Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals

Ocean acidification is altering the calcification of corals, but the mechanism is still unclear. To explore what controls calcification, small pieces from the edges of thin plates of Agaricia agaricites were suspended from a torsion microbalance into gently stirred, temperaturecontrolled, seawater....

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Bibliographic Details
Main Author: Ian M Sandeman
Format: Article in Journal/Newspaper
Language:English
Spanish
Published: Vicerractoría Investigación 2012
Subjects:
calcificación de corales
CO2
pH
temperatura
matriz orgánica
anhidrasa carbónica
Biology (General)
QH301-705.5
Ocean acidification
Online Access:https://doaj.org/article/0551e6e5754e4ddf977838942ed832f7
id ftdoajarticles:oai:doaj.org/article:0551e6e5754e4ddf977838942ed832f7
record_format openpolar
spelling ftdoajarticles:oai:doaj.org/article:0551e6e5754e4ddf977838942ed832f7 2023-10-01T03:58:39+02:00 Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals Ian M Sandeman 2012-03-01T00:00:00Z https://doaj.org/article/0551e6e5754e4ddf977838942ed832f7 EN ES eng spa Vicerractoría Investigación http://www.scielo.sa.cr/scielo.php?script=sci_arttext&pid=S0034-77442012000500010&lng=en&tlng=en https://doaj.org/toc/0034-7744 0034-7744 https://doaj.org/article/0551e6e5754e4ddf977838942ed832f7 Revista de Biología Tropical, Vol 60, Iss suppl 1, Pp 109-126 (2012) calcificación de corales CO2 pH temperatura matriz orgánica anhidrasa carbónica Biology (General) QH301-705.5 article 2012 ftdoajarticles 2023-09-03T00:35:45Z Ocean acidification is altering the calcification of corals, but the mechanism is still unclear. To explore what controls calcification, small pieces from the edges of thin plates of Agaricia agaricites were suspended from a torsion microbalance into gently stirred, temperaturecontrolled, seawater. Net calcification rates were monitored while light, temperature and pH were manipulated singly. The living coral pieces were sensitive to changes in conditions, especially light, and calcification was often suspended for one or two hours or overnight. The mean calcification rate increased from 0.06 in the dark to 0.10 mg.h-1.cm-2 (T test, n=8, p<0.01) in low light (15 μmol.s-1.m-2) and showed a positive linear relationship with temperature. With a reduction of mean pH from 8.2 to 7.6 the mean calcification rate in the light (65 μmol.s-1.m-2) increased from 0.19 to 0.28 mg.h-1.cm-2 (T test, n=8, p<0.05) indicating a dependency on carbon dioxide. After waterpiking and exposure of the skeletal surface/organic matrix to seawater, calcification showed an astonishing initial increase of more than an order of magnitude then decreased following a non-linear generalised Michaelis-Menten growth curve and reached a steady rate. Calcification rate of the freshly waterpiked coral was not influenced by light and was positively correlated with temperature. For a mean pH reduction from 8.1 to 7.6 the mean calcification rate increased from 0.18 to 0.32 mg.h-1.cm-2 (T test, n=11, p<0.02) again indicating a dependency on carbon dioxide. Calcification ceased in the presence of the carbonic anhydrase inhibitor azolamide. Staining confirmed the presence of carbonic anhydrase, particularly on the ridges of septae. After immersion of waterpiked corals in seawater for 48 hours weight gain and loss became linear and positively correlated to temperature. When the mean pH was reduced from 8.2 to 7.5 the mean rate of weight gain decreased from 0.25 to 0.13 mg.h-1.cm-2 (T test, n=6, p<0.05) indicating a dependence on carbonate. At a pH ... Article in Journal/Newspaper Ocean acidification Directory of Open Access Journals: DOAJ Articles
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
Spanish
topic calcificación de corales
CO2
pH
temperatura
matriz orgánica
anhidrasa carbónica
Biology (General)
QH301-705.5
spellingShingle calcificación de corales
CO2
pH
temperatura
matriz orgánica
anhidrasa carbónica
Biology (General)
QH301-705.5
Ian M Sandeman
Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
topic_facet calcificación de corales
CO2
pH
temperatura
matriz orgánica
anhidrasa carbónica
Biology (General)
QH301-705.5
description Ocean acidification is altering the calcification of corals, but the mechanism is still unclear. To explore what controls calcification, small pieces from the edges of thin plates of Agaricia agaricites were suspended from a torsion microbalance into gently stirred, temperaturecontrolled, seawater. Net calcification rates were monitored while light, temperature and pH were manipulated singly. The living coral pieces were sensitive to changes in conditions, especially light, and calcification was often suspended for one or two hours or overnight. The mean calcification rate increased from 0.06 in the dark to 0.10 mg.h-1.cm-2 (T test, n=8, p<0.01) in low light (15 μmol.s-1.m-2) and showed a positive linear relationship with temperature. With a reduction of mean pH from 8.2 to 7.6 the mean calcification rate in the light (65 μmol.s-1.m-2) increased from 0.19 to 0.28 mg.h-1.cm-2 (T test, n=8, p<0.05) indicating a dependency on carbon dioxide. After waterpiking and exposure of the skeletal surface/organic matrix to seawater, calcification showed an astonishing initial increase of more than an order of magnitude then decreased following a non-linear generalised Michaelis-Menten growth curve and reached a steady rate. Calcification rate of the freshly waterpiked coral was not influenced by light and was positively correlated with temperature. For a mean pH reduction from 8.1 to 7.6 the mean calcification rate increased from 0.18 to 0.32 mg.h-1.cm-2 (T test, n=11, p<0.02) again indicating a dependency on carbon dioxide. Calcification ceased in the presence of the carbonic anhydrase inhibitor azolamide. Staining confirmed the presence of carbonic anhydrase, particularly on the ridges of septae. After immersion of waterpiked corals in seawater for 48 hours weight gain and loss became linear and positively correlated to temperature. When the mean pH was reduced from 8.2 to 7.5 the mean rate of weight gain decreased from 0.25 to 0.13 mg.h-1.cm-2 (T test, n=6, p<0.05) indicating a dependence on carbonate. At a pH ...
format Article in Journal/Newspaper
author Ian M Sandeman
author_facet Ian M Sandeman
author_sort Ian M Sandeman
title Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
title_short Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
title_full Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
title_fullStr Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
title_full_unstemmed Preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
title_sort preliminary results with a torsion microbalance indicate that carbon dioxide and exposed carbonic anhydrase in the organic matrix are the basis of calcification on the skeleton surface of living corals
publisher Vicerractoría Investigación
publishDate 2012
url https://doaj.org/article/0551e6e5754e4ddf977838942ed832f7
genre Ocean acidification
genre_facet Ocean acidification
op_source Revista de Biología Tropical, Vol 60, Iss suppl 1, Pp 109-126 (2012)
op_relation http://www.scielo.sa.cr/scielo.php?script=sci_arttext&pid=S0034-77442012000500010&lng=en&tlng=en
https://doaj.org/toc/0034-7744
0034-7744
https://doaj.org/article/0551e6e5754e4ddf977838942ed832f7
_version_ 1778531617107607552

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