Add to ORKGThe presence of a “dead zone” in the Gulf of Mexico caused by nutrients (nitrogen and phosphorus) coming from upstream watersheds continues to recur annually. As part of the 2008 action plan promulgated by the Hypoxia Task Force to address the problem, each state with major nutrient contributions to the Gulf was tasked with developing and implementing a nutrient reduction strategy. Most of the 12 states included have begun or completed their plans. A common theme among all states is the focus on voluntary adoption of the practices identified rather than a regulatory strategy
Nutrient pollution, now the leading cause of water quality impairment in the United States, has had ...
The hypoxia zone in the Gulf of Mexico continues to grow each year, this hypoxic “dead zone” is caus...
Every summer, a hypoxic zone forms in the Gulf of Mexico, where dissolved oxygen is too low for many...
Since 1985, the size of the hypoxic zone in the Gulf of Mexico has been measured every July via a cr...
In 2008, the hypoxic zone in the Gulf of Mexico, measuring 20 720 km2, was one of the two largest re...
Nutrients in drainage waters from the Upper Mississippi River Basin states have been a well-document...
The Iowa Nutrient Reduction Strategy is a science and technology-based framework developed to assess...
A seasonally occurring summer hypoxic (low oxygen) zone in the northern Gulf of Mexico is the second...
The Iowa Nutrient Reduction Strategy is a science-based framework that identifies in-field, edge of ...
Nutrient losses from agricultural systems in the Mississippi River basin have contributed to the hyp...
In an attempt to identify a cost-effec-tive strategy to alleviate the problem of hypoxia in the Gulf...
Nitrogen fertilizer runoff in the Mississippi River Basin has caused a hypoxic zone in the Gulf of M...
The United States is home to the second largest hypoxic (or dead zone) in the world, in the Gulf of ...
Each spring and summer in the Gulf of Mexico, nutrient-rich ef- fl uent from the Mississippi and Atc...
Nutrient pollution, now the leading cause of water quality impairment in the United States, has had ...
Nutrient pollution, now the leading cause of water quality impairment in the United States, has had ...
The hypoxia zone in the Gulf of Mexico continues to grow each year, this hypoxic “dead zone” is caus...
Every summer, a hypoxic zone forms in the Gulf of Mexico, where dissolved oxygen is too low for many...
Since 1985, the size of the hypoxic zone in the Gulf of Mexico has been measured every July via a cr...
In 2008, the hypoxic zone in the Gulf of Mexico, measuring 20 720 km2, was one of the two largest re...
Nutrients in drainage waters from the Upper Mississippi River Basin states have been a well-document...
The Iowa Nutrient Reduction Strategy is a science and technology-based framework developed to assess...
A seasonally occurring summer hypoxic (low oxygen) zone in the northern Gulf of Mexico is the second...
The Iowa Nutrient Reduction Strategy is a science-based framework that identifies in-field, edge of ...
Nutrient losses from agricultural systems in the Mississippi River basin have contributed to the hyp...
In an attempt to identify a cost-effec-tive strategy to alleviate the problem of hypoxia in the Gulf...
Nitrogen fertilizer runoff in the Mississippi River Basin has caused a hypoxic zone in the Gulf of M...
The United States is home to the second largest hypoxic (or dead zone) in the world, in the Gulf of ...
Each spring and summer in the Gulf of Mexico, nutrient-rich ef- fl uent from the Mississippi and Atc...
Nutrient pollution, now the leading cause of water quality impairment in the United States, has had ...
Nutrient pollution, now the leading cause of water quality impairment in the United States, has had ...
The hypoxia zone in the Gulf of Mexico continues to grow each year, this hypoxic “dead zone” is caus...
Every summer, a hypoxic zone forms in the Gulf of Mexico, where dissolved oxygen is too low for many...