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Seawater carbonate chemistry and photophysiology and hemolytic activity of the dinoflagellate Akashiwo sanguinea

Due to global climate change, marine phytoplankton will likely experience low pH (ocean acidification), high temperatures and high irradiance in the future. Here, this work report the results of a batch culture experiment conducted to study the interactive effects of elevated CO2, increased temperature and high irradiance on the harmful dinoflagellate Akashiwo sanguinea, isolated at Dongtou Island, Eastern China Sea. The A. sanguineacells were acclimated in high CO2 condition for about three months before testing the responses of cells to a full factorial matrix experimentation during a 7-day period. This study measured the variation in physiological parameters and hemolytic activity in 8 treatments, representing full factorial combinations of 2 levels each of exposure to CO2(400 and 1000 μatm), temperature (20 and 28 °C) and irradiance (50 and 200 μmol photons /m2/s). Sustained growth of A. sanguinea occurred in all treatments, but high CO2 (HC) stimulated faster growth than low CO2 (LC). The pigments (chlorophyll a and carotenoid) decreased in all HC treatments. The quantum yield (Fv/Fm) declined slightly in all high-temperature (HT) treatments. High irradiance (HL) induced the accumulation of ultraviolet-absorbing compounds (UVabc) irrespective of temperature and CO2. The hemolytic activity in the LC treatments, however, declined when exposed to HT and HL, but HC alleviated the adverse effects of HT and HL on hemolytic activity. All HC and HL conditions and the combinations of high temperaturehigh light (HTHL) and high CO2high temperaturehigh light (HCHTHL) positively affected the growth in comparison to the low CO2low temperaturelow light (LCLTLL) treatment. High temperature (HT), high light (HL) and a combination of HTHL, however, negatively impacted hemolytic activity. CO2 was the main factor that affected the growth and hemolytic activity. There were no significant interactive effects of CO2temperatureirradiance on growth, pigment, Fv/Fm or hemolytic activity, but there were effects on Pm, α, and Ek. If these results are extrapolated to the natural environment, it can be hypothesized that A. sanguinea cells will benefit from the combination of ocean acidification, warming, and high irradiance that are likely to occur under future climate change. It is assumed that faster growth and higher hemolytic activity and UVabc of this species will occur under future conditions compared with those the current CO2 (400 μatm) and temperature (20 °C) conditions.

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Ou, Guanyong, Wang, Hong, Si, Ranran, Guan, WanChun (2017). Dataset: Seawater carbonate chemistry and photophysiology and hemolytic activity of the dinoflagellate Akashiwo sanguinea. https://doi.org/10.1594/PANGAEA.889140

DOI retrieved: 2017

Additional Info

Field Value
Imported on November 29, 2024
Last update November 29, 2024
License CC-BY-3.0
Source https://doi.org/10.1594/PANGAEA.889140
Author Ou, Guanyong
Given Name Guanyong
Family Name Ou
More Authors
Wang, Hong
Si, Ranran
Guan, WanChun
Source Creation 2017
Publication Year 2017
Resource Type text/tab-separated-values - filename: Ou-etal_2017_HA
Subject Areas
Name: BiologicalClassification

Name: Biosphere

Name: Chemistry

Name: Oceans

Related Identifiers
Title: The dinoflagellate Akashiwo sanguinea will benefit from future climate change: The interactive effects of ocean acidification, warming and high irradiance on photophysiology and hemolytic activity
Identifier: https://doi.org/10.1016/j.hal.2017.08.003
Type: DOI
Relation: IsSupplementTo
Year: 2017
Source: Harmful Algae
Authors: Ou Guanyong , Wang Hong , Si Ranran , Guan WanChun .

Title: seacarb: seawater carbonate chemistry with R. R package version 3.1
Identifier: https://cran.r-project.org/package=seacarb
Type: DOI
Relation: References
Year: 2016
Authors: Gattuso Jean-Pierre , Epitalon Jean-Marie , Lavigne Héloïse , Orr James C , Gentili Bernard , Proye Aurélien , Soetaert Karline , Rae James .