Coral communities are expected to display predictable patterns of diversity and structure across depth and exposure gradients, yet these predictions have rarely been tested at oceanic locations. Here we tested 5 common ecological predictions about coral community structure at the remote Chrismas Island in the eastern Indian Ocean. Our results suggest that not all of the predictions hold true at this oceanic location, primarily because the community is structured in non-linear ways. Each surveyed depth zone (5, 12, 20 m) supported a distinctive community, yet species diversity and coral abundance did not show the expected linear increase with depth. Habitat complexity was also shown to respond non-linearly with depth, with the highest habita...
Natural gradients in altitude, depth or latitude capture systematic variation in environmental varia...
<p>We propose the “Habitat Persistence Hypothesis” (HPH) to explain patterns of diversity on tropica...
Coral reefs, one of the world's most complex and vulnerable ecosystems, face an uncertain future in ...
Aim: To describe, model and assess the relative importance of environmental and climatic factors lik...
Ecological communities are influenced by processes operating at multiple scales1-5. Thus, a better u...
More diverse communities are thought to be more stable—the diversity–stability hypothesis—due to inc...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Community ecologists now recognize that to understand patterns of biodiversity, there is an urgent n...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Rapa (27 degrees 36S, 144 degrees 20W) is a small (similar to 40km(2)) volcanic island isolated in t...
International audienceAim: Revealing how diversity varies across the depth gradient is key for under...
Rapa (27 degrees 36S, 144 degrees 20W) is a small (similar to 40km(2)) volcanic island isolated in t...
Aim: Understanding mechanisms that enhance survival outside the usual range of a taxonomic group is ...
Natural gradients in altitude, depth or latitude capture systematic variation in environmental varia...
<p>We propose the “Habitat Persistence Hypothesis” (HPH) to explain patterns of diversity on tropica...
Coral reefs, one of the world's most complex and vulnerable ecosystems, face an uncertain future in ...
Aim: To describe, model and assess the relative importance of environmental and climatic factors lik...
Ecological communities are influenced by processes operating at multiple scales1-5. Thus, a better u...
More diverse communities are thought to be more stable—the diversity–stability hypothesis—due to inc...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Community ecologists now recognize that to understand patterns of biodiversity, there is an urgent n...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Coral reefs are biodiverse ecosystems structured by abiotic and biotic factors operating across many...
Rapa (27 degrees 36S, 144 degrees 20W) is a small (similar to 40km(2)) volcanic island isolated in t...
International audienceAim: Revealing how diversity varies across the depth gradient is key for under...
Rapa (27 degrees 36S, 144 degrees 20W) is a small (similar to 40km(2)) volcanic island isolated in t...
Aim: Understanding mechanisms that enhance survival outside the usual range of a taxonomic group is ...
Natural gradients in altitude, depth or latitude capture systematic variation in environmental varia...
<p>We propose the “Habitat Persistence Hypothesis” (HPH) to explain patterns of diversity on tropica...
Coral reefs, one of the world's most complex and vulnerable ecosystems, face an uncertain future in ...