Feedback on Phosphate
Phytoplankton Plundering of Phosphate
The phosphorus model is the simplest of all the ocean models. All phytoplankton require phosphorus (P) in order to live. The synthesis of new algal cells is not possible in the absence of P in the environment. The phosphorus model makes the assumption that all other required resources are present in sufficient quantity and that it is phosphate scarcity that sets the limit to the proliferation of phytoplankton. In common with many other models, phytoplankton growth is limited only by phosphate in this model.
The second component making up the feedback is that increased phytoplankton growth tends to deplete phosphate levels in the ocean, as shown in the figure to the right. Firstly, as new phytoplankton cells grow, phosphate is removed from the surrounding seawater. However, this effect is only temporary (order of days), because when the cells die and decompose, the cellular P is returned to solution. A second feedback occurs because a proportion of phytoplankton cells sink out of the surface waters before being attacked by bacteria or zooplankton, following which their P is returned to deeper waters. This effect is also still only temporary however (order centuries) because the deeper water eventually return to the surface, taking their extra phosphate back with them. The last, but most important, effect is that a small proportion of the cells sink to the seafloor and become permanently incorporated into marine sediments. In this case the phosphorus is permanently removed from the oceans. Because the rate at which P is buried in marine sediments (lost from the system) is a fixed proportion of the surface primary production in the model, when there is more primary production there is necessarily more burial.
The key feedback is therefore
This stabilising feedback is part of wider pattern whereby phytoplankton removal keeps certain elements at anomalously low concentrations in seawater (click here for further explanation).
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- Tyrrell, T. (1999). The relative influences of nitrogen and phosphorus on oceanic primary production. Nature 400, 525–531.