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KMID : 1161520220260050214
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Animal Cells and Systems
2022 Volume.26 No. 5 p.214 ~ p.222
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Molecular identification of archaic bones as a native Korean black bear: implications for the ongoing bear restoration program
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Hyun Jee-Yun
Kim Tae-Wook
Pandey Puneet
Kim Kyung-Seok
Jeong Seung-Jun
Kang Jae-Ku
Kong Dal-Yong
Jung Seung-Ho
Jeong Ho-Kweon
Han Sang-Hoon
Lee Hang
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Abstract
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The genetic investigation of the archeological or museum samples, including endangered species, provides vital information necessary to plan, implement, and revisit conservation strategies. In South Korea, the Asian black bear went almost extinct in wild by 2002, without leaving any authentic specimens representing the native population. Recently researchers found a set of animal bones in a natural cave in Mt. Taebaek (South Korea), suspected to be of a bear. In the present study, we undertook a molecular investigation and radiocarbon dating to establish the species¡¯ identity, phylogenetic position, and approximate age of the recovered specimen. The genetic investigation (CytB, COI, D-loop, SRY, and ZFX-ZFY) identified the sample as a male Asian black bear with close phylogenetic affinity with Northeast Asian bears. Radiocarbon dating estimated the bones to be aged 1800?1942 calAD. These findings indicate that the bone specimens found in the natural cave in Mt. Taebaek were from an individual that naturally inhabited South Korea long before the importing of farm bears (the 1980s) and initiation of wild population restoration (2004). The present study provides the first genetic information record of the native South Korean black bear. Our findings reaffirm the appropriateness of the ongoing bear restoration program in South Korea, with the reintroduction of individuals from North Korea and Russia.
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KEYWORD
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Asian black bear, radiocarbon dating, molecular identification, cave bone
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