Great gerbil explained

The great gerbil (Rhombomys opimus) is a large rodent found throughout much of Central Asia.

Description

The largest of the gerbils, great gerbils have a head and body length of 15-. Their skulls are distinctive by having two grooves in each incisor. They have large front claws used for burrowing.[1]

Distribution and habitat

Great gerbils are found in arid habitats, predominantly in sandy or clay deserts. They are found in Turkmenistan, Kazakhstan, Mongolia, China, Pakistan, Afghanistan, and Iran.

Predators

The great gerbil is preyed on by foxes, owls, kites, wildcats, weasels, vultures, and cobras.

Ecology and behavior

Great gerbils live in family groups and occupy one burrow per family.[2] Their burrows can be fairly extensive with separate chambers for nests and food storage. Great gerbils spend considerably more time in the burrows during winter, but do not hibernate. They are predominantly diurnal. Food consists mostly of vegetable matter.[1]

The animals are often colonial. Longevity is 2–4 years. Burrow system complexes have a distinctive region of cleared soil and can be seen and mapped from aerial photos and satellite images.[3] Inhabited great gerbil burrows can be distinguished from abandoned burrows using satellite images.[4]

Great gerbils are known reservoirs of Yersinia pestis, the bacterium that causes plague, and of Leishmania major, the causative agent of zoonotic cutaneous leishmaniasis. They are also known as crop pests and have been implicated in exacerbating erosion.

References

Notes and References

  1. Book: Smith, Andrew T.. Xie, Yan. Hoffmann, Robert S.. Lunde, Darrin. MacKinnon, John. Wilson, Don E.. Wozencraft, W. Chris. A Guide to the Mammals of China. 2010 . Princeton University Press . 978-1-4008-3411-2 . 251.
  2. Randall. J.A.. Flexible social structure of a desert rodent, Rhombomys opimus: philopatry, kinship, and ecological constraints.. Behavioral Ecology. 2005. 16. 6. 961–973. 10.1093/beheco/ari078. free.
  3. Wilschut. L.I.. Addink. E.A.. Heesterbeek. J.A.P.. Dubyanskiy. V.M.. Davis. S.A. Laudisoit. A.. Begon. M.. Burdelov. L.A.. Atshabar. B.B. de Jong. S.M.. Mapping the distribution of the main host for plague in a complex landscape in Kazakhstan: An object-based approach using SPOT-5 XS, Landsat 7 ETM+, SRTM and multiple Random Forests. International Journal of Applied Earth Observation and Geoinformation. 2013. 23. 100. 81–94. 10.1016/j.jag.2012.11.007. 4010295. 24817838. 2013IJAEO..23...81W.
  4. Wilschut . L.I . Heesterbeek . J.A.P. . Begon . M. . De Jong . S.M. . Ageyev . V. . Laudisoit . A. . Addink . E.A. . Detecting plague-host abundance from space: Using a spectral vegetation index to identify occupancy of great gerbil burrows . International Journal of Applied Earth Observation and Geoinformation . 2018 . 64 . 249–255 . 10.1016/j.jag.2017.09.013 . 5763245 . 29399006. 2018IJAEO..64..249W .