Knowledge Gaps in Quantifying the Climate Change Response of Biological Storage of Carbon in the Ocean

Henson, Stephanie; Baker, Chelsey A.; Halloran, Paul; McQuatters‐Gollop, Abigail; Painter, Stuart; Planchat, Alban; Tagliabue, Alessandro

doi:10.1029/2023ef004375

Earth's Future

2024

DOI: 10.1029/2023ef004375

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Knowledge Gaps in Quantifying the Climate Change Response of Biological Storage of Carbon in the Ocean

Stephanie Henson,

Chelsey A. Baker,

Paul Halloran

et al.

Abstract: The ocean is responsible for taking up approximately 25% of anthropogenic CO2 emissions and stores >50 times more carbon than the atmosphere. Biological processes in the ocean play a key role, maintaining atmospheric CO2 levels approximately 200 ppm lower than they would otherwise be. The ocean's ability to take up and store CO2 is sensitive to climate change, however the key biological processes that contribute to ocean carbon storage are uncertain, as are how those processes will respond to, and feedback … Show more

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References 261 publications

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Evaluation of carbon dioxide partial pressure and air-sea fluxes in the Sea of Marmara

Yücel,

Ersoy Korkmaz,

Aksu

et al. 2024

International Journal of Environment and Geoinformatics

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The increasing impact of global warming has made it crucial to monitor greenhouse gases (GHG). Carbon dioxide (CO2) is especially important due to its significant increase. Oceans and seas play a vital role in absorbing excess CO2 from the atmosphere, but they are facing challenges such as ocean acidification and damage to coral reefs. Therefore, it's essential to thoroughly understand climate change and its human-caused effects and to take necessary precautions or improve existing measures. In this direction, in seawater, determining alkalinity is crucial for monitoring CO2, along with other physical and chemical parameters, in order to help set carbon budgets and reduce environmental pressures. For this purpose, in this study in the Sea of Marmara, alkalinity and CO2 measurements were conducted for the first time at stations CG2, CG3, MD26, and MD24. The CO2 partial pressure (pCO2) values ranged from 95 to 165 µatm at the surface of all stations, and total alkalinity values ranged from 1.075 to 1.46 mmol kg-1 at specified depths. Based on these measurements, flux values were calculated between −1.10 and −5.39 mmol m2 day-1, indicating that the Sea of Marmara acted as a net CO2 sink.

show abstract

Evaluation of carbon dioxide partial pressure and air-sea fluxes in the Sea of Marmara

Yücel,

Ersoy Korkmaz,

Aksu

et al. 2024

International Journal of Environment and Geoinformatics

View full text Add to dashboard Cite

show abstract

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Knowledge Gaps in Quantifying the Climate Change Response of Biological Storage of Carbon in the Ocean

Cited by 1 publication

References 261 publications

Evaluation of carbon dioxide partial pressure and air-sea fluxes in the Sea of Marmara

Evaluation of carbon dioxide partial pressure and air-sea fluxes in the Sea of Marmara

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