捕捞的直接和间接影响导致鲑鱼生活史的快速进化。

Rapid evolution in salmon life history induced by direct and indirect effects of fishing.

作者信息

Czorlich Y, Aykanat T, Erkinaro J, Orell P, Primmer C R

机构信息

University of Turku, Department of Biology, FI-20014 Turku, Finland.

Natural Resources Institute Finland (Luke), POB 413, FI-90014 Oulu, Finland.

出版信息

Science. 2022 Apr 22;376(6591):420-423. doi: 10.1126/science.abg5980. Epub 2022 Feb 24.

DOI:10.1126/science.abg5980

PMID:35201899

Abstract

Understanding the drivers of evolution is a fundamental aim in biology. However, identifying the evolutionary impacts of human activities is challenging because of a lack of temporal data and limited knowledge of the genetic basis of most traits. Here, we identify the drivers of evolution toward maturity at an earlier age in Atlantic salmon through two types of fisheries-induced evolution acting in opposing directions: an indirect effect linked with harvest of a salmon prey species (capelin) at sea (selection against late maturation) and a direct effect due to net fishing in rivers (selection against early maturation). Because capelin are harvested as an aquaculture feed protein source, we hereby determine an indirect path by which salmon aquaculture may influence wild salmon populations.

摘要

理解进化的驱动因素是生物学的一个基本目标。然而，由于缺乏时间数据以及对大多数性状的遗传基础了解有限，确定人类活动的进化影响具有挑战性。在这里，我们通过两种作用方向相反的渔业诱导进化类型，确定了大西洋鲑鱼向更早成熟进化的驱动因素：一种间接效应与在海上捕捞鲑鱼的猎物物种（毛鳞鱼）有关（选择不利于晚成熟），另一种直接效应是由于在河流中使用网捕鱼（选择不利于早成熟）。由于毛鳞鱼被作为水产养殖饲料蛋白质来源进行捕捞，我们在此确定了鲑鱼养殖可能影响野生鲑鱼种群的一条间接途径。

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捕捞的直接和间接影响导致鲑鱼生活史的快速进化。

Rapid evolution in salmon life history induced by direct and indirect effects of fishing.

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