Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nutrient concentrations, and phytoplankton biomass, composition, and chlorophyll a (Chl a) specific absorption were assessed in spring and summer from latitudes 29 to 63° N in the northeast Atlantic Ocean. The goal of this study was to identify relationships between phytoplankton and abiotic factors in an existing SST and stratification gradient. Furthermore, a bio-optical model was used to estimate productivity for five phytoplankton groups. Nutrient concentration (integrated from 0 to 125 m) was inversely correlated with SST in spring and summer. SST was also inversely correlated with near-surface (0-50 m) Chl a and productivity for stratified...
North Atlantic, an extensive data set of high-pressure liquid chromatography pigment concentrations,...
The presence of a subsurface chlorophyll maximum is a ubiquitous feature of CTD profiles collected f...
Phytoplankton play a key role in the geochemical cycles of the Earth, are responsible for 50% of glo...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
In the summer of 1989 vertical profiles of chlorophyll a were taken in the North Atlantic. Stations ...
Climate change is affecting the hydrodynamics of the world’s oceans. How these changes will influenc...
In temperate shelf seas, a deep chlorophyll maximum (DCM) persists within the thermocline during sum...
Ninety-four stations were sampled in the Atlantic subtropical gyres during 10 cruises carried out be...
The current study aimed to assess changes in phytoplankton composition and productivity along an oli...
hysical and chemical properties of the water column, along with meteorological conditions were exami...
It is widely held that as the ocean becomes more intensely stratified with anthropogenic-driven clim...
North Atlantic, an extensive data set of high-pressure liquid chromatography pigment concentrations,...
The presence of a subsurface chlorophyll maximum is a ubiquitous feature of CTD profiles collected f...
Phytoplankton play a key role in the geochemical cycles of the Earth, are responsible for 50% of glo...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
Relationships between sea surface temperature (SST, > 10 m) and vertical density stratification, nut...
In the summer of 1989 vertical profiles of chlorophyll a were taken in the North Atlantic. Stations ...
Climate change is affecting the hydrodynamics of the world’s oceans. How these changes will influenc...
In temperate shelf seas, a deep chlorophyll maximum (DCM) persists within the thermocline during sum...
Ninety-four stations were sampled in the Atlantic subtropical gyres during 10 cruises carried out be...
The current study aimed to assess changes in phytoplankton composition and productivity along an oli...
hysical and chemical properties of the water column, along with meteorological conditions were exami...
It is widely held that as the ocean becomes more intensely stratified with anthropogenic-driven clim...
North Atlantic, an extensive data set of high-pressure liquid chromatography pigment concentrations,...
The presence of a subsurface chlorophyll maximum is a ubiquitous feature of CTD profiles collected f...
Phytoplankton play a key role in the geochemical cycles of the Earth, are responsible for 50% of glo...