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Pack rat

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(Redirected from Packrats) Genus of rodents This article is about the rodent. For other uses, see Pack rat (disambiguation).

Pack rat
Temporal range: Late Cenozoic - Recent
Bushy-tailed woodrat (Neotoma cinerea)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Rodentia
Family: Cricetidae
Subfamily: Neotominae
Tribe: Neotomini
Genus: Neotoma
Say & Ord, 1825
Type species
Mus floridana
Species

Neotoma albigula
Neotoma angustapalata
Neotoma chrysomelas
Neotoma cinerea
Neotoma devia
Neotoma findleyi
Neotoma floridana
Neotoma fuscipes
Neotoma goldmani
Neotoma insularis
Neotoma lepida
Neotoma leucodon
Neotoma macrotis
Neotoma magister
Neotoma melanura
Neotoma mexicana
Neotoma micropus
Neotoma nelsoni
Neotoma palatina
Neotoma phenax
Neotoma stephensi

A pack rat or packrat, also called a woodrat or trade rat, are any species in the North and Central American rodent genus Neotoma. Pack rats have a rat-like appearance, with long tails, large ears, and large, black eyes. Pack rats are noticeably larger than deer mice, harvest mice, and grasshopper mice, and are usually somewhat larger than cotton rats.

Species

Neotoma includes three subgenera, Daggers (†) mark extinct species:

Alleghany woodrat

Physical appearance

Packrats typically have wide eyes accompanied with long whiskers. They have large ears that extend outwards. In terms of size, they resemble Norway rats. They grow to be approximately 30 cm long, with their tails making up about 50% of their size. Long-haired pack rats specifically have tails that are adequately furry and are physically compared to the tails of short-haired squirrels. In general, packrats' backs are notably a hybrid hue of brown and grey, but their underbelly tends to be a lighter shade.

Range and distribution

Woodrats reach their greatest diversity in the deserts of the western United States and northern Mexico. Several species are also found in the deciduous forest of the east coast, juniper woodlands in the southwest, oak woodlands along the coastal western United States and in the Sonoran Desert, and in the forest and rocky habitats of the western United States and western Canada.

Habitat

Each species of pack rat is generally restricted to a given type of habitat within its range. Pack rats live anywhere from low, hot, dry deserts to cold, rocky slopes above timberline. Pack rats build complex houses or dens made of twigs, cactus joints, and other materials. These contain several nest chambers, food caches, and debris piles. Dens are often built in small caves or rocky crevices, but when close by human habitations, woodrats will opportunistically move into the attics and walls of houses. Some Neotoma species, such as the white-throated woodrat (N. albigula), use the bases of prickly pear or cholla cactus as the sites for their homes, using the cactus' spines for protection from predators. Others, like the desert woodrat (N. lepida) will build dens around the base of a yucca or cactus, such as jumping and teddy-bear chollas. The largest species, Neotoma cinerea, has a bushy, almost squirrel-like tail. Bushy-tailed woodrats Neotoma cinerea occupy a range of habitats from boreal woodlands to deserts. They are cliff-dwellers and are often found on isolated, high-elevation exposed boulder areas under a variety of temperature and moisture conditions. They require adequate shelter among the rocks, though they are occasionally found inhabiting abandoned buildings as well.

Characteristics

Behavior

Pack rats are nest builders. They use plant material such as twigs, sticks, and other available debris. They are particularly fond of shiny objects. A peculiar characteristic is that if they find something they want, they will drop what they are currently carrying—for example, a piece of cactus—and "trade" it for the new item. They can also be quite vocal and boisterous. Entering and inhabiting human spaces like attics or car engines, stealing their treasures from humans, damaging electrical wiring, and creating general noisy havoc. This can easily cause them to become a nuisance.

