Urotrichini
Urotrichini | |
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Himizu, or Japanese Shrew Mole (Urotrichus talpoides) | |
Scientific classification | |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Soricomorpha |
Family: | Talpidae |
Subfamily: | Talpinae |
Tribe: | Urotrichini |
Genera & species | |
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Urotrichini is a taxonomic tribe of the mole family, and consists of Japanese and American shrew-moles. They belong to the Old World Moles and Relatives branch of the mole family (Talpidae). There are only three species, each of which represents its own genus. The name "Shrew-moles" refers to their morphological resemblance to shrews, while generally being thought of as True Moles. The species are the Japanese Shrew Mole,[1] True's Shrew Mole[2] and American Shrew Mole.[3][4][5][6][7][8]
In Japan, the word "Himizu" (ヒミズ) may refer to both to the Japanese Shrew Mole in particular and Urotrichini in general; when True's Shrew Mole is distinguished from the general Himizu forms, the feminine diminutive word "Hime" is added to refer to the smaller size of that species. Although they are common in Japan, their alpine habitats, small size, and secretive lifestyle makes them generally unknown except among some mountain people and researchers.
Morphology/Ecological Niche
Urotrichini paws are smaller and more downward- and backward-facing than the out-and-to-the-side orientation of the paws of classic moles, although not so much as in shrews. The limbs protrude slightly down and away from the body, as opposed to being invisibly retracted into the body with paws springing from just behind the head, as with moles. As such, Urotrichini are less well adapted than moles to forward burrowing, but better adapted to digging through the softer surface debris, leaf litter, and topsoils of alpine forest surfaces.
Nocturnality
Unlike true moles, Urotrichini are not equally active day and night. Himizu spend a large part of their days sleeping in specially excavated deep subsoil burrows.
Position within the Talpidae family
Urotrichini are relatively more closely related to the American Shrew Mole than they are either Taiwanese and mainland Asian "shrew moles" or New World Moles. They and the American Shrew Mole are both members wholly within the main sub-family of Old World Moles, which includes both moles and desmans. The chiefly Chinese Uropsilinae shrew moles, despite having been called "Shrew-moles", are morphologically and genetically quite different, and so form a sub-family of their own, and, indeed, are now referred to in English as "shrew-like moles".
The taxonomy of this group has changed. Both species had been thought of as one genus, the Urotricus. More recently, it was decided that a new genus, Dymecodon, be created within the Urotrichini to reflect significant morphological differences.
Distribution
The fluctuating borders between Urotrichini species in Japan have been the subject of study. Dymecon pillarists is found only at higher altitudes, possibly due to soil conditions. The larger Urotricus talpoides dominates richer lowland areas, displacing D. pillarists to the poorer soils on the steeper slopes of higher altitudes. Maps of these fluctuating boundaries show a sea of Japanese Shrew Mole territory dotted with islands of True's Shew mole on the steeper areas. This results in isolation of breeding populations of D. pillarists and notable sub-speciation among the Himizu Hime which is not found among the standard Japanese Shrew Moles.[9][10]
References
- ↑ "ハチュウ類・両生類・小型ホニュウ類図鑑". Kagakukan.sendai-c.ed.jp. Retrieved 2013-09-01.
- ↑ "Adw: Talpidae: Classification". Animaldiversity.ummz.umich.edu. Retrieved 2013-09-01.
- ↑ http://www.jstor.org/pss/1380433
- ↑ "Speciation and evolution in the family Talpidae (Mammalia: Insectivora)". Prog. Clin. Biol. Res. 335: 1–22. 1990. PMID 2408071.
- ↑ "Walker's Mammals of the World - Google Boeken". Books.google.com. Retrieved 2013-09-01.
- ↑ "Cambridge Journals Online - Journal of Zoology - Abstract - Phylogenetic relationships within the family Talpidae (Mammalia: Insectivora)". Journals.cambridge.org. Retrieved 2013-09-01.
- ↑ http://www.bioone.org/doi/full/10.2108/zsj.21.1177
- ↑ "The evolution of female mole ovotestes evidences high plasticity of mammalian gonad development - Carmona - 2007 - Journal of Experimental Zoology Part B: Molecular and Developmental Evolution - Wiley Online Library". Onlinelibrary.wiley.com. 2007-12-17. Retrieved 2013-09-01.
- ↑ "Science Links Japan | The Shift in the Altitudinal Distributions of Dymecodon pilirostris and Urotrichus talpoides in the Mt. Bandai Area, Fukushima Prefecture, Japan". Sciencelinks.jp. 2009-03-18. Retrieved 2013-09-01.
- ↑ Dobson, M. 1994. Patterns of distribution in Japanese land mammals. Mammal Review, 24(3):91-111.