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Elliott, J.; Patterson, M.; Summers, N.; Miternique, C.; Montocchio, E.; Vitry, E. (2016). How does the proliferation of the coral-killing sponge Terpios hoshinota affect benthic community structure on coral reefs?. Coral Reefs. 35(3): 1083-1095.
481055
10.1007/s00338-016-1434-z [view]
Elliott, J.; Patterson, M.; Summers, N.; Miternique, C.; Montocchio, E.; Vitry, E.
2016
How does the proliferation of the coral-killing sponge <i>Terpios hoshinota</i> affect benthic community structure on coral reefs?
Coral Reefs
35(3): 1083-1095
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Terpios hoshinota is an encrusting sponge and a fierce space competitor. It kills stony corals by overgrowing them and can impact reefs on the square kilometer scale. We investigated an outbreak of T. hoshinota in 2014 at the island of Mauritius to determine its impacts on coral community structure. Surveys were conducted at the putative outbreak center, an adjacent area, and around the island to determine the extent of spread of the sponge and which organisms it impacted. In addition, quadrats were monitored for 5 months (July–December) to measure the spreading rates of T. hoshinota and Acropora austera in areas both with and without T. hoshinota. The photosynthetic capabilities of T. hoshinota and A. austera were also measured. Terpios hoshinota was well established, covering 13% of an estimated 416 m2 of available hard coral substrate at the putative outbreak center, and 10% of an estimated 588 m2 of available hard coral substrate at the adjacent area. The sponge was observed at only one other site around Mauritius. Terpios hoshinota and A. austera increased their planar areas by 26.9 and 13.9%, respectively, over five months. No new colonies of T. hoshinota were recorded in adjacent sponge-free control areas, suggesting that sponge recruitment is very low during austral winter and spring. The sponge was observed to overgrow five stony corals; however, it showed a preference for branching corals, especially A. austera. This is the first time that a statistically significant coral substrate preference by T. hoshinota has been reported. Terpios hoshinota also had a significantly higher photosynthetic capacity than A. austera at irradiance[500 lmol photons m-2 s-1, a possible explanation for its high spreading rate. We discuss the longterm implications of the proliferation of T. hoshinota on community structure and dynamics of our study site.
Indian Ocean
Tropical Indian Ocean and Red Sea
Biodiversity, Taxonomic and ecological diversity
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