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管理海胆商业捕捞面临的挑战:需要先进的方法。

The challenge of managing the commercial harvesting of the sea urchin : advanced approaches are required.

作者信息

Farina Simone, Baroli Maura, Brundu Roberto, Conforti Alessandro, Cucco Andrea, De Falco Giovanni, Guala Ivan, Guerzoni Stefano, Massaro Giorgio, Quattrocchi Giovanni, Romagnoni Giovanni, Brambilla Walter

机构信息

IMC-International Marine Centre, Oristano, Italy.

Current Affiliation: Stazione Zoologica Anton Dohrn, Deptartment of Integrative Marine Ecology, Ischia Marine Centre, Ischia, Naples, Italy.

出版信息

PeerJ. 2020 Oct 8;8:e10093. doi: 10.7717/peerj.10093. eCollection 2020.

DOI:10.7717/peerj.10093
PMID:33083138
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7548073/
Abstract

Sea urchins act as a keystone herbivore in marine coastal ecosystems, regulating macrophyte density, which offers refuge for multiple species. In the Mediterranean Sea, both the sea urchin and fish preying on it are highly valuable target species for artisanal fisheries. As a consequence of the interactions between fish, sea urchins and macrophyte, fishing leads to trophic disorders with detrimental consequences for biodiversity and fisheries. In Sardinia (Western Mediterranean Sea), regulations for sea urchin harvesting have been in place since the mid 90s. However, given the important ecological role of , the single-species fishery management may fail to take into account important ecosystem interactions. Hence, a deeper understanding of population dynamics, their dependance on environmental constraints and multispecies interactions may help to achieve long-term sustainable use of this resource. This work aims to highlight how sea urchin population structure varies spatially in relation to local environmental constraints and species interactions, with implications for their management. The study area (Sinis Peninsula, West Sardinia, Italy) that includes a Marine Reserve was divided into five sectors. These display combinations of the environmental constraints influencing sea urchin population dynamics, namely type of habitat (calcareous rock, granite, basalt, patchy and continuous meadows of , average bottom current speed and predatory fish abundance. Size-frequency distribution of sea urchins under commercial size (<5 cm diameter size) assessed during the period from 2004 to 2007, before the population collapse in 2010, were compared for sectors and types of habitat. Specific correlations between recruits (0-1 cm diameter size) and bottom current speeds and between middle-sized sea urchins (2-5 cm diameter size) and predatory fish abundance were assessed. Parameters representing habitat spatial configuration (patch density, perimeter-to-area ratio, mean patch size, largest patch index, interspersion/juxtaposition index) were calculated and their influence on sea urchin density assessed. The density of sea urchins under commercial size was significantly higher in calcareous rock and was positively and significantly influenced by the density and average size of the rocky habitat patches. Recruits were significantly abundant in rocky habitats, while they were almost absent in meadows. The density of middle-sized sea urchins was more abundant in calcareous rock than in basalt, granite or . High densities of recruits resulted significantly correlated to low values of average bottom current speed, while a negative trend between the abundance of middle-sized sea urchins and predatory fish was found. Our results point out the need to account for the environmental constraints influencing local sea urchin density in fisheries management.

摘要

海胆是海洋沿岸生态系统中的关键食草动物,调节大型植物的密度,为多种物种提供庇护。在地中海,海胆及其捕食鱼类都是小型渔业极具价值的目标物种。由于鱼类、海胆和大型植物之间的相互作用,捕捞导致营养紊乱,对生物多样性和渔业产生不利影响。在撒丁岛(地中海西部),自20世纪90年代中期以来就已制定海胆捕捞规定。然而,鉴于[此处原文缺失相关生物名称]的重要生态作用,单一物种渔业管理可能无法考虑到重要的生态系统相互作用。因此,更深入地了解种群动态、它们对环境限制因素的依赖以及多物种相互作用,可能有助于实现对该资源的长期可持续利用。这项工作旨在突出海胆种群结构如何随空间变化,与当地环境限制因素和物种相互作用相关,及其对管理的影响。研究区域(意大利撒丁岛西部的西尼斯半岛)包括一个海洋保护区,被划分为五个区域。这些区域呈现出影响海胆种群动态的环境限制因素的组合,即栖息地类型(钙质岩石、花岗岩、玄武岩、斑驳和连续的[此处原文缺失相关生物名称]草甸)、平均海底流速和捕食性鱼类丰度。对2004年至2007年期间(在2010年种群崩溃之前)评估的商业规格以下(直径小于5厘米)海胆的大小频率分布,按区域和栖息地类型进行了比较。评估了幼体(直径0 - 1厘米)与海底流速之间以及中等大小海胆(直径2 - 5厘米)与捕食性鱼类丰度之间的特定相关性。计算了代表栖息地空间配置的参数(斑块密度、周长面积比、平均斑块大小、最大斑块指数、散布/并列指数),并评估了它们对海胆密度的影响。商业规格以下海胆的密度在钙质岩石中显著更高,并且受到岩石栖息地斑块的密度和平均大小的正向显著影响。幼体在岩石栖息地中数量显著丰富,而在[此处原文缺失相关生物名称]草甸中几乎不存在。中等大小海胆的密度在钙质岩石中比在玄武岩、花岗岩或[此处原文缺失相关生物名称]中更丰富。幼体的高密度与平均海底流速的低值显著相关,而中等大小海胆的丰度与捕食性鱼类之间呈现负相关趋势。我们的结果指出,在渔业管理中需要考虑影响当地海胆密度的环境限制因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/e9680efc9c12/peerj-08-10093-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/4a61a56e2b4e/peerj-08-10093-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/e7e0cdb6db56/peerj-08-10093-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/7222b818f151/peerj-08-10093-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/43409ff26644/peerj-08-10093-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/e9680efc9c12/peerj-08-10093-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/4a61a56e2b4e/peerj-08-10093-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/e7e0cdb6db56/peerj-08-10093-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/7222b818f151/peerj-08-10093-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/43409ff26644/peerj-08-10093-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b5e7/7548073/e9680efc9c12/peerj-08-10093-g005.jpg

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THE ECOLOGY OF FERTILIZATION OF ECHINOID EGGS: THE CONSEQUENCES OF SPERM DILUTION, ADULT AGGREGATION, AND SYNCHRONOUS SPAWNING.
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