Add to ORKGDeep Chlorophyll Maximum (DCM) modifies the upper ocean heat capture distribution and thus impacts water column temperature and stratification, as well as biogeochemical processes. This energetical role of the DCM is assessed using a 1 m-resolution 1D physical-biogeochemical model of the upper ocean, using climatological forcing conditions of the Guinea Dome (GD). This zone has been chosen among others because a strong and shallow DCM is present all year round. The results show that the DCM warms the seasonal thermocline by +2 degrees C in September/October and causes an increase of heat transfer from below into the mixed layer (ML) by vertical diffusion and entrainment, leading to a ML warming of about 0.3 degrees C in October. In the perm...
Also published as: Journal of Marine Research 38 (1980): 507-531The potential significance of the D...
Deep chlorophyll maxima (DCMs) are widespread through large parts of the oceans1-5. These deep layer...
Marine heatwaves (MHWs), prolonged ocean temperature extremes, have been enhanced by global warming ...
Deep Chlorophyll Maximum (DCM) modifies the upper ocean heat capture distribution and thus impacts w...
The deep chlorophyll maximum (DCM) is a ubiquitous but poorly understood feature of the ocean ecosys...
The evolution of the near-surface phytoplankton bloom towards a Deep Chlorophyll Maximum (DCM) in mi...
International audienceStratified oceanic systems are characterized by the presence of a so-called De...
The Deep Chlorophyll Maximum (DCM) is simulated in two oligotrophic regions (SW Sargasso Sea and NW ...
In temperate shelf seas, a deep chlorophyll maximum (DCM) persists within the thermocline during sum...
Seasonally stratified areas in temperate shelf seas are usually characterized by a strong spring blo...
Western tropical Indian Ocean, Arabian Sea, and the equatorial Pacic are known as regions of intense...
The influence of the chlorophyll on the upper Tropical Atlantic Ocean is investigated with long-term...
Based on a long-term simulation of an ocean-biogeochemical coupled model, we investigate the biogeoc...
Sea surface temperature (SST) controls surface fluxes of heat and moisture and so helps determine th...
This paper investigates the dynamics of the deep chlorophyll maximum layer (DCML) along the Fernando...
Also published as: Journal of Marine Research 38 (1980): 507-531The potential significance of the D...
Deep chlorophyll maxima (DCMs) are widespread through large parts of the oceans1-5. These deep layer...
Marine heatwaves (MHWs), prolonged ocean temperature extremes, have been enhanced by global warming ...
Deep Chlorophyll Maximum (DCM) modifies the upper ocean heat capture distribution and thus impacts w...
The deep chlorophyll maximum (DCM) is a ubiquitous but poorly understood feature of the ocean ecosys...
The evolution of the near-surface phytoplankton bloom towards a Deep Chlorophyll Maximum (DCM) in mi...
International audienceStratified oceanic systems are characterized by the presence of a so-called De...
The Deep Chlorophyll Maximum (DCM) is simulated in two oligotrophic regions (SW Sargasso Sea and NW ...
In temperate shelf seas, a deep chlorophyll maximum (DCM) persists within the thermocline during sum...
Seasonally stratified areas in temperate shelf seas are usually characterized by a strong spring blo...
Western tropical Indian Ocean, Arabian Sea, and the equatorial Pacic are known as regions of intense...
The influence of the chlorophyll on the upper Tropical Atlantic Ocean is investigated with long-term...
Based on a long-term simulation of an ocean-biogeochemical coupled model, we investigate the biogeoc...
Sea surface temperature (SST) controls surface fluxes of heat and moisture and so helps determine th...
This paper investigates the dynamics of the deep chlorophyll maximum layer (DCML) along the Fernando...
Also published as: Journal of Marine Research 38 (1980): 507-531The potential significance of the D...
Deep chlorophyll maxima (DCMs) are widespread through large parts of the oceans1-5. These deep layer...
Marine heatwaves (MHWs), prolonged ocean temperature extremes, have been enhanced by global warming ...