菲律宾海海山的大型底栖生物多样性模式:对九州-帕劳海脊保护规划的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-17 DOI:10.1002/ece3.70427
Xun Lu, Chengcheng Shen, Chenghao Yang, Weikun Xu, Juan Yang, Chunsheng Wang, Dong Sun
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引用次数: 0

摘要

西太平洋热带低营养区的特点是海山密集,九州-帕劳海脊(KPR)是这里最长的海山链。要制定有效的海山生态系统空间管理计划,就必须了解海山的分布模式和影响底栖生物群落的关键环境因素。然而,对复杂地形上深海生物多样性模式的了解仍然有限。在这项研究中,我们调查了位于韩国南海岸巡航路线南段、顶点水深 522 米的一座海山。调查横断面从 522 米到 4059 米。通过分析由载人潜水器(HOV)在潜水过程中获得的视频记录数据以及水深测量得出的环境变量,我们通过噪声聚类确定了不同的群落。共记录了 10,596 个巨型底栖生物个体,分为 88 个形态种,并通过噪声聚类分析将其分为 6 个不同的群落集群。物种丰度和丰富度在水深 700-800 米范围内最高,超过 2100 米后明显下降,这表明该区域的生境分类存在临界阈值。大型底栖生物群落的 β-多样性很高(0.836)。尽管沿深度梯度的 β-多样性模式主要由物种丰富度差异主导,但物种替换的贡献随深度增加而增加,在深度超过 3000 米时成为主导。深度是群落结构空间变化的主要驱动因素,同时近底流速、地形参数(水深位置指数、坡度)和底质类型也影响着微生境的形成。该研究强调了影响这些群落空间异质性的深度梯度、阈值和其他复杂的环境因素。该研究为今后制定有效的调查和保护策略提供了宝贵的见解。
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Megabenthic Diversity Patterns on a Seamount in the Philippine Sea: Implications for Conservation Planning on the Kyushu-Palau Ridge

The oligotrophic tropical western Pacific region is characterized by a high density of seamounts, with the Kyushu-Palau Ridge (KPR) being the longest seamount chain here. Effective spatial management plans for seamount ecosystems necessitate an understanding of distribution patterns and key environmental factors influencing benthic communities. However, knowledge regarding deep-sea biodiversity patterns over intricate topography remains limited. In this study, we investigated a seamount with a water depth of 522 m at the summit located in the southern section of KPR. Survey transects were conducted from 522 m to 4059 m. By analyzing video-recorded data obtained by a human-occupied vehicle (HOV) during dives and environmental variables derived from bathymetry, distinct assemblages were identified through noise clustering. α- and β-diversity patterns within the seamount megabenthic community were analyzed across the depth gradient, along with investigation of their environmental drivers. A total of 10,596 megafauna individuals were documented, categorized into 88 morphospecies and statistically separated into six distinct community clusters using noise clustering analysis. Species abundance and richness were highest within the 700–800 m water depth range, declining notably beyond 2100 m, indicating a critical threshold for habitat classification in this region. The β-diversity of megabenthic communities was high (0.836). Although β-diversity patterns along the depth gradient were mostly dominated by differences in species richness, the contribution of species replacement increased with depth, becoming dominant at depths greater than 3000 m. Depth emerged as the primary driver of spatial variation in community structure, while near-bottom current velocity, topographic parameters (bathymetric position index, slope), and substrate type also influenced the formation of microhabitats. The study highlights the depth gradients, thresholds, and other intricate environmental factors shaping the spatial heterogeneity of these communities. It provides valuable insights for the future development of effective survey and conservation strategies for benthic biodiversity on the KPR.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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