Late Pleistocene divergence and subsequent population expansion of two closely related fish species, Japanese anchovy (Engraulis japonicus) and Australian anchovy (Engraulis australis)

文献类型: 外文期刊

第一作者: Liu, Jin-Xian

作者: Liu, Jin-Xian;Gao, Tian-Xiang;Zhuang, Zhi-Meng;Jin, Xian-Shi;Yokogawa, Koji;Zhang, Ya-Ping

作者机构:

关键词: Engraulis japonicus;Engraulis australis;climatic oscillations;mitochondrial DNA;Pleistocene glaciations;population expansion;MITOCHONDRIAL-DNA SEQUENCES;CONTROL-REGION SEQUENCES;EAST CHINA SEA;PACIFIC-OCEAN;STATISTICAL TESTS;GENETIC-EVIDENCE;WESTERN PACIFIC;MEDIAN NETWORKS;SURFACE-WATER;MUTATION-RATE

期刊名称:MOLECULAR PHYLOGENETICS AND EVOLUTION ( 影响因子:4.286; 五年影响因子:4.492 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Climatic oscillations during the Pleistocene ice ages produced great changes in species' geographical distribution and abundance, which could be expected to have genetic consequences. Living in the temperate upwelling zones of the northwestern Pacific, Japanese anchovy (Engraulis japonicus) might have been affected by these severe climatic oscillations. To investigate the effects of Pleistocene climatic changes on the evolution in Japanese anchovy, fragments of 522bp at the 5' end of mitochondrial DNA control region were sequenced for 241 individuals from 13 localities and 37 individuals of Australian anchovy. Japanese anchovy and Australian anchovy are reciprocally monophyletic and a late Pleistocene transequatorial divergence between the two species was indicated. High levels of haplotype diversity (> 0.99) were found for all samples, indicating a high level of genetic diversity. Analyses of molecular variance and the conventional population statistic F-ST revealed no significant genetic structure throughout the range of Japanese anchovy. Both mismatch distribution analyses and neutrality tests suggested a late Pleistocene population expansion for both Japanese anchovy (79,000-317,000 years ago) and Australian anchovy (45,000-178,000 years ago). (c) 2006 Elsevier Inc. All rights reserved.

分类号: Q7

  • 相关文献

[1]New genetic perspectives of the ambiguous pomfret as revealed by CR sequences. Li, Yuan,Lin, Longshan,Zhang, Yan,Gao, Tianxiang,Liu, Liqin. 2017

[2]Population structure and genetic diversity of Ammodytes personatus in the Northwestern Pacific revealed by microsatellites markers. Ren, Gui Jing,Hu, Jing Jie,Gao, Tian Xiang,Han, Zhi Qiang.

[3]The point of no return and pectoral angle of Japanese anchovy (Engraulis japonicus) larvae during growth and starvation. Wan Ruijing,Li Xiansen,Zhuang Zhimeng,Johannessen, Arne. 2007

[4]Polymorphic microsatellite loci for the Japanese anchovy Engraulis japonicus (Engraulidae). Lin, L.,Zhu, L.,Liu, S. -F.,Zhuang, Z. -M.,Lin, L.,Su, Y. -Q.. 2011

[5]The Pacific decadal oscillation and changes in anchovy populations in the Northwest Pacific. Zhou, Xin,Huang, Wen,Sun, Liguang,Zhou, Xin,Huang, Wen,Sun, Liguang,Sun, Yao,Tang, Qisheng,Huang, Wen,Smol, John P.. 2015

[6]Mitochondrial DNA sequence variation of Japanese anchovy Engraulis japonicus from the Yellow Sea and East China Sea. Yu, ZN,Kong, XY,Guo, TH,Jiang, YY,Zhuang, ZM,Jin, XS. 2005

[7]Variation in the distribution of wintering anchovy Engraulis japonicus and its relationship with water temperature in the central and southern Yellow Sea. Niu Mingxiang,Wang Jun,Wang Jun,Niu Mingxiang,Wang Jun,Niu Mingxiang,Wang Jun. 2017

[8]Effects of spatio-temporal and environmental factors on distribution and abundance of wintering anchovy Engraulis japonicus in central and southern Yellow Sea. Jin Xianshi. 2014

[9]Genetic variation and evolutionary demography of Fenneropenaeus chinensis populations, as revealed by the analysis of mitochondrial control region sequences. Kong, Xiao Yu,Li, Yu Long,Li, Yu Long,Shi, Wei,Kong, Jie. 2010

[10]Genetic diversity and historical demography of Chinese shrimp Feneropenaeus chinensis in Yellow Sea and Bohai Sea based on mitochondrial DNA analysis. Li, Yu Long,Kong, Xiao Yu,Yu, Zi Niu,Li, Yu Long,Ma, Shen,Chen, Li Mei,Kong, Jie. 2009

[11]Genetic diversity and population structure of Portunus sanguinolentus (Herbst, 1783) revealed by mtDNA COI sequences. Ren, Guijing,Ma, Hongyu,Ma, Chunyan,Wang, Wei,Chen, Wei,Ma, Lingbo,Ma, Hongyu.

