Litcius/Paper detail

Contribution of marine macrophytes to pCO2 and DOC variations in human-impacted coastal waters

Kenta Watanabe, Tatsuki Tokoro, Hirotada Moki, Tomohiro Kuwae

2024Biogeochemistry11 citationsDOIOpen Access PDF

Abstract

Abstract Carbon cycles in coastal waters are highly sensitive to human activities and play important roles in global carbon budgets. CO 2 sink–source behavior is regulated by spatiotemporal variations in net biological productivity, but the contribution of macrophyte habitats including macroalgae aquaculture to atmospheric CO 2 removal has not been well quantified. We investigated the variations in the carbonate system and dissolved organic carbon (DOC) in human-impacted macrophyte habitats and analyzed the biogeochemical drivers for the variations of these processes. Cultivated macroalgal metabolism (photosynthesis, respiration, calcification, and DOC release) was quantified by in situ field-bag experiments. Cultivated macroalgae took up dissolved inorganic carbon (DIC) (16.2–439 mmol-C m −2 day −1 ) and released DOC (1.2–146 mmol-C m −2 day −1 ). We estimated that seagrass beds and macroalgae farming contributed 0.8 and 0.4 mmol-C m −2 day −1 of the in situ total CO 2 removal (5.7 and 6.7 mmol-C m −2 day −1 , respectively) during their growing period in a semi-enclosed embayment but efficient water exchange (i.e., short residence time) in an open coastal area precluded detection of the contribution of macrophyte habitats to the CO 2 removal. Although hydrological processes, biological metabolism, and organic carbon storage processes would contribute to the net CO 2 sink–source behavior, our analyses distinguished the contribution of macrophytes from other factors. Our findings imply that macroalgae farming, in addition to restoring and creating macrophyte habitats, has potential for atmospheric CO 2 removal.

Topics & Concepts

MacrophyteEnvironmental scienceDissolved organic carbonBiogeochemical cycleSink (geography)Carbon cycleCarbon sinkTotal inorganic carbonSeagrassEnvironmental chemistryEcosystemPrimary producersEcologyCarbon dioxideChemistryNutrientPhytoplanktonBiologyCartographyGeographyMarine and coastal plant biologyOcean Acidification Effects and ResponsesMarine and coastal ecosystems