 | Huntley, B.J. 2023 Ecology of Angola: terrestrial biomes and ecoregions. Berlin, Springer |
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Location:
Subject:
Species:
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Africa - Southern Africa - Angola
Morphology
African Rhino Species
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| No details available yet |
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| Belyaev, R.I.; Boeskorov, G.G.; Cheprasov, M.Y.; Prilepskaya, N.E. 2023 A new discovery in the permafrost of Yakutia sheds light on the nasal horn morphology of the woolly rhinoceros. Journal of Morphology 284 (21626): 1-6 - DOI: 10.1002/jmor.21626 |
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Location:
Subject:
Species:
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Europe
Morphology
Fossil
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| No details available yet |
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| Schmidt, C.R. 2023 Wildtiere mit Anomalien in Afrika. Bulette: Mitteilungen aus der Tiergartenbiologie 11: 42-86 |
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Location:
Subject:
Species:
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Africa
Morphology
African Rhino Species
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| No details available yet |
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| Li, S.; Jiangzuo, Q.; Deng, T. 2022 Body mass of the giant rhinos (Paraceratheriinae, Mammalia) and its tendency in evolution. Historical Biology: 10.1080/08912963.2022.2095908 |
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Location:
Subject:
Species:
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Asia - East Asia - China
Morphology - Size
Fossil
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| No details available yet |
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| Singal, K. 2022 De-tangling the strength of the rhinoceros horn. Bulletin of the American Physical Society APS March Meeting 2022: Poster session II: 1 |
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Location:
Subject:
Species:
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Asia
Morphology
All Rhino Species
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| The rhino population has dropped over 50% in the last 50 years due to poaching for their strong and durable horns. But where does this strength and durability come from? Unlike other animal horns, rhino horns do not have a bony core; instead, they are made completely out of keratin, the same mate... |
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| Zhang, Xiao-Xiao; Sun, Dan-Hui 2022 A cuboid bone of of a large late Miocene elasmothere from Qingyang, Gansu and its morphological significance. Vertebrata PalAsiatica 60 (1): 29-41, 7 figures https://doi:10.19615/j.cnki.2096-9899.210809 |
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Location:
Subject:
Species:
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Asia - East Asia - China
Morphology - Skeleton
Fossil
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| No details available yet |
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| Mallet, C.; Billet, G.; Cornette, R; Houssaye, A. 2022 Adaptation to graviportality in Rhinocerotoidea? An investigation through the long bone shape variation in their hindlimb. Zoological Journal of the Linnean Society 2022: 1-37 - https://doi.org/10.1093/zoolinnean/zlac007 |
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Location:
Subject:
Species:
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World
Morphology - Skeleton
All Rhino Species
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| No details available yet |
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| Hullot, M.; Antoine, P.O.; Spassov, N.; Koufos, G.D; Merceron, G. 2022 Late Miocene rhinocerotids from the Balkan-Iranian province: ecological insights from dental microwear textures and enamel hypoplasia. Historical Biology 35 (8): 1417-1434 - DOI:10.1080/08912963.2022.2095910 |
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Location:
Subject:
Species:
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Europe - Southern Europe
Morphology
Fossil
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| No details available yet |
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| 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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Location:
Subject:
Species:
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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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Location:
Subject:
Species:
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World
Morphology
All Rhino Species
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| No details available yet |
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Notes for: Morphology
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