Biogenic habitats as drivers of invertebrate benthic community variability in Tongoy Bay (SE Pacific coast): implications of macroalga harvesting

IF 0.8 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY
Jorge E. González, B. Yannicelli, F. Rodríguez-Zaragoza, M. Ortiz
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引用次数: 0

Abstract

Habitat biogenic complexity is thought to exert a significant positive influence on benthic communities. We examined the link between the seasonal variability of macroinvertebrate community structure (species and trophic richness, diversity and biomass) and habitats with different macroalgal assemblages. We identified macroinvertebrates and algae from 336 samples spread over four types of habitat: sand, mud, sand-gravel and seagrass meadows. Considering the whole macroalgal and macroinvertebrate assemblage, we confirmed that macroinvertebrate community variability within and among habitats can be mainly (but not only) explained by a few macroalgal structuring species. The variability of macroinvertebrate communities between habitats and seasons depended on the changes in the relative contribution of the explanatory biostructuring species in the overall algal community. Biomass, trophic behaviour and species richness remained stable in habitats with conspicuous macroalgal communities in contrast with habitats devoid of macroalgae. However, invertebrate species richness and biomass remained stable only in habitats whose dominant species did not change between seasons and not in those where dominant structuring species shifted. The seasonal change in a key structuring macroalgal species (Condracanthus chamissoi), probably as a result of harvesting, led to a major reduction in invertebrate community biomass and richness both in the particular habitat and in those nearby at species level. These consequences are especially important for invertebrates linked by trophic relationships and targeted by fisheries.
Tongoy湾(东南太平洋海岸)无脊椎底栖动物群落变异的生物栖息地驱动因素:大型藻类收获的影响
生境生物成因的复杂性被认为对底栖生物群落产生了重大的积极影响。我们研究了大型无脊椎动物群落结构(物种和营养丰富度、多样性和生物量)的季节变化与不同大型藻类组合的栖息地之间的联系。我们从分布在四种栖息地的336个样本中鉴定了大型无脊椎动物和藻类:沙子、泥土、砂砾和海草草地。考虑到整个大型藻类和大型无脊椎动物群落,我们证实,栖息地内和栖息地之间的大型无脊椎动物群落变异主要(但不仅)可以通过少数大型藻类结构物种来解释。大型无脊椎动物群落在栖息地和季节之间的可变性取决于解释性生物结构物种在整个藻类群落中的相对贡献的变化。与没有大型藻类的栖息地相比,具有明显大型藻类群落的栖息地的生物量、营养行为和物种丰富度保持稳定。然而,无脊椎动物物种的丰富度和生物量仅在优势物种在季节之间没有变化的栖息地保持稳定,而在优势结构物种发生变化的栖息地则没有。一种关键的大型结构藻类(Condracanthus chamissoi)的季节性变化,可能是由于捕捞的结果,导致特定栖息地和附近物种水平的无脊椎动物群落生物量和丰富度大幅下降。这些后果对于由营养关系联系在一起并成为渔业目标的无脊椎动物来说尤其重要。
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来源期刊
Scientia Marina
Scientia Marina 生物-海洋与淡水生物学
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: Scientia Marina is the successor to Investigación Pesquera, a journal of marine sciences published since 1955 by the Institut de Ciències del Mar de Barcelona (CSIC). Scientia Marina is included in the Science Citation Index since 1998 and publishes original papers, reviews and comments concerning research in the following fields: Marine Biology and Ecology, Fisheries and Fisheries Ecology, Systematics, Faunistics and Marine Biogeography, Physical Oceanography, Chemical Oceanography, and Marine Geology. Emphasis is placed on articles of an interdisciplinary nature and of general interest.
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