 | Wilson, Oscar E.; Pashkevich, M.D.; Rookmaaker, K.; Turner, E.C. 2022 Image-based analyses from an online repository provide rich information on long-term changes in morphology and human perceptions of rhinos. People and Nature 4 (6): 1560-1574 - DOI: 10.1002/pan3.10406 |
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World
Morphology
All Rhino Species
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| No details available yet |
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| Wilson, Oscar E.; Pashkevich, M.D.; Turner, E.C.; Rookmaaker, L.C. 2022 The Rhino Resource Center: Accessing and utilizing a unique digital database. Pachyderm 63: 190-197 |
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World
Morphology
All Rhino Species
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| No details available yet |
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| Patton, F. 2021 A rudimentary assessment of rhinoceros horn regrowth in Africa based on photographs. Pachyderm 62: 135-142 |
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Subject:
Species:
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Africa - Eastern Africa - Uganda
Morphology
White Rhino
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| No details available yet |
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| Puzachenko, A.Y.; Kirillova, I.V.; Shidlovsky, F.K.; Levchenko, V.A. 2021 Variability and morphological features of Woolly rhinoceros skulls (Coelodonta antiquitatis (Blumenbach 1799)) from northeastern Asia in the late Pleistocene. Biology Bulletin 48 Supplement 1: 185-191, 4 figures, 3 tables - https://doi.org/10.1134/S1062359021140144 |
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Asia - Palearctic Asia
Morphology - Skull
Fossil
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| No details available yet |
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| Kubikova, P. 2021 Morfologické srovnání nosorožce tuponosého a n. Cottonova. Thesis presented to Jihoreská univerzita v reských Bud?jovicích, pp. 1-61 |
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Location:
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Africa
Morphology
White Rhino
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| No details available yet |
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| Malikov, D.G. 2021 About the findings of the remains of a woolly baby rhino (Coelodonta antiquitatis Blumenbach 1799) in Gorny Altai (Brief Report). Bulletin AB RGS (Izvestiya AO RGO) 3 (62) V.S. Sobolev Institute of Geologie and Mineralogie, SB, RAS, Novosibirisk: 20-27, 3 figures, doi:10.24412/2410-1192-2021-16202 |
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Location:
Subject:
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Asia - Palearctic Asia
Morphology - Skull
Fossil
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| No details available yet |
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| Etienne, C.; Mallet, C.; Cornette, R.; Houssaye, A. 2020 Influence of mass on tarsus shape variation: a morphometrical investigation among Rhinocerotidae (Mammalia: Perissodactyla). Biological Journal of the Linnean Society 129 (4): 950–974 - https://doi.org/10.1093/biolinnean/blaa005 |
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World
Morphology
Fossil
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| No details available yet |
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| Mallet, C.; Billet, G.; Houssaye, A.; Cornette, R. 2020 A first glimpse at the influence of body mass in the morphological integration of the limb long bones: an investigation in modern rhinoceroses. Journal of Anatomy 237 (4): 704-726 - https://doi.org/10.1111/joa.13232 |
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World
Morphology
All Rhino Species
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| The appendicular skeleton of tetrapods is a particularly integrated structure due to the shared developmental origin or similar functional constraints exerted on its elements. Among these constraints, body mass is considered strongly to influence its integration but its effect on shape covariatio... |
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| Becker, D.; Tissier, J. 2020 Rhinocerotidae from the early middle Miocene locality Gracanica (Bugojno Basin, Bosnia-Herzegovina). Palaeobiodiversity and Palaeoenvironments 100: 395-412 |
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Subject:
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Europe - Estern Europe
Morphology
Fossil
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| No details available yet |
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| Lu, X.; Deng, T.; Zheng, X.; Li, F. 2020 Sexual dimorphism and body reconstruction of a hornless rhinocerotid, Plesiaceratherium gracile, from the Early Miocene of the Shanwang Basin, Shandong, China. Frontiers in Ecology and Evolution 8: 544076 |
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Location:
Subject:
Species:
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Asia - East Asia - China
Morphology - Skull
Fossil
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| No details available yet |
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Notes for: Morphology
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details