When One Global Invasion Hides Another—Cryptic Interspecific Invasion in Freshwater Gastropods

IF 4.6 2区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Diversity and Distributions Pub Date : 2024-12-26 DOI:10.1111/ddi.13958

Christian Albrecht, Catharina Clewing, Hanno Seebens, Fred D. Chibwana, Edson Lourenço Da Silva, Manuella F. Leal, Roger Lingofo Bolaya, Ristiyanti M. Marwoto, Alexander Odaibo, Tamaris G. Pinheiro, Michael O. Popoola, Frank Riedel, Björn Stelbrink

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引用次数: 0

Abstract

Aim

Cryptic invasions are an understudied phenomenon among species invasions, especially in freshwater invertebrates. We study the gastropod family Physidae, including the global invaders Physella acuta and several enigmatic Stenophysa species, their phylogenetic relationships and the presence of native species among African Physidae. We infer distribution pattern, colonisation history and invasion ecology across Africa. Finally, we reconstruct the colonisation pathways and their timing into, across (and out of) Africa and model future dispersal.

Location

Global, with a focus on Africa and Indian Ocean islands.

Methods

Based on extensive sampling, multi-gene phylogenetic, phylogeographic and ecological analyses, including species distribution modelling, we here examine Physidae globally.

Results

The Physidae probably originated in the Lower Cretaceous. A robust phylogeny showed four strongly supported genus-level clades corresponding to Physella, Physa, Stenophysa and Aplexa. Physella acuta thrives in continental African countries and Indian Ocean islands. The African continent was colonised at least six times independently.

For Stenophysa, the phylogeny suggests two independent transoceanic dispersal events into Africa and the Indian Ocean islands. Physella acuta occurs not only in artificial or highly disturbed habitats but also in large natural lakes. Stenophysa marmorata is ecologically flexible. The SDM for S. marmorata based on the selected climate variables predicted high probabilities of future occurrence in equatorial Africa and regions in the Indo-Malayan Archipelago, New Guinea and eastern Australia.

Main Conclusions

Physidae contains examples of both intraspecific cryptic and interspecific cryptic invasions, with an intraspecific invasion of Physella acuta and a prime example of an interspecific cryptic invasion of Stenophysa spp. This study highlights the importance of cryptic invasions in freshwaters and also calls for their management. Stenophysa is likely to become pan-tropical in the future. Physidae are an excellent model to study differential patterns and processes of intra- versus interspecific invasions at global and regional scales.

Abstract Image

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当一种全球入侵隐藏了另一种淡水腹足类动物的隐种间入侵

目的隐式入侵是物种入侵中研究较少的现象，尤其是淡水无脊椎动物。本文研究了腹足动物科水母科，包括全球入侵物种尖藻（Physella acuta）和几种神秘的窄藻（Stenophysa），以及它们在非洲水母科的系统发育关系和本地物种的存在。我们推断分布模式，殖民历史和入侵生态在整个非洲。最后，我们重建了殖民路径和它们进入、穿越（和离开）非洲的时间，并模拟了未来的扩散。定位全球，专注于非洲和印度洋岛屿。方法基于广泛的采样，多基因系统发育，系统地理和生态学分析，包括物种分布模型，我们在这里研究全球的藻科。结果藻科可能起源于下白垩世。强健的系统发育显示了四个强支持的属级分支，分别为Physella、Physa、Stenophysa和Aplexa。尖藻生长在非洲大陆国家和印度洋岛屿。非洲大陆至少被独立殖民过六次。对于窄性虫，系统发育表明两次独立的跨洋扩散事件进入非洲和印度洋岛屿。尖藻不仅生长在人工或高度受干扰的生境中，也生长在大型天然湖泊中。狭缝藻在生态上是灵活的。基于所选气候变量的S. marmorata SDM预测了未来在赤道非洲和印度-马来亚群岛、新几内亚和澳大利亚东部地区发生的高概率。主要结论物理科包含种内隐入侵和种间隐入侵的实例，其中种内隐入侵为尖藻（Physella acuta），种间隐入侵为窄藻（Stenophysa spp）。本研究强调了淡水中隐入侵的重要性，并呼吁对其进行管理。窄性藓在未来很可能成为泛热带藓类。在全球和区域尺度上，植物科是研究种内与种间入侵差异模式和过程的一个很好的模型。

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来源期刊

Diversity and Distributions 环境科学-生态学

CiteScore

8.90

自引率

4.30%

发文量

195

审稿时长

8-16 weeks

期刊介绍： Diversity and Distributions is a journal of conservation biogeography. We publish papers that deal with the application of biogeographical principles, theories, and analyses (being those concerned with the distributional dynamics of taxa and assemblages) to problems concerning the conservation of biodiversity. We no longer consider papers the sole aim of which is to describe or analyze patterns of biodiversity or to elucidate processes that generate biodiversity.