Diet

Bushy-tailed woodrats feed primarily on green vegetation, twigs, and shoots. Mexican woodrats eat seeds, fruits, acorns, and cactus. The pack rat microbiome has symbiotic roles in digestion, recycling endogenous nitrogen, and the detoxification of dietary toxins. The bacterial composition of the pack rat’s gut microbiome is affected by what it eats, and by association, the geography of where the animal is from. However, while the bacterial composition of the pack rat microbiome is influenced by diet and geography, it is the animals’ genetics that has the most influential role on bacterial composition.

Size

Adult bushy-tailed woodrat males usually weigh 300–600 g (11–21 oz), with an average of 405 g (14.3 oz), and adult females usually weigh 250–350 g (8.8–12.3 oz), with an average of 270 g (9.5 oz). These ranges are relatively large because this species occupies a large geographic range, and its body size is closely correlated with climate. Average males range in size from 310 to 470 mm (12 to 19 in), with the average being 379 mm (14.9 in), and average females range from 272 to 410 mm (10.7 to 16.1 in), with the average being 356 mm (14.0 in).

Reproduction and life history

Reproductive habits of rodents are variable in the wild. Offspring are born naked and helpless and must be cared for in nests called middens. Some female pack rats have been known to deliver up to five litters per year with each litter having as many as five young. The offspring may open their eyes between 10 and 12 days after being born and are usually weaned between 14 and 42 days. After around 60 days, most become sexually mature. Populations may cycle approximately every 8 years due to variation in reproduction and juvenile survival. Female annual survival rates vary by age from 0.42 for juveniles to 0.71 for 1–2 year olds, and very few females (less than 5%) live beyond 3 years of age.

Midden

A large pack rat midden (center) from the Pleistocene period

A pack rat midden is a debris pile constructed by a woodrat. A midden may preserve the materials incorporated into it for up to 50,000 years. These midden piles may be analyzed to reconstruct their original environment, and comparisons between middens allow a record of vegetative and climate change to be built. Examinations and comparisons of pack rat middens have largely supplanted pollen records as a method of study in the regions where they are available.

Active pack rat midden in northern Nevada

In the absence of rock crevices or caves, the dens are often built under trees or bushes. The pack rats will also use plant fragments, animal dung, and small rocks in building the den. The vast majority of the materials will be from a radius of several dozen yards of the nest. Woodrats often urinate on the debris piles; sugar and other substances in the urine crystallize as it dries out, creating a material known as amberat, which under some conditions can cement the midden together, and can encase plant fragments, pellets and other debris in an amber-like matrix. The resilience of the middens is aided by three factors. The crystallized urine dramatically slows the decay of the materials in the midden; the dry climate of the American Southwest further slows the decay; and middens protected from the elements under rock overhangs or in caves survive longer.

Climate indicators

Zoologists examine the remains of animals in middens to get a sense of the fauna in the neighborhood of the midden, while paleobotanists can reconstruct the vegetation that grew nearby. Middens are considered reliable "time capsules" of natural life, centuries and millennia after they occurred. Woodrat middens are composed of many things, including plants, macrofossils, and fecal pellets.

Bushy-tailed woodrat on midden

Paleo-ecologists have used a variety of techniques to analyze the plant and animal material in pack rat middens describe paleo-communities and infer paleo-climate. For example, the plant species present in middens, and the carbon isotope ratios on material in middens have been widely studied. The analysis of middens was key in understanding the biota around Pueblo Bonito, thus helping to explain its history.

One form of midden analysis examined the size of fecal pellets in pack rat middens. The size of woodrat pellet is proportional to the size of the woodrat. By measuring the pellets, the approximate size of the woodrat was determined based on data from a study of field-trapped woodrats. From Bergmann’s rule, differences in climate then can be determined. According to Bergmann’s rule, the body size of vertebrates is closely related to the average ambient air temperature in the region in which the vertebrate lives, so organisms in warmer regions are typically smaller than members of the same species in colder regions.

