently accepted scientific name for the hispid cotton rat is Sigmodon hispidus. It is a member of the family Cricetidae. Although 25 subspecies are accepted, including the type subspecies, the most distinct genetic subdivision within S. hispidus separates the species into two genetic lineages, an eastern one and a western one, which hybridize along a contact zone.

Distribution

In the United States, the hispid cotton rat ranges from southern Virginia and North Carolina (especially the coastal plain) west through Tennessee, northern Missouri, Kansas, and extreme southern Nebraska to southeastern Colorado, New Mexico, and southeastern Arizona; south to the Gulf Coast; and south to northern Mexico. It does not occur on the coastal plain of North Carolina nor in the mountains of Virginia. Disjunct populations occur in southeastern Arizona and extreme southeastern California into Baja California Norte. In Kansas, it appeared within the last 50 years.

Habitat

Hispid cotton rats occupy a wide variety of habitats within their range, but are not randomly distributed among microhabitats. They are strongly associated with grassy patches with some shrub overstory and they have little or no affinity for dicot-dominated patches. Habitat use and preference by hispid cotton rats usually appear to depend on the density of monocots. However, some studies are equivocal on the importance of other vegetation. For example, hispid cotton rats may respond favorably to a high percentage of dicots in a stand if cover remains optimal. In Kansas, hispid cotton rats increased on root-plowed prairie that experienced an increase in the diversity and biomass of early successional forbs.

Male hispid cotton rats exhibit a lower degree of habitat selectivity than females. In Texas, males were found on different habitat types (grassy, shrubby, and mixed) about in proportion to availability; females tended to choose mixed habitats more often than expected based on availability. Habitat use varies with season and breeding status. In Texas, grassy areas with some shrubs were preferred in spring and areas with more shrubby cover were preferred in fall.

In Kansas, remnant prairie the preferred habitat of hispid cotton rats has dense undergrowth and an upper layer of protective vegetation such as big bluestem (Andropogon gerardii)/kochia (Kochia scoparia)/annual sunflower (Helianthus annuus). Hispid cotton rats prefer grassy clearings, croplands, overgrown fields, and overgrown roadsides and right-of-ways. In Kansas prairies hispid cotton rats occur at relatively high abundance in ungrazed uplands and sandy mixed-grass native prairie, but also prefer disturbed areas.

The use of disturbed areas was probably important in the recent invasion of hispid cotton rats into north-central Kansas from the northern presettlement limit of their range in Oklahoma. On Texas rangelands, hispid cotton rats appeared to respond to increased biomass of standing crop and increases in the proportion of the standing crop in potential food plants such as bristlegrasses (Setaria spp.). Rat density was four times greater on areas planted to exotic grasses including King Range bluestem (Bothriochloa ischaemum) and buffel grass (Enchrus ciliaris) than on native range dominated by windmill grass (Chloris spp.) and Texas wintergrass (Stipa leucotricha).

In northeastern Kansas, hispid cotton rats occurred at high population densities in tallgrass prairie (dominated by perennial grasses); population density declined to levels too low to accurately estimate over 28 years of succession to brush and trees. They are occasionally found in habitats dominated by early successional grassland species (i.e., annual grasses and forbs).

Hispid cotton rats occur in grassy areas or early-successional habitats within open woods. In the Southeast hispid cotton rat population density increases with the density of broomsedge (Andropogon virginicus) and other low growing plants, but declines with succession to brush and trees. In Texas pine-hardwood forests, hispid cotton rats were captured most often in narrow streamside management zones which have more light and thus more ground cover, and slightly less often in wider zones. In longleaf pine-slash pine stands of central Louisiana hispid cotton rats were captured in sawtimber, sapling, and regeneration stands but not in pole-sized timber; stands with surface cover were more likely to support hispid cotton rats. Pole-sized timber is dense, little light reaches the ground, and surface cover is minimal. In Louisiana and Mississippi, hispid cotton rats were more numerous in cut than in uncut bottomland hardwoods. They were also more numerous in cottonwood (Populus spp.) plantations than in uncut cottonwood stands.

