Microtus (Alexandromys) oeconomus (Pallas 1776)
publication ID |
https://doi.org/ 10.5281/zenodo.7316535 |
DOI |
https://doi.org/10.5281/zenodo.11357012 |
persistent identifier |
https://treatment.plazi.org/id/F570AA9C-B08C-9614-E3F5-3515F1ED31B1 |
treatment provided by |
Guido |
scientific name |
Microtus (Alexandromys) oeconomus (Pallas 1776) |
status |
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Microtus (Alexandromys) oeconomus (Pallas 1776) View in CoL
[Mus] oeconomus Pallas 1776 View in CoL , Reise Prov. Russ. Reichs, Vol. 3: 693.
Type Locality: Russia, Siberia, Ishim Valley.
Vernacular Names: Root Vole.
Synonyms: Microtus (Alexandromys) altaicus Ognev 1944 ; Microtus (Alexandromys) amakensis Murie 1930 ; Microtus (Alexandromys) anikini Egorin 1939 ; Microtus (Alexandromys) arenicola (de Sélys Longchamps 1841) ; Microtus (Alexandromys) dauricus Kastschenko 1910 ; Microtus (Alexandromys) elymocetes Osgood 1906 ; Microtus (Alexandromys) endoecus Osgood 1909 ; Microtus (Alexandromys) epiratticeps Young 1934 ; Microtus (Alexandromys) finmarchicus Siivonen 1967 ; Microtus (Alexandromys) flaviventris Satunin 1903 ; Microtus (Alexandromys) gilmorei Setzer 1952 ; Microtus (Alexandromys) hahlovi Skalon 1935 ; Microtus (Alexandromys) innuitus Merriam 1900 ; Microtus (Alexandromys) kadiacensis Merriam 1897 ; Microtus (Alexandromys) kamtschatica (Pallas 1779) ; Microtus (Alexandromys) karaginensis Kostenko 1984 ; Microtus (Alexandromys) karaginensis Kostenko 1989 ; Microtus (Alexandromys) kharanurensis Courant et al. 1999 ; Microtus (Alexandromys) kjusjurensis Koljuschev 1935 ; Microtus (Alexandromys) koreni G. M. Allen 1914 ; Microtus (Alexandromys) macfarlani Merriam 1900 ; Microtus (Alexandromys) medius (Nilsson 1844) ; Microtus (Alexandromys) mehelyi Ehik 1928 ; Microtus (Alexandromys) montiumcaelestinum Ognev 1944 ; Microtus (Alexandromys) naumovi Stroganov 1936 ; Microtus (Alexandromys) operarius (Nelson 1893) ; Microtus (Alexandromys) ouralensis (Poliakov 1881) ; Microtus (Alexandromys) petshorae Ognev 1944 ; Microtus (Alexandromys) popofensis Merriam 1900 ; Microtus (Alexandromys) punukensis Hall and Gilmore 1932 ; Microtus (Alexandromys) ratticeps (Keyserling and Blasius 1841) ; Microtus (Alexandromys) shantaricus Ognev 1929 ; Microtus (Alexandromys) sitkensis Merriam 1897 ; Microtus (Alexandromys) stimmingi (Nehring 1899) ; Microtus (Alexandromys) suntaricus Dukelski 1928 ; Microtus (Alexandromys) tschuktschorum Miller 1899 ; Microtus (Alexandromys) uchidae Kuroda 1924 ; Microtus (Alexandromys) unalascensis Merriam 1897 ; Microtus (Alexandromys) uralensis (Poljakov 1881) ; Microtus (Alexandromys) yakutatensis Merriam 1900 .
Distribution: Holarctic in tundra, northern taiga, and grassy meadows. In Palearctic, from Fennoscandia across N European Russia and Siberia to Kamchatka Peninsula ( Nikanorov, 2000) and borderlands of Bering Sea; south through through Baltic region ( Miljutin, 1997, 1998; Timm et al., 1998) to NE Germany ( Dolch, 1994), Poland ( Salata-Pilacinska, 1990), Belarus, Ukraine, N Kazakhstan, transbaikal region ( Reiter et al., 1995, documented occurrence on Svjatoj Nos peninsula and isthmus in Lake Baikal), N Mongolia, NE China (N Nei Mongol), and discontinuously in the Ussuri region bordering the Japanese Sea, including, Sakhalin and Kurile Isls; relict populations in Netherlands (Ligtvoet, 1992; Ligtvoet and Wijngaarden, 1994), S Norway and C Sweden, Finnish Baltic Coast, E Austria, SW Slovakia (Mošanský, 1994; Stanko and Mošanský, 2000), and W Hungary; absent from the British Isls but present on St. Lawrence Isl in Bering Sea. In Nearctic, from Alaska through Yukon Territory, eastwards to W Northwest Territories, and southwards to extreme NW British Columbia and Alexander Archipelago, Alaska (see records by MacDonald and Cook, 1996:579).
