在不断变化的世界中构建珊瑚礁的多重压力理论

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-16 DOI:10.1007/s10021-023-00892-8
Carling Bieg, Henri Vallès, Alexander Tewfik, Brian E. Lapointe, Kevin S. McCann
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引用次数: 0

摘要

珊瑚礁正面临着一系列持续的人类影响,包括富营养化、过度捕捞和气候变化。过度捕捞对当地的影响已经得到了充分的研究,而陆地人为活动造成的区域性营养负荷和全球气候变化引起的扰动正在不断增加,因此有必要对珊瑚礁生态学采取跨尺度的多胁迫因素方法。在此,我们扩展了长期以来的理论,为珊瑚礁建立了一个综合多胁迫因素框架。我们表明(i) 一个简单的、以经验为动机的几何模型表明,营养物质和采伐在推动珊瑚礁向藻类为主的珊瑚礁转变过程中具有类似的协同作用,从而产生了明确的、与具体情况相关的管理影响;(ii) 同样的几何模型表明,即使在受到中度影响的生态系统中,气候驱动的珊瑚死亡也会推动长期瞬态和气候驱动的交替状态的出现。根据单个压力因素,看似处于 "安全空间 "的珊瑚礁实际上在多重压力条件下可能更容易受到日益频繁的风暴和白化事件的影响。通过将这些发现与一般的生态学和理论概念相结合,我们认为底栖生物组成的反应可以作为多重胁迫因素的 "变化特征",使我们能够为全球变化下的珊瑚礁制定一个预测性和可推广的多重胁迫因素框架。根据这一理论,我们详细介绍了巴巴多斯珊瑚礁组成历史变化的经验证据,以及在我们的框架内多重压力的影响。通过连接珊瑚礁生态学和一般生态学概念,我们可以更好地理解这些重要但又受到高度威胁的系统的生态系统功能和恢复力。
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Toward a Multi-stressor Theory for Coral Reefs in a Changing World

Coral reefs are facing a constant barrage of human impacts, including eutrophication, overharvesting and climate change. While the local effects of overharvesting have been well-studied, regional nutrient loading from anthropogenic activities on land and global climate change-induced disturbances are increasing in magnitude and necessitating cross-scale multi-stressor approaches for coral reef ecology. Here, we expand on longstanding theory to develop an integrated multi-stressor framework for coral reefs. We show that: (i) The geometry of a simple, empirically motivated model suggests nutrients and harvesting can operate similarly, and synergistically, in driving shifts from coral- to algae-dominated reefs, resulting in clear context-dependent management implications; and (ii) this same geometry suggests climate-driven coral mortality can drive the presence of long transients and climate-driven alternate states, even in moderately impacted ecosystems. Reefs seemingly in a “safe space” based on individual stressors may in fact be much more susceptible to increasingly frequent storms and bleaching events in multi-stressor conditions. By integrating these findings with general ecological and theoretical concepts, we suggest that responses in benthic composition may act as “signatures of change” to multi-stressors, allowing us to develop a predictive and generalizable multi-stressor framework for coral reefs under global change. In line with this theory, we detail empirical evidence from Barbados of historical changes in reef composition and multi-stressor impacts within our framework. By bridging coral reef ecology and general ecological concepts, we can better understand ecosystem functioning and resilience in these important yet highly threatened systems.

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567
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