We surveyed the intensity of competition for reef space between sponges and corals at the Rocky Point patch reef adjacent to San Salvador Island, The Bahamas. Our working hypothesis was that, because of a dearth of predators, fast growing, chemically unprotected sponges more likely to be involved in competitive interactions. Results indicate that competition for reef space was widespread, but contrary to our hypothesis no sponge or coral species was disproportionately more involved in these interactions. These results contradict previous studies on Rocky Point reef and in our discussion we propose an explanation for this discrepancy
This study describes the in situ effects of four bioactive sponges on their neighbours at three diff...
Sponges contribute to large number of functions in coral reef ecosystems. Among these, bioerosion is...
Abstract. The Caribbean sponge Mycale laevis is often found growing in close proximity to living scl...
We surveyed the intensity of competition for reef space between sponges and corals at the Rocky Poin...
Clionaids, an abundant group of bioeroding sponges, are important competitors of corals, but their i...
Sponges constitute an abundant and functionally important component of coral reef systems. Given the...
Caribbean coral reefs have been transformed in the past few decades with the demise of reef-building...
Caribbean coral reefs have been transformed in the past few decades with the demise of reef-building...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
<p>Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a cen...
Sessile communities provide an ideal opportunity to understand how population interactions are struc...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
Despite widespread acceptance that competition between scleractinian corals and benthic algae is imp...
<p>Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a cen...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
This study describes the in situ effects of four bioactive sponges on their neighbours at three diff...
Sponges contribute to large number of functions in coral reef ecosystems. Among these, bioerosion is...
Abstract. The Caribbean sponge Mycale laevis is often found growing in close proximity to living scl...
We surveyed the intensity of competition for reef space between sponges and corals at the Rocky Poin...
Clionaids, an abundant group of bioeroding sponges, are important competitors of corals, but their i...
Sponges constitute an abundant and functionally important component of coral reef systems. Given the...
Caribbean coral reefs have been transformed in the past few decades with the demise of reef-building...
Caribbean coral reefs have been transformed in the past few decades with the demise of reef-building...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
<p>Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a cen...
Sessile communities provide an ideal opportunity to understand how population interactions are struc...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
Despite widespread acceptance that competition between scleractinian corals and benthic algae is imp...
<p>Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a cen...
Predator-prey dynamics can affect assemblage structure and ecosystem processes representing a centra...
This study describes the in situ effects of four bioactive sponges on their neighbours at three diff...
Sponges contribute to large number of functions in coral reef ecosystems. Among these, bioerosion is...
Abstract. The Caribbean sponge Mycale laevis is often found growing in close proximity to living scl...
.jpg%3Fwidth%3D300&w=3840&q=75)
.jpg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG