COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS

Previous studies have shown that increasing atmospheric CO2 concentrations affect calcification in some planktonic and macroalgal calcifiers due to the changed carbonate chemistry of seawater. However, little is known regarding how calcifying algae respond to solar UV radiation (UVR, UVA+UVB, 280-40...

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Main Authors:	Gao, K., Zheng, Y., 高坤山
Format:	Article in Journal/Newspaper
Language:	English
Published:	2009
Subjects:	Ocean acidification
Online Access:	http://dspace.xmu.edu.cn/handle/2288/60858

id	ftxiamenuniv:oai:dspace.xmu.edu.cn:2288/60858
record_format	openpolar
spelling	ftxiamenuniv:oai:dspace.xmu.edu.cn:2288/60858 2023-05-15T17:50:07+02:00 COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS Gao, K. Zheng, Y. 高坤山 2009-07 http://dspace.xmu.edu.cn/handle/2288/60858 en_US eng Phycologia, 2009,48(4):34-34 0031-8884 WOS:000268126900097 http://dspace.xmu.edu.cn/handle/2288/60858 Article 2009 ftxiamenuniv 2020-07-21T11:32:24Z Previous studies have shown that increasing atmospheric CO2 concentrations affect calcification in some planktonic and macroalgal calcifiers due to the changed carbonate chemistry of seawater. However, little is known regarding how calcifying algae respond to solar UV radiation (UVR, UVA+UVB, 280-400 nm). UVR may act synergistically, antagonistically or independently with ocean acidification (high CO2/low pH of seawater) to affect their calcification processes. We cultured the articulated coralline alga Corallina sessilis Yendo at 380 ppmv (low) and 1000 ppmv (high) CO2 levels while exposing the alga to solar radiation treatments with or without UVR. The presence of UVR inhibited the growth, photosynthetic O-2 evolution and calcification rates by13%, 6% and 3% in the low and by 47%, 20% and 8% in the high CO2 concentrations, respectively, reflecting a synergistic effect of CO2 enrichment with UVR. UVR induced significant decline of pH in the CO2-enriched cultures. The contents of key photosynthetic pigments, chlorophyll a and phycobiliproteins decreased, while UV-absorptivity increased under the high pCO(2)/low pH condition. Nevertheless, UV-induced inhibition of photosynthesis increased when the ratio of particulate inorganic carbon/particulate organic carbon decreased under the influence of CO2-acidified seawater, suggesting that the calcified layer played a UV-protective role. Both UVA and UVB negatively impacted photosynthesis and calcification, but the inhibition caused by UVB was about 2.5-2.6 times that caused by UVA. The results imply that coralline algae suffer from more damage caused by UVB as they calcify less and less with progressing ocean acidification. Article in Journal/Newspaper Ocean acidification Xiamen University Institutional Repository
institution	Open Polar
collection	Xiamen University Institutional Repository
op_collection_id	ftxiamenuniv
language	English
description	Previous studies have shown that increasing atmospheric CO2 concentrations affect calcification in some planktonic and macroalgal calcifiers due to the changed carbonate chemistry of seawater. However, little is known regarding how calcifying algae respond to solar UV radiation (UVR, UVA+UVB, 280-400 nm). UVR may act synergistically, antagonistically or independently with ocean acidification (high CO2/low pH of seawater) to affect their calcification processes. We cultured the articulated coralline alga Corallina sessilis Yendo at 380 ppmv (low) and 1000 ppmv (high) CO2 levels while exposing the alga to solar radiation treatments with or without UVR. The presence of UVR inhibited the growth, photosynthetic O-2 evolution and calcification rates by13%, 6% and 3% in the low and by 47%, 20% and 8% in the high CO2 concentrations, respectively, reflecting a synergistic effect of CO2 enrichment with UVR. UVR induced significant decline of pH in the CO2-enriched cultures. The contents of key photosynthetic pigments, chlorophyll a and phycobiliproteins decreased, while UV-absorptivity increased under the high pCO(2)/low pH condition. Nevertheless, UV-induced inhibition of photosynthesis increased when the ratio of particulate inorganic carbon/particulate organic carbon decreased under the influence of CO2-acidified seawater, suggesting that the calcified layer played a UV-protective role. Both UVA and UVB negatively impacted photosynthesis and calcification, but the inhibition caused by UVB was about 2.5-2.6 times that caused by UVA. The results imply that coralline algae suffer from more damage caused by UVB as they calcify less and less with progressing ocean acidification.
format	Article in Journal/Newspaper
author	Gao, K. Zheng, Y. 高坤山
spellingShingle	Gao, K. Zheng, Y. 高坤山 COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
author_facet	Gao, K. Zheng, Y. 高坤山
author_sort	Gao, K.
title	COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
title_short	COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
title_full	COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
title_fullStr	COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
title_full_unstemmed	COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS
title_sort	combined effects of ocean acidification and solar uv radiation on the coralline alga corallina sessilis
publishDate	2009
url	http://dspace.xmu.edu.cn/handle/2288/60858
genre	Ocean acidification
genre_facet	Ocean acidification
op_relation	Phycologia, 2009,48(4):34-34 0031-8884 WOS:000268126900097 http://dspace.xmu.edu.cn/handle/2288/60858
_version_	1766156732727296000

COMBINED EFFECTS OF OCEAN ACIDIFICATION AND SOLAR UV RADIATION ON THE CORALLINE ALGA CORALLINA SESSILIS

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