Küstenforschung

BIOACID – Biological Impacts of Ocean ACIDification

Mesocosm experiments mimic the future, more acidified ocean. But responses of plankton communities to these conditions can be masked by a variety of unresolved factors. Model calculations help to identify uncertainties that could produce this variability.

Find out more in the publication by scientists from Helmholtz-Zentrum Geesthacht – HZG and Geomar Helmholtz-Zentrum für Ozeanforschung Kiel:

Moreno de Castro, M., Schartau, M., and Wirtz, K. (2017): Potential sources of variability in mesocosm experiments on the response of phytoplankton to ocean acidification. Biogeosciences, 14, 1883-1901, doi:10.5194/bg-14-1883-2017

Abstract:

Mesocosm experiments on phytoplankton dynamics under high CO2 concentrations mimic the response of marine primary producers to future ocean acidification. However, potential acidification effects can be hindered by the high standard deviation typically found in the replicates of the same CO2 treatment level. In experiments with multiple unresolved factors and a sub-optimal number of replicates, post-processing statistical inference tools might fail to detect an effect that is present. We propose that in such cases, data-based model analyses might be suitable tools to unearth potential responses to the treatment and identify the uncertainties that could produce the observed variability. As test cases, we used data from two independent mesocosm experiments. Both experiments showed high standard deviations and, according to statistical inference tools, biomass appeared insensitive to changing CO2 conditions. Conversely, our simulations showed earlier and more intense phytoplankton blooms in modeled replicates at high CO2 concentrations and suggested that uncertainties in average cell size, phytoplankton biomass losses, and initial nutrient concentration potentially outweigh acidification effects by triggering strong variability during the bloom phase. We also estimated the thresholds below which uncertainties do not escalate to high variability. This information might help in designing future mesocosm experiments and interpreting controversial results on the effect of acidification or other pressures on ecosystem functions.

 

More detailed information about the ==> BIOACID project

Screenshot BIOACID video

 

 

Maria Moreno compares her work to a detective mission – as you can learn in a BIOACID video portrait about her.

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