Sunday, January 24, 2021

HYPOXIA - Low or depleted oxygen in a water body often leads to 'dead zones '— regions where life cannot be sustained. The amount of oxygen in any water body varies naturally, both seasonally and over time. This occurs due to a balance between oxygen input from the atmosphere and certain biological and chemical processes, some of which produce oxygen while others consume it. Stratification in the water column, which occurs when less dense freshwater from an estuary mixes with heavier seawater, is one natural cause of hypoxia. Hypoxia occurs most often as a consequence of human-induced factors, especially nutrient pollution (also known as eutrophication). In ocean and freshwater environments, the term "hypoxia" refers to low or depleted oxygen in a water body. Hypoxia is often associated with the overgrowth of certain species of algae, which can lead to oxygen depletion when they die, sink to the bottom, and decompose. Hypoxia Causes 'Dead Zones'. In some cases, vast stretches of open water become hypoxic. Unable to sustain life, these areas, called dead zones, may cause die-offs of fish, shellfish, corals, and aquatic plants. Since 1985, NOAA-sponsored research has monitored the largest dead zone in the United States, which forms every spring in the northern Gulf of Mexico. In 2019, it grew to cover more than 6,900 square miles of the sea floor. The amount of oxygen in any water body varies naturally, both seasonally and over time.

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Hypoxia

Low or depleted oxygen in a water body often leads to 'dead zones '— regions where life cannot be sustained.

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The amount of oxygen in any water body varies naturally, both seasonally and over time. This occurs due to a balance between oxygen input from the atmosphere and certain biological and chemical processes, some of which produce oxygen while others consume it. Stratification in the water column, which occurs when less dense freshwater from an estuary mixes with heavier seawater, is one natural cause of hypoxia. Hypoxia occurs most often as a consequence of human-induced factors, especially nutrient pollution (also known as eutrophication).

The National Ocean Service

 

At 2,116 square miles, the 2020 hypoxic zone in the Gulf of Mexico is the 3rd smallest ever measured in the 34-year record, measured from July 25 to August 1. Red area denotes 2 milligrams per liter of oxygen or lower, the level which is considered hypoxic, at the bottom of the seafloor. (Bottom panel) Long-term measured size of the hypoxic zone (green bars) measured during the ship surveys since 1985, including the target goal established by the Mississippi River/Gulf of Mexico Watershed Nutrient Task Force and the 5-year average measured size (black dashed lines). In 2020, Hurricane Hanna passed through the central and western Gulf days prior to the research cruise and mixed the water column, disrupting the hypoxic zone which forms in the coastal ocean west of the Mississippi River delta. While the size of the hypoxic zone fluctuates naturally throughout the summer, it usually forms again within days or weeks after the passage of storms. Due to the close proximity of the storm to the survey cruise, the hypoxia area was only able to partially reform before the end of the monitoring cruise, resulting in a patchy distribution across the Gulf. Graphic credit: Louisiana Universities Marine Consortium

In ocean and freshwater environments, the term "hypoxia" refers to low or depleted oxygen in a water body.

Hypoxia is often associated with the overgrowth of certain species of algae, which can lead to oxygen depletion when they die, sink to the bottom, and decompose.

Hypoxia Causes 'Dead Zones'

In some cases, vast stretches of open water become hypoxic.

Unable to sustain life, these areas, called dead zones, may cause die-offs of fish, shellfish, corals, and aquatic plants.

Since 1985, NOAA-sponsored research has monitored the largest dead zone in the United States, which forms every spring in the northern Gulf of Mexico.

In 2019, it grew to cover more than 6,900 square miles of the sea floor.

How Does Hypoxia Happen?

The amount of oxygen in any water body varies naturally, both seasonally and over time.

This occurs due to a balance between oxygen input from the atmosphere and certain biological and chemical processes, some of which produce oxygen while others consume it.

Stratification in the water column, which occurs when less dense freshwater from an estuary mixes with heavier seawater, is one natural cause of hypoxia.

Limited vertical mixing between the water "layers" restricts the supply of oxygen from surface waters to more saline bottom waters, leading to hypoxic conditions in bottom habitats.

Hypoxia occurs most often, however, as a consequence of human-induced factors, especially nutrient pollution (also known as eutrophication).

The causes of nutrient pollution, specifically of nitrogen and phosphorus nutrients, include agricultural runoff, fossil-fuel burning, and wastewater treatment effluent.

Hypoxia and Climate Change

Changes in both global and regional climates have the potential to make coastal and marine ecosystems even more vulnerable to hypoxic conditions.

NOAA's National Centers for Coastal Ocean Science (NCCOS) carries out interdisciplinary research to advance understanding of the relationship between ecosystem function and climate change.

This type of research will ultimately assist decision makers and resource managers as they address the challenges of protecting ecosystems in a changing climate.

NOAA's Efforts to Combat Hypoxia

NOAA studies and funds research on the causes and impacts of hypoxia.

NOAA also collaborates with local, state, and federal agencies, regional task forces, universities, conservation organizations, and industry partners to develop management strategies to reduce nutrient inputs into coastal waters.

Much of NOAA's hypoxia work is managed through NCCOS, which studies and monitors the effects of hypoxia and other sources of pollution nationwide.

NCCOS has funded the development of hypoxia forecasts in the Gulf of Mexico since 1990 and in the Chesapeake Bay since 2005.

In the Gulf of Mexico, this research helped the Mississippi River/Gulf of Mexico Watershed Nutrient Task Force set goals and prioritize actions to reduce the size of the annual Gulf of Mexico Dead Zone.

In Chesapeake Bay, the research is providing important information to interagency management bodies like the Chesapeake Bay Program.

The Gulf of Mexico Hypoxia Watch evolved as a cooperative project among NOAA's National Marine Fisheries Service - NMFS, NCEI at Stennis, and the CoastWatch - Caribbean/Gulf of Mexico - Regional Node.

Hypoxia Watch provides near-real-time data and map products using shipboard measurements of bottom-dissolved oxygen.

These products help scientists prep for the yearly monitoring cruise by informing them of the potential extent of hypoxia in the Gulf of Mexico.

NOAA also plays a major role in the U.S. Integrated Ocean Observing System (IOOS®).

With its Coastal and Ocean Modeling Testbed, IOOS is evaluating a suite of hypoxia forecast models in the Gulf of Mexico and Chesapeake Bay.

In addition, NOAA's Ecological Forecasting Roadmap initiative is developing a national framework for hypoxia and other ecological forecasts (e.g., harmful algal blooms, pathogens) so that their benefits to the public can be sustained and improved over time.

NOAA-sponsored hypoxia studies are ongoing in Lake Erie, Green Bay, and Narragansett Bay.

The National Ocean Service provides data, tools, and services that support coastal economies and their contribution to the national economy

https://oceanservice.noaa.gov/hazards/hypoxia/


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