Papers by Georgy Shenbrot
Зоологический журнал, 1990
Ecology, Apr 1, 1996
Presencelabsence data for the small-mammal species at sites in seven deserts were analyzed for ev... more Presencelabsence data for the small-mammal species at sites in seven deserts were analyzed for evidence of similarity in community structure. The deserts studied were located in North and South America (268 and 11 8 sites, respectively), Australia (245 sites), Israel (54 sites), and greater Eurasia (Thar, 15 sites; Turkestan, 36 sites; Gobi, 98 sites). Patterns observed in all deserts included: (1) low a diversity (2-4 species per site); (2) high diversity (species turnover between sites); and (3) local coexistence of 20-30% of the species in the regional pool. Additionally, the number of species with which a species co-occurred increased with the number of sites at which that species occurred. Although these results suggested that some features of community structure were similar across deserts, other aspects, especially trophic structure, differed widely. Deserts in the northern hemisphere possessed more granivores, and the Turkestan Desert more folivores, than other deserts. Carnivorous small mammals were most strongly represented in Australia, and omnivores in South America, Australia, and the Thar. The structure of desert small-mammal communities is strongly influenced by historical factors; different taxonomic groups with distinctive trophic adaptations proliferate in different desert regions where they are subject to some common structuring processes of community assembly.
Зоологический журнал, 1990
Zoological Journal of the Linnean Society, Sep 17, 2020
The ecological gradient–morphological variation (‘ecomorph’) relationship has long interested eco... more The ecological gradient–morphological variation (‘ecomorph’) relationship has long interested ecologists and evolutionary biologists, but it is applied far less frequently than genetic differentiation in cryptic species detection and species identification. With integrative methods, we revise taxonomic uncertainties in the Orientallactaga sibirica complex (OSC), with 298 sequence specimens and 469 voucher specimens from 138 localities covering nearly the entire distribution of the OSC. Phylogenetic relationships are assessed by Bayesian inference and maximum likelihood using two mitochondrial and nine nuclear genes. We use species-delimitation approaches to divide and validate the ‘candidate species’. We evaluate correlations between ecological divergence and phylogenetic splits, and visualize geographical patterns of morphological variation. The OSC is divided into four phylogenetic groups, the Ognevi, Altay, Bogda and Sibirica groups, and the OSC exhibits a significant ecomorph relationship and ecological divergence pattern. Morphological variations not only follow the general regularity under a large gradient of ecological factors, but are also closely related to the local environment/habitat. We suggest considering the comprehensive ecomorph relationship to identify species. Molecular analyses reveal that the OSC more easily forms deeply divergent lineages in the foothills and this differentiation depth may be related to mountain system size.
Communications biology, Jan 12, 2023
Phenotypes associated with metabolism and water retention are thought to be key to the adaptation... more Phenotypes associated with metabolism and water retention are thought to be key to the adaptation of desert species. However, knowledge on the genetic changes and selective regimes on the similar and divergent ways to desert adaptation in sympatric and phylogenetically close desert organisms remains limited. Here, we generate a chromosome level genome assembly for Northern three-toed jerboa (Dipus sagitta) and three other high-quality genome assemblies for Siberian jerboa (Orientallactaga sibirica), Midday jird (Meriones meridianus), and Desert hamster (Phodopus roborovskii). Genomic analyses unveil that desert adaptation of the four species mainly result from similar metabolic pathways, such as arachidonic acid metabolism, thermogenesis, oxidative phosphorylation, insulin related pathway, DNA repair and protein synthesis and degradation. However, the specific evolved genes in the same adaptative molecular pathway often differ in the four species. We also reveal similar niche selection but different demographic histories and sensitivity to climate changes, which may be related to the diversified genomic adaptative features. In addition, our study suggests that nocturnal rodents have evolved some specific adaptative mechanism to desert environments compared to large desert animals. Our genomic resources will provide an important foundation for further research on desert genetic adaptations.
