Bleaching in sponges on temperate mesophotic reefs observed following marine heatwave events

Nicholas R. Perkins, Jacquomo Monk, German Soler, Phoebe Gallagher, Neville S. Barrett
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引用次数: 2

Abstract

Climate change driven extreme events such as marine heatwaves (MHWs) can have dramatic impacts on ecosystems, with thermal stress often resulting in localised die-offs and visible signs of impacts such as bleaching of organisms. Such impacts are reported widely in shallower ecosystems but are less studied on deeper mesophotic ecosystems (MEs) where collecting data is more expensive. However, these deeper ecosystems are often biodiverse and play important ecological roles, and so understanding climate change impacts at these depths is important. Here we use benthic imagery collected as part of a large-scale monitoring program to explore bleaching in a cup sponge ‘morphospecies’ (i.e. morphologically distinct organisms readily identified in imagery) in MEs across eastern Tasmania, a region experiencing rapid ocean warming. We find an increased incidence of bleaching in surveys following MHWs, but currently no evidence for mass mortality following bleaching. Our results suggest that this cup sponge morphospecies may be useful for tracking climate change impacts on MEs in the region. Future efforts should be directed towards a better understanding of the physiological limits of this morphospecies across its range and timing surveys to more closely follow MHW events. Sponges form an important and dominant component of temperate MEs and monitoring the impacts of climate change on sponges across these ecosystems should therefore be an ongoing priority.

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海洋热浪事件发生后,在温带中叶藻礁上观察到的海绵白化现象
气候变化驱动的极端事件,如海洋热浪(MHWs),可能对生态系统产生巨大影响,热应激往往导致局部死亡和生物白化等明显的影响迹象。这种影响在较浅的生态系统中被广泛报道,但在较深的中厚生态系统(MEs)中研究较少,因为收集数据的成本更高。然而,这些较深的生态系统往往具有生物多样性,并发挥着重要的生态作用,因此了解这些深度的气候变化影响非常重要。在这里,我们使用作为大规模监测计划的一部分收集的底栖动物图像来探索塔斯马尼亚东部MEs中杯状海绵“形态物种”(即在图像中容易识别的形态不同的生物)的漂白现象,该地区正在经历快速的海洋变暖。我们发现,在MHWs之后的调查中,白化的发生率增加,但目前没有证据表明白化会导致大量死亡。我们的研究结果表明,这种杯状海绵形态物种可能有助于追踪气候变化对该地区中小企业的影响。未来的工作应该是为了更好地了解这种形态物种在其范围内的生理极限,并进行时间调查,以更密切地跟踪MHW事件。海绵是温带生态系统中重要和主要的组成部分,因此,监测气候变化对这些生态系统中海绵的影响应成为一个持续的优先事项。
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