KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates

Ocean alkalinity enhancement (OAE) is a marine carbon dioxide removal (mCDR) with the potential to remove atmospheric CO2 and increase the ocean's buffering capacity. Thus, it may aid in mitigating global warming and ocean acidification. Depending on the source mineral type (if silicate or calc...

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Main Authors: Marín-Samper, Laura, Arístegui, Javier, Hernández-Hernández, Nauzet, Riebesell, Ulf
Format: Dataset
Language:English
Published: PANGAEA 2024
Subjects:
AQUACOSM
DATE/TIME
Day of experiment
Depth
water
experiment
bottom/maximum
top/minimum
Event label
gross production
Gross production/community respiration rate
oxygen
ratio
Gross production of oxygen
KOSMOS_2022
KOSMOS_2022_Fjord
KOSMOS_2022_Mesocosm-M1
KOSMOS_2022_Mesocosm-M10
KOSMOS_2022_Mesocosm-M2
KOSMOS_2022_Mesocosm-M3
KOSMOS_2022_Mesocosm-M4
KOSMOS_2022_Mesocosm-M5
KOSMOS_2022_Mesocosm-M6
KOSMOS_2022_Mesocosm-M7
KOSMOS_2022_Mesocosm-M8
KOSMOS_2022_Mesocosm-M9
KOSMOS Bergen
MESO
mesocosm experiment
Mesocosm label
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
OceanNETs
oxygen consumption
Respiration rate
community
Treatment
Treatment: alkalinity
total
Type of study
Winkler oxygen
Arctic
Bergen
Global warming
Ocean acidification
Phytoplankton
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.972371
id ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.972371
record_format openpolar
spelling ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.972371 2024-10-13T14:05:50+00:00 KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates Marín-Samper, Laura Arístegui, Javier Hernández-Hernández, Nauzet Riebesell, Ulf LATITUDE: 60.265278 * LONGITUDE: 5.205833 * DATE/TIME START: 2022-05-14T00:00:00 * DATE/TIME END: 2022-07-05T00:00:00 2024 text/tab-separated-values, 3144 data points https://doi.pangaea.de/10.1594/PANGAEA.972371 en eng PANGAEA https://doi.pangaea.de/10.1594/PANGAEA.972371 CC-BY-4.0: Creative Commons Attribution 4.0 International (License comes into effect after moratorium ends) Access constraints: access rights needed info:eu-repo/semantics/restrictedAccess AQUACOSM DATE/TIME Day of experiment Depth water experiment bottom/maximum top/minimum Event label gross production Gross production/community respiration rate oxygen ratio Gross production of oxygen KOSMOS_2022 KOSMOS_2022_Fjord KOSMOS_2022_Mesocosm-M1 KOSMOS_2022_Mesocosm-M10 KOSMOS_2022_Mesocosm-M2 KOSMOS_2022_Mesocosm-M3 KOSMOS_2022_Mesocosm-M4 KOSMOS_2022_Mesocosm-M5 KOSMOS_2022_Mesocosm-M6 KOSMOS_2022_Mesocosm-M7 KOSMOS_2022_Mesocosm-M8 KOSMOS_2022_Mesocosm-M9 KOSMOS Bergen MESO mesocosm experiment Mesocosm label 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 OceanNETs oxygen consumption Respiration rate community Treatment Treatment: alkalinity total Type of study Winkler oxygen dataset 2024 ftpangaea 2024-09-18T00:10:44Z Ocean alkalinity enhancement (OAE) is a marine carbon dioxide removal (mCDR) with the potential to remove atmospheric CO2 and increase the ocean's buffering capacity. Thus, it may aid in mitigating global warming and ocean acidification. Depending on the source mineral type (if silicate or calcium-based) and on if implemented in a pre- or non-equilibrated way, impacts on the microbial community's metabolic rates can be expected. The mineral type may introduce compounds to the system that may benefit certain phytoplankton species over others, and if non-equilibrated, changes to the pCO2 and pH may hinder primary production. To address this, an experiment with 10 pelagic mesocosms was undertaken, starting on the 7th May 2022. Two 5-step non-equilibrated TA gradients in increments of 150 µmol L-1 were implemented. One simulated a forsterite [Mg2SiO3] addition, and the other one a hydrated lime [Ca(OH)2] addition. Gross production (GP), net community production (NCP), community respiration (CR), and community metabolic balance (GP:CR), measured in vitro through oxygen production and consumption, as well as chlorophyll a, were monitored over a 53-day long period. All the biogeochemical parameters relevant to their response were measured as well. After a nutrient addition undertaken halfway through the experiment, a delay in bloom formation associated with the TA manipulation was observed. This is likely due to the previously reported, species-specific responses to low pCO2 and high pH conditions in terms of growth rates. Further research will be necessary to evaluate the implications of this findings with regards to trophic transfer, and seasonal suitability. Dataset Arctic Global warming Ocean acidification Phytoplankton PANGAEA - Data Publisher for Earth & Environmental Science Arctic Bergen ENVELOPE(5.205833,5.205833,60.265278,60.265278)
institution Open Polar
collection PANGAEA - Data Publisher for Earth & Environmental Science
op_collection_id ftpangaea
language English
topic AQUACOSM
DATE/TIME
Day of experiment
Depth
water
experiment
bottom/maximum
top/minimum
Event label
gross production
Gross production/community respiration rate
oxygen
ratio
Gross production of oxygen
KOSMOS_2022
KOSMOS_2022_Fjord
KOSMOS_2022_Mesocosm-M1
