Changes in Abiotic Drivers of Green Sea Urchin Demographics following the Loss of a Keystone Predator

Q2 Agricultural and Biological Sciences Journal of Marine Sciences Pub Date : 2023-07-06 DOI:10.1155/2023/1198953
B. Weitzman, B. Konar, M. Edwards, D. Rasher, M. Kenner, M. Tinker, J. Estes
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Abstract

Sea urchin population demographics can respond to changes in keystone species abundances, with the magnitude of these responses varying depending on environmental influences. In this study, sea urchin populations were surveyed across 15 Aleutian archipelago islands over a 30-year period to understand how patterns of sea urchin demography (density, biomass, and size structure) varied through different ecological regimes that were caused by changes in the abundance of sea otters, a keystone species in this system. To examine long-term changes in sea urchin demographics, four time periods across the recent decline of sea otters were examined: during sea otter presence (1987-1994), nearing absence at the end of the decline (1997-2000), 10 years postdecline (2008-2010), and 15-20 years following the loss of sea otters from the ecosystem (2014-2017). Our results show that when sea otters were broadly present, sea urchin demographics were generally similar across the archipelago, with few urchins that had large-sized bodies. During this time, bottom-up environmental controls were muted relative to top-down forces from keystone predation. However, as sea otters declined and remained absent from the system, abiotic factors became more influential on sea urchin biomass, density, and size structure. In particular, differences among island groups during these periods were correlated with variation in ocean temperature, bathymetric complexity, and habitat availability. Sea urchin recruitment also varied among island groups, corresponding to ecoregions delineated by oceanic passes across the archipelago. The functional extinction of sea otters revealed an increasing influence of abiotic forcing in the absence of top-down control. This study further highlights the importance of understanding how keystone predators regulate herbivore demographics.
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失去Keystone捕食者后绿海熊种群非生物驱动因素的变化
海胆种群的人口结构可以对关键物种丰度的变化做出反应,这些反应的大小取决于环境影响。在这项研究中,在30年的时间里,对阿留申群岛15个岛屿的海胆种群进行了调查,以了解海胆种群结构(密度、生物量和大小结构)在不同生态系统中的变化是如何变化的,而海獭是该系统中的关键物种。为了研究海胆人口结构的长期变化,研究了海獭最近减少的四个时间段:海獭出现期间(1987-1994)、减少结束时接近消失(1997-2000)、减少后10年(2008-2010)和海獭从生态系统中消失后15-20年(2014-2017)。我们的研究结果表明,当海獭广泛存在时,整个群岛的海胆种群结构通常相似,很少有体型较大的海胆。在这段时间里,自下而上的环境控制相对于基石捕食自上而下的力量来说是无声的。然而,随着海獭数量的减少和不在系统中,非生物因素对海胆的生物量、密度和大小结构的影响越来越大。特别是,这些时期岛屿群之间的差异与海洋温度、水深复杂性和栖息地可用性的变化有关。海胆的分布也因岛屿群而异,与群岛上的海洋通道所划定的生态区相对应。海獭的功能性灭绝揭示了在缺乏自上而下控制的情况下,非生物强迫的影响越来越大。这项研究进一步强调了了解关键捕食者如何调节食草动物种群结构的重要性。
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来源期刊
Journal of Marine Sciences
Journal of Marine Sciences Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
1.70
自引率
0.00%
发文量
0
审稿时长
20 weeks
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