[12]Multiple generation effects of high temperature on the development and fecundity of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) biotype B. Cong, Lin,Wan, Fang-Hao. 2013

[13]Effects of high temperature on body size and weight of Ophraella communa. Zheng, Xing-Wen,Luo, Min,Guo, Jian-Ying,Zhou, Zhong-Shi,Wan, Fang-Hao,Chen, Hong-Song,Luo, Yuan-Hua. 2014

[14]A fine map for maternal lineage analysis by mitochondrial hypervariable region in 12 Chinese goat breeds. Ma, Yue-Hui,Wu, Yan-Ping,Huo, Jun-Hong,Xie, Jin-Fang,Han, Jian-Lin,Rao, Shao-Qi.

[15]Genetic relationship of the melon fly, Bactrocera cucurbitae (Diptera: Tephritidae) inferred from mitochondrial DNA. Wu, Yi,Li, Zhi-Hong,McPheron, Bruce A.,Wu, Jia-Jiao,Wu, Yi. 2012

[16]Effect of short-term high temperature stress on the development and fecundity of Ophraella communa (Coleoptera: Chrysomelidae). Guo, Jian-Ying,Min, Luo,Wan, Fang-Hao,Min, Luo. 2011

[17]Late Pleistocene population expansion of Scylla paramamosain along the coast of China: A population dynamic response to the Last Interglacial sea level highstand. He, Lijun,Jiang, Chaojun,Qiao, Zhenguo,Zhang, Aibing,Weese, David,Zhu, Chaodong.

[18]Genetic variation and phylogeography of Psammosilene tunicoides (Caryophyllaceae), a narrowly distributed and endemic species in south-western China. Zhang, Qing-Ying,Zhao, Yu-Juan,Gong, Xun,Zhang, Qing-Ying.

[19]Population genetic structure and demographic history of Pampus argenteus in the Indo-West Pacific inferred from mitochondrial cytochrome b sequences. Sun, Peng,Shi, Zhaohong,Yin, Fei,Peng, Shiming.

[20]Optimal salinity for dominant copepods in the East China Sea, determined using a yield density model. Xu Zhaoli,Gao Qian. 2011

作者其他论文 更多>>
  • Genome sequencing and assembly of feral chickens in the wild of Sulawesi, Indonesia

    作者:Ashari, Hidayat;Han, Jian-Lin;Ashari, Hidayat;Ashari, Hidayat;Liu, Li-Sheng;Cai, Zheng-Fei;Xie, Guo-Li;Yin, Ting-Ting;Zhang, Ya-Ping;Peng, Min-Sheng;Liu, Li-Sheng;Cai, Zheng-Fei;Xie, Guo-Li;Yin, Ting-Ting;Zhang, Ya-Ping;Peng, Min-Sheng;Liu, Li-Sheng;Cai, Zheng-Fei;Yin, Ting-Ting;Zhang, Ya-Ping;Peng, Min-Sheng;Dagong, Muhammad Ihsan Andi;Cai, Zheng-Fei

    关键词:admixture; chicken; feralization; genome; red jungle fowl; structural variations

  • The effects of runs-of-homozygosity on pig domestication and breeding

    作者:Tao, Lin;Liu, Hang;Adeola, Adeniyi C.;Xie, Hai-Bing;Zhang, Ya-Ping;Tao, Lin;Liu, Hang;Adeola, Adeniyi C.;Xie, Hai-Bing;Zhang, Ya-Ping;Feng, Shu-Tang;Tao, Lin;Liu, Hang;Zhang, Ya-Ping;Feng, Shu-Tang

    关键词:Inbreeding depression; Deleterious mutations; Inbred pigs; RNA-seq

  • Genome wide analysis of allele-specific circular RNAs in mammals and their role in cell proliferation

    作者:Li, Ying-Ju;Liu, Hang;Zhang, Yue-Dong;Gao, Yun;Zhang, Shu-Run;Otecko, Newton O.;Liu, Lu;Peng, Min-Sheng;Wei, Hong-Jiang;Zhou, Zhong-Yin;Zhang, Ya-Ping;Li, Ying-Ju;Liu, Hang;Zhang, Yue-Dong;Gao, Yun;Zhang, Shu-Run;Otecko, Newton O.;Liu, Lu;Peng, Min-Sheng;Wei, Hong-Jiang;Zhou, Zhong-Yin;Zhang, Ya-Ping;Li, Ying-Ju;Zhang, Yue-Dong;Liu, Yu-Yan;Li, Ying-Ju;Zhang, Yue-Dong;Liu, Yu-Yan;Li, Ying-Ju;Liu, Hang;Zhang, Yue-Dong;Otecko, Newton O.;Li, Aimin;Pu, Li-Xia;Liu, Lu;Irwin, David M.;Yi, Chungen;Xie, Wei;Qin, Yan;Qin, Yan;Wang, Zefeng;Wang, Zefeng;Wei, Hong-Jiang;Wei, Hong-Jiang;Zhang, Ya-Ping

