Ecosystem scale, adaptive management of the marine environment, emphasised by the
Convention on Biological Diversity, requires a clear understanding of the spatial and temporal
dynamics of the system in question. Classical species-based biogeography alone is not sufficient
to describe those dynamics at the appropriate scale for whole ecosystem management. A novel,
multidisciplinary, complex systems approach has been developed for characterising the biogeographic
distribution of benthic fauna in a temperate shelf sea system through application of
remote sensing to the principles of benthic-pelagic coupling.
A six year time series of satellite remote sensing data (AVHRR SST and SeaWiFS Chl-α,
LwN(555, 670)) was analysed using multivariate statistical techniques to identify the emergent
patterns (temporal and spatial) of water column physical structure and associated patterns of
productivity in North-West European Shelf waters. Three persistent biogeographic regions were
identified from horizontal patterns in .sea surface properties. Comparison with the results of an
epibenthic field survey, have shown gradients of epibenthic megafaunal distribution to
correspond closely to the biogeographic regions identified by remote sensing. The application of
this technique to marine monitoring programmes and ecosystem management is discussed.
Date of Award | 2007 |
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Original language | English |
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Awarding Institution | |
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APPLICATION OF SURFACE-OCEAN REMOTE-SENSING TO THE CHARACTERISATION OF BIOGEOGRAPHIC PATTERNS OF BENTHIC FAUNA IN A TEMPERATE SHELF SEA
RICHARDSON, K. A. (Author). 2007
Student thesis: PhD