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  • Ammonium; Aphanizophyll; Aragonite saturation state; BIOACID; Biogenic silica; Biological Impacts of Ocean Acidification; Calculated; Canthaxanthin; Carbon, inorganic, dissolved; Carbon, organic, dissolved; Carbon, total, particulate; Carbon/Nitrogen ratio; Carbon/Phosphorus ratio; Carbon/Silicon ratio; Chlorophyll a; Chlorophyll b; Chlorophyll c2; Chlorophytes, biomass; Cryptophytes, biomass; Cyanobacteria, biomass; DATE/TIME; Day of experiment; Diatoms, biomass; Dry mass; Euglenophytes, biomass; Fluorescence determination; Fucoxanthin; Fugacity of carbon dioxide in seawater; Hand-operated CTD (Sea&Sun Technology, CTD 60M); High Performance Liquid Chromatography (HPLC); KOSMOS_2012_Tvaerminne; MESO; Mesocosm experiment; Mesocosm label; Myoxoxanthophyll; Neoxanthin; Nitrate and Nitrite; Nitrogen, organic, dissolved; Nitrogen, organic, particulate; Nitrogen/Phosphorus ratio; pH; Phase; Phosphate; Phosphate, total, particulate; Phosphorus, inorganic, dissolved; Phosphorus, organic, dissolved; Prasinophytes, biomass; Prasinoxanthin; Salinity; Silicate; SOPRAN; Surface Ocean Processes in the Anthropocene; Temperature, water; Violaxanthin  (1)
  • after Risgaard-Petersen et al. 2003 (r-IPT); Amorphous, biogenic silicate per dry mass; Anammox rates; Calcium extractable silicate per dry mass; Calculation according to Burdige 2006; Comment; Cruise/expedition; Date/Time of event; Depth, description; DEPTH, water; Description; Event label; Latitude of event; Longitude of event; Loss on ignition; MULT; Multiple investigations; Nitrate denitrification, total; Nitrate denitrification from sediment nitrification; Nitrate denitrification from water column; Oxide bound silicate per dry mass; Oxygen penetration depth; Permeability (earth science); Porosity; Sediment type; Station label; Vistula_estuary_20140705-VE15; Vistula_estuary_20140707-VE02; Vistula_estuary_20140707-VE46; Vistula_estuary_20140707-VE53; Vistula_estuary_20140708-VE03; Vistula_estuary_20140708-VE05; Vistula_estuary_20140709-VE09; Vistula_estuary_20140709-VE13; Vistula_estuary_20140710-VE18; Vistula_estuary_20140710-VE23; Vistula_estuary_20140710-VE23a; Vistula_estuary_20140710-VE24; Vistula_estuary_20140711-VE49a; Vistula_estuary_20140712-VE38; Vistula_estuary_20140713-TF0233; Vistula_estuary_20140713-VE43; Vistula_estuary_20140714-VE39; Vistula_estuary_20150201-VE04; Vistula_estuary_20150201-VE05; Vistula_estuary_20150201-VE06; Vistula_estuary_20150202-VE07; Vistula_estuary_20150203-VE10; Vistula_estuary_20150204-VE02; Vistula_estuary_20150205-TF0233; Vistula_estuary_20150205-VE38; Vistula_estuary_20150205-VE39; Vistula_estuary_20150206-VE09; Vistula_estuary_20150206-VE13; Vistula_estuary_20150207-VE49a; Vistula_estuary_20150209-VE02; Vistula_estuary_20160229-VE07; Vistula_estuary_20160301-VE06; Vistula_estuary_20160302-VE04; Vistula_estuary_20160303-VE18; Vistula_estuary_20160304-VE38; Vistula_estuary_20160305-VE13; Vistula_estuary_20160305-VE15; Vistula_estuary_20160306-VE09; Vistula_estuary_20160307-VE05; Vistula_estuary_20160308-VE02; Vistula_estuary_20160309-VE49a; Vistula River, Poland
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  • 1
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    KOSMOS Finland 2012 mesocosm study: carbonate chemistry, particulate and dissolved matter pools, and phytoplankton community composition using marker pigments (CHEMTAX) (2016)
    PANGAEA
    In:  Supplement to: Paul, Allanah Joy; Bach, Lennart Thomas; Schulz, Kai Georg; Boxhammer, Tim; Czerny, Jan; Achterberg, Eric Pieter; Hellemann, Dana; Trense, Yves; Nausch, Monika; Sswat, Michael; Riebesell, Ulf (2015): Effect of elevated CO2 on organic matter pools and fluxes in a summer Baltic Sea plankton community. Biogeosciences, 12(20), 6181-6203, https://doi.org/10.5194/bg-12-6181-2015
    Details
    Publication Date: 2024-06-13
    Description: Ocean acidification is expected to influence plankton community structure and biogeochemical element cycles. To date, the response of plankton communities to elevated CO2 has been studied primarily during nutrient-stimulated blooms. In this CO2 manipulation study, we used large-volume (~ 55 m3) pelagic in situ mesocosms to enclose a natural summer, post-spring-bloom plankton assemblage in the Baltic Sea to investigate the response of organic matter pools to ocean acidification.
    Keywords: Ammonium; Aphanizophyll; Aragonite saturation state; BIOACID; Biogenic silica; Biological Impacts of Ocean Acidification; Calculated; Canthaxanthin; Carbon, inorganic, dissolved; Carbon, organic, dissolved; Carbon, total, particulate; Carbon/Nitrogen ratio; Carbon/Phosphorus ratio; Carbon/Silicon ratio; Chlorophyll a; Chlorophyll b; Chlorophyll c2; Chlorophytes, biomass; Cryptophytes, biomass; Cyanobacteria, biomass; DATE/TIME; Day of experiment; Diatoms, biomass; Dry mass; Euglenophytes, biomass; Fluorescence determination; Fucoxanthin; Fugacity of carbon dioxide in seawater; Hand-operated CTD (Sea&Sun Technology, CTD 60M); High Performance Liquid Chromatography (HPLC); KOSMOS_2012_Tvaerminne; MESO; Mesocosm experiment; Mesocosm label; Myoxoxanthophyll; Neoxanthin; Nitrate and Nitrite; Nitrogen, organic, dissolved; Nitrogen, organic, particulate; Nitrogen/Phosphorus ratio; pH; Phase; Phosphate; Phosphate, total, particulate; Phosphorus, inorganic, dissolved; Phosphorus, organic, dissolved; Prasinophytes, biomass; Prasinoxanthin; Salinity; Silicate; SOPRAN; Surface Ocean Processes in the Anthropocene; Temperature, water; Violaxanthin
    Type: Dataset
    Format: text/tab-separated-values, 11813 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
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