This thesis documents the development and application of the Automated Benthic Image
Scaling System (ABISS), a novel structured lighting array for calculating image scale,
accounting for perspective, to allow quantitative non-destructive megafaunal sampling
using observations from a Remotely Operated Vehicle (ROV). Megafauna are important
components of marine soft sediment assemblages that influence the composition of the
associated assemblage and the flux of energy across the sediment-water interface, by
altering the physical and chemical characteristics of the sediment during bioturbation.
However, megafaunal species are not sampled adequately using traditional techniques.
Megafaunal abundance estimates derived from ROV observations were validated against
those derived from direct diver observations and results suggested that data were in close
agreement. To quantify spatial variation of the megafaunal assemblage, spatially
referenced images were collected with a maximum sample separation of 400 m within a
broader area of homogeneous sediment in Plymouth Sound (United Kingdom) during May
2000 and March 2001. Results demonstrated that the spatial distribution of the megafaunal
assemblage was neither uniform nor stable temporally. A hierarchy of spatial structure
was detected, whereby, patches with minimum radius between 123-163 m were nested
within patches up to 400 m radius. To assess the megafaunal contribution to endobenthic
biomass, the population size structure and biomass of the dominant megafaunal bivalve
Lutraria lutraria was estimated from measurements of the siphon tips. Results indicated
that the population size structure was stable between years despite significant differences
in abundance. In addition, L lutraria contributed approximately 90% of the endobenthic
biomass, indicating that traditional assessment of benthic biomass by consideration of
macrofaunal samples alone will underestimate severely the biomass and respiration of the
entire endobentic assemblage. Novel techniques of quantifying the spatial distribution of
megafaunal assemblages presented in this thesis offer ways forward to address how
variation of megafaunal spatial structure affects macrofaunal assemblage structure, and to
discuss the application of remote imaging to map and predict quantitatively the
conservation value of subtidal soft sediments.
Date of Award | 2002 |
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Original language | English |
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Awarding Institution | |
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QUANTIFICATION OF MARINE MEGAFAUNAL DISTRIBUTION PATTERNS USING A REMOTELY OPERATED VEHICLE
PARRY, D. M. (Author). 2002
Student thesis: PhD