In Colorado, hispid cotton rats occupy semimoist areas with abundant grasses and weeds and appear to be restricted to relatively warm areas. In New Mexico, hispid cotton rats do not occur regularly in areas with a mean annual temperature lower than 55 degrees Fahrenheit (13 °C) and a growing season shorter than 180 days.

When water and wastewater are added to baldcypress (Taxodium distichum var. distichum) domes, small mammals including hispid cotton rat move to peripheral areas that are drier. The rising water tables favor marsh rice rats (Oryzomys palustris) over hispid cotton rats.

Cameron and McClure the highest estimated density was 65.4 hispid cotton rats per hectare in favored habitat.

In a study of the effects of habitat patchiness on movement, hispid cotton rats preferred only the largest patches which were 165 ft by 330 feet (50×100 m). Patches were established by mowing strips between blocks of grasses. Hispid cotton rats were present in intermediate numbers on medium-sized patches which were 39.6 by, but were so scarce on the smallest patches that their movement pattern could not be analyzed.

In Kansas remnant prairie, the average annual home range of adult male hispid cotton rat was estimated as 0.969 acre and that of adult females as 0.543 acre. The greatest distance traveled by an adult male was 330 ft and by an adult female was 250.9 ft. In Texas male hispid cotton rats also had larger home ranges than females. Home ranges were larger in summer and winter than in spring and fall. Home range size was positively correlated with body mass and negatively correlated with population density. There was a relatively high degree of exclusivity (41%), indicating intolerance of conspecifics, particularly of the same sex. In Texas hispid cotton rats found their original home ranges (homed) from displacements of up to 5000 ft. Returns were relatively high from displacements of up to 990 ft, suggesting that hispid cotton rats are familiar with the area within that distance. Hispid cotton rats released in areas with no cover homed better than hispid cotton rats released in typical hispid cotton rat habitat. Spencer and others used site fidelity as a measure of an individual's actual home range and concluded that hispid cotton rats have both single-day and multiday site fidelity and therefore establish true home ranges.

Cover requirements

On the southern Coastal Plain, hispid cotton rats use gopher tortoise (Gopherus polyphemus) burrows for shelter in sandhill scrub dominated by longleaf pine, bluejack oak (Quercus incana) and sand post oak (Q. stellata ssp. margaretta).

Plant communities

Hispid cotton rats occur in mesquite (Prosopis spp.) bosques in Arizona and New Mexico. On the Coastal Plain, hispid cotton rats occupy the periphery of central ponds and more distant ecotonal areas of bald cypress (Taxodium distichum) swamps. Hispid cotton rats are abundant in fallow rice fields in Texas, primarily near heavily overgrown canal banks and levees.

In Florida, hispid cotton rats are common in sabal palm (Sabal palmetto)-coconut palm (Cocos nucifera) savanna. In the Southeast, hispid cotton rats prefer grassy understories of fire-maintained loblolly pine-shortleaf pine (Pinus taeda-P. echinata) and longleaf pine-slash pine (P. palustris-P. elliottii) stands.

In Florida, sand pine (P. clausa) scrub has been invaded by hispid cotton rats for short periods. Reasons for the invasion were not clear, but were probably related to increased population densities in nearby optimum habitat (pine flatwoods with a dense ground cover of grasses and herbs). Sand pine scrub has little ground cover and is marginal habitat for hispid cotton rats.

Behavior and biology

Hispid cotton rats are mainly nocturnal, but activity has been observed at all hours. Activity patterns appear to be influenced by both biotic and abiotic factors. They are active year-round. Populations usually exhibit a bimodal breeding season, with peak litter production occurring in late spring and late summer-early fall. Reproductive peaks in March and June for hispid cotton rats; all trapped females were pregnant from March through July, but none was breeding in November and December. They do not breed in the coldest winter months. In Kansas, breeding is restricted to the frost-free months.

A nest is constructed by the female either on the ground surface or in a burrow. Nests are cup- to ball-shaped and woven of grasses. Hispid cotton rats in the northern parts of their range make thicker and denser nests, but not larger, than those of southern hispid cotton rats.

