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| Natura: | Dataset Open Access |
| Lingua: | en |
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PANGAEA
2024
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| Soggetti: | |
| Accesso online: | https://doi.org/10.1594/PANGAEA.967395 |
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| _version_ | 1867171333231607808 |
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| author | Suessle, Philipp Taucher, Jan Goldenberg, Silvan Urs Baumann, Moritz Noche-Ferreira, Andrea Vanharanta, Mari |
| author_facet | Suessle, Philipp Taucher, Jan Goldenberg, Silvan Urs Baumann, Moritz Noche-Ferreira, Andrea Vanharanta, Mari |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | The data presented herein originates from a mesocosm study conducted as part of the EU H2020 OceanNETs project, aimed at investigating the ecological ramifications of ocean alkalinity enhancement. Nine mesocosms were deployed in Taliarte Harbour, Gran Canaria, Spain, and systematically sampled using integrated water samplers over the period spanning from September 10th to October 25th, 2021. Alkalinity was employed in a gradient design, ranging from ambient (0 µeq kg-1 added alkalinity, OAE0) to elevated levels of 2400 µeq kg-1 additional alkalinity (OAE2400) in increments of 300 µeq kg-1. The dataset encompasses a spectrum of sediment trap particle flux data, water column biogeochemistry variables, including inorganic nutrients, carbonate chemistry parameters, and particulate matter, alongside chlorophyll a concentrations. The study and data set offer insights into impacts of alkalinity enhancement on marine ecosystems and their associated biogeochemistry. |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_967395 |
| institution | PANGAEA |
| language | en |
| publishDate | 2024 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | KOSMOS 2021 Gran Canaria mesocosm study on ocean alkalinity enhancement: CTD data Suessle, Philipp Taucher, Jan Goldenberg, Silvan Urs Baumann, Moritz Noche-Ferreira, Andrea Vanharanta, Mari Canarias Sea; Chlorophyll a; Conductivity; DATE/TIME; Density, potential; Event label; Hydrogen sulfide; 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; ocean alkalinity enhancement; Ocean-based Negative Emission Technologies; OceanNETs; Oxygen, dissolved; Oxygen saturation; pH, total scale; Pressure, water; Radiation, photosynthetically active; Salinity; Synchaeta sp., biovolume; Temperature, water; Treatment; Type of study The data presented herein originates from a mesocosm study conducted as part of the EU H2020 OceanNETs project, aimed at investigating the ecological ramifications of ocean alkalinity enhancement. Nine mesocosms were deployed in Taliarte Harbour, Gran Canaria, Spain, and systematically sampled using integrated water samplers over the period spanning from September 10th to October 25th, 2021. Alkalinity was employed in a gradient design, ranging from ambient (0 µeq kg-1 added alkalinity, OAE0) to elevated levels of 2400 µeq kg-1 additional alkalinity (OAE2400) in increments of 300 µeq kg-1. The dataset encompasses a spectrum of sediment trap particle flux data, water column biogeochemistry variables, including inorganic nutrients, carbonate chemistry parameters, and particulate matter, alongside chlorophyll a concentrations. The study and data set offer insights into impacts of alkalinity enhancement on marine ecosystems and their associated biogeochemistry. |
| title | KOSMOS 2021 Gran Canaria mesocosm study on ocean alkalinity enhancement: CTD data |
| topic | Canarias Sea; Chlorophyll a; Conductivity; DATE/TIME; Density, potential; Event label; Hydrogen sulfide; 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; ocean alkalinity enhancement; Ocean-based Negative Emission Technologies; OceanNETs; Oxygen, dissolved; Oxygen saturation; pH, total scale; Pressure, water; Radiation, photosynthetically active; Salinity; Synchaeta sp., biovolume; Temperature, water; Treatment; Type of study |
| url | https://doi.org/10.1594/PANGAEA.967395 |