KOSMOS_2022_Mesocosm-M10
KOSMOS_2022_Mesocosm-M2
KOSMOS_2022_Mesocosm-M3
KOSMOS_2022_Mesocosm-M4
KOSMOS_2022_Mesocosm-M5
KOSMOS_2022_Mesocosm-M6
KOSMOS_2022_Mesocosm-M7
KOSMOS_2022_Mesocosm-M8
KOSMOS_2022_Mesocosm-M9
KOSMOS Bergen
MESO
mesocosm experiment
Mesocosm label
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
OceanNETs
oxygen consumption
Respiration rate
community
Treatment
Treatment: alkalinity
total
Type of study
Winkler oxygen
spellingShingle AQUACOSM
DATE/TIME
Day of experiment
Depth
water
experiment
bottom/maximum
top/minimum
Event label
gross production
Gross production/community respiration rate
oxygen
ratio
Gross production of oxygen
KOSMOS_2022
KOSMOS_2022_Fjord
KOSMOS_2022_Mesocosm-M1
KOSMOS_2022_Mesocosm-M10
KOSMOS_2022_Mesocosm-M2
KOSMOS_2022_Mesocosm-M3
KOSMOS_2022_Mesocosm-M4
KOSMOS_2022_Mesocosm-M5
KOSMOS_2022_Mesocosm-M6
KOSMOS_2022_Mesocosm-M7
KOSMOS_2022_Mesocosm-M8
KOSMOS_2022_Mesocosm-M9
KOSMOS Bergen
MESO
mesocosm experiment
Mesocosm label
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
OceanNETs
oxygen consumption
Respiration rate
community
Treatment
Treatment: alkalinity
total
Type of study
Winkler oxygen
Marín-Samper, Laura
Arístegui, Javier
Hernández-Hernández, Nauzet
Riebesell, Ulf
KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
topic_facet AQUACOSM
DATE/TIME
Day of experiment
Depth
water
experiment
bottom/maximum
top/minimum
Event label
gross production
Gross production/community respiration rate
oxygen
ratio
Gross production of oxygen
KOSMOS_2022
KOSMOS_2022_Fjord
KOSMOS_2022_Mesocosm-M1
KOSMOS_2022_Mesocosm-M10
KOSMOS_2022_Mesocosm-M2
KOSMOS_2022_Mesocosm-M3
KOSMOS_2022_Mesocosm-M4
KOSMOS_2022_Mesocosm-M5
KOSMOS_2022_Mesocosm-M6
KOSMOS_2022_Mesocosm-M7
KOSMOS_2022_Mesocosm-M8
KOSMOS_2022_Mesocosm-M9
KOSMOS Bergen
MESO
mesocosm experiment
Mesocosm label
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
OceanNETs
oxygen consumption
Respiration rate
community
Treatment
Treatment: alkalinity
total
Type of study
Winkler oxygen
description Ocean alkalinity enhancement (OAE) is a marine carbon dioxide removal (mCDR) with the potential to remove atmospheric CO2 and increase the ocean's buffering capacity. Thus, it may aid in mitigating global warming and ocean acidification. Depending on the source mineral type (if silicate or calcium-based) and on if implemented in a pre- or non-equilibrated way, impacts on the microbial community's metabolic rates can be expected. The mineral type may introduce compounds to the system that may benefit certain phytoplankton species over others, and if non-equilibrated, changes to the pCO2 and pH may hinder primary production. To address this, an experiment with 10 pelagic mesocosms was undertaken, starting on the 7th May 2022. Two 5-step non-equilibrated TA gradients in increments of 150 µmol L-1 were implemented. One simulated a forsterite [Mg2SiO3] addition, and the other one a hydrated lime [Ca(OH)2] addition. Gross production (GP), net community production (NCP), community respiration (CR), and community metabolic balance (GP:CR), measured in vitro through oxygen production and consumption, as well as chlorophyll a, were monitored over a 53-day long period. All the biogeochemical parameters relevant to their response were measured as well. After a nutrient addition undertaken halfway through the experiment, a delay in bloom formation associated with the TA manipulation was observed. This is likely due to the previously reported, species-specific responses to low pCO2 and high pH conditions in terms of growth rates. Further research will be necessary to evaluate the implications of this findings with regards to trophic transfer, and seasonal suitability.
format Dataset
author Marín-Samper, Laura
Arístegui, Javier
Hernández-Hernández, Nauzet
Riebesell, Ulf
author_facet Marín-Samper, Laura
Arístegui, Javier
Hernández-Hernández, Nauzet
Riebesell, Ulf
author_sort Marín-Samper, Laura
title KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
title_short KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
title_full KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
title_fullStr KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
title_full_unstemmed KOSMOS 2022 Bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
title_sort kosmos 2022 bergen mesocosm study on ocean alkalinity enhancement: phytoplankton metabolic rates
publisher PANGAEA
publishDate 2024
url https://doi.pangaea.de/10.1594/PANGAEA.972371
op_coverage LATITUDE: 60.265278 * LONGITUDE: 5.205833 * DATE/TIME START: 2022-05-14T00:00:00 * DATE/TIME END: 2022-07-05T00:00:00
long_lat ENVELOPE(5.205833,5.205833,60.265278,60.265278)
geographic Arctic
Bergen
geographic_facet Arctic
Bergen
genre Arctic
Global warming
Ocean acidification
Phytoplankton
genre_facet Arctic
Global warming
Ocean acidification
Phytoplankton
op_relation https://doi.pangaea.de/10.1594/PANGAEA.972371
op_rights CC-BY-4.0: Creative Commons Attribution 4.0 International (License comes into effect after moratorium ends)
Access constraints: access rights needed
info:eu-repo/semantics/restrictedAccess
_version_ 1812811868169830400

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