Gestation in hispid cotton rats lasts about 27 days. Litter sizes range from one to 15 young, with larger litters more typical of northern populations and also of late-season litters. Neonates are well developed; they are mobile and lightly furred, but their eyes are not open. The eyes open around 18 to 36 hours after birth. They are weaned in 10 to 15 days and reach minimum adult size by about 41 days.

Some male hispid cotton rats are sexually mature by 60 days; some females are receptive by 30 to 40 days. The earliest recorded pregnancy was at 38 days. These rats have been noted as one of the most prolific mammals in the Southeast. Females bear two to several litters per year depending on latitude and local weather. Females mate within 24 hours of giving birth.

Hispid cotton rat populations are largely sedentary; population density depends mainly on current reproductive effort and not as strongly on immigration. In Kansas remnant prairie, hispid cotton rat population density was highest in fall and early winter and lowest in spring and early summer. In the northernmost parts of hispid cotton rat range, severe weather is associated with rapid population declines and local extinctions. In Kansas, most mortality was associated with severe weather in March and April. Populations in the northern part of hispid cotton rat range experience dramatic declines in the nonbreeding season. In many areas, local extinction is frequent. In Georgia, their spring abundance in old fields was lowest following drought and extreme winter cold. The reductions in populations were associated with sharp declines in vegetative biomass and cover.

In Georgia, a density of 15 hispid cotton rats per acre was considered the predator-limited carrying capacity. Mammalian predators did not have a substantial effect on population density. At densities higher than 15 per acre, mortality was high; below 15 rats per acre, predator-caused mortality was low. When diverse and mobile predators are present, they are more important than food, social interaction, or weather in limiting hispid cotton rat density. Also in Georgia, 1 acre field enclosures protected from avian predators (covered with a net) were monitored for the effect of avian predators on breeding hispid cotton rat populations. The presence of the cover had no effect on seasonal recruitment or spring-summer mortality; however, autumn-winter mortality was greatly reduced with the cover in place. Avian predators, then, are apparently more important than mammalian predators. In addition, nonbreeding (winter) populations suffer substantial losses from predation, whereas breeding populations are either able to compensate by replacing lost individuals, are less vulnerable to predation, or both.

Diet

Hispid cotton rats are omnivorous, but the major portion of their diet consists of green vegetation. They occasionally consume insects and other small animals. Field observations of hispid cotton rat diet indicate that preferred foods are the stems, foliage, and seeds of crop and wild plants. Golley reported that in the Southeast, perennial legumes and broomsedge comprised a large portion of the diet of hispid cotton rats. They also consumed roots and tubers. In Texas hispid cotton rat diets always included the lower green stems of grasses (which are relatively low in nutritive value); raspberries (Rubus spp.), privet (Ligustrum spp.) fruits, and leaves of fogfruits (Phyla spp.) were consumed as available.

Predators

Hispid cotton rats are preyed on by many birds and reptiles, and by other mammals. In central Missouri hispid cotton rats comprised 19% of prey items in red-tailed hawk (Buteo jamaicensis) nests. In North Carolina, bobcats (Lynx rufus) consumed substantial numbers of hispid cotton rats. Hispid cotton rats were a minor item in the diet of Florida panthers (Felis concolor coryi).