Mammalia, Mar 16, 2023
We looked at lectotype designations by Baranova and Gromov from among syntypes in the Mammal Coll... more We looked at lectotype designations by Baranova and Gromov from among syntypes in the Mammal Collection of the Zoological Institute of the Russian Academy of Sciences (ZIN) in St. Petersburg, Russia. We identified 20 lectotypifications, published in 2003, which do not accord to Articles 74.7.3 and/or 74.1.3 of the Code and are therefore invalid. Particularly instructive is the case of Lemmus obensis bungei Vinogradov, B.S. (1924). Two new interesting lemmings from Siberia. Ann. Mag. Nat. Hist. 9: 186–188, since its syntypes originated from two allopatric phylogenetic lineages which were classified as distinct nominal taxa. Because the act of lectotypification by Baranova and Gromov does not contain an express statement of deliberate designation as is requested by the amended Article 74.7.3 of the Code, their designation is not valid. To secure the nomenclatural stability of Siberian lemmings we designate voucher ZIN 11,025 (skin and skull from Sagastyr Island) as the lectotype of Lemmus obensis bungei. The name bungei thus defined is a junior synonym of Lemmus lemmus sibiricus (Kerr, R. (1792). The animal kingdom […] of the celebrated Sir Charles Linnæus. Class I. Mammalia, J. Murray, London) with a range at the shores of the Arctic Ocean, between the Northern Dvina and Lena Rivers. We furthermore provide a list of all invalid lectotypifications of hamsters (Cricetinae) and voles (Arvicolinae) based on ZIN syntypes.
Ecography, Oct 1, 1992
The distribution of niches in resource space and the niche patterns of a 13 species community of ... more The distribution of niches in resource space and the niche patterns of a 13 species community of Middle Asian desert rodents were studied by use of discriminant function analysis Nineteen quantitative parameters of the environment (soil structure and vegetation), measured at 600 sample plots within twenty four one ha grids, were considered The first three canonical axes of resource space account for 83% of the variance, the first axis represents a general landscape gradient from sand to clay soils, the second axis reflects a gradient of increasing productivity, and the third axis reflects a gradient of increasing protectability of the environment The distribution of niches in resource space is not even, there are two distinct spatial guilds consisting of psammophilous and sclerophilous species There is a negative correlation between niche position (distance from species centroid to the center of the resource space) and maximal population biomass At the same time there are no correlations between the niche breadth and the niche position due to the absence of species with really broad niches Rodent biomass increases along the productivity axis and reaches a peak in the middle part of the substrate axis Rodent species diversity increases along the substrate axis from sand to clay soils Changes of species diversity along productivity axis have humpshaped patterns Maximum species diversity was recorded at low level of productivity on the sandy soils and shifted to intermediate levels of productivity on sandy‐loam and clay soils
Canadian Journal of Zoology, Oct 1, 2019
Arid areas have a comparatively narrow range of habitat types, with restricted variation in envir... more Arid areas have a comparatively narrow range of habitat types, with restricted variation in environmental parameters, leaving narrow boundaries for phenotypic variation to correlate with ecological variables. To test this presumption, we explored variation in size and shape of the mandible in the dwarf fat-tailed jerboa (Pygeretmus pumilio (Kerr, 1792)) under the constraints of a rigorous desert environment. Size varied significantly and predictably with geographic position and demonstrated a strong, nonlinear longitudinal pattern. Moreover, size was associated with several other climatic variables but not with soil properties or with proxies for primary productivity. Our results suggest that for rodents exposed to rapid and extreme changes, larger size may have multiple advantages, notably in maintaining euthermia during cold nights and efficient water metabolism under aridity stress, in accumulating fat reserves for hibernation, and in digging deeper burrows, better protected from surface extremes. Shape varied clinally along the longitudinal transect, and the pattern was affected more by temperature than by precipitation. We conclude that the success of dwarf fat-tailed jerboa in occupying an extensive geographic range relies on their ability to meet environmental heterogeneity through cohesive and diverse responses, including physiology, behaviour, life-history traits, and morphological plasticity.
Зоологический журнал, 1982
Зоологический журнал, 1989
Asian Herpetological Research, 2000
Mammal research, Jul 30, 2021
Zeitschrift für Säugetierkunde : im Auftrage der Deutschen Gesellschaft für Säugetierkunde e.V., 1996
Scientific Reports, Jan 17, 2022
Journal of Biogeography
AimComprehensive, global information on species' occurrences is an essential biodiversity var... more AimComprehensive, global information on species' occurrences is an essential biodiversity variable and central to a range of applications in ecology, evolution, biogeography and conservation. Expert range maps often represent a species' only available distributional information and play an increasing role in conservation assessments and macroecology. We provide global range maps for the native ranges of all extant mammal species harmonised to the taxonomy of the Mammal Diversity Database (MDD) mobilised from two sources, the Handbook of the Mammals of the World (HMW) and the Illustrated Checklist of the Mammals of the World (CMW).LocationGlobal.TaxonAll extant mammal species.MethodsRange maps were digitally interpreted, georeferenced, error‐checked and subsequently taxonomically aligned between the HMW (6253 species), the CMW (6431 species) and the MDD taxonomies (6362 species).ResultsRange maps can be evaluated and visualised in an online map browser at Map of Life (mol.org...
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Papers by Georgy Shenbrot