What is in a name? 179
conservation of the painted dog (Lycaon pictus). Language and Ecology, 1, 27.
BOSTOCK,J.&RILEY, H.T. (eds) (1855) Chapter 26: Camels: the different kinds. In The Natural History of Pliny, Book 8. George Bell & Sons, London, UK.
BURGER, P.A., CIANI,E.& FAYE,B.(2019) Old World camels in a modern world – a balancing act between conservation and genetic improvement. Animal Genetics, 50, 598–612.
EDGE (2021) Focal EDGE Species.
edgeofexistence.org/species [accessed 19 January 2022].
EHMKE, G., FITZIMMONS, J.A. & GARNETT, S.T. (2018) Standardising English names for Australian bird subspecies as a conservation tool. Bird Conservation International, 28, 73–85.
FAOSTAT (undated) Food and Agriculture Organization of the United Nations. Food and Agriculture Data.
fao.org/faostat/en [accessed 2 December 2021].
FARNWORTH, M.J., CAMPBELL,J. & ADAMS, N.J. (2011)What’sina name?Perceptions of stray and feral catwelfare and control in Aotearoa, New Zealand. Journal of Applied AnimalWelfare Science, 14, 59–74.
FAYE,B. (2020) How many large camelids in the world? A synthetic analysis of the world camel demographic changes. Pastoralism: Research, Policy and Practice, 10, 25.
FELKEL, S.,WALLNER, B., CHULUUNBA, B., YADAMSUREN, A., FAYE, B., BREM,G. et al. (2019) A first Y-chromosomal haplotype network to investigate male-driven population dynamics in domestic and wild Bactrian camels. Frontiers in Genetics, 10, 423.
FITAK, R.R., MOHANDSEN, E., CORANDER, J., YADAMSUREN, A., CHULUUNBAT, B., ABDELHADI,O. et al. (2020)Genomic signatures of domestication in OldWorld camels. Communications Biology, 3, 316.
GAUNITZ, C., FAGES, A., HANGHØJ, K., ALBRECHTSEN, A., KHAN, N., SCHUBERT,M. et al. (2018) Ancient genomes revisit the ancestry of domestic and Przewalski’s horses. Science, 360, 111–114.
GENTRY, A., CLUTTON-BROCK,J.&GROVES, C.P. (2004) The naming of wild animal species and their domestic derivatives. Journal of Archaeological Science, 31, 645–651.
GILLMAN, L.N. &WRIGHT, S.D. (2020) Restoring Indigenous names in taxonomy. Communications Biology, 3, 609.
HAN,J.(2002) Genetic differentiation between Camelus bactrianus ferus and C. bactrianus inferred from mitochondrial DNA RFLPS. In Ecology and Conservation ofWild Bactrian Camels (Camelus bactrianus ferus) (eds R.P. Reading, D. Enkhbileg & T. Galbaatar), pp. 65–70. Mongolian Conservation Coalition & Admon Printing, Ulaanbaatar, Mongolia.
HARE,J. (1997) The wild Bactrian camel Camelus bactrianus ferus in China: the need for urgent action. Oryx, 31, 45–48.
HARE,J. (2008) Camelus
ferus.In The IUCN Red List of Threatened Species 2008.
dx.doi.org/10.2305/IUCN.UK.2008.RLTS. T63543A12689285.en.
JI, R., CUI, P., GENG, J., GAO, H., ZHANG, H., YU, S. et al. (2009) Monophyletic origin of domestic Bactrian camel (Camelus bactrianus) and it’s evolutionary relationship with the extant wild camel (Camelus bactrianus ferus). Animal Genetics, 40, 377–382.
JIRIMUTU,WANG, Z., DING, G., CHEN, G., SUN, Y., SUN, Z. et al. (2012) Genome sequences of wild and domestic Bactrian camels. Nature Communications, 3, 1202.
KREPLINS, T.L., GAYNOR, A., KENNEDY, M.S., BAUDAINS, C.M., ADAMS, P., BATEMAN, P.W. et al. (2018) What to call a dog? A review of the common names for Australian free-ranging dogs. Pacific Conservation Biology, 25, 124–134.
LADO, S., ELBERS, J.P., ROGERS, M.F., MELO-FERREIRA, J., YADAMSUREN, A., CORANDER,
J.et al. (2020) Nucleotide diversity of functionally different groups of immune response genes in Old World camels based on newly annotated and reference-guided assemblies. BMC Genomics, 21, 606.
MACDONALD, E.A., BURNHAM, D., HINKS, A.E., DICKMAN, A.J., MALHI,Y. & MACDONALD, D.W. (2015) Conservation inequality and the charismatic cat: Felis felicis. Global Ecology and Conservation, 3, 851–866.
MING, L., YUAN, L., YI, L., DING, G., HASI, S., CHEN, G. et al. (2020) Whole-genome sequencing of 128 camels across Asia reveals origin and migration of domestic Bactrian camels. Communications Biology, 3, 1.
MOHANDSEN, E., FITAK, R.R., CORANDER, J., YADAMSUREN, A., CHULUUNBAT, B., ABDELHADI,
O.et al. (2017) Mitogenome sequencing in the genus Camelus reveals evidence for purifying selection and long-term divergence between wild and domestic Bactrian camels. Nature Scientific Reports, 7, 9970.
MONGOLIAN STATISTICAL DATABASE (2022)
1212.mn/stat.aspx?LIST_ ID=976_L10_1 [assessed 24 March 2022].
NEFEDKIN, A.K. (2012) The Dromedarii in the Aoman army. Stratum Plus, 4, 301–309.
OXFORD ENGLISH DICTIONARY (undated) Bactrian camel.
lexico.com/definition/bactrian_camel [accessed 2 December 2021].
SARASA, M., ALASAAD,S.&PERE, J.M. (2012) Common names of species, the curious case of Capra pyrenaica and the concomitant steps towards the ‘wild-to-domestic’ transformation of a flagship species and its vernacular names. Biodiversity Conservation, 21, 1–12.
SILBERMAYR, K., OROZCO-TERWENGEL, P., CHARRAU,P., ENKHBILEG, D.,WALZER, C., VOGL, C. et al. (2009) High mitochondrial differentiation levels between wild and domestic Bactrian camels: a basis for rapid detection of maternal hybridisation. Animal Genetics, 41, 315.
SUREN,N.(2018) What’s in a name? How common and scientific names affect conservation efforts. Shark Research Miami, 2 March 2018.
sharkresearch.rsmas.miami.edu/whats-in-a-name-how- common-and-scientific-names-affect-conservation-efforts [accessed 2 December 2021].
TOMCZAK,W. (2016) Camels on the northeastern frontier of the Roman Empire. Papers from the Institute of Archaeology, 26, 1.
WEHI, P.M., CARTER, L., HARAWIRA, T.W., FITZGERALD, G., LLOYD, K.,WHAANGA,H.&MCLEOD, C.J. (2019) Enhancing awareness and adoption of cultural values through use of Māori bird names in science communication and environmental reporting. New Zealand Journal of Ecology, 43, 3.
WU, H., GUANG, X., AL-FAGEEH, M.B., CAO, J., PAN, J., PAN, S. et al. (2014) Camelid genomes reveal evolution and adaptation to desert environments. Nature Communications, 5, 5188.
ZOOLOGICAL INFORMATION MANAGEMENT SYSTEM (2020) Species360 Zoological Information Management System.
zims.species360.org [accessed 2 December 2021].
Oryx, 2023, 57(2), 175–179 © The Author(s), 2022. Published by Cambridge University Press on behalf of Fauna & Flora International doi:10.1017/S0030605322000114
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