Add to ORKGSulfur emission from marine phytoplankton has been recognized as an important factor for global climate and as an entry into the biogeochemical S cycle. Despite this significance, little is known about the cellular S metabolism in algae that forms the basis of this emission. Some biochemical and genetic evidence for regulation of S uptake and assimilation is available for the freshwater model alga Chlamydomonas . However, the marine environment is substantially different from most freshwaters, containing up to 50 times higher free sulfate concentrations and challenging the adaptive mechanisms of primary and secondary S metabolism in marine algae. This review intends to integrate ecological and physiological data to provide a compr...
Nitrogen and sulfur are abundant constituents of plant and algal cells that are assimilated at the l...
MasterOcean emit variety of volatile sulfur compounds to the atmosphere through air-sea gas exchange...
16 pages, 5 figures, 1 table, supporting information https://dx.doi.org/10.1002/lno.10491Symbiosis w...
Sulfur emission from marine phytoplankton has been recognized as an important factor for global cli...
Sulfur is one of the critical elements in living matter, as it participates in several structural, m...
Sulphur is one of the main components of algal cells, with a cell quota typically very similar to th...
The sulfate facilitation hypothesis suggests that changes in ocean sulfate concentration influenced ...
Sulfur is an essential nutrient for life and a constituent of many important biomolecules. Phytopla...
Sulfur is required for growth of all organisms and is present in a wide variety of metabolites havi...
Unlike biologically available nitrogen and phosphorus, which are often at limiting concentrations in...
International audienceUnlike biologically available nitrogen and phosphorus, which are often at limi...
Diatoms are unicellular algae responsible for approximately 20 % of global carbon fixation. Their ev...
Lab-based studies, combined with metatranscriptomic and metabolomic field analyses, reveal important...
Hydrogen sulfide can exist in oxic waters in the form of a dissolved gas, dissociated ions, dissolve...
Sulfur is an essential element for all living organisms and is required by algae, plants, fungi, ani...
Nitrogen and sulfur are abundant constituents of plant and algal cells that are assimilated at the l...
MasterOcean emit variety of volatile sulfur compounds to the atmosphere through air-sea gas exchange...
16 pages, 5 figures, 1 table, supporting information https://dx.doi.org/10.1002/lno.10491Symbiosis w...
Sulfur emission from marine phytoplankton has been recognized as an important factor for global cli...
Sulfur is one of the critical elements in living matter, as it participates in several structural, m...
Sulphur is one of the main components of algal cells, with a cell quota typically very similar to th...
The sulfate facilitation hypothesis suggests that changes in ocean sulfate concentration influenced ...
Sulfur is an essential nutrient for life and a constituent of many important biomolecules. Phytopla...
Sulfur is required for growth of all organisms and is present in a wide variety of metabolites havi...
Unlike biologically available nitrogen and phosphorus, which are often at limiting concentrations in...
International audienceUnlike biologically available nitrogen and phosphorus, which are often at limi...
Diatoms are unicellular algae responsible for approximately 20 % of global carbon fixation. Their ev...
Lab-based studies, combined with metatranscriptomic and metabolomic field analyses, reveal important...
Hydrogen sulfide can exist in oxic waters in the form of a dissolved gas, dissociated ions, dissolve...
Sulfur is an essential element for all living organisms and is required by algae, plants, fungi, ani...
Nitrogen and sulfur are abundant constituents of plant and algal cells that are assimilated at the l...
MasterOcean emit variety of volatile sulfur compounds to the atmosphere through air-sea gas exchange...
16 pages, 5 figures, 1 table, supporting information https://dx.doi.org/10.1002/lno.10491Symbiosis w...