Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis

Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis

The supply of metabolites from symbionts to scleractinian corals is crucial to coral health. Members of the Symbiodiniaceae can enhance coral calcification by providing photosynthetically fixed carbon (PFC) and energy, whereas dinitrogen (N2)-fixing bacteria can provide additional nutrients such as...

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Main Authors: Xinqing Zheng, Chenying Wang, Huaxia Sheng, Gaofeng Niu, Xu Dong, Lingling Yuan, Tuo Shi
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-04-01
Series:Frontiers in Marine Science
Subjects:
ocean acidification
coral calcification
carbon fixation
nitrogen fixation
symbiosis
photosynthesis
Online Access:https://www.frontiersin.org/articles/10.3389/fmars.2021.644965/full
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spelling doaj-e2a148f80af14672abd8d9eaa132cccf2021-04-22T05:18:11ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452021-04-01810.3389/fmars.2021.644965644965Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularisXinqing Zheng0Xinqing Zheng1Xinqing Zheng2Chenying Wang3Chenying Wang4Huaxia Sheng5Gaofeng Niu6Xu Dong7Xu Dong8Lingling Yuan9Tuo Shi10Tuo Shi11Third Institute of Oceanography, Ministry of Natural Resources, Xiamen, ChinaFujian Provincial Key Laboratory of Marine Ecological Conservation and Restoration, Xiamen, ChinaFujian Provincial Station for Field Observation and Research of Island and Coastal Zone, Zhangzhou, ChinaThird Institute of Oceanography, Ministry of Natural Resources, Xiamen, ChinaState Key Laboratory of Marine Environmental Science, College of Ocean and Earth Sciences, Xiamen University, Xiamen, ChinaState Key Laboratory of Marine Environmental Science, College of Ocean and Earth Sciences, Xiamen University, Xiamen, ChinaMarine Genomics and Biotechnology Program, Institute of Marine Science and Technology, Shandong University, Qingdao, ChinaThird Institute of Oceanography, Ministry of Natural Resources, Xiamen, ChinaFujian Provincial Key Laboratory of Marine Ecological Conservation and Restoration, Xiamen, ChinaNational Center of Ocean Standard and Metrology, Tianjin, ChinaState Key Laboratory of Marine Environmental Science, College of Ocean and Earth Sciences, Xiamen University, Xiamen, ChinaMarine Genomics and Biotechnology Program, Institute of Marine Science and Technology, Shandong University, Qingdao, ChinaThe supply of metabolites from symbionts to scleractinian corals is crucial to coral health. Members of the Symbiodiniaceae can enhance coral calcification by providing photosynthetically fixed carbon (PFC) and energy, whereas dinitrogen (N2)-fixing bacteria can provide additional nutrients such as diazotrophically-derived nitrogen (DDN) that sustain coral productivity especially when alternative external nitrogen sources are scarce. How these mutualistic associations benefit corals in the future acidifying ocean is not well understood. In this study, we investigated the possible effects of ocean acidification (OA; pHs 7.7 and 7.4 vs. 8.1) on calcification in the hermatypic coral Galaxea fascicularis with respect to PFC and DDN assimilation. Our measurements based on isotopic tracing showed no significant differences in the assimilation of PFC among different pH treatments, but the assimilation of DDN decreased significantly after 28 days of stress at pH 7.4. The decreased DDN assimilation suggests a nitrogenous nutrient deficiency in the coral holotiont, potentially leading to reduced coral calcification and resilience to bleaching and other stressful events. This contrasting impact of OA on carbon and N flux demonstrates the flexibility of G. fascicularis in coping with OA, apparently by sustaining a largely undamaged photosystem at the expense of N2 fixation machinery, which competes with coral calcification for energy from photosynthesis. These findings shed new light on the critically important but more vulnerable N cycling in hospite, and on the trade-off between coral hosts and symbionts in response to future climate change.https://www.frontiersin.org/articles/10.3389/fmars.2021.644965/fullocean acidificationcoral calcificationcarbon fixationnitrogen fixationsymbiosisphotosynthesis
collection DOAJ
language English
format Article
sources DOAJ
author Xinqing Zheng
Xinqing Zheng
Xinqing Zheng
Chenying Wang
Chenying Wang
Huaxia Sheng
Gaofeng Niu
Xu Dong
Xu Dong
Lingling Yuan
Tuo Shi
Tuo Shi
spellingShingle Xinqing Zheng
Xinqing Zheng
Xinqing Zheng
Chenying Wang
Chenying Wang
Huaxia Sheng
Gaofeng Niu
Xu Dong
Xu Dong
Lingling Yuan
Tuo Shi
Tuo Shi
Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
Frontiers in Marine Science
ocean acidification
coral calcification
carbon fixation
nitrogen fixation
symbiosis
photosynthesis
author_facet Xinqing Zheng
Xinqing Zheng
Xinqing Zheng
Chenying Wang
Chenying Wang
Huaxia Sheng
Gaofeng Niu
Xu Dong
Xu Dong
Lingling Yuan
Tuo Shi
Tuo Shi
author_sort Xinqing Zheng
title Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
title_short Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
title_full Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
title_fullStr Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
title_full_unstemmed Effects of Ocean Acidification on Carbon and Nitrogen Fixation in the Hermatypic Coral Galaxea fascicularis
title_sort effects of ocean acidification on carbon and nitrogen fixation in the hermatypic coral galaxea fascicularis
publisher Frontiers Media S.A.
series Frontiers in Marine Science
issn 2296-7745
publishDate 2021-04-01
description The supply of metabolites from symbionts to scleractinian corals is crucial to coral health. Members of the Symbiodiniaceae can enhance coral calcification by providing photosynthetically fixed carbon (PFC) and energy, whereas dinitrogen (N2)-fixing bacteria can provide additional nutrients such as diazotrophically-derived nitrogen (DDN) that sustain coral productivity especially when alternative external nitrogen sources are scarce. How these mutualistic associations benefit corals in the future acidifying ocean is not well understood. In this study, we investigated the possible effects of ocean acidification (OA; pHs 7.7 and 7.4 vs. 8.1) on calcification in the hermatypic coral Galaxea fascicularis with respect to PFC and DDN assimilation. Our measurements based on isotopic tracing showed no significant differences in the assimilation of PFC among different pH treatments, but the assimilation of DDN decreased significantly after 28 days of stress at pH 7.4. The decreased DDN assimilation suggests a nitrogenous nutrient deficiency in the coral holotiont, potentially leading to reduced coral calcification and resilience to bleaching and other stressful events. This contrasting impact of OA on carbon and N flux demonstrates the flexibility of G. fascicularis in coping with OA, apparently by sustaining a largely undamaged photosystem at the expense of N2 fixation machinery, which competes with coral calcification for energy from photosynthesis. These findings shed new light on the critically important but more vulnerable N cycling in hospite, and on the trade-off between coral hosts and symbionts in response to future climate change.
topic ocean acidification
coral calcification
carbon fixation
nitrogen fixation
symbiosis
photosynthesis
url https://www.frontiersin.org/articles/10.3389/fmars.2021.644965/full
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