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Meta-analysis of multiple driver effects on marine phytoplankton highlights modulating role of pCO. | LitMetric

Meta-analysis of multiple driver effects on marine phytoplankton highlights modulating role of pCO.

Glob Chang Biol

Alfred-Wegener-Institut, Helmholtz-Zentrum für Polar- und Meeresforschung, Bremerhaven, Germany.

Published: December 2020

AI Article Synopsis

  • * A meta-analysis of 42 studies found that high pCO2 dampens the growth benefits of increased temperature and light, with coccolithophores showing unique responses compared to other phytoplankton groups, particularly being sensitive to pCO2 levels.
  • * Future predictions indicate varying impacts on primary productivity: it may initially rise in the Arctic, drop in the tropics and mid-latitudes due to nutrient limitation, and potentially increase in the Southern Ocean from higher nutrient availability.

Article Abstract

Responses of marine primary production to a changing climate are determined by a concert of multiple environmental changes, for example in temperature, light, pCO , nutrients, and grazing. To make robust projections of future global marine primary production, it is crucial to understand multiple driver effects on phytoplankton. This meta-analysis quantifies individual and interactive effects of dual driver combinations on marine phytoplankton growth rates. Almost 50% of the single-species laboratory studies were excluded because central data and metadata (growth rates, carbonate system, experimental treatments) were insufficiently reported. The remaining data (42 studies) allowed for the analysis of interactions of pCO with temperature, light, and nutrients, respectively. Growth rates mostly respond non-additively, whereby the interaction with increased pCO profusely dampens growth-enhancing effects of high temperature and high light. Multiple and single driver effects on coccolithophores differ from other phytoplankton groups, especially in their high sensitivity to increasing pCO . Polar species decrease their growth rate in response to high pCO , while temperate and tropical species benefit under these conditions. Based on the observed interactions and projected changes, we anticipate primary productivity to: (a) first increase but eventually decrease in the Arctic Ocean once nutrient limitation outweighs the benefits of higher light availability; (b) decrease in the tropics and mid-latitudes due to intensifying nutrient limitation, possibly amplified by elevated pCO ; and (c) increase in the Southern Ocean in view of higher nutrient availability and synergistic interaction with increasing pCO . Growth-enhancing effect of high light and warming to coccolithophores, mainly Emiliania huxleyi, might increase their relative abundance as long as not offset by acidification. Dinoflagellates are expected to increase their relative abundance due to their positive growth response to increasing pCO and light levels. Our analysis reveals gaps in the knowledge on multiple driver responses and provides recommendations for future work on phytoplankton.

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Source
http://dx.doi.org/10.1111/gcb.15341DOI Listing

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