Carbon dioxide uptake by Bostrychia scorpioides (Rhodophyceae) under emersed conditions

JESÚS M. MERCADO; F. XAVIER NIELL

doi:10.1080/09670260010001735611

Abstract

Inorganic carbon acquisition under emerged conditions was studied in the red macroalga Bostrychia scorpioides by investigating the effects of changes in the pH of the water film surrounding the thalli when emerged and of inhibitors of carbonic anhydrase (CA; EC 4.2.1.1). The CO2 uptake rate increased by approximately 150% when the pH of the water film was changed from 8·1 to 10·5. Acetazolamide (AZ), an inhibitor of the external CA, inhibited CO2 uptake by 50% at pH values higher than 8·7. The effect of ethoxyzolamide (EZ), an inhibitor of both external and internal CA, was more pronounced than that of AZ, inhibiting the CO2 uptake rates by 80% at all the pH values assayed. At pH 10·5, CO2 flux into the cells exceeded by several orders of magnitude the flux supported by the spontaneous dehydration of HCO3− to CO2 in the water film. From these results it was concluded that the main source of inorganic carbon was atmospheric CO2. The driving force for the flux of atmospheric CO2 into the cell must be the CO2 concentration gradient. Therefore, low internal CO2 concentration might be necessary to account for the CO2 fluxes measured. The function of the internal CA could be to speed up the transformation of CO2 into HCO3− inside the cell. The function of the external CA could not be fully described from the experiments although it was demonstrated that the external enzyme enhanced the CO2 flux from air to cell surface.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Invers, Olga Zimmerman, Richard C Alberte, Randall S Pérez, Marta and Romero, Javier 2001. Inorganic carbon sources for seagrass photosynthesis: an experimental evaluation of bicarbonate use in species inhabiting temperate waters. Journal of Experimental Marine Biology and Ecology, Vol. 265, Issue. 2, p. 203.

Machás, Raquel Santos, Rui and Peterson, Bruce 2003. Tracing the flow of organic matter from primary producers to filter feeders in Ria Formosa lagoon, Southern Portugal. Estuaries, Vol. 26, Issue. 4, p. 846.

Murru, Maurizio and Sandgren, Craig D. 2004. HABITAT MATTERS FOR INORGANIC CARBON ACQUISITION IN 38 SPECIES OF RED MACROALGAE (RHODOPHYTA) FROM PUGET SOUND, WASHINGTON, USA1. Journal of Phycology, Vol. 40, Issue. 5, p. 837.

Raven, John A Ball, Lucy A Beardall, John Giordano, Mario and Maberly, Stephen C 2005. Algae lacking carbon-concentrating mechanisms. Canadian Journal of Botany, Vol. 83, Issue. 7, p. 879.

Zou, Dinghui Gao, Kunshan and Ruan, Zuoxi 2007. Daily timing of emersion and elevated atmospheric CO2concentration affect photosynthetic performance of the intertidal macroalgaUlva lactuca(Chlorophyta) in sunlight. botm, Vol. 50, Issue. 5-6, p. 275.

Wu, HongYan Zou, DingHui and Gao, KunShan 2008. Impacts of increased atmospheric CO2 concentration on photosynthesis and growth of micro- and macro-algae. Science in China Series C: Life Sciences, Vol. 51, Issue. 12, p. 1144.

Mercado, Jesús M. de los Santos, Carmen B. Lucas Pérez-Lloréns, J. and Vergara, Juan J. 2009. Carbon isotopic fractionation in macroalgae from Cádiz Bay (Southern Spain): Comparison with other bio-geographic regions. Estuarine, Coastal and Shelf Science, Vol. 85, Issue. 3, p. 449.

Mercado, Jesús M. and Gordillo, F. J. L. 2011. Inorganic carbon acquisition in algal communities: are the laboratory data relevant to the natural ecosystems?. Photosynthesis Research, Vol. 109, Issue. 1-3, p. 257.

Suárez-Álvarez, Sonia Gómez-Pinchetti, Juan Luis and García-Reina, Guillermo 2012. Effects of increased CO2 levels on growth, photosynthesis, ammonium uptake and cell composition in the macroalga Hypnea spinella (Gigartinales, Rhodophyta). Journal of Applied Phycology, Vol. 24, Issue. 4, p. 815.

Ní Longphuirt, S Eschmann, C Russell, C and Stengel, DB 2013. Seasonal and species-specific response of five brown macroalgae to high atmospheric CO2. Marine Ecology Progress Series, Vol. 493, Issue. , p. 91.

Ruiz-Nieto, Miriam Fernández, José A. Niell, F. Xavier and Carmona, Raquel 2014. Mechanisms of inorganic carbon acquisition in two estuarine Rhodophyceans: Bostrychia scorpioides (Hudson) ex Kützing Montagne and Catenella caespitosa (Withering) L. M. Irvine. Photosynthesis Research, Vol. 121, Issue. 2-3, p. 277.

Maberly, Stephen C. 2014. The fitness of the environments of air and water for photosynthesis, growth, reproduction and dispersal of photoautotrophs: An evolutionary and biogeochemical perspective. Aquatic Botany, Vol. 118, Issue. , p. 4.

Wu, Hailong Huo, Yuanzi Zhang, Jianheng Liu, Yuanyuan Zhao, Yating and He, Peimin 2015. Bioremediation efficiency of the largest scale artificial Porphyra yezoensis cultivation in the open sea in China. Marine Pollution Bulletin, Vol. 95, Issue. 1, p. 289.

Xu, Juntian and Gao, Kunshan 2015. Photosynthetic Performance of the Red Alga Pyropia haitanensis During Emersion, With Special Reference to Effects of Solar UV Radiation, Dehydration and Elevated CO2 Concentration. Photochemistry and Photobiology, Vol. 91, Issue. 6, p. 1376.

Gao, Shan Sun, Qinghai Tao, Yueliang Wang, Xulei Li, Wei Huan, Li Wu, Mingjiang and Wang, Guangce 2016. A decline in macro-algae species resulting in the overwhelming prevalence of Corallina species is caused by low-pH seawater induced by short-term acid rain. Journal of Experimental Marine Biology and Ecology, Vol. 475, Issue. , p. 144.

Faivre, Sanja Bakran-Petricioli, Tatjana Barešić, Jadranka Morhange, Christophe and Borković, Damir 2019. Marine radiocarbon reservoir age of the coralline intertidal alga Lithophyllum byssoides in the Mediterranean. Quaternary Geochronology, Vol. 51, Issue. , p. 15.

Borburema, Henrique D.S. Yokoya, Nair S. Soares, Luanda Pereira Souza, Jônatas Martinez Canuto de Nauer, Fabio Fujii, Mutue Toyota Pasqualetti, Cesar Bertagia Miranda, George Emmanuel Cavalcanti de and Marinho-Soriano, Eliane 2022. Mangrove macroalgae increase their growth under ocean acidification: A study with Bostrychia (Rhodophyta) haplotypes from different biogeographic provinces. Journal of Experimental Marine Biology and Ecology, Vol. 552, Issue. , p. 151740.

Sánchez de Pedro, Raquel Niell, F.X. and Carmona, Raquel 2022. Close but distant: Emersion promotes ecophysiological differentiation between two rhodophytes within an estuarine intertidal zone. Journal of Experimental Marine Biology and Ecology, Vol. 547, Issue. , p. 151664.

Borburema, Henrique D.S. Yokoya, Nair S. Souza, Jônatas Martinez Canuto de Nauer, Fabio Barbosa-Silva, Marcelle Stephanne and Marinho-Soriano, Eliane 2022. Ocean warming and increased salinity threaten Bostrychia (Rhodophyta) species from genetically divergent populations. Marine Environmental Research, Vol. 178, Issue. , p. 105662.

Chen, Qionglin Li, Jiaqi Xue, Suyan Xu, Han Jiang, Zengjie Fang, Jiangguang and Mao, Yuze 2022. Strategies of carbon use and photosynthetic performance of the two seaweeds Gracilaria chouae and Gracilariopsis lemaneiformis under different conditions of the carbonate system. Algal Research, Vol. 64, Issue. , p. 102713.

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Carbon dioxide uptake by Bostrychia scorpioides (Rhodophyceae) under emersed conditions

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Carbon dioxide uptake by Bostrychia scorpioides (Rhodophyceae) under emersed conditions

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