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Autori principali: van Leeuwe, Maria A, Stefels, Jacqueline, Peeken, Ilka, Murawski, Sandra, Bozzato, Deborah, Castellani, Giulia, Eggers, Lena, Fong, Allison A, Hoppe, Clara Jule Marie, Snoeijs-Leijonmalm, Pauline, Webb, Alison L
Natura: Dataset Open Access
Lingua:en
Pubblicazione: PANGAEA 2023
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Accesso online:https://doi.org/10.1594/PANGAEA.955763
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author van Leeuwe, Maria A
Stefels, Jacqueline
Peeken, Ilka
Murawski, Sandra
Bozzato, Deborah
Castellani, Giulia
Eggers, Lena
Fong, Allison A
Hoppe, Clara Jule Marie
Snoeijs-Leijonmalm, Pauline
Webb, Alison L
author_facet van Leeuwe, Maria A
Stefels, Jacqueline
Peeken, Ilka
Murawski, Sandra
Bozzato, Deborah
Castellani, Giulia
Eggers, Lena
Fong, Allison A
Hoppe, Clara Jule Marie
Snoeijs-Leijonmalm, Pauline
Webb, Alison L
collection Datos científicos de ciencias marinas y ambientales
contents Algal pigment concentrations were retrieved from ocean samples, during the whole MOSAiC expedition (Multidisciplinary drifting Observatory for the Study of Arctic Climate) in 2019 to 2020. During MOSAiC, RV Polarstern anchored into an ice floe to gain new insights into Arctic climate over a full annual cycle. Ocean data were collected starting with the onset of the study, at 85 degrees north and 137 degrees east, following the drift towards the Fram Strait, and returning to the North Pole in the last leg of the expedition. Ocean samples were collected with a CTD, either from the ship, or from the ice floe in Ocean City (Rabe et al. 2022). Altogether 216 samples have been collected and analysed. After extraction in 90 % acetone, samples were analysed using high-performance liquid chromatography (HPLC) on a Waters system. Algal pigments contain a multiple set of information. Firstly, pigment concentrations can show the presence of algal biomass in the various water masses sampled. Secondly, marker pigments can reveal seasonal and temporal dynamics in algal community structure, by discerning specific algal classes like diatoms, cryptophytes, haptophytes and chlorophytes that have specific roles in biogeochemical cycles. Thirdly, certain pigments are indicative of the (photo)-physiological state of micro-algae and fourth, degradation products of the main chlorophyll a pigment further give an indication about senescence and grazing in the various habitats.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_955763
institution PANGAEA
language en
publishDate 2023
publisher PANGAEA
record_format pangaea
spellingShingle Algal pigment concentrations in the ocean during the Arctic MOSAiC-expedition
van Leeuwe, Maria A
Stefels, Jacqueline
Peeken, Ilka
Murawski, Sandra
Bozzato, Deborah
Castellani, Giulia
Eggers, Lena
Fong, Allison A
Hoppe, Clara Jule Marie
Snoeijs-Leijonmalm, Pauline
Webb, Alison L
19'-Hexanoyloxy-4-ketofucoxanthin; 19-Butanoyloxyfucoxanthin; 19-Hexanoyloxyfucoxanthin; Alloxanthin; alpha-Carotene; Arctic Ocean; beta-Carotene; Chlorophyll a, total; Chlorophyll b; Chlorophyll c1+c2; Chlorophyll c3; Comment; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; Diadinoxanthin; Diatoxanthin; Dinoxanthin; Echinenone; Event label; Fucoxanthin; Gear; Gyroxanthin diester; High Performance Liquid Chromatography (HPLC); LATITUDE; LONGITUDE; Lutein; Lycopene; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Neoxanthin; Peridinin; Pheophorbides; Polarstern; Prasinoxanthin; PS122/1; PS122/1_10-44; PS122/1_6-58; PS122/1_7-49; PS122/1_8-46; PS122/1_9-50; PS122/2; PS122/2_17-41; PS122/2_18-34; PS122/2_19-56; PS122/2_20-46; PS122/2_21-65; PS122/2_22-47; PS122/2_23-63; PS122/2_25-54; PS122/3; PS122/3_30-40; PS122/3_30-53; PS122/3_31-39; PS122/3_31-59; PS122/3_32-75; PS122/3_33-69; PS122/3_34-77; PS122/3_34-97; PS122/3_35-63; PS122/3_36-81; PS122/3_37-45; PS122/3_38-54; PS122/3_39-51; PS122/3_40-36; PS122/4; PS122/4_44-184; PS122/4_44-67; PS122/4_45-31; PS122/4_46-60; PS122/4_47-60; PS122/4_48-62; PS122/4_49-10; PS122/4_49-25; PS122/4_50-21; PS122/5; PS122/5_59-274; PS122/5_59-306; PS122/5_59-62; PS122/5_59-72; PS122/5_60-69; PS122/5_61-161; PS122/5_63-53; PUMP; Sample code/label; Violaxanthin; Water pump; Zeaxanthin
Algal pigment concentrations were retrieved from ocean samples, during the whole MOSAiC expedition (Multidisciplinary drifting Observatory for the Study of Arctic Climate) in 2019 to 2020. During MOSAiC, RV Polarstern anchored into an ice floe to gain new insights into Arctic climate over a full annual cycle. Ocean data were collected starting with the onset of the study, at 85 degrees north and 137 degrees east, following the drift towards the Fram Strait, and returning to the North Pole in the last leg of the expedition. Ocean samples were collected with a CTD, either from the ship, or from the ice floe in Ocean City (Rabe et al. 2022). Altogether 216 samples have been collected and analysed. After extraction in 90 % acetone, samples were analysed using high-performance liquid chromatography (HPLC) on a Waters system. Algal pigments contain a multiple set of information. Firstly, pigment concentrations can show the presence of algal biomass in the various water masses sampled. Secondly, marker pigments can reveal seasonal and temporal dynamics in algal community structure, by discerning specific algal classes like diatoms, cryptophytes, haptophytes and chlorophytes that have specific roles in biogeochemical cycles. Thirdly, certain pigments are indicative of the (photo)-physiological state of micro-algae and fourth, degradation products of the main chlorophyll a pigment further give an indication about senescence and grazing in the various habitats.
title Algal pigment concentrations in the ocean during the Arctic MOSAiC-expedition
topic 19'-Hexanoyloxy-4-ketofucoxanthin; 19-Butanoyloxyfucoxanthin; 19-Hexanoyloxyfucoxanthin; Alloxanthin; alpha-Carotene; Arctic Ocean; beta-Carotene; Chlorophyll a, total; Chlorophyll b; Chlorophyll c1+c2; Chlorophyll c3; Comment; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; Diadinoxanthin; Diatoxanthin; Dinoxanthin; Echinenone; Event label; Fucoxanthin; Gear; Gyroxanthin diester; High Performance Liquid Chromatography (HPLC); LATITUDE; LONGITUDE; Lutein; Lycopene; MOSAiC; MOSAiC20192020; Multidisciplinary drifting Observatory for the Study of Arctic Climate; Neoxanthin; Peridinin; Pheophorbides; Polarstern; Prasinoxanthin; PS122/1; PS122/1_10-44; PS122/1_6-58; PS122/1_7-49; PS122/1_8-46; PS122/1_9-50; PS122/2; PS122/2_17-41; PS122/2_18-34; PS122/2_19-56; PS122/2_20-46; PS122/2_21-65; PS122/2_22-47; PS122/2_23-63; PS122/2_25-54; PS122/3; PS122/3_30-40; PS122/3_30-53; PS122/3_31-39; PS122/3_31-59; PS122/3_32-75; PS122/3_33-69; PS122/3_34-77; PS122/3_34-97; PS122/3_35-63; PS122/3_36-81; PS122/3_37-45; PS122/3_38-54; PS122/3_39-51; PS122/3_40-36; PS122/4; PS122/4_44-184; PS122/4_44-67; PS122/4_45-31; PS122/4_46-60; PS122/4_47-60; PS122/4_48-62; PS122/4_49-10; PS122/4_49-25; PS122/4_50-21; PS122/5; PS122/5_59-274; PS122/5_59-306; PS122/5_59-62; PS122/5_59-72; PS122/5_60-69; PS122/5_61-161; PS122/5_63-53; PUMP; Sample code/label; Violaxanthin; Water pump; Zeaxanthin
url https://doi.org/10.1594/PANGAEA.955763