Long-term persistence of structured habitats: seagrass meadows as enduring hotspots of biodiversity and faunal stability

A. Hyman, T. Frazer, C. Jacoby, Jessica R. Frost, M. Kowalewski
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引用次数: 24

Abstract

Ecological studies indicate that structurally complex habitats support elevated biodiversity, stability and resilience. The long-term persistence of structured habitats and their importance in maintaining biodiverse hotspots remain underexplored. We combined geohistorical data (dead mollusc assemblages, ‘DA’) and contemporary surveys (live mollusc assemblages, ‘LA’) to assess the persistence of local seagrass habitats over multi-centennial timescales and to evaluate whether they acted as long-term drivers of biodiversity, stability and resilience of associated fauna. We sampled structured seagrass meadows and open sandy bottoms along Florida's Gulf Coast. Results indicated that: (i) LA composition differed significantly between the two habitat types, (ii) LA from seagrass sites were characterized by significantly elevated local biodiversity and significantly higher spatial stability, (iii) DA composition differed significantly between the two habitat types, and (iv) fidelity between LA and DA was significantly greater for seagrass habitats. Contemporary results support the hypotheses that local biodiversity and spatial stability of marine benthos are both elevated in structured seagrass habitats. Geohistorical results suggest that structured habitats persist as local hotspots of elevated biodiversity and faunal stability over centennial-to-millennial timescales; indicating that habitat degradation and concomitant loss within structurally complex marine systems is a key driver of declining biodiversity and resilience.
结构栖息地的长期持续:海草草甸作为生物多样性和动物稳定性的持久热点
生态学研究表明,结构复杂的栖息地有助于提高生物多样性、稳定性和复原力。结构栖息地的长期持久性及其对维持生物多样性热点的重要性仍未得到充分探索。我们结合地理历史数据(死亡软体动物组合,“DA”)和当代调查(活软体动物组合,“LA”)来评估当地海草栖息地在数百年时间尺度上的持久性,并评估它们是否作为生物多样性、稳定性和相关动物群恢复力的长期驱动因素。我们在佛罗里达州墨西哥湾沿岸取样了结构海草草甸和开放的沙质底部。结果表明:(1)两种生境类型的LA组成存在显著差异;(2)海草样地的LA具有显著提高的局部生物多样性和更高的空间稳定性;(3)两种生境类型的DA组成存在显著差异;当前的研究结果支持这样的假设,即在结构海草栖息地中,海洋底栖动物的局部生物多样性和空间稳定性都得到了提高。地理历史研究结果表明,在百年至千年的时间尺度上,结构化栖息地仍然是生物多样性和动物稳定性提高的局部热点;表明在结构复杂的海洋系统中,栖息地退化和随之而来的丧失是生物多样性和复原力下降的关键驱动因素。
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