Add to ORKGWe motivate and analyze a reaction-advection-diffusion model for the dynamics of a phytoplankton species. The reproductive rate of the phytoplankton is determined by the local light intensity. The light intensity decreases with depth due to absorption by water and phytoplankton. Phytoplankton is transported by turbulent diffusion in a water column of given depth. Furthermore, it might be sinking or buoyant depending on its specific density. Dimensional analysis allows the reduction of the full problem to a problem with four dimensionless parameters that is fully explored. We prove, that the critical parameter regime for which a stationary phytoplankton bloom ceases to exist, can be analyzed by a reduced linearized equation with par...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Cook, L. PamelaOliver, Matthew J.Phytoplankton are the base of the marine food web. They are also re...
Abstract. We investigate a nonlocal reaction-diffusion-advection equation which models the growth of...
textabstractWe analyze the predictions of a reaction-advection-diffusion model to pinpoint the neces...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
With the eutrophication of many freshwaters and coastal environments, phytoplankton blooms have beco...
Phytoplankton requires light for photosynthesis, but most phytoplankton species are heavier than wat...
textabstractPhytoplankton requires light for photosynthesis, but most phytoplankton species are heav...
With the eutrophication of many freshwaters and coastal environments, phytoplankton blooms have beco...
Phytoplankton require light for photosynthesis. Yet, most phytoplankton species are heavier than wat...
Phytoplankton require light for photosynthesis. Yet, most phytoplankton species are heavier than wat...
Abstract The intensity of eddy diffusivity and the spatial average of water velocity at the depths o...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Cook, L. PamelaOliver, Matthew J.Phytoplankton are the base of the marine food web. They are also re...
Abstract. We investigate a nonlocal reaction-diffusion-advection equation which models the growth of...
textabstractWe analyze the predictions of a reaction-advection-diffusion model to pinpoint the neces...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
A turbulent diffusion model shows that there are two different mechanisms for the development of phy...
With the eutrophication of many freshwaters and coastal environments, phytoplankton blooms have beco...
Phytoplankton requires light for photosynthesis, but most phytoplankton species are heavier than wat...
textabstractPhytoplankton requires light for photosynthesis, but most phytoplankton species are heav...
With the eutrophication of many freshwaters and coastal environments, phytoplankton blooms have beco...
Phytoplankton require light for photosynthesis. Yet, most phytoplankton species are heavier than wat...
Phytoplankton require light for photosynthesis. Yet, most phytoplankton species are heavier than wat...
Abstract The intensity of eddy diffusivity and the spatial average of water velocity at the depths o...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Recently new models were devised to study spatio-temporal dynamics of phytoplankton populations in v...
Cook, L. PamelaOliver, Matthew J.Phytoplankton are the base of the marine food web. They are also re...