Seagrass beds are highly productive shallow-water marine ecosystems and serve as a habitat for
numerous invertebratesa nd fishes, some of which constitute important fisheries species.S eagrassb eds
play an important role in physical coastal dynamics, since they stabilise soft bottoms, while their leaf
canopy attenuates strong wave action and currents, thereby, reducing coastal erosion. However, seagrass
habitats are undergoing a decline worldwide, hence, there is an urgent need for data on the influence of
bed fragmentation and changes in plant architecture on the diversity of associated biota. In the
Mediterranean Sea, the endemic seagrass Posidonia oceanica forms extensive beds that have a high
structural complexity and support a high biodiversity, making them one of the most important marine
habitat types in the region. The present study investigated the influence of P. oceanica bed structure
(seagrassb ed morphology and within-bed architecture) on the diversity of associatedm acrofauna.P ilot
surveys were made to map the occurrence and spatial distribution of different types of P. oceanica beds
present off the northeastern coast of the Maltese Islands, to enable selection of four appropriate study
locations. A quantitative sampler, which samples the total macroinvertebrate assemblages of P.
oceanica beds, was designed and tested to determine the appropriate area and number of sampling units
required to achieve given levels of accuracy and precision. Using data gathered from the pilot survey,
studies were made to examine for differences in P. oceanica plant architecture, and in the species
richness and abundance of motile macroinvertebrates between continuous (non-fragmented) and
reticulate (fragmented)b eds of the seagrassa, crosst hree different spatial levels: (a) large (severalk m),
(b) medium (circa 100 in) and small (tens of metres). A separate study examined differences in the
species richness and abundance of associated motile macro invertebrates between living matte (bearing
living shoots) and dead matte (without living shoots) of P. oceanica. Results of univariate and
multivariate analyses indicated that there was no consistent pattern of significant differences in plant
architecture,a nd in the speciesr ichnessa nd abundanceo f associatedm otile macroinvertebratesb etween
the two P. oceanica bed types. Significant differences in macroinvertebrate species richness and
abundance were detected between P. oceanica beds at the large spatial level that were significantly
related to seagrasse piphytesa nd mean sedimentg rain size. Significant differences in macroinvertebrate
species richness and abundance were detected between P. oceanica beds at the medium spatial level that
were significantly related to shoot biomass. Significant differences in the assemblage composition of
macroinvertebrates associated with P. oceanica beds were detected by multivariate analysis at the large
and small spatial levels, with the best explanation for the multivariate assemblage structure being a
combination of environmental variables that included epiphytes and sediment grain size. The results of
the study comparing the motile macroinvertebrates of living and dead matte showed that dead matte
supported significantly higher species richness and abundance of associated motile macro invertebrates,
and had a significantly different macroinvertebrate assemblage structure, compared to living matte.
Furthermore, a greater number of species occurred exclusively in dead matte than in living matte. It was
concluded that natural fragmentation of continuous to reticulate P. oceanica beds does not lead to
changes in plant architectural differences, or to a reduction in diversity of associated
macroinvertebrates, nor does complete loss of the foliar canopy necessarily lead to a reduced diversity
of macrofauna. Local factors, including nutrient levels in the water colunm (which enhanced epiphytic
growth on the seagrass), sediment grain size and the hydrodynamic regime, were more important in
influencing the diversity of macrofauna associated with P. oceanica beds, than bed type, leading to
significant spatial variation in the associatedm acroi nvertebrate assemblagesT. he study concluded that
the relative importance of different factors in influencing the diversity of macro invertebrates associated
with P. oceanica beds varied, depending on scale. The results are discussed in the light of the available
published data on fragmentation of seagrass habitat and on current Euro-Mediterranean proposals for
the conservation of different bed types of P. oceanica. Attempts to classify different bed types of P.
oceanica in categories according to value should be based on adequate ecological data. Different bed
types of P. oceanica all form part of a dynamic heterogeneousla ndscapew here transformation from one
bed type to another may occur, but which does not necessarily lead to loss of biodiversity. Hence, equal
effort should be directed at conserving and managing different bed types of P. oceanica.
Date of Award | 2004 |
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Original language | English |
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Awarding Institution | |
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Role of Posidonia oceanica bed structure in determining the diversity of associated macroinvertebrate assemblages
Borg, J. A. (Author). 2004
Student thesis: PhD