Stazione Zoologica Anton Dohrn, Integrative Marine Ecology Department, Villa Comunale, 80121, Naples, Italy.
Stazione Zoologica Anton Dohrn, Integrative Marine Ecology Department, Villa Comunale, 80121, Naples, Italy.
Mar Environ Res. 2020 Mar;155:104887. doi: 10.1016/j.marenvres.2020.104887. Epub 2020 Jan 22.
The impact of plastic debris, and in particular of microplastics (here referred as particles smaller than 5 mm) on aquatic environments has now become a topic of raising concern. Microplastics are particularly abundant in the Mediterranean Sea, potentially exerting substantial pressures on marine organisms at different levels of organization. Ingestion of microplastics has been observed in a large number of marine species. The aim of this work is to test if microplastics produce a feeding impairment in Astroides calycularis, a shallow water, habitat-forming coral endemic to the Mediterranean Sea. Our findings suggest a lack of any avoidance mechanism allowing the polyps to discern between food items and microplastics when occurring simultaneously. Moreover, polyps spend a considerable amount of time on handling microplastic particles. As a consequence, microplastics impair the feeding efficiency in A. calycularis, since polyps may not be fully able to profit from the drifting plankton aggregations. Therefore, we suggest that microplastics can cause a reduction of fitness in A. calycularis, and presumably also in other species characterized by suspension feeding strategy.
塑料碎片,尤其是微塑料(这里指小于 5 毫米的颗粒)对水生环境的影响,现已成为一个备受关注的话题。微塑料在地中海中尤为丰富,可能对不同组织层次的海洋生物产生巨大压力。在大量海洋物种中都观察到了微塑料的摄入。本研究旨在测试微塑料是否会对生活在浅海、形成栖息地的地中海特有珊瑚 Astroides calycularis 产生摄食障碍。我们的研究结果表明,当微塑料和食物同时存在时,珊瑚虫缺乏任何辨别机制来避免摄食微塑料。此外,珊瑚虫会花费大量时间来处理微塑料颗粒。因此,微塑料会降低 A. calycularis 的摄食效率,因为珊瑚虫可能无法充分受益于漂流浮游生物聚集。因此,我们认为微塑料可能会降低 A. calycularis 的适应度,可能也会降低其他采用悬浮摄食策略的物种的适应度。
