Abstract
The South African abalone Haliotis midae is a commercially valuable species, but its numbers are seriously depleted due to illegal fishing. Overfishing not only affects the targeted species, but also potentially influences the integrity and functioning of the ecosystem through associated changes in community composition. We assessed the herbivorous effects of H. midae on the benthos through a 6-month field experiment involving exclusion/inclusion plots. This showed that benthic community composition remained largely unchanged whether H. midae was present or absent and specifically revealed no evidence that H. midae diminishes algal biomass, probably because in the region where we worked, it feeds mainly by trapping drift kelp rather than grazing on attached algae. The absence of responses to the removal of abalone was additionally evident in comparison with indices of abundance and diversity, functional groups and individual species. In the absence of abalone, there were subtle increases in the green alga Codium stephensiae and the crustose brown alga Zeacarpa leiomorpha and decreases in the four species of foliose macroalgae, but none of these effects were significant. The presence of H. midae thus had no negative grazing effects on any elements of the epilithic community composition. It does, however, have other influences, including occupation of space and provision of habitat in the form of its shell, which supports a community significantly different from the surrounding rocks.
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Acknowledgments
Irvine and Johnson Abalone Farm is warmly thanked for access to their farm for the inclusion/exclusion experiment. Funding was provided by the University of Cape Town, an Andrew Mellon Foundation grant to GMB, and the SA Research Chair in Marine Ecology and Fisheries (AJ), funded by DST and administered by the NRF. Many divers assisted with the sampling, and special thanks are due to Andrea Plos.
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Communicated by M. G. Chapman.
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Zeeman, Z., Branch, G.M., Pillay, D. et al. An experimental test of the effect of the abalone Haliotis midae on benthic community composition. Mar Biol 161, 329–337 (2014). https://doi.org/10.1007/s00227-013-2338-x
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DOI: https://doi.org/10.1007/s00227-013-2338-x