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Resistance of an Arctic phytoplankton assemblages to ocean acidification and high irradiance, link to supplement in MS Excel format (2017)

Hoppe, Clara Jule Marie ; Schuback, Nina ; Semeniuk, David M ; [et al.]

PANGAEA

In: Supplement to: Hoppe, Clara Jule Marie; Schuback, Nina; Semeniuk, David M; Giesbrecht, Karina E; Mol, Jacoba; Thomas, H; Maldonado, Maria T; Rost, Björn; Varela, Diana E; Tortell, Philippe Daniel (2018): Resistance of Arctic phytoplankton to ocean acidification and enhanced irradiance. Polar Biology, 41(3), 399-413, https://doi.org/10.1007/s00300-017-2186-0

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Publication Date: 2023-01-13

Description: The Arctic Ocean is a region particularly prone to on-going ocean acidification (OA) and climate-driven changes. The influence of these changes on Arctic phytoplankton assemblages, however, remains poorly understood. In order to understand how OA and enhanced irradiances (e.g. resulting from sea-ice retreat) will alter the species composition, primary production and ecophysiology of Arctic phytoplankton, we conducted an incubation experiment to investigate the effects of OA and enhanced irradiance levels on an assemblage from Baffin Bay (71°N, 68°W). Seawater was collected from just below the deep Chl a maximum, and the resident phytoplankton were exposed to 380 and 1000 µatm pCO2 at both 15% and 35% incident irradiance. On-deck incubations, in which temperatures were 6°C above in situ conditions, were monitored for phytoplankton growth, biomass stoichiometry, net primary production, photo-physiology and taxonomic composition. During the 8-day experiment, taxonomic diversity decreased and the diatom Chaetoceros socialis became increasingly dominant irrespective of light or CO2 levels. We found no statistically significant effects from either higher CO2 or light on physiological properties of phytoplankton during the experiment. We did, however, observe an initial 2-day stress response in all treatments, and slight photo-physiological responses to higher CO2 and light during the first five days of the incubation. Our results thus indicate high resistance of Arctic phytoplankton to OA and enhanced irradiance levels, challenging the commonly predicted stimulatory effects of enhanced CO2 and light availability for primary production.

Type: Dataset

Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 43.8 kBytes

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Functional redundancy facilitates resilience of subarctic phytoplankton assemblages toward ocean acidification and high irradiance, link to supplement in MS Excel format (2017)

Hoppe, Clara Jule Marie ; Schuback, Nina ; Semeniuk, David M ; [et al.]

PANGAEA

In: Supplement to: Hoppe, Clara Jule Marie; Schuback, Nina; Semeniuk, David M; Maldonado, Maria T; Rost, Björn (2017): Functional Redundancy Facilitates Resilience of Subarctic Phytoplankton Assemblages toward Ocean Acidification and High Irradiance. Frontiers in Marine Science, 4, 14 pp, https://doi.org/10.3389/fmars.2017.00229

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Publication Date: 2023-02-24

Description: In order to understand how ocean acidification (OA) and enhanced irradiance levels might alter phytoplankton eco-physiology, productivity and species composition, we conducted an incubation experiment with a natural plankton assemblage from sub-surface Subarctic waters (Davis Strait, 63°N). The phytoplankton assemblage was exposed to 380 and 1,000 µatm pCO2 at both 15 and 35% surface irradiance over 2 weeks. The incubations were monitored and characterized in terms of their photo-physiology, biomass stoichiometry, primary production and dominant phytoplankton species. We found that the phytoplankton assemblage exhibited pronounced high-light stress in the first days of the experiment (20-30% reduction in photosynthetic efficiency, Fv/Fm). This stress signal was more pronounced when grown under OA and high light, indicating interactive effects of these environmental variables. Primary production in the high light treatments was reduced by 20% under OA compared to ambient pCO2 levels. Over the course of the experiment, the assemblage fully acclimated to the applied treatments, achieving similar bulk characteristics (e.g., net primary production and elemental stoichiometry) under all conditions. We did, however, observe a pCO2-dependent shift in the dominant diatom species, with Pseudonitzschia sp. dominating under low and Fragilariopsis sp. under high pCO2 levels. Our results indicate an unexpectedly high level of resilience of Subarctic phytoplankton to OA and enhanced irradiance levels. The co-occurring shift in dominant species suggests functional redundancy to be an important, but so-far largely overlooked mechanism for resilience toward climate change.

Keywords: GEOTRACES; Global marine biogeochemical cycles of trace elements and their isotopes

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Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 48.6 kBytes

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Effect of Ocean Acidification and enhanced irradiances on compositon, productivity and physiology of an Arctic phytoplankton assemblage (2018)

Hoppe, Clara Jule Marie ; Schuback, Nina ; Semeniuk, David M ; [et al.]

