Julie Bremner scite author profile

Two methods traditionally employed to investigate functional diversity in marine benthic ecosystems are relative taxon composition analysis, which interprets changes in the distribution of taxa in terms of the characteristics they exhibit, and trophic group analysis, which investigates differences in feeding mechanisms between assemblages. An alternative approach, biological traits analysis, considers a range of biological traits expressed by organisms to assess how functioning varies between assemblages. This study compares biological traits analysis to the relative taxon composition and trophic group approaches. Biological trait scores were assigned to a range of epibenthic invertebrate taxa from the southern North Sea and eastern English Channel and differences in the relative proportions of these traits were investigated using multivariate methods. The traits important in differentiating stations were attachment, flexibility, body form, mobility, feeding method and life habit. Such assemblages were spatially heterogeneous and there was no obvious distinction between different geographical sectors. This contrasted with the results of the relative taxon composition approach, which showed broad patterns in assemblage distribution in the eastern English Channel and southern North Sea. The biological traits approach provided information on a larger variety of ecological functions than the other techniques and revealed very different relationships between assemblages. It highlighted a greater diversity of assemblage types and was resistant to large-scale biogeographic variation. Therefore, it is potentially more useful than the traditional approaches for assessing ecosystem functioning on both large and small scales in benthic environments.

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A bioturbation classification of European marine infaunal invertebrates

Queirós

Birchenough

Bremner

et al. 2013

Ecology and Evolution

252

202

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Bioturbation, the biogenic modification of sediments through particle reworking and burrow ventilation, is a key mediator of many important geochemical processes in marine systems. In situ quantification of bioturbation can be achieved in a myriad of ways, requiring expert knowledge, technology, and resources not always available, and not feasible in some settings. Where dedicated research programmes do not exist, a practical alternative is the adoption of a trait-based approach to estimate community bioturbation potential (BPc). This index can be calculated from inventories of species, abundance and biomass data (routinely available for many systems), and a functional classification of organism traits associated with sediment mixing (less available). Presently, however, there is no agreed standard categorization for the reworking mode and mobility of benthic species. Based on information from the literature and expert opinion, we provide a functional classification for 1033 benthic invertebrate species from the northwest European continental shelf, as a tool to enable the standardized calculation of BPc in the region. Future uses of this classification table will increase the comparability and utility of large-scale assessments of ecosystem processes and functioning influenced by bioturbation (e.g., to support legislation). The key strengths, assumptions, and limitations of BPc as a metric are critically reviewed, offering guidelines for its calculation and application.

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Species' traits and ecological functioning in marine conservation and management

Bremner

2008

Journal of Experimental Marine Biology and Ecology

268

201

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Methods for describing ecological functioning of marine benthic assemblages using biological traits analysis (BTA)

Bremner

Rogers

Frid

2006

Ecological Indicators

286

181

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Trait-based approaches in rapidly changing ecosystems: A roadmap to the future polar oceans

Degen

Aune

Bluhm

et al. 2018

Ecological Indicators

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Julie Bremner

Assessing functional diversity in marine benthic ecosystems: a comparison of approaches

A bioturbation classification of European marine infaunal invertebrates

Species' traits and ecological functioning in marine conservation and management

Methods for describing ecological functioning of marine benthic assemblages using biological traits analysis (BTA)

Trait-based approaches in rapidly changing ecosystems: A roadmap to the future polar oceans

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