Add to ORKGparticiapantHalf of the world primary productivity is due to marine phytoplankton. Factors that affect the physiology of these organisms are therefore very important to understand plankton dynamics in the global ocean coastal and pelagic settings. Depending on local conditions, metallic micronutrients can be limiting (e.g., Fe in HNLC areas) and affect plankton population structure. While iron is a pivotal micronutrient that impacts global primary productivity, interactions of other metals with phytoplankton have also gained attention. Among these interactions are the potential effects of increased trace metals on plankton dynamics and vice versa. In order to examine the impact of other trace metals upon selected phytoplankton species, we f...
The effect of metal interactions on phytochelatin production by marine phytoplankton has received li...
During mesoscale Fe enrichment (SEEDS II) in the western North Pacific ocean, we investigated dissol...
This study compares intracellular Cd content (Cd:C) of cultured marine phytoplankton grown under var...
particiapantHalf of the world primary productivity is due to marine phytoplankton. Factors that affe...
The chemical speciation of Fe and Cu in marine waters impart a strong selective pressure on phytopla...
Supported in part by NSF Grant OCE-7919549. Supported in part by NOAA Grant NA79AA-D-00077.Introduct...
In addition to control by major nutrient elements (nitrogen, phosphorous, and silicon) growth and co...
participantA significant consequence of future global climate change scenarios on the world's oceans...
A 3‐day shipboard incubation experiment was conducted in the California Current System in July 2014 ...
Due to their persistence, abiotic factors such as industrial waste waters, heavy metals, petrochemic...
In this study, trace metal bioaccumulation and toxicity in marine phytoplankton were examined. For t...
This study examined the intracellular Cd content (Cd:C) of seven species of cultured phytoplankton ...
Marine phytoplankton are responsible for half of global net primary production, serve as the base of...
We report the results of a field study, in productive waters off California, of the factors that con...
Phytoplankton deal with metal toxicity using a variety of biochemical strategies. One of the strateg...
The effect of metal interactions on phytochelatin production by marine phytoplankton has received li...
During mesoscale Fe enrichment (SEEDS II) in the western North Pacific ocean, we investigated dissol...
This study compares intracellular Cd content (Cd:C) of cultured marine phytoplankton grown under var...
particiapantHalf of the world primary productivity is due to marine phytoplankton. Factors that affe...
The chemical speciation of Fe and Cu in marine waters impart a strong selective pressure on phytopla...
Supported in part by NSF Grant OCE-7919549. Supported in part by NOAA Grant NA79AA-D-00077.Introduct...
In addition to control by major nutrient elements (nitrogen, phosphorous, and silicon) growth and co...
participantA significant consequence of future global climate change scenarios on the world's oceans...
A 3‐day shipboard incubation experiment was conducted in the California Current System in July 2014 ...
Due to their persistence, abiotic factors such as industrial waste waters, heavy metals, petrochemic...
In this study, trace metal bioaccumulation and toxicity in marine phytoplankton were examined. For t...
This study examined the intracellular Cd content (Cd:C) of seven species of cultured phytoplankton ...
Marine phytoplankton are responsible for half of global net primary production, serve as the base of...
We report the results of a field study, in productive waters off California, of the factors that con...
Phytoplankton deal with metal toxicity using a variety of biochemical strategies. One of the strateg...
The effect of metal interactions on phytochelatin production by marine phytoplankton has received li...
During mesoscale Fe enrichment (SEEDS II) in the western North Pacific ocean, we investigated dissol...
This study compares intracellular Cd content (Cd:C) of cultured marine phytoplankton grown under var...