KOSMOS 2021 Gran Canaria mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates

Ocean Alkalinity Enhancement (OAE) could augment long-term carbon storage and mitigate ocean acidification by increasing the bicarbonate ion concentration in ocean water. However, the side effects and/or potential co-benefits of OAE on natural planktonic communities remain poorly understood. To addr...

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Bibliographic Details
Main Authors: Marín-Samper, Laura, Arístegui, Javier, Hernández-Hernández, Nauzet, Ortiz Cortes, Joaquin, Archer, Stephen, Ludwig, Andrea, Riebesell, Ulf
Format: Dataset
Language:English
Published: PANGAEA 2024
Subjects:
14C-DOC
14C-POC
14C uptake
AQUACOSM
Canarias Sea
Chlorophyll a
total
chlorophyll-a concentration
Chlorophyll a microplankton
Chlorophyll a nanoplankton
Chlorophyll a picoplankton
DATE/TIME
Day of experiment
Depth
water
experiment
bottom/maximum
top/minimum
Event label
Extracellular release
Field experiment
flow cytometry
Gross community production/respiration rate
oxygen
ratio
Gross community production of oxygen
Identification
KOSMOS_2021
KOSMOS_2021_Mesocosm-M1
KOSMOS_2021_Mesocosm-M2
KOSMOS_2021_Mesocosm-M3
KOSMOS_2021_Mesocosm-M4
KOSMOS_2021_Mesocosm-M5
KOSMOS_2021_Mesocosm-M6
KOSMOS_2021_Mesocosm-M7
KOSMOS_2021_Mesocosm-M8
KOSMOS_2021_Mesocosm-M9
KOSMOS Gran Canaria
MESO
mesocosm experiment
Mesocosm label
Nanoeukaryotes
Net community production of oxygen
Network of Leading European AQUAtic MesoCOSM Facilities Connecting Mountains to Oceans from the Arctic to the Mediterranean
Ocean-based Negative Emission Technologies
Arctic
Ocean acidification
Phytoplankton
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.964537
https://doi.org/10.1594/PANGAEA.964537
Description
Summary:Ocean Alkalinity Enhancement (OAE) could augment long-term carbon storage and mitigate ocean acidification by increasing the bicarbonate ion concentration in ocean water. However, the side effects and/or potential co-benefits of OAE on natural planktonic communities remain poorly understood. To address this knowledge gap, 9 mesocosms were deployed in the oligotrophic waters of Gran Canaria, from September 14th to October 16th, 2021. A CO2-equilibrated Total Alkalinity (TA) gradient was employed in increments of 300 µmol·L-1, ranging from ~2400 to ~4800 µmol·L-1. The carbonate chemistry conditions in terms of TA and Dissolved Inorganic Carbon (DIC), which were then used to calculate pCO2 and pH, and the nitrate+nitrite, phosphate and silicate concentrations were measured every two days over the course of the 33-day experiment alongside the following biotic parameters. Net Community Production (NCP), Gross Production (GP), Community Respiration (CR) rates, as well as the metabolic balance (GP:CR), were monitored every two days through oxygen production and consumption using the winkler method. Fractionated 14C uptake and chlorophyll a were also determined every four days although, initially, the total PO14C and DO14C production were also measured every 4 days, in between, up to day 13. Finally, flow cytometry was also carried out every two days and synecococcus, picoeukaryote and nanophytoplankton abundances were obtained. No damaging effect of CO2-equilibrated OAE in the range applied here, on phytoplankton primary production, community metabolism and composition could be inferred from our results. In fact, a potential co-benefit to OAE was observed in the form of the positive curvilinear response to the DIC gradient up to the ∆TA1800 treatment. Further experimental research at this scale is key to gain a better understanding of the short and long-term effects of OAE on planktonic communities.

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