Matrix experiments were conducted to determine the role of trace metals in limiting phytoplankton growth rate in seawater collected from the deep nitrate maximum (800 m, 25 µM nitrate) off the North Carolina coast. Additions of FeCI3, MnCI2, and chelators (EDTA and NTA) stimulated the growth of unialgal cultures of Chaetoceros socialis or of a natural phytoplankton community inoculated into this seawater...
The responses to {Cu++} (free cupric ion activity) of 24 clones of 11 species of marine phytoplankto...
In this first in situ study of the dynamic availability of phytoplankton micronutrients, a SeaExplor...
Mn was found to reduce the toxicity of Cu to the marine diatom Thalassiosira pseudonana (clone 3H) i...
Culture experiments with the estuarine diatom Thalassiosira pseudonana (clone 3H) in highly chelated...
In addition to control by major nutrient elements (nitrogen, phosphorous, and silicon) growth and co...
The chemical speciation of Fe and Cu in marine waters impart a strong selective pressure on phytopla...
Productivity in large areas of the world's oceans is limited by low concentrations of dissolved iro...
Photochemical redox cycling of iron in natural seawater may affect the availability of iron to phyto...
Marine phytoplankton are responsible for half of global net primary production, serve as the base of...
The reproductive rates of 21 species of marine phytoplankton were measured in media in which free zi...
Some trace metals such as Fe, Ni, Cu, and Zn are essential for the growth OF phytoplankton. The conc...
Experiments were performed to investigate transfer of 59Fe, 65Zn, 54Mn, and 15N from labeled cyanoba...
Experiments were conducted to determine the relationship between the response of a bacterial isolate...
Supported in part by NSF Grant OCE-7919549. Supported in part by NOAA Grant NA79AA-D-00077.Introduct...
International audiencePrevious mesocosm experiments and field studies have indicated a central role ...
The responses to {Cu++} (free cupric ion activity) of 24 clones of 11 species of marine phytoplankto...
In this first in situ study of the dynamic availability of phytoplankton micronutrients, a SeaExplor...
Mn was found to reduce the toxicity of Cu to the marine diatom Thalassiosira pseudonana (clone 3H) i...
Culture experiments with the estuarine diatom Thalassiosira pseudonana (clone 3H) in highly chelated...
In addition to control by major nutrient elements (nitrogen, phosphorous, and silicon) growth and co...
The chemical speciation of Fe and Cu in marine waters impart a strong selective pressure on phytopla...
Productivity in large areas of the world's oceans is limited by low concentrations of dissolved iro...
Photochemical redox cycling of iron in natural seawater may affect the availability of iron to phyto...
Marine phytoplankton are responsible for half of global net primary production, serve as the base of...
The reproductive rates of 21 species of marine phytoplankton were measured in media in which free zi...
Some trace metals such as Fe, Ni, Cu, and Zn are essential for the growth OF phytoplankton. The conc...
Experiments were performed to investigate transfer of 59Fe, 65Zn, 54Mn, and 15N from labeled cyanoba...
Experiments were conducted to determine the relationship between the response of a bacterial isolate...
Supported in part by NSF Grant OCE-7919549. Supported in part by NOAA Grant NA79AA-D-00077.Introduct...
International audiencePrevious mesocosm experiments and field studies have indicated a central role ...
The responses to {Cu++} (free cupric ion activity) of 24 clones of 11 species of marine phytoplankto...
In this first in situ study of the dynamic availability of phytoplankton micronutrients, a SeaExplor...
Mn was found to reduce the toxicity of Cu to the marine diatom Thalassiosira pseudonana (clone 3H) i...