Ocean acidification as one of multiple stressors : growth response of Thalassiosira weissflogii (diatom) under temperature and light stress
Citable URI
https://hdl.handle.net/1912/9425As published
https://doi.org/10.3354/meps11541DOI
10.3354/meps11541Keyword
Thalassiosira weissflogii; Cell characteristics; Growth; Ocean acidification; Light limitation; Temperature limitation; Multi-stressor responseAbstract
Future shifts in phytoplankton composition and productivity are anticipated given
that continuing changes are expected in environmental conditions such as temperature, the partial
pressure of CO2 (pCO2) and light climate, all of which regulate phytoplankton communities
and their physiology through bottom-up control. Culture experiments revealed that future (elevated)
pCO2 had no effect on Thalassiosira weissflogii in the absence of environmental stressors,
whereas growth rates drastically decreased under future pCO2 when cells were grown under light
and temperature stress. Reduction in growth rates and a smaller decline in cellular photosynthesis
under high pCO2 were associated with 2- to 3-fold increases in the production of transparent
exopolymer particles (TEP) and in the cell quotas of organic carbon, as well as a similar decrease
in the C:chl a ratios. Results suggest that under light- and temperature-stressed growth, elevated
pCO2 led to increased energy requirements, which were fulfilled by increased light harvesting
capabilities that permitted photosynthesis of acclimatized cells to remain relatively high. This was
combined with the inability of these cells to acclimatize their growth rate to sub-optimal temperatures.
Consequently, growth rate was low and decoupled from photosynthesis, and this decoupling
led to large cell sizes and high excretion rates in future pCO2 treatments compared to ambient
treatments when growth temperature and light were sub- optimal. Under optimal growth
conditions, the increased energy demands required to re- equilibrate the disturbed acid-base balance
in future pCO2 treatments were likely mediated by a variety of physiological acclimatization
mechanisms, individually too small to show a statistically detectable response in terms of growth
rate, photosynthesis, pigment concentration, or excretion.
Description
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Marine Ecology Progress Series 541 (2015): 75-90, doi:10.3354/meps11541.
Suggested Citation
Marine Ecology Progress Series 541 (2015): 75-90The following license files are associated with this item:
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