Add to ORKGThe Mississippi River system ranks among the world\u27s top 10 rivers in freshwater and sediment inputs to the coastal ocean. The river contributes 90% of the freshwater loading to the Gulf of Mexico, and terminates amidst one of the United States\u27 most productive fisheries regions and the location of the largest zone of hypoxia, in the western Atlantic Ocean. Significant increases in riverine nutrient concentrations and loadings of nitrate and phosphorus and decreases in silicate have occurred this century, and have accelerated since 1950. Consequently, major alterations have occurred in the probable nutrient limitation and overall stoichiometric nutrient balance in the adjacent continental shelf system. Changes in the nutrient balances...
Two centuries of land use in the Mississippi River watershed are reflected in the water quality of i...
The effects of nutrient loading from the Mississippi River basin on the areal extent of hypoxia in t...
Nutrients from the Mississippi-Atchafalaya River Basin have been found to be a principal cause of t...
CHANGES in delivery of river-borne nutrients such as dissolved phosphate, nitrate and silicate, owin...
The seasonal formation of a bottom water layer severely depleted in dissolved oxygen has become a pe...
Large-scale hypoxia regularly develops during the summer on the Louisiana continental shelf. Traditi...
Large and turbid rivers have varying temperatures, light conditions, nutrient availability, and nutr...
Long-term patterns in riverine nutrient flux in the lower Mississippi River were examined in relatio...
Increases in nutrient concentrations in the Mississippi River over the past 35 yr have led to specul...
Long-term patterns in riverine nutrient flux in the lower Mississippi River were examined in relatio...
In many aquatic systems, incidences of low oxygen (hypoxia) waters have been causally linked to incr...
River systems worldwide have become substantially influenced by human activities, including land use...
Community respiration, net nutrient fluxes and heterotrophic bacterial production were investigated ...
Diversion of river waters to adjacent estuaries may occur during wetland restoration, navigation cha...
Community respiration, net nutrient fluxes and heterotrophic bacterial production were investigated ...
Two centuries of land use in the Mississippi River watershed are reflected in the water quality of i...
The effects of nutrient loading from the Mississippi River basin on the areal extent of hypoxia in t...
Nutrients from the Mississippi-Atchafalaya River Basin have been found to be a principal cause of t...
CHANGES in delivery of river-borne nutrients such as dissolved phosphate, nitrate and silicate, owin...
The seasonal formation of a bottom water layer severely depleted in dissolved oxygen has become a pe...
Large-scale hypoxia regularly develops during the summer on the Louisiana continental shelf. Traditi...
Large and turbid rivers have varying temperatures, light conditions, nutrient availability, and nutr...
Long-term patterns in riverine nutrient flux in the lower Mississippi River were examined in relatio...
Increases in nutrient concentrations in the Mississippi River over the past 35 yr have led to specul...
Long-term patterns in riverine nutrient flux in the lower Mississippi River were examined in relatio...
In many aquatic systems, incidences of low oxygen (hypoxia) waters have been causally linked to incr...
River systems worldwide have become substantially influenced by human activities, including land use...
Community respiration, net nutrient fluxes and heterotrophic bacterial production were investigated ...
Diversion of river waters to adjacent estuaries may occur during wetland restoration, navigation cha...
Community respiration, net nutrient fluxes and heterotrophic bacterial production were investigated ...
Two centuries of land use in the Mississippi River watershed are reflected in the water quality of i...
The effects of nutrient loading from the Mississippi River basin on the areal extent of hypoxia in t...
Nutrients from the Mississippi-Atchafalaya River Basin have been found to be a principal cause of t...