环境 DNA 可以为权衡保护小龙虾的主动战略和被动战略提供信息

Q1 Agricultural and Biological Sciences
Environmental DNA Pub Date : 2024-06-17 DOI:10.1002/edn3.571
Jack A. Greenhalgh, Rebecca Banks, Rupert A. Collins, Ursula Juta, Sharon Reeves, Ben Siggery, Michael J. Sweet, James Tibbitts, Andrew D. Saxon, Kate E. Warwick, Glenn Wiseman, Gareth Jones, Martin J. Genner
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引用次数: 0

摘要

信号螯虾 Pacifastacus leniusculus 被引入英国河流后,导致生态退化和本地白爪螯虾 Austropotamobius pallipes 的减少。为了管理和减轻信号螯虾的影响,保护机构和政府部门采取了多种保护策略。其形式包括积极主动的本地螯虾繁殖和放养计划,以及消极被动的入侵螯虾控制计划。在这里,我们利用 eDNA 评估了英国诺福克郡 10 个河流流域 50 个地点的本地和入侵小龙虾种群。选择这些地点是为了评估 eDNA 的潜力,以便为主动和被动的小龙虾保护战略提供信息。选取其中三个流域的样本是为了评估最近重新引入 A. pallipes 的成功率,而选取其余七个流域的样本则是为了更好地了解每个物种在景观尺度上的分布情况。将基于 eDNA 方法的结果与占用模型中的网状搜索结果相结合,使我们能够有把握地确定在 8 个地点存在 P. leniusculus,在 3 个地点存在 A. pallipes,这比仅靠目测搜索的结果(分别为 5 个和 2 个研究地点)要多。在 A. pallipes 重新引入的地点,无论是 eDNA 还是网络搜索都没有发现 A. pallipes。我们建议,使用基于 eDNA 的调查来管理和保护小龙虾的实践者应考虑以下几点:(1)设计eDNA调查,重点放在大空间尺度上,以全面描述感兴趣地区的本地和入侵小龙虾分布情况;(2)与当地保护组织和/或政府机构合作,为研究地点的选择提供信息,以产生对实际保护行动有意义的结果;(3)利用基于eDNA的小龙虾调查结果,将有限的保护资源用于适当的主动和/或被动保护行动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Environmental DNA can inform the trade-off between proactive and reactive strategies for crayfish conservation

Environmental DNA can inform the trade-off between proactive and reactive strategies for crayfish conservation

The introduction of the signal crayfish Pacifastacus leniusculus to British rivers has led to ecological degradation and the decline of the native white-clawed crayfish Austropotamobius pallipes. To manage and mitigate the impact of the signal crayfish, conservation agencies and government bodies employ multiple conservation strategies. These take the form of proactive native crayfish breeding and stocking programs and reactive invasive crayfish control programs. Here, we used eDNA to assess the populations of native and invasive crayfish species across 50 sites in 10 river catchments in Norfolk, United Kingdom (UK). The sites were chosen to enable assessment of the potential of eDNA to inform proactive and reactive crayfish conservation strategies. Three of the catchments sampled were selected to assess the success of recent A. pallipes reintroduction, whereas the remaining seven were selected to better understand the distribution of each species at the landscape scale. Combining results of eDNA-based methods with net searches within an occupancy model enabled us to confidently determine the presence of P. leniusculus at eight sites, and A. pallipes at three sites, which was more than visual searches alone (five and two study sites, respectively). Neither eDNA nor net searches detected A. pallipes at sites where A. pallipes had been reintroduced. We recommend that practitioners using eDNA-based surveys for management and conservation of crayfish should consider: (1) designing eDNA surveys with an emphasis on large spatial scales to comprehensively describe the distributions of native and invasive crayfish in a region of interest; (2) work with local conservation organizations and/or government bodies to inform the selection of study sites to generate results that are meaningful to real-world conservation actions; and (3) use results from eDNA-based crayfish surveys to target limited conservation resources to appropriate proactive and/or reactive conservation actions.

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来源期刊
Environmental DNA
Environmental DNA Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
11.00
自引率
0.00%
发文量
99
审稿时长
16 weeks
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