Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity?
Porites and Montastraea are the major reefbuilding massive coral genera in the Indo-Pacific and Atlantic oceans, respectively. They are also the most commonly used genera in sclerochronological studies. Despite the marked differences in the way these genera use calcareous material to construct their skeletons (growth strategies) and in their skeletal architectural structure, they form annual high and low density bands in their skeletons, that result from the positive relationship of coral calcification rate with sea surface temperature and seasonal changes of the latter. Evidence in the literature suggests that the different growth strategies allow these organisms to construct denser skeletons far from terrigenous inputs, on reefs where microborers' activity is high. It seems quite probable that this has consequences for the evolution, diversity, distribution and abundance of reef corals.
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Subjects: | Corales, Porites, Montastraea, Arrecifes de coral, |
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KOHA-OAI-ECOSUR:458842024-03-12T13:00:34ZAnnual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? Carricart Ganivet, Juan P. Doctor autor/a 2031 textengPorites and Montastraea are the major reefbuilding massive coral genera in the Indo-Pacific and Atlantic oceans, respectively. They are also the most commonly used genera in sclerochronological studies. Despite the marked differences in the way these genera use calcareous material to construct their skeletons (growth strategies) and in their skeletal architectural structure, they form annual high and low density bands in their skeletons, that result from the positive relationship of coral calcification rate with sea surface temperature and seasonal changes of the latter. Evidence in the literature suggests that the different growth strategies allow these organisms to construct denser skeletons far from terrigenous inputs, on reefs where microborers' activity is high. It seems quite probable that this has consequences for the evolution, diversity, distribution and abundance of reef corals.Porites and Montastraea are the major reefbuilding massive coral genera in the Indo-Pacific and Atlantic oceans, respectively. They are also the most commonly used genera in sclerochronological studies. Despite the marked differences in the way these genera use calcareous material to construct their skeletons (growth strategies) and in their skeletal architectural structure, they form annual high and low density bands in their skeletons, that result from the positive relationship of coral calcification rate with sea surface temperature and seasonal changes of the latter. Evidence in the literature suggests that the different growth strategies allow these organisms to construct denser skeletons far from terrigenous inputs, on reefs where microborers' activity is high. It seems quite probable that this has consequences for the evolution, diversity, distribution and abundance of reef corals.Adobe Acrobat profesional 6.0 o superiorCoralesPoritesMontastraeaArrecifes de coralDisponible en líneaMarine BiologyDisponible para usuarios de ECOSUR con su clave de acceso |
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Corales Porites Montastraea Arrecifes de coral Corales Porites Montastraea Arrecifes de coral |
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Corales Porites Montastraea Arrecifes de coral Corales Porites Montastraea Arrecifes de coral Carricart Ganivet, Juan P. Doctor autor/a 2031 Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
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Porites and Montastraea are the major reefbuilding massive coral genera in the Indo-Pacific and Atlantic oceans, respectively. They are also the most commonly used genera in sclerochronological studies. Despite the marked differences in the way these genera use calcareous material to construct their skeletons (growth strategies) and in their skeletal architectural structure, they form annual high and low density bands in their skeletons, that result from the positive relationship of coral calcification rate with sea surface temperature and seasonal changes of the latter. Evidence in the literature suggests that the different growth strategies allow these organisms to construct denser skeletons far from terrigenous inputs, on reefs where microborers' activity is high. It seems quite probable that this has consequences for the evolution, diversity, distribution and abundance of reef corals. |
format |
Texto |
topic_facet |
Corales Porites Montastraea Arrecifes de coral |
author |
Carricart Ganivet, Juan P. Doctor autor/a 2031 |
author_facet |
Carricart Ganivet, Juan P. Doctor autor/a 2031 |
author_sort |
Carricart Ganivet, Juan P. Doctor autor/a 2031 |
title |
Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
title_short |
Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
title_full |
Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
title_fullStr |
Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
title_full_unstemmed |
Annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
title_sort |
annual density banding in massive coral skeletons result of growth strategies to inhabit reefs with high microborers' activity? |
work_keys_str_mv |
AT carricartganivetjuanpdoctorautora2031 annualdensitybandinginmassivecoralskeletonsresultofgrowthstrategiestoinhabitreefswithhighmicroborersactivity |
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1794791220090765312 |