 | Zanazzi, A.; Fletcher, A.; Peretto, C.; Thun Hohenstein, U. 2022 Middle Pleistocene paleoclimate and paleoenvironment of central Italy and their relationship with hominin migrations and evolution. Quaternary International: 18 pp., 7 figs, 2 tabs |
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Europe - Southern Europe - Italy
Physiology
Fossil
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| Abstract - To investigate the paleoclimate and paleoenvironment of central Italy during the Middle Pleistocene, we analyzed the carbon and oxygen stable isotope composition of the carbonate component of sequential enamel samples from twenty-four rhinoceros (Stephanorhinus spp.) teeth.
The samp... |
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 | Madelaire, C.B.; Klink, A.C.; Israelsen, W.J.; Hindle, A.G. 2022 Fibroblasts as an experimental model system for the study of comparative physiology. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 260: 1-11 |
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World
Physiology
White Rhino
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| No details available yet |
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| Wood, J.; Minter, L.J.; Bibus, D.; Tollefson, T.F.; van Heugten, K.A. 2022 Assessment of the effects of storage temperature on fatty acid analysis using dried blood spot cards from managed southern white rhinoceroses (Ceratotherium simum simum): implications for field collection and nutritional care. PeerJ 2022: 1-14 |
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Location:
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World
Physiology
White Rhino
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| No details available yet |
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| Martinez, L.; Silvan, G.; Caceres, S.; Caperos, J.M.; Fernandez-Moran, J.; Casares, M.; Crespo, B.; de Andres, P.J.; Illera, J.C. 2022 Preliminary findings on how different management systems and social interactions influence fecal glucocorticoid metabolites in White rhinoceros (Ceratotherium simum). Animals (www.mdpi.com) 12 (897) : 1-15, 6 figures [https://doi.org/10.3390/ani12070897] |
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Location:
Subject:
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Captive - Europe
Physiology
White Rhino
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| No details available yet |
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| Housecroft, C.E. 2022 Horns, Scales, Beaks: The versatility of keratin. Chimia 76: 262-263 |
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Subject:
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World
Physiology
All Rhino Species
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| No details available yet |
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| Roth, T.; Philpott, M.; Wojtusik, J. 2022 Rhinoceros serum labile plasma iron and associated redox potential: interspecific variation, sex bias, and iron overload disorder disconnect. Conservation Physiology 10 (1) coac025: 1-10, 5 figures, 1 table, https://doi:10./1093/conphys/coac025 |
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Location:
Subject:
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World
Physiology
All Rhino Species
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| No details available yet |
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| Claunch, N.M.; Downs, C.J.; Schoenle, L.A.; Oakey, S.J.; Ely, T.; Romagosa, C.; Briggs, C.W. 2022 Snap-freezing in the field: effect of sample holding time on performance of bacterial assays. Integrative and Comparative Biology presentation from virtual symposium - Ecoimmunology: what unconventional organisms tell us after two decades, Jan 3-Feb 28, 2022: 1-7, 2 figures, 1 table, https://doi.org/10.1093/icb/icac007 |
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Location:
Subject:
Species:
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World
Physiology
White Rhino
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| No details available yet |
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| Meyer, A. ; Emerson, J.A.; Rainwater, K.L.; Haefele, H.; Arheart, K.L.; Hammond, E.; Hooijberg, E.; Cray, C. 2022 Asessment of capillary zone electrophoresis and serum amyloid A quantitation in clinically normal and abnormal southern white rhinoceros (Ceratotherium simum simum) and southern black rhinoceros (Diceros bicornis minor). Journal of Zoo and Wildlife Medicine 53: 319-330 |
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Location:
Subject:
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Africa - Southern Africa
Physiology
African Rhino Species
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| No details available yet |
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| Ruggeri, E.; Young, C.; Ravida, N.; Sirard, M.; Krisher, R.; Rey, M. de la; Herbst, C.; Durrant, B. 2022 Glucose consumption and gene expression in granulosa cells collected before and after in vitro oocyte maturation in the the southern white rhino (Ceratotherium simum simum). Reproduction, Fertility and Development 2022: 1-14 - doi:10.1071/RD22071 |
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Location:
Subject:
Species:
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Captive
Physiology
White Rhino
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| No details available yet |
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| Osthoff, G.; Beukes, B.; Steyn, A.C.; Hugo, A.; Deacon, F.; Butler, H.J.B.; O'Neill, F.O.; Grobler, J.P. 2021 Milk composition of white rhinoceros over lactation and comparison with other Perissodactyla. Zoo Biology 40 (5): 417-428 - https://doi.org/10.1002/zoo.21618 |
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Location:
Subject:
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Africa
Physiology
White Rhino
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| The proximate composition of milk from fifteen free-ranging white rhinoceroses at different lactation stages is reported with detailed analysis of fatty acid composition and minerals. Lactose is the main component at 7.93?±?0.53%, followed by 0.93?±?0.19% protein, 1.76?±?0.39% fat, 0.40?±?0.1... |
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Notes for: Physiology
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