How anthropogenic changes to species composition and diversity are likely to affect the
properties of the ecosystems of which they are an integral part, and by extension the goods and
services humans derive from them, is a key question in ecology. Despite over a decade of vigorous
empirical research and theoretical developments, there remain many unknowns. Using intertidal
rockpools and laboratory marine mesocosrns, I used a variety of approaches to address several of
these relatively poorly studied issues. In particular, the work presented here focused on the relative
roles of species composition and richness, as well as the extent to which such effects are context-dependent.
The first study (Chapter II) takes advantage of a successional gradient of macroalgal
species composition and diversity resulting from the periodic addition of artificial rockpools to a
coastal defense structure. The results show that the focal ecosystem properties (macroalgal biomass
and productivity) were largely determined by species composition (and functional traits).
Macroalgal species evenness, but not diversity, peaked at intermediate stages during the
chronosequence, but no measure of diversity had a detectable influence on primary productivity.
The results confirm the prediction that effects of species diversity will be outweighed by
compositional changes during succession.
I used an experimental approach in Chapters III to V, manipulating the composition and
richness of intertidal molluscan grazers (Chapters III and V) and intertidal predatory crabs (Chapter
IV) and measuring their effects on prey assemblages as focal ecosystem processes. In a 13-month
field experiment (Chapter III) I found that effects on the composition and functioning of developing
rockpool communities were determined by grazer composition, not the number of species.
Laboratory mesocosm experiments show that the influence of species richness on ecosystem
processes can be context-dependent. The effect of resource partitioning (of the multi-species prey
assemblage) among predators was only detectable at high predator densities where competitive
interactions between individual predators were magnified. A factorial experiment using the rate of
algal consumption by molluscan grazers as a response variable, provides the first empirical test of
the prediction that the balance between species richness and identity effects can be determined by
the degree of spatial heterogeneity (Chapter V). Species identity had strong effects on homogeneous
substrates, with the identity of the best-performing species dependent on the substrate. The
strengths and limitations of the predominantly small-scale experimental approach employed here
are discussed (Chapter VI).
Date of Award | 2008 |
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Original language | English |
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Awarding Institution | |
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BIODIVERSITY AND ECOSYSTEM FUNCTIONING: EXPERIMENTAL TESTS USING ROCKPOOLS AS A MODEL SYSTEM
GRIFFIN, J. N. (Author). 2008
Student thesis: PhD