Opossum

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Didelphidae[1]
Temporal range: Early Miocene–Recent
[2]
Virginia opossum Didelphis virginiana
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Infraclass: Marsupialia
Superorder: Ameridelphia
Order: Didelphimorphia
Gill, 1872
Family: Didelphidae
Gray, 1821
Genera

Several; see text

Opossums (colloquially possums) (Didelphimorphia, /dˌdɛlfɨˈmɔrfiə/) make up the largest order of marsupials in the Western Hemisphere, including 103 or more species in 19 genera. They are also commonly called possums, though that term technically refers to Australian fauna of the suborder Phalangeriformes. The Virginia opossum was the first animal to be named an opossum; usage of the name was published in 1610.[3] The word opossum was borrowed from the Virginia Algonquian (Powhatan) language in the form aposoum and ultimately derives from the Proto-Algonquian word *wa˙p- aʔθemw, meaning "white dog" or "white beast/animal".[4]

Their unspecialized biology, flexible diet and reproductive strategy make them successful colonizers and survivors in diverse locations and conditions.[citation needed]

Characteristics

Didelphimorphs are small to medium-sized marsupials, with the largest just exceeding the size of a large house cat, and the smallest the size of a small mouse. They tend to be semi-arboreal omnivores, although there are many exceptions. Most members of this taxon have long snouts, a narrow braincase, and a prominent sagittal crest. The dental formula is: 5.1.3.44.1.3.4. By mammalian standards, this is a very full jaw. The incisors are very small, the canines large, and the molars are tricuspid.

Didelphimorphs have a plantigrade stance (feet flat on the ground) and the hind feet have an opposable digit with no claw. Like some New World monkeys, opossums have prehensile tails. Like all marsupials, the fur consists of awn hair only, and the females have a pouch. The tail and parts of the feet bear scutes. The stomach is simple, with a small cecum. Notably, the male opossum has a forked penis bearing twin glandes.[5]

Opossums have a remarkably robust immune system, and show partial or total immunity to the venom of rattlesnakes, cottonmouths, and other pit vipers.[6][7] Opossums are about eight times less likely to carry rabies than wild dogs, and about one in eight hundred opossums are infected with this virus.[8]

Although all living opossums are essentially opportunistic omnivores, different species vary in the amount of meat and vegetation they include in their diet. Members of the Caluromyinae are essentially frugivorous, whereas the lutrine opossum and Patagonian opossum primarily feed on other animals.[9] The yapok (Chironectes minimus) is particularly unusual, as it is the only living semi-aquatic marsupial, using its webbed hindlimbs to dive in search of freshwater mollusks and crayfish.[10] Most opossums are scansorial, well-adapted to life in the trees or on the ground, but members of the Caluromyinae and Glironiinae are primarily arboreal, whereas species of Metachirus, Monodelphis, and to a lesser degree Didelphis show adaptations for life on the ground.[11]

Reproduction and life cycle

Sleeping Virginia opossum with babies in her relaxed pouch

As a marsupial, the opossum has a reproductive system including a divided uterus and marsupium, which is the pouch.[12] Opossums do possess a placenta,[13] but it is short-lived, simple in structure, and, unlike that of placental mammals, is not fully functional.[14] The young are therefore born at a very early stage, although the gestation period is similar to many other small marsupials, at only 12 to 14 days.[15] Once born, the offspring must find their way into the marsupium to hold onto and nurse from a teat. The species are moderately sexually dimorphic with males usually being slightly larger, much heavier, and having larger canines than females.[16] The largest difference between the opossum and non-marsupial mammals is the bifurcated penis of the male and bifurcated vagina of the female (the source of the term "didelphimorph," from the Greek "didelphys," meaning double-wombed).[17] Opossum spermatozoa exhibit sperm-pairing, forming conjugate pairs in the epididymis. This may ensure that flagella movement can be accurately coordinated for maximal motility. Conjugate pairs dissociate into separate spermatozoa before fertilization.[18]

Female opossums often give birth to very large numbers of young, most of which fail to attach to a teat, although as many as thirteen young can attach,[16] and therefore survive, depending on species. The young are weaned between 70 and 125 days, when they detach from the teat and leave the pouch. The opossum lifespan is unusually short for a mammal of its size, usually only two to four years. Senescence is rapid.[19]

Opossum fur is quite soft.