References

  1. Cato, Paisley (January 2013). "Field Guide - Woodrat". San Diego Natural History Museum. Archived from the original on 5 February 2004. Retrieved 26 March 2015.
  2. Wilson, D. E.; Reeder, D. M., eds. (2005). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. ISBN 978-0-8018-8221-0. OCLC 62265494.
  3. Patton, J. & Álvarez-Castañeda, S.T. 2017. Neotoma insularis. The IUCN Red List of Threatened Species 2017: e.T116989038A119112253. https://dx.doi.org/10.2305/IUCN.UK.2017-3.RLTS.T116989038A119112253.en. Downloaded on 12 March 2021.
  4. Bradley, R.D.; Mauldin, M.R. (January 2016). "Molecular data indicate a cryptic species in Neotoma albigula (Cricetidae: Neotominae) from northwestern México". Journal of Mammalogy. 97 (1): 187–199. doi:10.1093/jmammal/gyv169.
  5. "Pack Rats | Facts & Identification, Control & Prevention". Orkin. 19 September 2018. Retrieved 2023-10-26.
  6. "Living With Woodrats (Pack Rats) | Montana FWP". fwp.mt.gov. Retrieved 2023-10-26.
  7. "Packrat Distribution" (PDF). Archived from the original (PDF) on 2016-08-03. Retrieved 2013-01-07.
  8. "Neotoma cinerea". www.fs.fed.us. Retrieved 2020-03-04.
  9. ^ "Desert Woodrats & Pack Rats". DesertUSA. Retrieved 2013-01-07.
  10. "Woodrats" (PDF). Archived from the original (PDF) on 2016-08-03. Retrieved 2011-02-26.
  11. Kohl, Kevin D.; Miller, Aaron W.; Marvin, James E.; Mackie, Roderick; Dearing, M. Denise (September 2014). "Herbivorous rodents ( N eotoma spp. ) harbour abundant and active foregut microbiota: Foregut microbes in herbivorous woodrats". Environmental Microbiology. 16 (9): 2869–2878. doi:10.1111/1462-2920.12376. PMID 24373154.
  12. Weinstein, Sara B.; Martínez-Mota, Rodolfo; Stapleton, Tess E.; Klure, Dylan M.; Greenhalgh, Robert; Orr, Teri J.; Dale, Colin; Kohl, Kevin D.; Dearing, M. Denise (2021-11-23). "Microbiome stability and structure is governed by host phylogeny over diet and geography in woodrats ( Neotoma spp.)". Proceedings of the National Academy of Sciences. 118 (47): e2108787118. Bibcode:2021PNAS..11808787W. doi:10.1073/pnas.2108787118. ISSN 0027-8424. PMC 8617456. PMID 34799446.
  13. Trapani, Josh (2002-09-04). "ADW: Neotoma cinerea: INFORMATION". Animaldiversity.ummz.umich.edu. Retrieved 2013-01-07.
  14. ^ Lee, Derek E.; Tietje, William D. (2005). "Dusky-footed woodrat demography and prescribed fire in a california oak woodland". Journal of Wildlife Management. 69 (3): 1211–1220. doi:10.2193/0022-541X(2005)069[1211:DWDAPF]2.0.CO;2. ISSN 0022-541X. S2CID 86207517.
  15. ^ "Packrat Midden Research in the Grand Canyon". Cpluhna.nau.edu. Archived from the original on 2013-01-14. Retrieved 2013-01-07.
  16. Betancourt, Julio L.; Devender, Thomas R. Van; Martin, Paul S., eds. (1990). Packrat middens : the last 40,000 years of biotic change. Tucson: University of Arizona Press. p. 60. ISBN 0-8165-1115-2.
  17. Smith, F.A.; Betancourt, J.L.; Brown, J.H. (1995). "Evolution of Body Size in the Woodrat over the Past 25,000 Years of Climate Change". Science. 270 (5244): 2012–2014. Bibcode:1995Sci...270.2012S. doi:10.1126/science.270.5244.2012. S2CID 129915445.

