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- Title
Modelling spatial and temporal patterns in size-structured marine plankton communities: top–down and bottom–up controls.
- Authors
Ward, Ben A.; Dutkiewicz, Stephanie; Follows, Michael J.
- Abstract
Idealized equilibrium models have attributed the observed size structure of marine communities to the interactions between nutrient and grazing control. Here, we examine this theory in a more realistic context using a size-structured global ocean food-web model, together with a much simplified version of the same model for which equilibrium solutions are readily obtained. Both models include the same basic assumptions: allometric scaling of physiological traits and size-selective zooplankton grazing. According to the equilibrium model, grazing places a limit on the phytoplankton biomass within each size-class, while the supply rate of essential nutrients limits the number of coexisting size classes, and hence the total biomass, in the system. The global model remains highly consistent with this conceptual view in the large-scale, annual average sense, but reveals more complex behaviour at shorter timescales, when phytoplankton and zooplankton growth may become decoupled. In particular, we show temporal and spatial scale dependence between total phytoplankton biomass and two key ecosystem properties: the zooplankton-to-phytoplankton ratio, and the partitioning of biomass among different size classes.
- Subjects
BIOGEOGRAPHY; MARINE plankton; BIOTIC communities; NUTRIENT cycles; FOOD chains; BIOMASS
- Publication
Journal of Plankton Research, 2014, Vol 36, Issue 1, p31
- ISSN
0142-7873
- Publication type
Article
- DOI
10.1093/plankt/fbt097