Restored oyster reefs match multiple functions of natural reefs within a decade

IF 7.7 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Conservation Letters Pub Date : 2022-04-05 DOI:10.1111/conl.12883
Rachel S. Smith, Bo Lusk, Max C. N. Castorani
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引用次数: 12

Abstract

Global declines of foundation species have reduced ecological function at population, community, and ecosystem levels. Restoration of foundation species promises to counter such losses, despite unknown recovery timelines, undefined benchmarks, and uncertainty about whether restored ecosystems approximate natural ones. Here, we demonstrate through a 15-year large-scale experiment in coastal Virginia, USA, that restored oyster reefs can quickly recover multiple ecological functions and match natural reefs. Specifically, abundances of oysters and a key crab mesopredator on restored reefs equaled reference reefs in approximately 6 years, indicating that restoration can initiate rapid, sustained recovery of foundation species and associated consumers. As reefs matured and accrued biomass, they became more temporally stable, suggesting that restoration can increase resilience and may stabilize those ecosystem processes that scale with foundation species biomass. Together, these results demonstrate that restoration can catalyze rapid recovery of imperiled coastal foundation species, reclaim lost community interactions, and help reverse decades of degradation.

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修复后的牡蛎礁在十年内可与天然珊瑚礁的多种功能相匹配
全球基础物种的减少在种群、群落和生态系统水平上降低了生态功能。基础物种的恢复有望抵消这种损失,尽管恢复时间未知,基准不明确,以及恢复的生态系统是否接近自然生态系统的不确定性。我们在美国维吉尼亚海岸进行了为期15年的大规模实验,证明修复后的牡蛎礁可以快速恢复多种生态功能,并与自然珊瑚礁相匹配。具体而言,在恢复后的珊瑚礁上,牡蛎和一种主要中食性螃蟹的丰度在大约6年内与参考珊瑚礁相当,这表明恢复可以启动基础物种和相关消费者的快速、持续恢复。随着珊瑚礁的成熟和生物量的积累,它们在时间上变得更加稳定,这表明恢复可以增加弹性,并可能稳定那些与基础物种生物量成比例的生态系统过程。总之,这些结果表明,恢复可以促进濒危海岸基础物种的快速恢复,恢复失去的群落相互作用,并有助于扭转数十年的退化。
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来源期刊
Conservation Letters
Conservation Letters BIODIVERSITY CONSERVATION-
CiteScore
13.50
自引率
2.40%
发文量
70
审稿时长
>12 weeks
期刊介绍: Conservation Letters is a reputable scientific journal that is devoted to the publication of both empirical and theoretical research that has important implications for the conservation of biological diversity. The journal warmly invites submissions from various disciplines within the biological and social sciences, with a particular interest in interdisciplinary work. The primary aim is to advance both pragmatic conservation objectives and scientific knowledge. Manuscripts are subject to a rapid communication schedule, therefore they should address current and relevant topics. Research articles should effectively communicate the significance of their findings in relation to conservation policy and practice.
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