Add to ORKGReef-building or hermatypic corals are limited in their geographical distribution to the warmer waters of tropical oceans. Significant coral growth occurs only in water ranging from 180 C to 330 C, and massive reefs form only at temperatures toward the upper end of this temperature range (Wells, 1957). The coral skeleton is composed almost entirely of calcium carbonate (CaC03) with the crystalline structure of aragonite; calcite is completely absent. H. Lowenstam (1954) has suggested that the failure of corals to produce any calcite may be the factor influencing the smaller number of scleractinian species in cooler water. Organisms that can produce both aragonite and calcite tend to produce calcite during colder seasons and aragonite during...
[1] A relationship has been established between the Sr/Ca ratio in the skeleton of the scleractinian...
International audienceThe skeleton of scleractinian corals is commonly believed to be composed entir...
Using living corals collected from Okinawan coral reefs, laboratory experiments were performed to in...
A method for quantitatively comparing calcification rates in coral was used to find an optimum growt...
peer reviewedThe carbonate chemistry of seawater is usually not considered to be an important factor...
Introduction: Correlations between sea surface temperature (SST) and growth parameters of the solita...
Ocean acidification typically reduces the calcification rates of massive Porites spp. corals, but in...
Ocean acidification typically reduces the calcification rates of massive Porites spp. corals but inc...
Aragonite, which is the polymorph of CaCO<sub>3</sub> precipitated by modern corals during skeletal ...
Using living corals collected from Okinawan coral reefs, laboratory experiments were performed to in...
Temperature-dependent aragonite and calcite formation by scleractinian corals were examined in low m...
International audienceWith climate projections questioning the future survival of stony corals and t...
The correlation between solar radiation and sea surface temperature (SST) and growth was assessed al...
The high precision measurement of the Sr/Ca ratio in corals has the potential for measuring past sea...
[1] A relationship has been established between the Sr/Ca ratio in the skeleton of the scleractinian...
International audienceThe skeleton of scleractinian corals is commonly believed to be composed entir...
Using living corals collected from Okinawan coral reefs, laboratory experiments were performed to in...
A method for quantitatively comparing calcification rates in coral was used to find an optimum growt...
peer reviewedThe carbonate chemistry of seawater is usually not considered to be an important factor...
Introduction: Correlations between sea surface temperature (SST) and growth parameters of the solita...
Ocean acidification typically reduces the calcification rates of massive Porites spp. corals, but in...
Ocean acidification typically reduces the calcification rates of massive Porites spp. corals but inc...
Aragonite, which is the polymorph of CaCO<sub>3</sub> precipitated by modern corals during skeletal ...
Using living corals collected from Okinawan coral reefs, laboratory experiments were performed to in...
Temperature-dependent aragonite and calcite formation by scleractinian corals were examined in low m...
International audienceWith climate projections questioning the future survival of stony corals and t...
The correlation between solar radiation and sea surface temperature (SST) and growth was assessed al...
The high precision measurement of the Sr/Ca ratio in corals has the potential for measuring past sea...
[1] A relationship has been established between the Sr/Ca ratio in the skeleton of the scleractinian...
International audienceThe skeleton of scleractinian corals is commonly believed to be composed entir...
Using living corals collected from Okinawan coral reefs, laboratory experiments were performed to in...