Trait-based assessment of polychaete assemblages distinguishes macrofaunal community structure among four distinct benthic eco-regions on a shallow arctic shelf

IF 2.3 3区 地球科学 Q2 OCEANOGRAPHY
Brittany R. Charrier, Seth L. Danielson, Sarah L. Mincks
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引用次数: 1

Abstract

In a rapidly changing Arctic, effects of taxonomic and functional composition of infaunal benthic communities on ecosystem function are poorly characterized for many areas of the continental shelf environment. Infaunal macrobenthos perform essential ecosystem services in soft-sediment habitats, including sediment oxygenation, organic-matter burial, and nutrient regeneration. Changes in the distribution and composition of infauna are likely to impact these important processes. We investigated spatial patterns in macrofauna on the northern Bering and southern Chukchi Sea continental shelves in conjunction with a suite of environmental variables as part of the Arctic Shelf Growth, Advection, Respiration, and Deposition (ASGARD) project. Depth-stratified macrofauna samples (>500 μm) were collected from multi-cores in June 2017 and 2018. Abundance and biomass were recorded for broad taxonomic categories (phylum or class). Polychaetes were identified to family to capture well-described functional-trait information. Functional guilds were assigned to polychaete families, reflecting feeding mode, motility, and feeding structures. Macrofauna exhibited no significant spatial patterns when examined at higher taxonomic levels; however, analysis of polychaete families yielded three distinct station groups, and polychaete functional guilds yielded four distinct groups. These groups were aligned with variations in key habitat characteristics and suggest variation in ecosystem function across the study area. At sandy stations, tube-dwelling, particle-selective suspension and surface deposit feeders were relatively abundant, reflecting an advective system with moderate current speeds and low deposition. Sites with gravelly substrate and moderate levels of organic matter in deeper sediment layers likely experience sporadic organic-matter deposition and disturbance from scouring and were inhabited by larger-bodied species, including bivalves and subsurface deposit-feeding or carnivorous polychaetes. Muddy, offshore stations in the southern Chukchi Sea also contained large bivalves and large carnivorous polychaetes, with evidence of high bioturbation. At more coastal Chukchi Sea stations, macrofauna were dominated by small, motile polychaetes concentrated in the 1-cm surface layer, with indications of anaerobic conditions below. Overall, polychaete functional traits and vertical distribution reflected the quality and quantity of organic matter input and the depositional environment inferred from grain size and current speed, with implications for biogeochemical cycling in sediments.

基于特征的多毛类组合评估区分了北极浅陆架四个不同底栖生态区的大型动物群落结构
在快速变化的北极地区,内陆底栖生物群落的分类和功能组成对生态系统功能的影响在大陆架环境的许多地区都没有得到很好的表征。小型大型底栖动物在软沉积物栖息地提供重要的生态系统服务,包括沉积物氧化、有机物埋藏和营养再生。infauna分布和组成的变化可能会影响这些重要过程。作为北极大陆架生长、平流、呼吸和沉积(ASGARD)项目的一部分,我们结合一系列环境变量,研究了白令北部和楚科奇海南部大陆架上大型动物的空间模式。2017年6月和2018年6月,从多岩心中采集了深度分层的大型动物样本(>;500μm)。丰度和生物量被记录为广泛的分类类别(门或纲)。多血细胞被鉴定为家族,以获取描述良好的功能特征信息。功能群被分配到多毛类科,反映了进食模式、运动和进食结构。当在更高的分类学水平上进行检查时,大型动物群没有表现出显著的空间模式;然而,对多毛类科的分析产生了三个不同的站群,多毛类功能群产生了四个不同的群。这些组与关键栖息地特征的变化一致,并表明整个研究区域的生态系统功能存在变化。在沙站,管式住宅、颗粒选择性悬浮物和表面沉积物馈线相对丰富,反映出一个具有中等流速和低沉积的平流系统。较深沉积层中具有砾石基质和中等有机质含量的地点可能会经历零星的有机质沉积和冲刷扰动,并且居住着体型较大的物种,包括双壳类和地下沉积物食性或肉食性多毛类。楚科奇海南部泥泞的近海站也有大型双壳类和大型食肉多毛类,有证据表明它们受到了高度的生物扰动。在楚科奇海更多的沿海站,大型动物群以小型活动多毛类为主,集中在1厘米的表层,下面有厌氧条件的迹象。总体而言,多毛类的功能特征和垂直分布反映了有机物输入的质量和数量,以及根据粒度和流速推断的沉积环境,对沉积物中的生物地球化学循环具有启示意义。
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来源期刊
CiteScore
6.40
自引率
16.70%
发文量
115
审稿时长
3 months
期刊介绍: Deep-Sea Research Part II: Topical Studies in Oceanography publishes topical issues from the many international and interdisciplinary projects which are undertaken in oceanography. Besides these special issues from projects, the journal publishes collections of papers presented at conferences. The special issues regularly have electronic annexes of non-text material (numerical data, images, images, video, etc.) which are published with the special issues in ScienceDirect. Deep-Sea Research Part II was split off as a separate journal devoted to topical issues in 1993. Its companion journal Deep-Sea Research Part I: Oceanographic Research Papers, publishes the regular research papers in this area.
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