破坏野生生物遗传多样性：未经监测的动植物大规模释放。

Compromising genetic diversity in the wild: unmonitored large-scale release of plants and animals.

机构信息

Department of Zoology, Division of Population Genetics, Stockholm University, S-10691 Stockholm, Sweden.

出版信息

Trends Ecol Evol. 2010 Sep;25(9):520-9. doi: 10.1016/j.tree.2010.06.013. Epub 2010 Aug 3.

DOI:10.1016/j.tree.2010.06.013

PMID:20688414

Abstract

Large-scale exploitation of wild animals and plants through fishing, hunting and logging often depends on augmentation through releases of translocated or captively raised individuals. Such releases are performed worldwide in vast numbers. Augmentation can be demographically and economically beneficial but can also cause four types of adverse genetic change to wild populations: (1) loss of genetic variation, (2) loss of adaptations, (3) change of population composition, and (4) change of population structure. While adverse genetic impacts are recognized and documented in fisheries, little effort is devoted to actually monitoring them. In forestry and wildlife management, genetic risks associated with releases are largely neglected. We outline key features of programs to effectively monitor consequences of such releases on natural populations.

摘要

大规模开发野生动物和植物，包括捕鱼、狩猎和伐木，往往依赖于通过释放迁移或圈养的个体来增加数量。这种释放行为在全球范围内广泛进行。增加数量在人口统计学和经济上可能是有益的，但也会对野生动物种群造成四种类型的不利遗传变化：（1）遗传变异的丧失，（2）适应性的丧失，（3）种群组成的变化，以及（4）种群结构的变化。虽然在渔业中已经认识到并记录了不利的遗传影响，但很少有人致力于实际监测这些影响。在林业和野生动物管理中，与释放相关的遗传风险在很大程度上被忽视了。我们概述了有效监测这些释放对自然种群后果的项目的关键特征。

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破坏野生生物遗传多样性：未经监测的动植物大规模释放。

Compromising genetic diversity in the wild: unmonitored large-scale release of plants and animals.

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