References

References

1. Cassola, F.. (2016). "''Sigmodon hispidus''".
2. Carroll, D. S., L. L. Peppers, and R. D. Bradley. (2004). "Molecular systematics and phylogeography of the ''Sigmodon hispidus'' species group". pp. 85–98, in Contribuciones Mastozoologicas en Homenaje a Bernardo Villa (Sanchez-Cordero V. y R. A. Medellin Eds.) Instituto de Biologia e Instituto de Ecologia, UNAM, Mexico.
3. Meikle, D. and Powers, K. (2011) [https://animaldiversity.org/accounts/Sigmodon_hispidus/ ''Sigmodon hispidus'' hispid cotton rat]. Animal Diversity Web, University of Michigan Museum of Zoology.
4. Hall, E. Raymond. (1981). ''The mammals of North America''. 2nd ed. Vol. 2. New York: John Wiley and Sons
5. Fleharty, Eugene D. (1972). "Some aspects of small mammal ecology in a Kansas remnant prairie". In: Zimmerman, James H., ed. Proceedings, 2nd Midwest prairie conference; 1970 September 18–20; Madison, WI. Madison, WI: University of Wisconsin Arboretum. pp. 97–103
6. Kaufman, Donald W.; Finck, Elmer J.; Kaufman, Glennis A. (1990). "Small mammals and grassland fires". In: Collins, Scott L.; Wallace, Linda L., eds. ''Fire in North American tallgrass prairies''. Norman, OK: University of Oklahoma Press. pp. 46–80
7. Fitch, Henry S.; Kettle, W. Dean. (1983). "Ecological succession in vegetation and small mammal populations on a natural area of northeastern Kansas". In: Kucera, Clair L., ed. Proceedings, 7th North American prairie conference; 1980 August 4–6; Springfield, MO. Columbia, MO: University of Missouri. pp. 117–121
8. Dickson, James G.; Williamson, J. Howard. (1988). Small mammals in streamside management zones in pine plantations. In: Szaro, Robert C.; Severson, Kieth E.; Patton, David R., technical coordinators. Management of amphibians, reptiles, and small mammals in North America: Proceedings of the symposium; 1988 July 19–21; Flagstaff, AZ. Gen. Tech. Rep. RM-166. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station. pp. 375–378
9. Mullin, Keith; Williams, Kenneth L. (1987). "Mammals of longleaf-slash pine stands in central Louisiana". In: Pearson, Henry A.; Smeins, Fred E.; Thill, Ronald E., compilers. Proceedings of the southern evaluation project workshop; 1987 May 26–27; Long Beach, MS. Gen. Tech. Rep. SO-68. New Orleans, LA: U.S. Department of Agriculture, Forest Service, Southern Forest Experiment Station. pp. 121–124
10. In northern Georgia intensive site preparation following clearcutting of pine-hardwood mixtures increases forage production and increased numbers of small mammals (presumably including hispid cotton rats).Evans, Timothy L.; Waldrop, Thomas A.; Guynn, David C., Jr. (1991). [https://seafwa.org/sites/default/files/journal-articles/EVANS-104-114.pdf "Fell-and-burn regeneration in the North Georgia piedmont: effects on wildlife habitat and small mammals"]. Proceedings, Annual Conference of Southeastern Association of Fish and Wildlife Agencies. 45: 104–114
11. Lechleitner, R. R. (1969). Wild mammals of Colorado. Boulder, CO: Pruett Publishing Company
12. In [[Trans-Pecos]], Texas, hispid cotton rats occur at the warmer, low elevations in areas of moderate to dense grassy cover.Schmidly, David J. (1977). The mammals of Trans-Pecos Texas: including Big Bend National Park and Guadalupe Mountains National Park. College Station, TX: Texas A&M University
13. compiled reports of hispid cotton rat population densities. The mean hispid cotton rat population density range for all studies was 5.3 to 31.1 rats per [[hectare]]. Population density ranges in Texas include 1 to 14 rats per hectare in coastal prairie, 17 to 84 rats per hectare in unmowed right-of-ways, 9 to 29 rats per hectare in old fields, 6 to 54 rats per hectare in abandoned fields, and 0.7 to 5 rats per hectare in grass-prickly-pear (''Opuntia'' spp.). In Florida population density ranges include 0 to 24 rats per hectare in sand pine scrub, 2 to 47 rats per hectare in pine flatwoods, and 27 to 94 rats per hectare in tropical hammock. In Kansas, the hispid cotton rat density ranged from 0.2 to 21 rats per hectare in grassland;Cameron, Guy N.; McClure, Polley A. (1988). "Geographic variation in life history traits of the Hispid cotton rat (''Sigmodon hispidus'')". In: Boyce, Mark S., ed. Evolution of life histories of mammals: theory and pattern. New Haven, CT: Yale University Press: 33–64
