1,230
Views
4
CrossRef citations to date
0
Altmetric
Rapid Communication

Genetic identification of ophichthid fishes through DNA barcoding

, , , , , & show all
Pages 1970-1974 | Received 23 Sep 2019, Accepted 11 Apr 2020, Published online: 28 Apr 2020

References

  • Bingpeng X, Heshan L, Zhilan Z, Chunguang W, Yanguo W, Jianjun W. 2018. DNA barcoding for identification of fish species in the Taiwan Strait. PLOS One. 13(6):e0198109.
  • Choi HY, Oh J, Kim S. 2018. Genetic identification of eggs from four species of Ophichthidae and Congridae (Anguilliformes) in the northern East China Sea. PLOS One. 13(4):e0195382.
  • De Brito MA, Schneider H, Sampaio I, Santos S. 2015. DNA barcoding reveals high substitution rate and mislabeling in croaker fillets (Sciaenidae) marketed in Brazil: the case of “pescada branca” (Cynoscion leiarchus and Plagiosdon squamosissimus). Food Res Int. 70:40–46.
  • Hebert PD, Cywinska A, Ball SL, deWaard JR. 2003. Biological identifications through DNA barcodes. Proc R Soc Lond B. 270(1512):313–321.
  • Hebert PDN, Ratnasingham S, de Waard JR. 2003. Barcoding animal life: cytochrome c oxidase subunit 1 divergences among closely related species. Proc R Soc Biol Sci B. 270:S96–S99.
  • Hubert N, Meyer CP, Bruggemann HJ, Guerin F, Komeno RJ, Espiau B, Causse R, Williams JT, Planes S. 2012. Cryptic diversity in Indo-Pacific coral-reef fishes revealed by DNA-barcoding provides new support to the centre-of-overlap hypothesis. PLOS One. 7(3):e28987.
  • Ji HS, Lee HW, Hong BK, Kim JK. 2012. Four newly reported ophichthid leptocephali species revealed by mitochondrial 12S rDNA, with implications of their occurrence in Korea. Anim Cell Syst. 16(5):415–424.
  • Kenchington EL, Baillie SM, Kenchington TJ, Bentzen P. 2017. Barcoding Atlantic Canada’s mesopelagic and upper bathypelagic marine fishes. PLOS One. 12(9):e0185173.
  • Kimura M. 1980. A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol. 16(2):111–120. doi:10.1007/BF01731581.
  • Kimura Y, Ishikawa S, Tokai T, Nishida M, Tsukamoto K. 2004. Early life history characteristics and genetic homogeneity of Conger myriaster leptocephali along the east coast of central Japan. Fish Res. 70(1):61–69.
  • Lee MY, Kwon IK, Lee K, Choi SK, Jeon HS, Lee JY, Eo KY, Kim HJ, Kim JH, Johnson WE, Yoo JC, et al. 2017. Genetic diversity and population structure of the Black-faced Spoonbill (Platalea minor) among its breeding sites in South Korea: implication for conservation. Biochem Syst Ecol. 71:106–113.
  • McCosker JE. 2010. Deepwater Indo-Pacific species of the snake-eel genus Ophichthus (Anguilliformes: Ophichthidae), with the description of nine new species. Zootaxa. 2505(1):1–39.
  • Min L, Xiao C, Shengyun Y. Marine fishes of Southern Fujian, China. Beijing, China: Oceanpress,  2013.
  • Peninal S, Subramanian J, Elavarasi A, Kalaiselvam M. 2017. Genetic identification of marine eels through DNA barcoding from Parangipettai coastal waters. Genom Data. 11:81–84.
  • Radulovici AE, Archambault P, Dufresne F. 2010. DNA barcodes for marine biodiversity: moving fast forward?. Diversity. 2(4):450–472.
  • Savolainen V, Cowan RS, Vogler AP, Roderick GK, Lane R. 2005. Towards writing the encyclopaedia of life: an introduction to DNA barcoding. Phil Trans R Soc B. 360(1462):1805–1811.
  • Tang WQ, Zhang CG. 2004. A taxonomic study on snake eel family Ophichthidae in China with the review of Ophichthidae (Pisces, Anguiliformes). J Shanghai Fish Univ. 13:16–22.
  • Tautz D, Arctander P, Minelli A, Thomas RH, Vogler AP. 2003. A plea for DNA taxonomy. Trends Ecol Evol. 18(2):70–74.
  • Ward RD, Zemlak TS, Innes BH, Last PR, Hebert PD. 2005. DNA barcoding Australia’s fish species. Phil Trans R Soc B. 360(1462):1847–1857.