Behavior

A Virginia opossum inhabiting a piano in Houston, Texas, shortly before its release
An opossum "playing dead"

Opossums are usually solitary and nomadic, staying in one area as long as food and water are easily available. Some families will group together in ready-made burrows or even under houses. Though they will temporarily occupy abandoned burrows, they do not dig or put much effort into building their own. As nocturnal animals, they favor dark, secure areas. These areas may be below ground or above.

When threatened or harmed, they will "play possum", mimicking the appearance and smell of a sick or dead animal. This physiological response is involuntary (like fainting), rather than a conscious act. In the case of baby opossums, however, the brain does not always react this way at the appropriate moment, and therefore they often fail to "play dead" when threatened. When an opossum is "playing possum", the animal's lips are drawn back, the teeth are bared, saliva foams around the mouth, the eyes close or half-close, and a foul-smelling fluid is secreted from the anal glands. The stiff, curled form can be prodded, turned over, and even carried away without reaction.[citation needed] The animal will typically regain consciousness after a period of between 40 minutes and 4 hours, a process that begins with slight twitching of the ears.[20]

Juvenile opossum hissing defensively.
Adult opossums do not hang from trees by their tails, as sometimes depicted, though babies may dangle temporarily. Their semi-prehensile tails are not strong enough to support a mature adult's weight. Instead, the opossum uses its tail as a brace and a fifth limb when climbing. The tail is occasionally used as a grip to carry bunches of leaves or bedding materials to the nest. A mother will sometimes carry her young upon her back, where they will cling tightly even when she is climbing or running.

Threatened opossums (especially males) will growl deeply, raising their pitch as the threat becomes more urgent. Males make a clicking "smack" noise out of the side of their mouths as they wander in search of a mate, and females will sometimes repeat the sound in return. When separated or distressed, baby opossums will make a sneezing noise to signal their mother. If threatened, the baby will open its mouth and quietly hiss until the threat is gone.

Hissing or squawking is a defensive process that helps the opossum deter other animals from approaching it.

Biochemistry

Opossums are remarkably resistant to snake venom, ricin, and botulinum .[21]

In hunting and foodways

The Virginia opossum was once widely hunted and consumed in the United States.[22][23][24]

In Dominica, Grenada, and Trinidad the common opossum or manicou is popular[citation needed] and can only be hunted during certain times of the year owing to overhunting. The meat is traditionally prepared by smoking, then stewing. It is light and fine-grained, but the musk glands must be removed as part of preparation. The meat can be used in place of rabbit and chicken in recipes. Historically, hunters in the Caribbean would place a barrel with fresh or rotten fruit to attract opossums that would feed on the fruit or insects.

In Mexico, opossums are known as "tlaquache" or "tlaquatzin". Their tails are eaten as a folk remedy to improve fertility.

Opossum oil (possum grease) is high in essential fatty acids and has been used as a chest rub and a carrier for arthritis remedies given as topical salves.

Opossum pelts have long been part of the fur trade.