14. Landers, J. Larry; Speake, Dan W. (1980). [https://seafwa.org/sites/default/files/journal-articles/LANDERS-515-529.pdf "Management needs of sandhill reptiles in southern Georgia"]. Proceedings, Annual Conference of Southeast Association Fish & Wildlife Agencies. 34: 515–529
15. Mares, M. A.; Hulse, A. C. (1977). "Patterns of some vertebrate communities in creosote bush deserts". In: Mabry, T. J.; Hunziker, J. H.; DiFeo, D. R. Jr., eds. ''Creosote bush: Biology and chemistry of Larrea in New World deserts''. U.S./IBP Synthesis Series 6. Stroudsburg, PA: Dowden, Hutchinson & Ross, Inc. pp. 209–226. {{ISBN. 0879332824
16. Harris, Larry D.; Vickers, Charles R. (1984). "Some faunal community characteristics of cypress ponds and the changes induced by perturbations". In: [[Katherine Ewel. Ewel, Katherine Carter]]; Odum, Howard T., eds. ''Cypress swamps''. Gainesville, FL: University of Florida Press. pp. 171–185. {{ISBN. 9780813007144
17. Baker, R. H.. (1940-05-14). "Effect of Burning and Grazing on Rodent Populations". Journal of Mammalogy.
18. Klukas, Richard W. (1969). The Australian pine problem in Everglades National Park. Part 1. The problem and some solutions. Internal Report. South Florida Research Center, Everglades National Park. 16 p. On file with: U.S. Department of Agriculture, Forest Service, Intermountain Research Station, Fire Sciences Laboratory, Missoula, MT
19. Landers, J. Larry. (1987). Prescribed burning for managing wildlife in southeastern pine forests. In: Dickson, James G.; Maughan, O. Eugene, eds. Managing southern forests for wildlife and fish: a proceedings; Gen. Tech. Rep. SO-65. New Orleans, LA: U.S. Department of Agriculture, Forest Service, Southern Forest Experiment Station: 19–27
20. Whitaker, John O. Jr. (1980). ''National Audubon Society field guide to North American mammals''. New York: Alfred A. Knopf. {{ISBN. 0394507622
21. Martin, Alexander C.; Zim, Herbert S.; Nelson, Arnold L. (1951). ''American wildlife and plants''. New York: McGraw-Hill Book Company
22. Golley, Frank B. (1962). ''The mammals of Georgia: a study of their distribution and functional role in the ecosystem''. Athens, GA: University of Georgia Press. {{ISBN. 9780608157948
23. In Oklahoma hispid cotton rats were a major prey item in the diet of Swainson's hawks (''[[Buteo swainsoni]]'').Bednarz, James C. (1988). "Swainson's hawk". In: Glinski, Richard L.; Pendleton, Beth Giron; Moss, Mary Beth et al., eds. ''Proceedings of the southwest raptor management symposium and workshop''; 1986 May 21–24; Tucson, AZ. NWF Scientific and Technical Series No. 11. Washington, DC: National Wildlife Federation: 87–96
24. Hispid cotton rat remains comprised a substantial portion of short-eared owl (''[[Asio flammeus]]'') pellets in Arkansas. Hispid cotton rats were the third most important prey item of red wolves (''Canis rufus'') in eastern Texas and Louisiana.Shaw, James Harlan. (1975). [https://www.proquest.com/openview/7388247fcf5fdd6f464e760b9f5a195a/1?pq-origsite=gscholar&cbl=18750&diss=y Ecology, behavior, and systematics of the red wolf (''Canis rufus'')]. New Haven, CT: Yale University. Dissertation
25. Miller, S. Douglas; Speake, Dan W. (1978). [https://seafwa.org/sites/default/files/journal-articles/MILLER-100-111.pdf "Prey utilization by bobcats on quail plantations in southern Alabama"]. Proceedings, Annual Conference of Southeastern Association of Fish and Wildlife Agencies. 32: 100–111
26. In north-central Florida the only direct evidence of predation on hispid cotton rats was the presence of hispid cotton rat remains in a barred owl (''[[Strix varia]]'') pellet. The authors also observed a corn snake (''[[Pantherophis guttata. 2246/5445
