Contrasting pollution responses of native and non-native fish communities in anthropogenically disturbed estuaries unveiled by eDNA metabarcoding

IF 2.9 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH ACS Chemical Health & Safety Pub Date : 2024-11-09 DOI:10.1016/j.jhazmat.2024.136323
Wenjian Chen, Junjie Wang, Yuqi Zhao, Yiyong He, Jinlin Chen, Chaoyu Dong, Li Liu, Jun Wang, Lei Zhou
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Abstract

Understanding the influence of environmental pollutants on the assembly mechanisms of estuarine fish communities is vital for addressing conservation challenges in these biodiverse ecosystems. Although significant research has explored the toxic impacts of pollutants such as petroleum, heavy metals, and eutrophication on individual species and populations, their effects on community assembly processes and the differential responses of native versus non-native fish at the meta-community level remain inadequately understood. This study utilized environmental DNA (eDNA) metabarcoding to analyze fish community diversity across 28 subtropical estuaries in China, assessing how these pollutants affect community composition and assembly mechanisms. Results indicated that eDNA was 2.54 times more effective than traditional methods in species identification, while also enabling the detection of a higher number of non-native fish species and more diverse functional guilds within estuarine ecosystems. A significant distance decay pattern (p < 0.05) was observed among native fish, whereas non-native species exhibited non-significant patterns. Neutral and null models showed that non-native species had significantly higher migration rates (0.005939 vs 0.001757) and a greater contribution of stochastic processes (82.38% vs 70.59%) compared to native species. Additionally, distance-based redundancy analysis (db-RDA), variance partitioning analysis (VPA), and correlation analyses revealed that native species were strongly constrained by environmental factors, particularly oil, Hg, Zn, Pb, Cr6+, and NH4+, while non-native species displayed notable resilience to these pollutants. These findings highlight the potential for non-native species to disproportionately influence community dynamics and assembly through unrestricted random dispersal amid environmental disturbances. This research clarifies the contrasting ecological responses of native and non-native fish communities to anthropogenic pressures in estuarine environments, offering essential insights into ecosystem resilience and informing biodiversity conservation strategies in rapidly changing coastal ecosystems.

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通过 eDNA 代谢编码揭示人为干扰河口中本地和非本地鱼类群落对污染的不同反应
了解环境污染物对河口鱼类群落集结机制的影响,对于应对这些生物多样性生态系统的保护挑战至关重要。尽管已有大量研究探讨了石油、重金属和富营养化等污染物对个体物种和种群的毒性影响,但对它们对群落组装过程的影响以及本地鱼类和非本地鱼类在元群落水平上的不同反应仍然了解不足。本研究利用环境 DNA(eDNA)代谢编码分析了中国 28 个亚热带河口的鱼类群落多样性,评估了这些污染物如何影响群落组成和组装机制。结果表明,在物种鉴定方面,eDNA的效率是传统方法的2.54倍,同时还能在河口生态系统中发现更多的非本地鱼类物种和更多样化的功能区。在本地鱼类中观察到了明显的距离衰减模式(p < 0.05),而非本地物种则表现出不明显的模式。中性和无效模型显示,与本地物种相比,非本地物种的洄游率(0.005939 vs 0.001757)明显更高,随机过程的贡献率(82.38% vs 70.59%)也更大。此外,基于距离的冗余分析(db-RDA)、方差分区分析(VPA)和相关性分析表明,本地物种受到环境因素的强烈制约,尤其是石油、汞、锌、铅、六价铬和四氧化二氮,而非本地物种则对这些污染物表现出明显的适应能力。这些发现凸显了非本地物种在环境干扰下通过不受限制的随机扩散对群落动态和组合产生巨大影响的潜力。这项研究阐明了河口环境中本地鱼类群落和非本地鱼类群落对人为压力的截然不同的生态反应,为生态系统的恢复能力提供了重要的见解,并为快速变化的沿海生态系统的生物多样性保护策略提供了信息。
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来源期刊
ACS Chemical Health & Safety
ACS Chemical Health & Safety PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
3.10
自引率
20.00%
发文量
63
期刊介绍: The Journal of Chemical Health and Safety focuses on news, information, and ideas relating to issues and advances in chemical health and safety. The Journal of Chemical Health and Safety covers up-to-the minute, in-depth views of safety issues ranging from OSHA and EPA regulations to the safe handling of hazardous waste, from the latest innovations in effective chemical hygiene practices to the courts'' most recent rulings on safety-related lawsuits. The Journal of Chemical Health and Safety presents real-world information that health, safety and environmental professionals and others responsible for the safety of their workplaces can put to use right away, identifying potential and developing safety concerns before they do real harm.
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