K.-S. Kim scite author profile

K.-S. Kim

2Publications

24Citation Statements Received

16Citation Statements Given

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Affiliations

Pukyong National University, Agricultural Research Service, Seoul National University

Publications

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Cross-Species Amplification of Bovidae Microsatellites and Low Diversity of the Endangered Korean Goral

Kim

Min

et al. 2004

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The Korean goral (Nemorhaedus caudatus) is an endangered species of wild goat. The conservation and management of this species could benefit from a better understanding of its genetic diversity and structure. Cross-species amplification of 34 Bovidae microsatellite loci was tested on a panel of 6 Korean gorals and 10 domestic goats. After polymerase chain reaction (PCR) optimization, 29 (85.3%) microsatellite loci amplified successfully for the Korean gorals and 27 (79.4%) for the domestic goats. Of the amplified products, 16 (55.2%) were polymorphic in the Korean goral and 22 (81.5%) in domestic goats. Nei's unbiased mean heterozygosity and mean allele number per locus were, respectively, 0.356 and 2.6 in the Korean goral and 0.636 and 4.8 in domestic goats. Low genetic diversity in the Korean gorals observed in this preliminary microsatellite survey suggests an urgent need for further detailed study of genetic diversity in Korean goral populations and a population management strategy based on these studies. Current results of cross-species amplification of domestic Bovidae microsatellites could be employed for the necessary population genetic studies on the Korean goral and other endangered Caprinae species.

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Effects of ocean acidification on the larval growth of olive flounder (Paralichthys olivaceus)

Kim

Shim

Kim

2013

Preprint

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Abstract. Little is known about how marine fishes respond to the reduced pH condition caused by the increased CO2 in the atmosphere. We investigated the effects of CO2 concentration on the growth of olive flounder (Paralichthys olivaceus) larvae. Newly hatched larvae were reared in three different concentrations of CO2 (574, 988 and 1297 μatm CO2) in temperature-controlled water tanks until metamorphosis (4 weeks). Body lengths, weights, and the concentration of some chemical elements in larval tissue were measured at the completion of each experiment, and experiment was repeated three times in May, June, and July 2011. Results indicated that body length and weight of flounder larvae were significantly increased with increasing CO2 concentration (P < 0.05). Daily growth rates of flounder larvae were higher (0.391 mm) from the high CO2 concentration (1297 μatm) than those (0.361 mm and 0.360 mm) from the lower ones (988 and 574 μatm).The measurement on some chemical elements (Ca, Fe, Cu, Zn and Sr) in fish tissue also revealed the increasing tendency of element concentration with increasing CO2 in seawater, although statistical significance cannot be tested due to the single measurement. It suggests that there are enrichment processes of these cations in larval tissue in the low pH condition.

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K.-S. Kim

Cross-Species Amplification of Bovidae Microsatellites and Low Diversity of the Endangered Korean Goral

Effects of ocean acidification on the larval growth of olive flounder (<i>Paralichthys olivaceus</i>)

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K.-S. Kim

Cross-Species Amplification of Bovidae Microsatellites and Low Diversity of the Endangered Korean Goral

Effects of ocean acidification on the larval growth of olive flounder (&lt;i&gt;Paralichthys olivaceus&lt;/i&gt;)

Contact Info

Product

Resources

About

Effects of ocean acidification on the larval growth of olive flounder (<i>Paralichthys olivaceus</i>)