A non-invasive, DNA-based method for beaver species identification in Finland

IF 1.7 3区生物学 Q3 ECOLOGY

Wildlife Biology Pub Date : 2021-07-27 DOI:10.2981/wlb.00808

T. Iso-Touru, J. Tabell, A. Virta, K. Kauhala

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引用次数: 3

Abstract

For the ability to control an invasive species and to protect an ecologically similar native species it is essential to map the exact distributions of both species. This is difficult if the species are so morphologically similar that their identification in the field is almost impossible. In Finland, the invasive North American beaver Castor canadensis is spreading towards the range of the native Eurasian beaver Castor fiber and at present, these species are partly sympatric. Effective management of these morphologically similar species requires an efficient method for species identification, ideally one that is non-invasive. Non-invasive genetic methods are used in a wide variety of wildlife species, for example in the research of large carnivores. Feces are a good source of DNA for terrestrial animals, but for the semi-aquatic animals like beavers, feces are not the best option. However, environmental DNA (eDNA) has been successfully used to detect species non-invasively in aquatic and terrestrial environments. We developed a non-invasive, eDNA-based method to map the distribution of the beaver species in Finland and to investigate within-species genetic diversity. The eDNA was obtained from the feed remains (wood chips) from beaver forage sites. With the help of Citizen science, wood chip samples were collected from different parts of Finland. We used our eDNA method to identify the ranges of both beaver species. Additionally, the presence of Eurasian beavers in south-east Finland was proven for the first time. Our non-invasive eDNA method is an effective way to accurately identify the ranges of both beaver species and will allow for the control of the invasive North American beaver and conservation of the native Eurasian beaver in Finland.

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芬兰一种基于DNA的非侵入性海狸物种鉴定方法

为了控制入侵物种和保护生态相似的本土物种，绘制这两个物种的确切分布图至关重要。如果物种在形态上如此相似，以至于在野外几乎不可能识别，那么这就很困难了。在芬兰，入侵的北美海狸Castor canadensis正在向本地欧亚海狸Castor纤维的范围传播，目前，这些物种部分是同域性的。有效管理这些形态相似的物种需要一种有效的物种识别方法，最好是一种非侵入性的方法。非侵入性遗传方法被广泛用于各种野生动物物种，例如大型食肉动物的研究。粪便是陆地动物DNA的良好来源，但对于海狸等半水生动物来说，粪便不是最好的选择。然而，环境DNA（eDNA）已被成功地用于在水生和陆地环境中非侵入性地检测物种。我们开发了一种基于eDNA的非侵入性方法来绘制芬兰海狸物种的分布图，并调查物种内的遗传多样性。eDNA是从海狸饲草场的饲料残渣（木屑）中获得的。在公民科学的帮助下，从芬兰不同地区采集了木屑样本。我们使用我们的eDNA方法来识别这两种海狸的范围。此外，欧亚海狸在芬兰东南部的存在首次得到证实。我们的非侵入性eDNA方法是准确识别这两种海狸物种范围的有效方法，将有助于控制入侵的北美海狸和保护芬兰本土欧亚海狸。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Wildlife Biology 生物-动物学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： WILDLIFE BIOLOGY is a high-quality scientific forum directing concise and up-to-date information to scientists, administrators, wildlife managers and conservationists. The journal encourages and welcomes original papers, short communications and reviews written in English from throughout the world. The journal accepts theoretical, empirical, and practical articles of high standard from all areas of wildlife science with the primary task of creating the scientific basis for the enhancement of wildlife management practices. Our concept of ''wildlife'' mainly includes mammal and bird species, but studies on other species or phenomena relevant to wildlife management are also of great interest. We adopt a broad concept of wildlife management, including all structures and actions with the purpose of conservation, sustainable use, and/or control of wildlife and its habitats, in order to safeguard sustainable relationships between wildlife and other human interests.