Classification

The range of Didelphis virginiana across North America in green

Classification based on Voss and Jansa (2009)[25]

References

  1. Gardner, A. (2005). Wilson, D. E.; Reeder, D. M, eds. Mammal Species of the World (3rd ed.). Johns Hopkins University Press. pp. 3–18. ISBN 978-0-8018-8221-0. OCLC 62265494. 
  2. Francisco Goin; Alejandra Abello, Eduardo Bellosi, Richard Kay, Richard Madden, Alfredo Carlini (2007). "Los Metatheria sudamericanos de comienzos del Neógeno (Mioceno Temprano, Edad-mamífero Colhuehuapense). Parte I: Introducción, Didelphimorphia y Sparassodonta". Ameghiniana 44 (1): 29–71. 
  3. The American Heritage Dictionary of the English Language, Fourth Edition. 2000. Houghton Mifflin Company. The Free Dictionary. Retrieved 2010-09-12. Thefreedictionary.com. Retrieved on 2012-05-03.
  4. opossum. CollinsDictionary.com. Collins English Dictionary - Complete & Unabridged 11th Edition. Retrieved October 20, 2012.
  5. Krause, William J.; Krause, Winifred A. (2006).The Opossum: Its Amazing Story. Department of Pathology and Anatomical Sciences, School of Medicine, University of Missouri, Columbia, Missouri. p. 39
  6. "The Opossum: Our Marvelous Marsupial, The Social Loner". Wildlife Rescue League. 
  7. Lipps, B. V. (1999). "Anti-Lethal Factor from Opossum Serum is a Potent Antidote for Animal, Plant and Bacterial Toxins". Journal of Venomous Animals and Toxins 5. doi:10.1590/S0104-79301999000100005. 
  8. Cantor SB, Clover RD, Thompson RF (1994). "A decision-analytic approach to postexposure rabies prophylaxis". Am J Public Health 84 (7): 1144–8. doi:10.2105/AJPH.84.7.1144. PMC 1614738. PMID 8017541. 
  9. Vieira, Emerson R.; De Moraes, D. Astua (2003). "Carnivory and insectivory in Neotropical marsupials". Predators with Pouches: the biology of carnivorous marsupials. Csiro Publishing. pp. 267–280. ISBN 0643066349. 
  10. Marshall, Larry G. (1978). "Chironectes minimus". Mammalian Species 109 (99): 1–6. doi:10.2307/3504051. 
  11. Flores, David A. (2009). "Phylogenetic analysis of postcranial skeletal morphology in didelphid marsupials". Bulletin of the American Museum of Natural History 320: 1–81. doi:10.1206/320.1. 
  12. Campbell, N. & Reece, J. (2005)BiologyPearson Education Inc.
  13. Enders, A.C. & Enders, R.K. (2005). "The placenta of the four-eyed opossum (Philander opossum))". The Anatomical Record 165 (3): 431–439. doi:10.1002/ar.1091650311. 
  14. Krause, W.J. & Cutts, H. (1985). "Placentation in the Opossum, Didelphis virginiana". Acta Anatomica 123 (3): 156–171. doi:10.1159/000146058. PMID 4061035. 
  15. O'Connell, Margaret A. (1984). Macdonald, D., ed. The Encyclopedia of Mammals. New York: Facts on File. pp. 830–837. ISBN 0-87196-871-1. 
  16. 16.0 16.1 North American Mammals: Didelphis virginiana. Retrieved 2009-12-29.
  17. "Possum Hunt". 
  18. Moore, H.D. (1996). "Gamete biology of the new world marsupial, the grey short-tailed opossum, monodelphis domestica". Reproduction, fertility, and development 8 (4): 605–15. doi:10.1071/RD9960605. 
  19. Opossum Facts. Retrieved 2009-12-29.
  20. Found an Orphaned or injured Opossum?. Opossumsocietyus.org. Retrieved on 2012-05-03.
  21. Lipps, B. V. (1999). "Anti-Lethal Factor from Opossum Serum is a Potent Antidote for Animal, Plant and Bacterial Toxins". Journal of Venomous Animals and Toxins 5. doi:10.1590/S0104-79301999000100005. 
