南加州边境地区富含铁锰矿和磷矿的底质上的深海大型底栖动物群落。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-31 eCollection Date: 2024-01-01 DOI:10.7717/peerj.18290
Michelle Guraieb, Guillermo Mendoza, Kira Mizell, Greg Rouse, Ryan A McCarthy, Olívia S Pereira, Lisa A Levin
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引用次数: 0

摘要

富含矿物的硬地,如铁锰(FeMn)结壳和磷矿,出现在海山和大陆边缘,由于在某些地区富含有价金属,其资源潜力日益受到关注。这项研究的重点是南加州边界地区(SCB),该地区地形不平且多变,具有铁锰结壳、磷矿、玄武岩和沉积岩,这些岩石分布在不同深度,暴露在各种氧气浓度下。由于其异质性,该地区成为研究富含矿物质的硬地与底栖动物之间关系的最佳环境。本研究描述了硬地上大型底栖动物(大于 300 μm)的密度、多样性和群落组成与底质类型和环境(深度和氧气范围)的关系。在 2020 年和 2021 年的考察中,使用遥控潜水器(ROV)在最小含氧带(OMZ)以上、以内和以下的深度对岩石及其大型底栖生物进行了定量采样。在深度为 231 米至 2,688 米的 82 块岩石上,共计数了 3,555 个大型动物个体,并鉴定了 416 个不同的形态物种(不包括包壳类和水螅类)。基质类型与大型底栖生物群落之间存在着一定的关系。按每块岩石计算,磷酸盐岩是四种基质中 H'最高的。然而,当按基质将样本集中起来时,铁锰结壳的 H'和稀有多样性最高。在所有环境变量中,水深对大型底栖生物群落组成的解释差异最大。OMZ 内外的大型底栖生物密度和多样性值相似。这项研究首次分析了南极海盆富含矿物质的硬地的大型底栖生物群落,这些硬地作为大型底栖生物群落的特殊基质,支持着深海生物多样性。了解大型底栖生物群落与富含矿物质的底质之间错综复杂的关系,可以为深海采矿或气候变化造成的环境破坏影响提供信息。这些发现为有效保护和管理深海底栖生物提供了有用的基准信息,并将支持科学家监测这些群落在未来因环境干扰或人类影响而发生的变化。
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Deep-ocean macrofaunal assemblages on ferromanganese and phosphorite-rich substrates in the Southern California Borderland.

Mineral-rich hardgrounds, such as ferromanganese (FeMn) crusts and phosphorites, occur on seamounts and continental margins, gaining attention for their resource potential due to their enrichment in valuable metals in some regions. This study focuses on the Southern California Borderland (SCB), an area characterized by uneven and heterogeneous topography featuring FeMn crusts, phosphorites, basalt, and sedimentary rocks that occur at varying depths and are exposed to a range of oxygen concentrations. Due to its heterogeneity, this region serves as an optimal setting for investigating the relationship between mineral-rich hardgrounds and benthic fauna. This study characterizes the density, diversity, and community composition of macrofauna (>300 μm) on hardgrounds as a function of substrate type and environment (depth and oxygen ranges). Rocks and their macrofauna were sampled quantitatively using remotely operated vehicles (ROVs) during expeditions in 2020 and 2021 at depths above, within, and below the oxygen minimum zone (OMZ). A total of 3,555 macrofauna individuals were counted and 416 different morphospecies (excluding encrusting bryozoans and hydrozoans) were identified from 82 rocks at depths between 231 and 2,688 m. Average density for SCB macrofauna was 11.08 ± 0.87 ind. 200 cm-2 and mean Shannon-Wiener diversity per rock (H'[loge]) was 2.22 ± 0.07. A relationship was found between substrate type and macrofaunal communities. Phosphorite rocks had the highest H' of the four substrates compared on a per-rock basis. However, when samples were pooled by substrate, FeMn crusts had the highest H' and rarefaction diversity. Of all the environmental variables examined, water depth explained the largest variance in macrofaunal community composition. Macrofaunal density and diversity values were similar at sites within and outside the OMZ. This study is the first to analyze the macrofaunal communities of mineral-rich hardgrounds in the SCB, which support deep-ocean biodiversity by acting as specialized substrates for macrofaunal communities. Understanding the intricate relationships between macrofaunal assemblages and mineral-rich substrates may inform effects from environmental disruptions associated with deep-seabed mining or climate change. The findings contribute baseline information useful for effective conservation and management of the SCB and will support scientists in monitoring changes in these communities due to environmental disturbance or human impact in the future.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
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9.40
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2.10%
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464
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