27. Phillips, C. D.. (2007). "Amplified fragment length polymorphism and mitochondrial DNA analyses reveal patterns of divergence and hybridization in the hispid cotton rat (''Sigmodon hispidus'')". Journal of Mammalogy.
28. (1996). "Pathology and immunogenicity in the cotton rat (''Sigmodon hispidus'') model after infection with a bovine adenovirus type 3 recombinant virus expressing the firefly luciferase gene". [[Journal of General Virology]].
29. (1979). "Succession of small mammals on pine plantations in the Georgia Piedmont". The American Midland Naturalist.
30. (1981). "''Sigmodon hispidus''". Mammalian Species.
31. (1985). "Assessment of space-use patterns in the hispid cotton rat (''Sigmodon hispidus'')". Oecologia.
32. (1975). "Homing in the cotton rat, ''Sigmodon hispidus'' Say and Ord". The American Midland Naturalist.
33. (1995). "Habitat fragmentation and movements of three small mammals (''Sigmodon'', ''Microtus'', and ''Peromyscus'')". Ecology.
34. (1973). "Habitat preference and spatial relations of ''Sigmodon hispidus'' on a remnant prairie in west-central Kansas". The Southwestern Naturalist.
35. (1979). "Range rehabilitation enhances cotton rats in South Texas". Journal of Range Management.
36. (1985). "Interactions of cotton rats with a patchy environment: dietary responses and habitat selection". Ecology.
37. (1983). "Patterns of habitat utilization in sympatric rodents on the Texas coastal prairie". Ecology.
38. Komarek, E. V.. (1939). "A progress report on southeastern mammal studies". Journal of Mammalogy.
39. (1988). "The impact of climatic extremes on cotton rat (''Sigmodon hispidus'') populations". The American Midland Naturalist.
40. (1990). "Food habits of panthers in southwest Florida". Journal of Wildlife Management.
41. (1978). "Reproduction in marginal populations of the Hispid cotton rat (''Sigmodon hispidus'') in northeastern Kansas". Papers of the Kansas University Museum of Natural History.
42. Mohlhenrich, John S.. (1961). "Distribution and ecology of the hispid and least cotton rats in New Mexico". Journal of Mammalogy.
43. (1991). "Dietary choice of a generalist grassland herbivore, ''Sigmodon hispidus''". Journal of Mammalogy.
44. Sauer, John R.. (1985). "Mortality associated with severe weather in a northern population of cotton rats". The American Midland Naturalist.
45. (1985). "Mass-based demography of a hispid cotton rat (''Sigmodon hispidus'') population". Journal of Mammalogy.
46. Schnell, Jay H.. (1968). "The limiting effects of natural predation on experimental cotton rat populations". Journal of Wildlife Management.
47. Shump, Karl A. Jr.. (1978). "Ecological importance of nest construction in the hispid cotton rat (''Sigmodon hispidus'')". The American Midland Naturalist.
48. (1982). "Analysis of regurgitated short-eared owl (''Asio flammeus'') pellets from the Roth Prairie, Arkansas County, Arkansas". Arkansas Academy of Science Proceedings.
49. Toland, Brian R.. (1990). "Nesting ecology of red-tailed hawks in central Missouri". Transactions, Missouri Academy of Science.
50. Wiegert, Richard G.. (1972). "Population dynamics of cotton rats (''Sigmodon hispidus'') and meadow voles (''Microtus pennsylvanicus'') in field enclosures in South Carolina". Bulletin of the Georgia Academy of Science.
51. (1994). "A review of wildlife changes in southern bottomland hardwoods due to forest management practices". Wetlands.
52. (1982). "Cotton rat invasion of sand pine scrub habitat". Journal of Mammalogy.
53. Rose, Robert K.. (1986). "Reproductive strategies of meadow voles, hispid cotton rats, and eastern harvest mice in Virginia". Virginia Journal of Science.
54. (1990). "Operationally defining home range: temporal dependence exhibited by hispid cotton rats". Ecology.
55. "Hispid Cotton Rat ''Sigmodon hispidus'' (Say and Ord)". University of Kansas Field Station.