评估压力和脉冲干扰对美国东北部大型海洋生态系统群落动态的影响

IF 2.2 3区 环境科学与生态学 Q2 ECOLOGY
Ileana F. Fenwick, Kurt C. Heim, Andrew J. Pershing, Kathy E. Mills, Sean M. Lucey, Janet A. Nye
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引用次数: 0

摘要

摘要:随着气候变化的加剧,人们迫切关注生态群落如何应对不同强度和时间尺度的干扰。我们探讨了干扰类型如何影响海洋群落的动态变化。脉冲干扰是一种突发性、高强度的条件变化,可对生态群落造成直接而重大的影响。或者,压力干扰是长期的、多代的压力,随着时间的推移作用于群落。美国东北大陆架大型海洋生态系统(NES LME)是世界上变暖最快的地区之一,历史上曾经历过过度捕捞。NES LME 的生物群落变化以前就有描述;但是,这些变化发生在 2012 年前所未有的脉冲干扰海洋热浪(MHW)事件之前,在过去十年中,海洋热浪事件时有发生。我们使用群落轨迹分析量化了整个 NES LME 的群落变化,这是一种利用几何分析和群落轨迹比较的多元工具,可量化动态 beta 多样性的变化。我们假定脉冲 MHWs 会对生态系统结构产生强烈影响,但没有发现明显的影响。我们的分析表明,NES LME 在继续热带化。然而,推动变化的似乎不是脉冲 MHW 事件,而是生态系统的过度捕捞和气温上升。我们对经历环境突变和压力干扰的海洋生物群落随时间变化的贝塔多样性进行了量化。将这一分析扩展到全球范围后,可以比较不同的干扰压力如何导致海洋群落中贝塔多样性变化的不同表现形式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluating the influence of press and pulse disturbances on community dynamics of the Northeast US Large Marine Ecosystem
ABSTRACT: As climate change intensifies, there is a pressing concern regarding how ecological communities respond to disturbances occurring at different intensities and time scales. We explored how the type of disturbance influences the dynamics of a marine community. A pulse disturbance is an abrupt, high-magnitude shift in conditions that can cause immediate and significant impacts to an ecological community. Alternatively, press disturbances are long-term, multi-generational pressures acting on communities over time. The Northeast US Continental Shelf Large Marine Ecosystem (NES LME) is one of the fastest-warming regions in the world and has experienced historic overfishing. Assemblage shifts in the NES LME have previously been characterized; however, these were prior to an unprecedented pulse disturbance marine heatwave (MHW) event in 2012 followed by punctuated MHWs over the last decade. We quantified community change across the NES LME using a community trajectory analysis, a multivariate tool that utilizes geometric analyses and comparisons of community trajectories, to quantify shifts in dynamic beta diversity. We hypothesized that the pulse MHWs would strongly influence ecosystem structure; however, no significant impact was detected. Our analysis indicates that the NES LME continues to tropicalize. However, it was not the pulse MHW events that seemed to drive change but rather ecosystem overfishing and rising temperatures. We quantified beta diversity over time in marine communities undergoing abrupt environmental changes and press disturbances. When expanded globally, this analysis can compare how variable disturbance pressures may result in different manifestations of beta diversity change within marine assemblages.
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来源期刊
Marine Ecology Progress Series
Marine Ecology Progress Series 环境科学-海洋学
CiteScore
5.30
自引率
8.00%
发文量
238
审稿时长
3 months
期刊介绍: The leading journal in its field, MEPS covers all aspects of marine ecology, fundamental and applied. Topics covered include microbiology, botany, zoology, ecosystem research, biological oceanography, ecological aspects of fisheries and aquaculture, pollution, environmental protection, conservation, and resource management.
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