  22. Sutton, Keith (January 12, 2009) Possum days gone. ESPN Outdoors.
  23. Wild Game Recipes online. Retrieved 2009-12-29.
  24. Powell, Bonnie Azab (2006-10-14) The joy of the ‘Joy of Cooking,’ circa 1962. Retrieved 2009-12-29.
  25. Voss, Robert S.; Sharon A. Jansa (2009). "Phylogenetic relationships and classification of didelphid marsupials, an extant radiation of New World metatherian mammals". Bulletin of the American Museum of Natural History 322: 1–177. doi:10.1206/322.1. 
  26. 26.0 26.1 26.2 26.3 26.4 26.5 26.6 Goin, Francisco J.; Ulyses F. J. Pardinas (1996). "Revision de las especies del genero Hyperdidelphys Ameghino, 1904 (Mammalia, Marsupialia, Didelphidae. Su significacion filogenetica, estratigrafica y adaptativa en el Neogeno del Cono Sur sudamericano". Estudios Geologicos 52: 327–359. 
  27. Goin, Francisco J.; Martin de los Reyes (2011). "Contribution to the knowledge of living representatives of the genus Lutreolina Thomas, 1910 (Mammalia, Marsupialia, Didelphidae)". Historia Natural 1 (2): 15–25. JSTOR 20627135. 
  28. Cozzuol, Mario A.; Francisco J. Goin, Martin de los Reyes, Alceu Ranzi (2006). "The oldest species of Didelphis (Mammalia, Marsupialia, Didelphidae) from the late Miocene of Amazonia". Journal of Mammalogy 87 (4): 663–667. doi:10.1644/05-MAMM-A-282R2.1. 
  29. Goin, Francisco J.; Natalia Zimicz, Martin de los Reyes, Leopoldo Soibelzon (2009). "A new large didelphid of the genus Thylophorops (Mammalia: Didelphimorphia: Didelphidae), from the late Tertiary of the Pampean Region (Argentina)". Zootaxa 2005: 35–46. 
  30. 30.0 30.1 30.2 Goin, Francisco J. (1997). "New clues for understanding Neogene marsupial radiations". Vertebrate Paleontology of the Miocene in Colombia. A History of the Neotropical Fauna. Smithsonian Institution Scholarly Press. pp. 185–204. ISBN 156098418X. 
  31. 31.0 31.1 Pavan, Silvia Eliza; Rossi, Rogerio Vieira; Schneider, Horacio (2012). "Species diversity in the Monodelphis brevicaudata complex (Didelphimorphia: Didelphidae) inferred from molecular and morphological data, with the description of a new species". Zoological Journal of the Linnean Society 165: 190. doi:10.1111/j.1096-3642.2011.00791.x. 
  32. Flores, D. & Solari, S. 2011. Monodelphis handleyi. In: IUCN 2011. IUCN Red List of Threatened Species. Version 2011.2.
  33. Voss, Robert S.; Pine, Ronald H.; Solari, Sergio (2012). "A New Species of the Didelphid Marsupial Genus Monodelphis from Eastern Bolivia". American Museum Novitates 3740 (3740): 1. doi:10.1206/3740.2. 
  34. Flores, D. & Teta, P. 2011. Thylamys citellus. In: IUCN 2011. IUCN Red List of Threatened Species. Version 2011.2.
  35. Flores, D. & Martin, G.M. 2011. Thylamys fenestrae. In: IUCN 2011. IUCN Red List of Threatened Species. Version 2011.2.
  36. Flores, D. & Martin, G.M. 2011. Thylamys pulchellus. In: IUCN 2011. IUCN Red List of Threatened Species. Version 2011.2.
  37. Goin, Francisco J.; C.I. Montalvo, G. Visconti (2000). "Los marsupiales (Mammalia) del Mioceno Superior de la Formacion Cerro Azul (Provincia de La Pampa, Argentina)". Estudios Geologicos 56: 101–126. 
  38. Goin, Francisco J. (1997). "Thylamys zettii, nueva especie de marmosino (Marsupialia, Didelphidae) del Cenozoico tardio de la region Pampeana". Ameghiniana 34 (4): 481–484. 

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