![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Kraaijeveld, K.; Bossers, L.; Petrusevski, N.; Pieterman, S.; Bruins-van Sonsbeek, L.G.R.; Wittink, F. 2024 ONT read assembly of the black rhino genome. BMC Genomic Data 25:27: 1-2 - doi.org/10.1186/s12863-024-01214 |
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Captive
Genetics
Black Rhino
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| No details available yet |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Seeber, P.A.; Batke, L.; Dvornikov, Yu.; Schmidt, A.; Wang, Yi; Stoof-Leichsenring, K.; Moon, K.; Vohr, S.H.; Shapiro, B.; Epp, L.S. 2024 Mitochondrial genomes of Pleistocene megafauna retrieved from recent sediment layers of two Siberian lakes. eLife - Genetics and Genomics 2023;12:RP8999: 24 pp, 3 figs, 15 tabs, DOI: https://doi.org/10.7554/eLife.89992 |
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Asia
Genetics
Fossil
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| Details - Coelodonta antiquitatis (Blum.) is cited in the text. |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Gad, A.; Menjivar, N.G.; Felton, R.; Durrant, B.; Tesfaye, D.; Ruggeri, E. 2024 Mapping the follicle-specific regulation of extracellular vesicle-mediated microRNA transport in the southern white rhinoceros (Ceratotherium simum simum). Biology of Reproduction 2024 (ioae081) : 1-15 - doi.org/10.1093/biolre/ioae081 |
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Location:
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Captive
Genetics
White Rhino
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| Efforts to implement effective assisted reproductive technologies (ARTs) for the conservation of the northern white rhinoceros (NWR; Ceratotherium simum cottoni) to prevent its forthcoming extinction, could be supported by research conducted on the closely related southern white rhinoceros (SWR; ... |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Seeber, P.A.; Palmer, Z.; Schmidt, A.; Chagas, A.; Kitagawa, K.; Marinova-Wolff, E.; Tafelmaier, Y.; Epp, L.S. 2023 The first European woolly rhinoceros mitogenomes, retrieved from cave hyena coprolites, suggest long-term phylogeographic differentiation. Biology Letters: 19: 20230343, 4 pp., 1 fig [https://doi.org/10.1098/rsbl.2023.0343] |
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Location:
Subject:
Species:
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World
Genetics
Fossil
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| No details available yet |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Sanchez-Barreiro, F.; Gopalakrishnan, S.; Ramos-Madrigal, J.; Westbury, M.V. ; Manuel, M.de; Margaryan, A.; Ciucani, M.C. ; Vieira, F.G.; Patramanis, Y.; Kalthoff, D.C.; Timmons, Z.; Sicheritz-Pontén, T.; Dalén, L.; Ryder, O.A.; Zhang, G.; Marquès-Bonet, T.; Moodley, Y.; Gilbert, M.T.P. 2023 Historical population declines prompted significant genomic erosion in the northern and southern white rhinoceros (Ceratotherium simum). Molecular Ecology 40 (9):msad180: 1-19 - https://doi.org/10.1093/molbev/msad180 |
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Location:
Subject:
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Africa
Genetics
White Rhino
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| No details available yet |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Stanbridge, D.; O'Riain, M.J.; Dreyer, C.; Le Roex, N. 2023 Genetic restoration of black rhinoceroses in South Africa: conservation implications. Conservation Genetics 24: 99-107 - https://doi.org/10.1007/s10592-022-01486-y |
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Location:
Subject:
Species:
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Africa
Genetics
Black Rhino
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| Globally, wildlife populations are becoming increasingly small and isolated. Both processes contribute to an elevated risk of extinction, notably due to genetic factors related to inbreeding depression and a loss of adaptive potential. Wildlife translocation is a valuable conservation tool to rei... |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Priyambodo; Putri, C.R.P.; Rustiati, E.L.; Kurniawati, Y; Zulkarnain, D.; Pratiwi, D.N.; Arsan, Z.; Giyono; Mustikawati, G.; Pertiwi, V.R.; Sukatmoko; Srihanto, E.A.; Saswiyanti, E. 2023 Amplification of the GAPDH gene from the urine eDNA of Sumatran Rhino in Sumatran Rhino Sanctuary, Way Kambas National Park. Jurnal Biologi Tropis 23 (3): 110-114 |
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Location:
Subject:
Species:
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Asia - South East Asia - Indonesia
Genetics
Sumatran Rhino
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| No details available yet |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Mellya, R.V.K.; Hopcraft, J.G.C.; Eblate, E.M.; Kariuki, L. ; Otiende, M.; Chuma, I.S.; Macha, E.S.; Wambura, D.; Kilbride, E.; Mable, B.K. 2023 Mitochondrial DNA diversity of the eastern black rhinoceros (Diceros bicornis michaeli) in Tanzania: implications for future conservation. Conservation Genetics 2023: 1-16 - https://doi.org/10.1007/s10592-023-01545-y |
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Location:
Subject:
Species:
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Africa - Eastern Africa - Tanzania
Genetics
Black Rhino
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| There has been a drastic decline in the number of eastern black rhinoceros (Diceros bicornis michaeli) across Africa, leaving individuals restricted to small, isolated populations that are vulnerable to extinction. Focusing on highly threatened populations in Tanzania, this study investigated the... |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Mellya, R.V.K.; Hopcraft, J.G.C.; Eblate, E.M.; Otiende, M.; Chuma, I.S.; Macha, E.S.; Wambura, D.; Kilbride, E.; Mable, B.K. 2023 Genetic diversity of the eastern black rhinoceros (Diceros bicornis michaeli) in Tanzania; implications for future conservation. Conservation Genetics 2023 - preprint: https://doi.org/10.21203/rs.3.rs-2560054/v1 |
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Location:
Subject:
Species:
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Africa - Eastern Africa - Tanzania
Genetics
Black Rhino
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| In the past decade, there has been a drastic decline in the number of Eastern Black rhinoceros (Diceros bicornis michaeli), due to poaching, leaving few individuals in small, isolated populations that are vulnerable to extinction. However, the genetic consequences of the demographic decline on th... |
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![File Available](http://www.rhinoresourcecenter.com/style_images/1/file_available.gif) | Corder, M.L.; Petricoin, E.F.; Yue Li; Cleland, T.P.; DeCandia, A.L.; Aguirre, A.A.; Pukazhenthi, B.S. 2023 Metabolomic profiling implicates mitochondrial and immune dysfunction in disease syndromes of the critically endangered black rhinoceros (Diceros bicornis). Nature: Scientific Reports 13:15464: 1-13 - https://doi.org/10.1038/s41598-023-41508-4 |
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Location:
Subject:
Species:
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Captive
Genetics
Black Rhino
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| The critically endangered black rhinoceros (Diceros bicornis; black rhino) experiences extinction threats from poaching in-situ. The ex-situ population, which serves as a genetic reservoir against impending extinction threats, experiences its own threats to survival related to several disease syn... |
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