Invading non-native populations replace native ones of the endangered freshwater snail Theodoxus fluviatilis in the river Rhine

IF 0.6 Q4 ENVIRONMENTAL SCIENCES

European journal of environmental sciences Pub Date : 2022-06-26 DOI:10.14712/23361964.2022.1

B. Baur, Patrick Steinmann, Peter Landert, José D. Gilgado, H. Rusterholz

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Abstract

In the past, the freshwater snail Theodoxus fluviatilis was abundant in the river Rhine, but was considered to be extinct in the Upper and HighRhine in 2004. We found individuals of T. fluviatilis for the first time at sites in the southern part of the Upper Rhine and High Rhine in 2020,where this species went extinct 16 years ago. There are several distinct haplotypes of this species; some of them occurring in geographicallyseparated regions of Europe. We used mitochondrial DNA (cytochrome c oxidase subunit I, COI) to trace the origin of the newly arrivedT. fluviatilis. We examined 269 individuals collected at 29 sites and compared their sequence data with known haplotypes of T. fluviatilisand other species of Theodoxus deposited in GenBank. We also analysed a historical sample from 1995 (collected before the species wentextinct), which revealed that the haplotype of the native T. fluviatilis in the High Rhine at that time was F28. In the recent samples, however,we found T. fluviatilis with the haplotypes F31 and “euxinus”, which are reported in the Ponto-Caspian region. Both haplotypes are crypticinvaders, colonizing the Rhine via the Rhine–Main–Danube canal and adversely affecting the remaining native populations of T. fluviatilisin Western Europe. Our findings are important for this species management by nature conservation authorities: lineages of endangeredspecies should be preserved and supported, while the spreading of invasive, non-native lineages (or species) should be prevented.

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入侵的非本地种群取代了莱茵河中濒临灭绝的淡水蜗牛河蜗牛的本地种群

过去，莱茵河中淡水蜗牛Theodoxus fluviatilis数量丰富，但在2004年被认为在莱茵河上游和高地已经灭绝。我们于2020年首次在上莱茵河和上莱茵河南部的遗址发现了T. fluviatilis的个体，该物种于16年前灭绝。这个物种有几个不同的单倍型;其中一些发生在欧洲地理上分开的地区。我们使用线粒体DNA(细胞色素c氧化酶亚基I, COI)来追踪新到达的dt的起源。丁。我们检查了29个地点收集的269个个体，并将其序列数据与存放在GenBank中的已知T. fluviatilis单倍型和其他Theodoxus物种进行了比较。我们还分析了1995年的历史样本(在该物种灭绝之前收集的)，结果显示当时莱茵河上游本地的T. fluviatilis的单倍型为F28。然而，在最近的样本中，我们发现了在蓬托-里海地区报道的单倍型F31和“euxinus”。这两种单倍型都是隐性入侵者，它们通过莱茵河-美因河-多瑙河运河在莱茵河上定居，并对西欧现存的本土T. fluviatilisi种群产生了不利影响。我们的发现对自然保护当局的物种管理很重要:濒危物种的谱系应该得到保护和支持，而入侵的、非本地的谱系(或物种)应该被阻止。

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来源期刊

European journal of environmental sciences ENVIRONMENTAL SCIENCES-

CiteScore

1.50

自引率

12.50%

发文量

审稿时长

25 weeks

期刊介绍： The European Journal of Environmental Sciences offers a mixture of original refereed research papers, which bring you some of the most exciting developments in environmental sciences in the broadest sense, often with an inter- or trans-disciplinary perspective, focused on the European problems. The journal also includes critical reviews on topical issues, and overviews of the status of environmental protection in particular regions / countries. The journal covers a broad range of topics, including direct or indirect interactions between abiotic or biotic components of the environment, interactions of environment with human society, etc. The journal is published twice a year (June, December).