    关键词:CircRNA; Allele specific circRNA; Intronic mutation; Cell proliferation

  • Uncovering the Nanozostera japonica species complex suggests cryptic speciation and underestimated seagrass diversity

    作者:Zhang, Xiaomei;Li, Yu-Long;Xu, Shaochun;Yue, Shidong;Zhang, Yu;Liu, Jin-Xian;Zhou, Yi;Zhang, Xiaomei;Yu, Lei;Reusch, Thorsten B. H.;Zhang, Xiaomei;Li, Yu-Long;Xu, Shaochun;Yue, Shidong;Zhang, Yu;Liu, Jin-Xian;Zhou, Yi;Zhang, Xiaomei;Xu, Shaochun;Yue, Shidong;Zhang, Yu;Zhou, Yi;Suonan, Zhaxi;Lee, Kun-Seop;Komatsu, Teruhisa;Qiu, Guanglong;Qiu, Guanglong;Xu, Min;Wang, Feng;Zhou, Yi

    关键词:chromosomal inversion; cryptic species; hybridization; Nanozostera japonica; seagrasses; secondary contact; triploidy

  • Genomic insights into local adaptation and phenotypic diversity of Wenchang chickens

    作者:Gu, Li-Hong;Zheng, Xin-Li;He, Zhong-Chun;Qi, Yan-Tao;Chen, An-Hong;Wu, Ran -Ran;Zhang, Ya-Ping;Wu, Ran -Ran;Zhang, Ya-Ping;Fu, An;Peng, Min-Sheng;Ma, Cheng;Xing, Zeng-Yang;Chen, Yi-Yong;Lu, Li-Zhi;Zhang, Ya-Ping;Wu, Ran -Ran;Zhang, Ya-Ping;Peng, Min-Sheng;Xu, Tie-Shan

    关键词:Wenchang chicken; population structure; feather color; local adaptation; GWAS

  • Repressor elements provide insights into tissue development and phenotypes in pigs

    作者:Zhang, Yue-Dong;Guo, Chao;Liu, Hang;Gao, Yun;Irwin, David M.;Hou, Chunhui;Zhou, Zhong-Yin;Zhang, Ya-Ping;Zhang, Yue-Dong;Guo, Chao;Liu, Hang;Gao, Yun;Hou, Chunhui;Zhou, Zhong-Yin;Zhang, Ya-Ping;Zhang, Yue-Dong;Liu, Hang;Hou, Chunhui;Zhang, Yue-Dong;Zhang, Yue-Dong;Guo, Chao;Tan, Yongjun;Niu, Longjian;Niu, Longjian;Wang, Ligang;Wang, Lixian;Irwin, David M.;Hou, Chunhui;Zhang, Ya-Ping

    关键词:Repressor elements; Super repressor elements; Silencer; Regulatory model; Tissue development; KLF4; Pig

  • Target capture sequencing for the first Nigerian genotype I ASFV genome

    作者:Adeola, Adeniyi C.;Jiang, Xiang-Xiang;Cai, Zheng-Fei;Shi, Xian;Xie, Hai-Bing;Bishop, Richard P.;Li, Jianbo;Zhang, Ya-Ping;Peng, Min-Sheng;Adeola, Adeniyi C.;Jiang, Xiang-Xiang;Cai, Zheng-Fei;Shi, Xian;Xie, Hai-Bing;Li, Jianbo;Zhang, Ya-Ping;Peng, Min-Sheng;Adeola, Adeniyi C.;Zhang, Ya-Ping;Peng, Min-Sheng;Adeola, Adeniyi C.;Luka, Pam D.;Jiang, Xiang-Xiang;Cai, Zheng-Fei;Zhang, Ya-Ping;Oluwole, Olufunke O.;Oladele, Bukola M.;Olorungbounmi, Temilola O.;Boladuro, Bamidele;Shi, Xian;Zhang, Ya-Ping;Peng, Min-Sheng;Omotosho, Oladipo;Olaogun, Sunday C.;Okoro, Victor M. O.;Dawuda, Philip M.;Sanke, Oscar J.;Bishop, Richard P.;Han, Jianlin;Han, Jianlin

    关键词:African swine fever virus (ASFV); genome; genotype I; Nigeria; phylogeny; target capture sequencing

微信小程序