Deep-sea benthic community and environmental impact assessment at the Atlantic Frontier

The seabed community provides a sensitive litmus for environmental change. North Sea analysis of benthic populations provides an effective means for monitoring impacts from man's interventions, such as offshore oil exploitation and fishing, against baseline knowledge of the environment. Compara...

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Bibliographic Details
Published in:Continental Shelf Research
Main Author: Gage, John D
Format: Article in Journal/Newspaper
Language:English
Published: 2001
Subjects:
NORTH-SEA
BOTTOM SAMPLES
SIZE DISTRIBUTIONS
SPECIES-DIVERSITY
BATHYMETRIC PATTERNS
ORGANIC-MATTER
Oceanography
MACROBENTHIC COMMUNITY
POLLUTION-INDUCED DISTURBANCE
CORAL LOPHELIA-PERTUSA
TAXONOMIC RESOLUTION
Lophelia pertusa
Online Access:https://pure.uhi.ac.uk/en/publications/1d7b9c85-752c-45d2-8696-6e06d8d5576c
https://doi.org/10.1016/S0278-4343(00)00120-5
Description
Summary:The seabed community provides a sensitive litmus for environmental change. North Sea analysis of benthic populations provides an effective means for monitoring impacts from man's interventions, such as offshore oil exploitation and fishing, against baseline knowledge of the environment. Comparable knowledge of the benthic biology in the deep waters of the Atlantic Frontier beyond the N.E. Atlantic shelf edge is poorly developed. But uncertainties should not encourage assumptions and extrapolations from the better-known conditions on the continental shelf. While sampling at present still provides the best means to assess the health of the deepwater benthic habitat, protocols developed for deep-sea fauna should be applied. These are necessary because of (a) lower faunal densities, (b) higher species richness, (c) smaller body size, and (d) to ensure comparability with other deep-sea data. As in the North Sea, species richness and relative abundance can be analysed from quantitative samples in order to detect impacts. But analysis based on taxonomic sufficiency above species level is premature, even if arguably possible for coastal communities. Measures also need to ensure identifications are not forced to more familiar coastal species without proper study. Species-level analysis may be applied to seabed photographs of megafauna in relation to data on bottom environment, such as currents and the sediment, to monitor the health of the deep-water community. Although the composition of higher taxa in the benthic community is broadly similar to soft sediments on the shelf, concordance in sensitivities is speculative. Moreover, new organisms occur, such as giant protozoan xenophyophores, unknown on the continental shelf, whose sensitivities remain conjectural. Past knowledge of the benthic biology of the deep-water areas off Scotland is based on scattered stations and some more focussed, multidisciplinary studies, and should be significantly augmented by the results from the oil industry-funded Atlantic Margin ...

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