PANGAEA

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Publication Date: 2024-03-15

Keywords: Alkalinity, total; Aragonite saturation state; Arctic; Assemblage; Bicarbonate ion; Biogenic silica; Biomass/Abundance/Elemental composition; Bottles or small containers/Aquaria (〈20 L); Calcite saturation state; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbon, organic, particulate; Carbon, organic, particulate/Biogenic silica; Carbon, organic, particulate/Nitrogen, organic, particulate ratio; Carbon/Chlorophyll a ratio; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chlorophyll a; Confidence interval; Entire community; Experiment; Experiment duration; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Growth/Morphology; Growth rate; Identification; Laboratory experiment; Light; Light-depended increase in 14C uptake; Light-depended increase in conversion factors; Light-depended increase in initial charge separation in reaction center II; Light saturated rate of initial charge separation in 14C uptake, maximum; Light saturated rate of initial charge separation in conversion factors, maximum; Light saturated rate of initial charge separation in reaction center II, maximum; Light saturation; Net primary production of carbon; Net primary production of carbon per particulate organic carbon; Nitrogen, organic, particulate; OA-ICC; Ocean Acidification International Coordination Centre; Open ocean; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; Picoplankton; Picoplankton per particulate organic carbon; Polar; Primary production/Photosynthesis; Primary production of carbon per chlorophyll a; Production of silica per day; Salinity; Temperature, water; Treatment; Type

Type: Dataset

Format: text/tab-separated-values, 1192 data points

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Seawater carbonate chemistry and biomass composition, primary productivity, photophysiological characteristics of subarctic phytoplankton assemblages (2017)

Hoppe, Clara Jule Marie ; Schuback, Nina ; Semeniuk, David M ; [et al.]

PANGAEA

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Publication Date: 2024-03-15

Keywords: Alkalinity, total; Alkalinity, total, standard deviation; Aragonite saturation state; Arctic; Bicarbonate ion; Biogenic silica; Biomass/Abundance/Elemental composition; Bottles or small containers/Aquaria (〈20 L); Calcite saturation state; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbon, inorganic, dissolved, standard deviation; Carbon, organic, particulate; Carbon, organic, particulate/Biogenic silica; Carbon, organic, particulate/Nitrogen, organic, particulate ratio; Carbon/Chlorophyll a ratio; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chlorophyll a; Community composition and diversity; Confidence interval; Davis_Strait; Entire community; EXP; Experiment; Experiment duration; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Identification; Laboratory experiment; Light; Light-depended increase in 14C uptake; Light-depended increase in conversion factors; Light-depended increase in initial charge separation in reaction center II; Light saturated rate of initial charge separation in 14C uptake, maximum; Light saturated rate of initial charge separation in conversion factors, maximum; Light saturated rate of initial charge separation in reaction center II, maximum; Light saturation; Net primary production of carbon per particulate organic carbon; Nitrate; Nitrate, standard deviation; Nitrogen, organic, particulate; OA-ICC; Ocean Acidification International Coordination Centre; Open ocean; Partial pressure of carbon dioxide, standard deviation; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; pH, standard deviation; Phosphate; Phosphate, standard deviation; Picoplankton per particulate organic carbon; Polar; Potentiometric titration; Primary production/Photosynthesis; Primary production of carbon per chlorophyll a; Salinity; Silicate; Silicate, standard deviation; Temperature, water; Temperature, water, standard deviation; Time point, descriptive; Treatment; Type

Type: Dataset

Format: text/tab-separated-values, 1181 data points

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Functional Redundancy Facilitates Resilience of Subarctic Phytoplankton Assemblages toward Ocean Acidification and High Irradiance (2017)

Hoppe, Clara J. M. ; Schuback, Nina ; Semeniuk, David M. ; [et al.]

Frontiers

In: EPIC3Frontiers in Marine Science, Frontiers, 4(229), pp. 1-14, ISSN: 2296-7745

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Publication Date: 2017-08-11

Description: In order to understand how ocean acidification (OA) and enhanced irradiance levels might alter phytoplankton eco-physiology, productivity and species composition, we conducted an incubation experiment with a natural plankton assemblage from subsurface Subarctic waters (Davis Strait, 63◦N). The phytoplankton assemblage was exposed to 380 and 1,000 μatm pCO2 at both 15 and 35% surface irradiance over 2 weeks. The incubations were monitored and characterized in terms of their photo-physiology, biomass stoichiometry, primary production and dominant phytoplankton species. We found that the phytoplankton assemblage exhibited pronounced high-light stress in the first days of the experiment (20–30% reduction in photosynthetic efficiency, Fv/Fm). This stress signal was more pronounced when grown under OA and high light, indicating interactive effects of these environmental variables. Primary production in the high light treatments was reduced by 20% under OA compared to ambient pCO2 levels. Over the course of the experiment, the assemblage fully acclimated to the applied treatments, achieving similar bulk characteristics (e.g., net primary production and elemental stoichiometry) under all conditions. We did, however, observe a pCO2-dependent shift in the dominant diatom species, with Pseudonitzschia sp. dominating under low and Fragilariopsis sp. under high pCO2 levels. Our results indicate an unexpectedly high level of resilience of Subarctic phytoplankton to OA and enhanced irradiance levels. The co-occurring shift in dominant species suggests functional redundancy to be an important, but so-far largely overlooked mechanism for resilience toward climate change.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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