Conservation: IUCN – Critically Endangered as M. o. arenicola, Vulnerable as M. o. mehelyi, Data Deficient as M. o. amakensis , M. o. elymocetes , M. o. innuitus , M. o. popofensis , M. o. punukensis , and M. o. sitkensis , otherwise Least Concern.
Discussion: Subgenus Alexandromys . Earlier included in the subgenus Pallasiinus ( Gromov and Erbajeva, 1995; Pavlinov and Rossolimo, 1998; Pavlinov et al., 1995 a; Zagorodnyuk, 1990), also containing M. montebelli and M. limnophilus , or arranged in subgenus Microtus ( Gromov and Polyakov, 1977; Pavlinov and Rossolimo, 1987). Based on morphometric, chromosomal and hybridization analyses, Meyer et al. (1996) placed M. oeconomus in a clade containing M. middendorffii , M. mongolicus , M. fortis , M. sachalinensis , M. maximowiczii , M. jujanensis , and M. evoronensis ; according to phylogenetic analysis of cytochrome b sequences, member of a clade that includes the Taiwanese M. kikuchii as sister-species, along with M. montebelli , M. middendorffii , and M. fortis ( Conroy and Cook, 2000 a) . Close alliance of M. oeconomus and M. montebelli is also supported by pairing patterns of X-Y chromosome ( Borodin et al., 1997).
Homogeneity of Old and New World populations averred by Zimmerman (1942) and sustained by subsequent studies ( Nadler et al., 1976, 1978; Ognev, 1964; Rausch, 1953; Conroy and Cook, 2000 a). Interpretations of mitochondrial DNA led Conroy and Cook (2000 a) to propose that M. oeconomus represented one of only two colonizations of North America by Old World stocks, the earlier one radiating into the North American endemics. Allozymic and chromosomal differentiation among subspecies surrounding the Bering Strait minimal, also suggesting a relatively late entry of the species into North America and rapid expansion of populations once arrived ( Lance and Cook, 1998).
Geographic variation and subspecies of Nearctic populations reviewed by Paradiso and Manville (1961), populations in Russia and adjacent regions by Gromov and Erbajeva (1995), and European populations by Tast (1982 b) and Mitchell-Jones et al. (1999). Chromosomal data evaluated by Zima and Kral (1984 a); Modi (1987) and Lance and Cook (1998) documented recent chromosomal results (uniformly 2n = 30, FN = 54). Synaptic association of sex chromosomes and its evolutionary significance discussed by Ashley and Fredga (1994). Gastrointestinal morphology of Chinese sample and its adaptive significance reported by Wang et al. (1995). Interdependence and correlation among non-metric characters with sex, age, and body size evaluated by Markowski (1995). Molar patterns intensively investigated, addressing frequency and interpretation of morphotypes in large isolated sample from W Poland ( Rachowiak, 1993), assessment of variation in extant samples against which patterns in extinct species can be judged ( Angermann, 1984), correlation of variation with latitude and altitude ( Pozdnyakov and Litvinov, 1994), and departures from bilateral symmetry ( Kovaleva et al., 2002).
Kaneko and Hasegawa (1995) identified M. oeconomus from a late Pleistocene cave on Miyako Isl, Ryukyu Isls, an occurrence far outside the modern and Pleistocene distribution as known by other fossils. They also allocated Pleistocene epiratticeps as another synonym of M. oeconomus . The taxon corneri , based on Pleistocene (Late Glacial) cave deposits in the British Isles, testifies the former presence of M. oeconomus ( Berry, 1996; Yalden, 1999).
Ognev (1964) identified ratticeps Keyserling and Blasius, 1841 , as the proper name applicable to this species, and suggested that oeconomus Pallas, 1776 , was based upon an example of M. gregalis . Ellerman and Morrison-Scott (1951:705), however, noted that kamtschaticus Pallas, 1779, would be the oldest name, not ratticeps , if Ognev is correct (also see Hall, 1981:805). While most systematists continue to utilize oeconomus Pallas, 1776 , for reasons of familiarity, ratticeps has been used in the past (G. M. Allen, 1940) and even recently ( Berry, 1996). This nomenclatural uncertainty requires formal resolution .
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