Exploring the potential of native sea urchins as ex situ coral propagation allies

珊瑚 海洋学 渔业 珊瑚漂白 原位 地理 珊瑚礁 迁地保护 生物 生态学 地质学 栖息地 气象学 濒危物种
作者
Maggie Dakin,Aaron R. Pilnick,Jessica Smith,Alex Petrosino,Keri L. O’Neil,Joshua T. Patterson
出处
期刊:Restoration Ecology [Wiley]
卷期号:33 (3) 被引量:1
标识
DOI:10.1111/rec.14335
摘要

Caribbean coral reefs face unprecedented decline due to anthropogenic and environmental stressors, necessitating active restoration efforts. Among the strategies to conserve and restore reef ecosystems, land‐based sexual propagation of corals is crucial for preserving genetic diversity and population resilience. This study explores the efficacy of utilizing native sea urchin herbivory to control benthic macroalgal proliferation and enhance coral growth in land‐based propagation systems. Three captive‐reared urchin species— Lytechinus variegatus , Tripneustes ventricosus , and Diadema antillarum —were evaluated for their influence on algal cover and growth of sexually propagated brain coral Pseudodiploria strigosa . Juveniles of each urchin species were co‐cultured with 6‐month‐old coral colonies over a 105‐day experiment. Results indicated that all urchin treatments effectively reduced algal cover compared to controls; however, only T. ventricosus significantly increased coral growth rate, while the other urchin species did not have a notable effect. Despite differences in growth, coral survival was consistently high across all treatments. Benthic community analysis revealed shifts in algal composition, with D. antillarum grazing associated with increased crustose coralline algae. However, overgrazing by D. antillarum may have resulted in mild peripheral tissue damage to some corals. Urchin survival remained high, suggesting potential for downstream utilization in restoration (e.g. urchin population enhancement). This study highlights the potential of native urchins as biocontrol agents in coral propagation, emphasizing the importance of species‐specific interactions in shaping benthic communities and promoting coral resilience.
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