Further reading

  • Betancourt, Julio L., Thomas R. Van Devender, and Paul S. Martin, eds. Packrat Middens: The Last 40,000 Years of Biotic Change, University of Arizona Press, 1990, ISBN 0-8165-1115-2.
  • Duff, A. and A. Lawson. 2004. Mammals of the World A Checklist. New Haven, Yale University Press.
  • Kays, R. W., and D. E. Wilson. 2002. Mammals of North America. Princeton University Press, Princeton, 240 pp.
  • Musser, G. G. and M. D. Carleton. 2005. Superfamily Muroidea. pp. 894–1531 in Mammal Species of the World a Taxonomic and Geographic Reference D. E. Wilson and D. M. Reeder eds. Johns Hopkins University Press, Baltimore.
  • Ord, G., 1815. Zoology of North America, in Guthrie's Geography, 2nd American edition, pp. 291–361. , p. 292.
  • Smith, F.A.; Betancourt, J.L.; Brown, J.H. (1995). "Evolution of body size in the woodrat over the past 25,000 years of climate change". Science. 270 (5244): 2012–2014. Bibcode:1995Sci...270.2012S. doi:10.1126/science.270.5244.2012. S2CID 129915445.
  • Ulev, Elena 2007. Neotoma cinerea. In: Fire Effects Information System, . U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/ .
  • Zakrzewski, J. Richard (1974). "Fossil Ondatrini from Western North America". Journal of Mammalogy. 55 (2): 284–292. doi:10.2307/1378998. JSTOR 1378998.
  • Linsdale, J. M., and L. P. Tevis. 1951. The dusky-footed wood rat. Records made on Hastings Natural History Reservation. Berkeley, California. pp 675 .
  • Burt, W. H., and R. P. Grossenheider. 1976. A field guide to the mammals, 3d ed. Houghton Mifflin Co., Boston. pp 289.
  • Schwartz, C. W., and E. R. Schwartz. 1981. The wild mammals of Missouri, rev. ed. Univ. Missouri Press, Columbia. pp 356.
  • Vorhies, C. T.; Taylor, W. P. (1940). "Life history and ecology of the white-throated wood rat, Neotoma albigula Hartly, in relation to grazing in Arizona". Univ. Arizona Tech. Bull. 49: 467–587.
  • Wiley, R. W. (1980). "Neotoma floridana". Mamm. Species. 139 (139): 1–7. doi:10.2307/3503989. JSTOR 3503989. S2CID 253943361.

External links

Extant species of subfamily Neotominae
Baiomyini
Baiomys
(Pygmy mice)
Scotinomys
(Brown mice)
Neotomini
Neotoma
(Pack rats)
Xenomys
Hodomys
Nelsonia
(Diminutive woodrats)
Ochrotomyini
Ochrotomys
Reithrodontomyini
Peromyscus
(Deer mice)
Reithrodontomys
(New World
harvest mice)
Onychomys
(Grasshopper mice)
Neotomodon
Podomys
Isthmomys
(Isthmus rats)
Megadontomys
(Giant deer mice)
Habromys
(Deer mice)
Osgoodomys
Myomorpha
Myomorpha
Anomalomyidae
Dipodoidea
Dipodidae
Allactaginae
Cardiocraniinae
Dipodinae
Dipodini
Paradipodini
Euchoreutinae
Simimyidae
Sminthidae
Zapodidae
Muroidea
Armintomyidae
Platacanthomyidae
Spalacidae
Myospalacinae
Rhizomyinae
Spalacinae
Eumuroida
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Allactaga elater Cardiocranius paradoxus
Eumuroida
Calomyscidae
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Lemmini
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Pliophenacomyini
Pliomyini
Cricetinae
Democricetodontinae
Neotominae
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Neotomini
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Reithrodontomyini
Sigmodontinae
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Peromyscus pembertoni

Cricetus cricetus Malpaisomys insularis Canariomys bravoi Canarios tamarani

Apomys gracilirostris
Taxon identifiers
Neotoma
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