108 / 2024-09-08 19:48:18
Substance-dependent impacts of ocean alkalinity enhancement on plankton in the Equatorial Pacific
phytoplankton functional types (PFTs),natural photosynthesis,Ocean alkalinity enhancement,trace metal
摘要录用
Jiaying Guo / University of Tasmania
Lennart Bach / University of Tasmania
Ocean Alkalinity Enhancement (OAE) is a potential strategy for gigatonne-scale atmospheric CO2 removal. OAE uses alkaline substances such as olivine, steel slag, or a strong base (NaOH) to convert seawater CO2 into (bi)carbonate, thereby enabling uptake of additional CO2 from the atmosphere. A critical knowledge gap is how the unavoidable physical and chemical perturbations associated with OAE could influence marine plankton communities and how potential side-effects compare to impacts of climate change. We conducted 19 ship-based experiments in the Equatorial Pacific, examining three prevalent OAE substances (NaOH, olivine, and steel slag) and their impacts on natural phytoplankton populations. Our experiments simulated realistic and moderate alkalinity enhancements between 29-16 μmol kg-1 to demonstrate that NaOH-OAE had a negligible impact on phytoplankton while providing predictable amounts of alkalinity. Conversely, olivine-OAE disrupted plankton, especially cyanobacteria, heterotrophic bacteria, and picoeukaryotes while only providing 0.06 mmol alkalinity g-1. Steel slag-OAE moderately changed phytoplankton communities but also fertilized growth while delivering 8 mmol alkalinity g-1. Our study shows that the impacts of different OAE substances range from negligible to disruptive, thereby helping to determine which OAE methods could be suitable for equatorial Pacific applications, which ones require further research, and which ones should be dismissed.
重要日期
  • 会议日期

    01月14日

    2025

    01月17日

    2025

  • 09月27日 2024

    初稿截稿日期

  • 12月14日 2024

    注册截止日期

主办单位
State Key Laboratory of Marine Environmental Science, Xiamen University
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