Bioturbation by Benthic Stingrays Alters the Biogeomorphology of Tidal Flats

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
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Abstract

Fishing-down-marine-food-webs has resulted in alarming declines of various species worldwide. Benthic rays are one examples of such overexploited species. On tidal flats, these rays are highly abundant and play an ecologically important role. They use tidal flats as refuge, feeding and resting grounds, during which they bury into the sediment, which results in sediment bioturbation. Changes in bioturbation intensity, following ray removal, may affect the biogeomorphology of tidal flats with possible cascading effects on the macrozoobenthic community. However, it is poorly understood how these indirect effects could influence ecosystem function. We therefore studied the geomorphic impact of benthic rays (specifically the pearl whipray/stingray Fontitrygon margaritella) on the tropical tidal flats of the Bijagós Archipelago, Guinea-Bissau, on a landscape scale. We investigated 1) bioturbation rates by rays using drone and ground surveys, 2) the spatial distribution of ray pits on multiple tidal flats, 3) the impact of rays on sediment properties and macrozoobenthos by experimental exclusion (15 months). Benthic rays bioturbated 3.7 ± 0.35% of the tidal flat’s sediment surface per day over one single 24-h period, which equals a complete top-sediment-surface turnover every 27 days. The spatial distribution of ray pits was affected by tidal flat geomorphology since pits decayed faster at areas exposed to strong hydrodynamic forces. Predator exclusion altered sediment properties, leading to changes in sedimentation (− 17%) and erosion (− 43%) rates. In addition, macrozoobenthic species composition changed, marked by an increase in Capitellidae worms and a greater biomass of Malacostraca over time. These changes indicated substantial effects of ray bioturbation on the biotic and geomorphic landscape of tidal flats. Overall, we conclude that changing abundances of benthic rays can have clear landscape-wide geomorphological effects on intertidal ecosystems. These indirect consequences of fisheries should be incorporated in integrative management plans to preserve tidal flats and connected ecosystems.

底栖黄貂鱼的生物扰动改变了滩涂的生物地貌
摘要 捕捞海洋食物网导致全球各种物种数量惊人地减少。底栖鳐鱼就是被过度捕捞的物种之一。在潮滩上,这些鳐鱼的数量非常丰富,并在生态方面发挥着重要作用。它们将潮滩作为避难所、觅食地和休息地,并在此期间埋入沉积物中,从而导致沉积物生物扰动。移除鳐鱼后,生物扰动强度的变化可能会影响潮滩的生物地貌,并可能对大型底栖生物群落产生连带影响。然而,人们对这些间接效应如何影响生态系统功能还知之甚少。因此,我们在景观尺度上研究了底栖鳐鱼(特别是珍珠鞭魟/魟鱼 Fontitrygon margaritella)对几内亚比绍比热戈斯群岛热带潮滩的地貌影响。我们利用无人机和地面勘测调查了:1)鳐鱼的生物扰动率;2)鳐鱼坑在多个潮滩上的空间分布;3)鳐鱼对沉积物性质和大型底栖动物的影响(实验性排除法,为期 15 个月)。底栖鳐鱼在单个 24 小时内每天生物扰动 3.7 ± 0.35% 的滩涂沉积物表面,相当于每 27 天进行一次完整的沉积物表层翻转。鳐鱼洼坑的空间分布受到潮滩地貌的影响,因为洼坑在暴露于强大水动力的区域腐烂得更快。捕食者的排斥改变了沉积物的性质,导致沉积速率(-17%)和侵蚀速率(-43%)的变化。此外,大型底栖生物的物种组成也发生了变化,随着时间的推移,Capitellidae蠕虫的数量增加,Malacostraca的生物量增加。这些变化表明,射线生物扰动对滩涂的生物和地貌景观产生了重大影响。总之,我们得出结论,底栖鳐鱼丰度的变化会对潮间带生态系统产生明显的景观地貌影响。渔业的这些间接后果应纳入综合管理计划,以保护潮滩和相连的生态系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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