Antagonistic impacts of benthic bioturbator species: Interconnected effects on sedimentary properties, biogeochemical variables, and microbial dynamics

IF 1.8 3区生物学 Q3 ECOLOGY

Journal of Experimental Marine Biology and Ecology Pub Date : 2024-02-16 DOI:10.1016/j.jembe.2024.152000

J. Morelle , A. Huguet , A. Richard , A.M. Laverman , C. Roose-Amsaleg , E. Parlanti , M. Sourzac , V. Mesnage , N. Lecoq , J. Deloffre , E. Viollier , O. Maire , F. Orvain

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引用次数: 0

Abstract

Macrofaunal species inhabiting intertidal mudflats and performing intense bioturbation are considered as ecosystem engineers, since they profoundly influence their physical, chemical, and biological environments. Nowadays, to complete our knowledge on the effect of bioturbation processes on the surrounding environment, interdisciplinary approach is essential to unravel their complex intertwined effects on intertidal mudflats. In this study, the effects of bioturbators on sediment properties, biogeochemical variables, and microbial dynamics (microphytobenthos, bacteria and archaea) were investigated. To this end, manipulation experiments were carried out in an intertidal mudflat of the Seine Estuary (France) by revamped the abundance of the two dominant bioturbators, Scrobicularia plana and Hediste diversicolor, in winter and late summer. Results showed that the presence of H. diversicolor in winter had a significant effect, with a significant increase in bed level accretion and microbial nitrate reduction rates. In contrast, the presence of S. plana showed no significant impact on sediment properties, most likely due to a reduced bioturbating activity at low temperature. In summer, both ecosystem engineers strongly influenced their surrounding environment but with opposite effects. The intense reworking of the sediment surface by S. plana limited microbial growth and enhanced erosion processes. Conversely, the presence of H. diversicolor favoured sediment accretion and enhanced microbial growth. Overall, this interdisciplinary study confirms the importance of these two ecosystem engineers in temperate estuarine mudflats by highlighting their simultaneous and intertwined effects on the sedimentary, physicochemical, and biological features. This confirms the importance of actively considering ecosystem engineers when restoring the natural habitats of tidal flats to cope with the different vulnerability risks related to global warming (sandification of estuarine sediments, disappearance of productive mudflats, sea level rise, vulnerability to storms and erosion).

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底栖生物扰动物种的拮抗影响：对沉积物性质、生物地球化学变量和微生物动力学的相互影响

栖息在潮间带泥滩并进行强烈生物扰动的大型底栖生物被认为是生态系统工程师，因为它们会对物理、化学和生物环境产生深远影响。如今，要全面了解生物扰动过程对周围环境的影响，必须采用跨学科方法来揭示它们对潮间带泥滩的复杂交织影响。本研究调查了生物扰动对沉积物性质、生物地球化学变量和微生物动力学（微底栖动物、细菌和古细菌）的影响。为此，研究人员在塞纳河口（法国）的潮间带泥滩上进行了操纵实验，在冬季和夏末调整了两种主要生物扰动因素--Scrobicularia plana 和 Hediste diversicolor 的丰度。结果表明，冬季 H. diversicolor 的存在具有显著影响，可显著增加床面增高和微生物硝酸盐还原率。相比之下，S. plana 的存在对沉积物性质没有明显影响，这很可能是由于在低温条件下生物扰动活动减少所致。在夏季，这两种生态系统工程师都对周围环境产生了强烈影响，但效果却截然相反。刨花藻对沉积物表面的强烈再加工限制了微生物的生长，并增强了侵蚀过程。相反，H. diversicolor 的存在有利于沉积物的淤积和微生物的生长。总之，这项跨学科研究证实了这两种生态系统工程师在温带河口泥滩的重要性，强调了它们对沉积物、物理化学和生物特征同时产生的相互交织的影响。这证实了在恢复滩涂自然生境时积极考虑生态系统工程师的重要性，以应对与全球变暖有关的不同脆弱性风险（河口沉积物沙化、高产泥滩消失、海平面上升、易受风暴和侵蚀影响）。

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来源期刊

Journal of Experimental Marine Biology and Ecology 生物-海洋与淡水生物学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： The Journal of Experimental Marine Biology and Ecology provides a forum for experimental ecological research on marine organisms in relation to their environment. Topic areas include studies that focus on biochemistry, physiology, behavior, genetics, and ecological theory. The main emphasis of the Journal lies in hypothesis driven experimental work, both from the laboratory and the field. Natural experiments or descriptive studies that elucidate fundamental ecological processes are welcome. Submissions should have a broad ecological framework beyond the specific study organism or geographic region. Short communications that highlight emerging issues and exciting discoveries within five printed pages will receive a rapid turnaround. Papers describing important new analytical, computational, experimental and theoretical techniques and methods are encouraged and will be highlighted as Methodological Advances. We welcome proposals for Review Papers synthesizing a specific field within marine ecology. Finally, the journal aims to publish Special Issues at regular intervals synthesizing a particular field of marine science. All printed papers undergo a peer review process before being accepted and will receive a first decision within three months.