Timing is everything: Fishing-season placement may represent the most important angling-induced evolutionary pressure on Atlantic salmon populations

文献类型: 外文期刊

第一作者: Harvey, Alison C.

作者: Harvey, Alison C.;Wennevik, Vidar;Skaala, Oystein;Glover, Kevin A.;Tang, Yongkai;Glover, Kevin A.

作者机构:

关键词: evolution;fishing;harvest;migration;sex marker;water flow

期刊名称:ECOLOGY AND EVOLUTION ( 影响因子:2.912; 五年影响因子:3.271 )

ISSN: 2045-7758

年卷期: 2017 年 7 卷 18 期

页码:

收录情况: SCI

摘要: Fisheries-induced evolution can change the trajectory of wild fish populations by selectively targeting certain phenotypes. For important fish species like Atlantic salmon, this could have large implications for their conservation and management. Most salmon rivers are managed by specifying an angling season of predetermined length based on population demography, which is typically established from catch statistics. Given the circularity of using catch statistics to estimate demographic parameters, it may be difficult to quantify the selective nature of angling and its evolutionary impact. In the River Etne in Norway, a recently installed trap permits daily sampling of fish entering the river, some of which are subsequently captured by anglers upstream. Here, we used 31 microsatellites to establish an individual DNA profile for salmon entering the trap, and for many of those subsequently captured by anglers. These data permitted us to investigate time of rod capture relative to river entry, potential body size-selective harvest, and environmental variables associated with river entry. Larger, older fish entered the river earlier than smaller, younger fish of both sexes, and larger, older females were more abundant than males and vice versa. There was good agreement between the sizes of fish harvested by angling, and the size distribution of the population sampled on the trap. These results demonstrate that at least in this river, and with the current timing of the season, the angling catch reflects the population's demographics and there is no evidence of size-selective harvest. We also demonstrated that the probability of being caught by angling declines quickly after river entry. Collectively, these data indicate that that the timing of the fishing season, in relation to the upstream migration patterns of the different demographics of the population, likely represents the most significant directional evolutionary force imposed by angling.

分类号:

  • 相关文献

[1]Accumulation of carotenoids and expression of carotenogenic genes in peach fruit. Cao, Shifeng,Liang, Minhua,Shi, Liyu,Shao, Jiarong,Song, Chunbo,Bian, Kun,Chen, Wei,Yang, Zhenfeng. 2017

[2]Modeling the effects of fishery management and marine protected areas on the Beibu Gulf using spatial ecosystem simulation. Chen, Zuozhi,Qiu, Yongsong,Lin, Zhaojin,Jia, Xiaoping,Xu, Shannan.

[3]A Study on the Tensile Mechanical Properties of HSPE Twisted Rope. Shi, Jiangao,Yu, Wenwen,Liu, Yongli,Wang, Lei,Chen, Xiaoxue,Zhong, Wenzhu,Lu, Wen,Zhai, Jieming. 2016

[4]Antimony release from contaminated mine soils and its migration in four typical soils using lysimeter experiments. Zhao, Long,Hou, Hong,Shangguan, Yu-xian,Qin, Yusheng,Zhang, Naiming.

[5]Relationship of flight and reproduction in beet armyworm, Spodoptera exigua (Lepidoptera: Noctuidae), a migrant lacking the oogenesis-flight syndrome. Jiang, Xing Fu,Luo, Li Zhi,Sappington, Thomas W.. 2010

[6]Spring migration and summer dispersal of Loxostege sticticalis (Lepidoptera : Pyralidae) and other insects observed with radar in Northern China. Wu, KM,Cheng, DF,Guo, YY. 2004

[7]Up-regulation of miR-182-5p predicts poor prognosis in patients with lung cancer and associates with tumor cell growth and migration. Shi, Yuanyuan,Liu, Hao,Du, Xiang,Liu, Xuedong,Liu, Jing. 2017

[8]Variation of pre-ovipositional period in the brown planthopper, Nilaparvata lugens, collected in tropical, subtropical and temperate Asia. Wada, T.,Ito, K.,Takahashi, A.,Tang, J.. 2007

[9]Do second generation Asia corn borer (Lepidoptera: Crambidae) immigrate to corn fields from alternate habitats?. Chen, Ri-Zhao,Li, Lian-Bing,Li, Peng-Pei,Klein, Michael G.,Li, Qi-Yun,Sheng, Cheng-Fa. 2015

[10]Different genetic structures revealed resident populations of a specialist parasitoid wasp in contrast to its migratory host. Wei, Shu-Jun,Zhou, Yuan,Fan, Xu-Lei,Cao, Li-Jun,Zhou, Yuan,Xu, Zai-Fu,Hoffmann, Ary A.,Chen, Xue-Xin. 2017

[11]Migration and population structure characteristics of the small yellow croaker Larimichthys polyactis in the southern Yellow Sea. Xiong Ying,Yang Jian,Xiong Ying,Zhong Xiaming,Tang Jianhua,Yang Jian. 2016

[12]20(S)-Protopanaxadiol saponins inhibit SKOV3 cell migration. Li, Bin,Chen, Daomei,Li, Wanyi,Xiao, Dan. 2016

[13]Trade-off between flight activity and life-history components in Chrysoperla sinica. Zhang, Lisheng,Zhang, Ying,Chen, Hongyin,Biondi, Antonio,Desneux, Nicolas.

[14]Does the onset of sexual maturation terminate the expression of migratory behaviour in moths? A study of the oriental armyworm, Mythimna separata. Zhao, Xin Cheng,Wu, Bo,Wu, Xian Fu,Liu, Zhong Fang,Wu, Kong Ming,Feng, Hong Qiang,McNeil, Jeremy N..

[15]FIP-sch2, a new fungal immunomodulatory protein from Stachybotrys chlorohalonata, suppresses proliferation and migration in lung cancer cells. Li, Shuying,Jiang, Zhonghao,Xu, Wenyi,Xie, Yingying,Zhao, Leiming,Tang, Xuanming,Wang, Fengzhong,Xin, Fengjiao.

[16]Ontogenetic behavior and migration of Chinese sturgeon, Acipenser sinensis. Zhuang, P,Kynard, B,Zhang, LZ,Zhang, T,Cao, WX.

[17]Migratory Adaptations in Chrysoperla sinica (Neuroptera: Chrysopidae). Liu, Zhongfang,Wu, Kongming,Wyckhuys, Kris A. G..

[18]Characterization of a new fungal immunomodulatory protein, FIP-dsq2 from Dichomitus squalens. Li, Shuying,Jiang, Zhonghao,Sun, Lichao,Liu, Xin,Huang, Ying,Wang, Fengzhong,Xin, Fengjiao.

[19]Ontogenetic behavior and migration of kaluga, Huso dauricus. Li, Yanhua,Wei, Qiwei,Li, Qiankun,Kynard, Boyd,Li, Yanhua,Wei, Qiwei,Zhang, Hui,Du, Hao,Li, Yanhua,Wei, Qiwei,Zhang, Hui,Du, Hao.

[20]Mitochondrial genomes reveal the global phylogeography and dispersal routes of the migratory locust. Yang, Pengcheng,Jiang, Feng,Kang, Le,Chapuis, Marie-Pierre,Shali, Yasen,Sword, Gregory A..

作者其他论文 更多>>

微信小程序