Add to ORKGOceanic flows do not necessarily mix planktonic species. Differences in individual organisms’ physical and hydrodynamic properties can cause changes in drift normal to the mean flow, leading to segregation between species. This physically-driven heterogeneity may have important consequences at the scale of population dynamics. Here, we describe how one form of physical forcing, circulating flows with different inertia effects between phytoplankton and zooplankton, can dramatically alter excitable plankton bloom dynamics. This may impact our understanding of the initiation and development of harmful algal blooms (HABs), which have significant negative ecological and socio-economic consequences. We study this system in detail, providing spati...
In this work we study a plankton ecosystem model in a turbulent flow. The plankton model we consider...
Phytoplankton patchiness occurs on a plethora of spatial and temporal scales, and can be extremely p...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
Oceanic flows do not necessarily mix planktonic species. Differences in individual organisms’ physic...
Here we show a simple mechanism in which changes in the rate of horizontal stirring by mesoscale oce...
Plankton play an important role in the ecology of the ocean and the climate because of their partici...
A deterministic mechanism for the production of plankton patches within a typical medium scale ocean...
In situations where the direct physical forcing of biological processes, through nutrient supply or ...
Abstract. Here we show a simple mechanism in which changes in the rate of horizontal stirring by mes...
In the plankton, heterotrophic microbes encounter and ingest phytoplankton prey, which effectively r...
International audienceWe study the interplay of hydrodynamic mesoscale structures and the growth of ...
ICES Annual Science Conference 20-24 September 2010 Nantes, France.-- 6 pages, 5 figuresThe mechanis...
Phytoplankton often encounter turbulence in their habitat. As most toxic phytoplankton species are m...
By supplying nutrients to the ocean surface, submesoscale vertical motions can have a strong impact ...
Author Posting. © John Wiley & Sons, 2009. This is the author's version of the work. It is posted ...
In this work we study a plankton ecosystem model in a turbulent flow. The plankton model we consider...
Phytoplankton patchiness occurs on a plethora of spatial and temporal scales, and can be extremely p...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
Oceanic flows do not necessarily mix planktonic species. Differences in individual organisms’ physic...
Here we show a simple mechanism in which changes in the rate of horizontal stirring by mesoscale oce...
Plankton play an important role in the ecology of the ocean and the climate because of their partici...
A deterministic mechanism for the production of plankton patches within a typical medium scale ocean...
In situations where the direct physical forcing of biological processes, through nutrient supply or ...
Abstract. Here we show a simple mechanism in which changes in the rate of horizontal stirring by mes...
In the plankton, heterotrophic microbes encounter and ingest phytoplankton prey, which effectively r...
International audienceWe study the interplay of hydrodynamic mesoscale structures and the growth of ...
ICES Annual Science Conference 20-24 September 2010 Nantes, France.-- 6 pages, 5 figuresThe mechanis...
Phytoplankton often encounter turbulence in their habitat. As most toxic phytoplankton species are m...
By supplying nutrients to the ocean surface, submesoscale vertical motions can have a strong impact ...
Author Posting. © John Wiley & Sons, 2009. This is the author's version of the work. It is posted ...
In this work we study a plankton ecosystem model in a turbulent flow. The plankton model we consider...
Phytoplankton patchiness occurs on a plethora of spatial and temporal scales, and can be extremely p...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...