Influence of Crepidula fornicata on suspended particle dynamics in coastal systems: a mesocosm experimental study

IF 4.6 Q2 ENVIRONMENTAL SCIENCES Journal of ecohydraulics Pub Date : 2020-12-06 DOI:10.1080/24705357.2020.1834884
F. Grasso, A. Carlier, P. Cugier, R. Verney, M. Marzloff
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引用次数: 3

Abstract

Abstract In coastal environments, strong feedback can exist between benthic fauna and sediment dynamics. Benthic populations can modify sediment dynamics through biofiltration and bioturbation, while hydro- and sediment dynamics directly determine local environmental conditions for benthic organisms. However, these complex feedbacks are difficult to study in situ. Here, we carried out mesocosm experiments to characterize the effects of a benthic species (the gastropod Crepidula fornicata) on mud dynamics under hydrodynamic conditions representative of their natural habitat. Different experimental tests related to the inclusion (or not) of dead or live crepidula reveal that biofiltration can increase particle settling up to 40%. Flocculation, which is strengthened by organic matter enrichment in shell beds, also substantially increases particle settling. Thus, both processes enhance sedimentation above live crepidula habitats. Furthermore, these experiments highlight serious technical, physical and biological challenges that have to be tackled for properly investigating bio-physical interactions.
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圆嘴Crepidula fornicata对海岸系统悬浮粒子动力学的影响:一个中观实验研究
在沿海环境中,底栖动物与沉积物动态之间存在强反馈。底栖生物种群可以通过生物过滤和生物扰动来改变沉积物动态,而水力和沉积物动态直接决定了底栖生物的当地环境条件。然而,这些复杂的反馈很难在原位进行研究。在这里,我们进行了中生态实验,以表征底栖物种(腹足类Crepidula fornicata)在代表其自然栖息地的水动力条件下对泥浆动力学的影响。不同的实验测试与包埋(或不包埋)死或活的克雷毕藻有关,结果表明生物过滤可使颗粒沉降增加40%。壳层中有机质的富集强化了絮凝作用,也大大增加了颗粒沉降。因此,这两种过程都加强了在活的crepidula栖息地上方的沉积。此外,这些实验突出了为正确研究生物物理相互作用而必须解决的严重的技术、物理和生物挑战。
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