Plasticity in skeletal characteristics of nursery-raised staghorn coral, Acropora cervicornis

Staghorn coral, Acropora cervicornis , is a threatened species and the primary focus of western Atlantic reef restoration efforts to date. We compared linear extension, calcification rate, and skeletal density of nursery-raised A. cervicornis branches reared for 6 months either on blocks attached to...

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Veröffentlicht in:	Coral reefs 2017-09, Vol.36 (3), p.679-684
Hauptverfasser:	Kuffner, Ilsa B., Bartels, Erich, Stathakopoulos, Anastasios, Enochs, Ian C., Kolodziej, G., Toth, Lauren T., Manzello, Derek P.
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Sprache:	eng
Schlagworte:	Acropora cervicornis Biomedical and Life Sciences Branches Buoyancy Calcification Calcium Calcium carbonate Calcium carbonates Carbonates Computed tomography Coral reefs Density Endangered & extinct species Fragments Freshwater & Marine Ecology Genotypes Individual rearing Life Sciences Oceanography Plasticity Polyvinyl chloride Production methods Rare species Restoration Substrata Threatened species Tomography Variability Water column Weighing
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container_title	Coral reefs
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creator	Kuffner, Ilsa B. Bartels, Erich Stathakopoulos, Anastasios Enochs, Ian C. Kolodziej, G. Toth, Lauren T. Manzello, Derek P.
description	Staghorn coral, Acropora cervicornis , is a threatened species and the primary focus of western Atlantic reef restoration efforts to date. We compared linear extension, calcification rate, and skeletal density of nursery-raised A. cervicornis branches reared for 6 months either on blocks attached to substratum or hanging from PVC trees in the water column. We demonstrate that branches grown on the substratum had significantly higher skeletal density, measured using computerized tomography, and lower linear extension rates compared to water-column fragments. Calcification rates determined with buoyant weighing were not statistically different between the two grow-out methods, but did vary among coral genotypes. Whereas skeletal density and extension rates were plastic traits that depended on grow-out method, calcification rate was conserved. Our results show that the two rearing methods generate the same amount of calcium carbonate skeleton but produce colonies with different skeletal characteristics and suggest that there is genetically based variability in coral calcification performance.
doi_str_mv	10.1007/s00338-017-1560-2
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We compared linear extension, calcification rate, and skeletal density of nursery-raised A. cervicornis branches reared for 6 months either on blocks attached to substratum or hanging from PVC trees in the water column. We demonstrate that branches grown on the substratum had significantly higher skeletal density, measured using computerized tomography, and lower linear extension rates compared to water-column fragments. Calcification rates determined with buoyant weighing were not statistically different between the two grow-out methods, but did vary among coral genotypes. Whereas skeletal density and extension rates were plastic traits that depended on grow-out method, calcification rate was conserved. Our results show that the two rearing methods generate the same amount of calcium carbonate skeleton but produce colonies with different skeletal characteristics and suggest that there is genetically based variability in coral calcification performance.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s00338-017-1560-2</doi><tpages>6</tpages></addata></record>
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subjects	Acropora cervicornis Biomedical and Life Sciences Branches Buoyancy Calcification Calcium Calcium carbonate Calcium carbonates Carbonates Computed tomography Coral reefs Density Endangered & extinct species Fragments Freshwater & Marine Ecology Genotypes Individual rearing Life Sciences Oceanography Plasticity Polyvinyl chloride Production methods Rare species Restoration Substrata Threatened species Tomography Variability Water column Weighing
title	Plasticity in skeletal characteristics of nursery-raised staghorn coral, Acropora cervicornis
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