Thursday, June 27, 2013

Bigger dead zone ever forecast in Gulf of Mexico

A dead zone-causing algal bloom stained the Gulf of Mexico green in 2007.
Mouth of Mississipi.
Image from NASA/Alamy

From National Geographic

A possibly record-breaking, New Jersey-size dead zone may put a chokehold on the Gulf of Mexico (map) this summer, according to a forecast released this week.
Unusually robust spring floods in the U.S.


Midwest are flushing agricultural runoff—namely, nitrogen and phosphorus—into the Gulf and spurring giant algal blooms, which lead to dead zones, or areas devoid of oxygen that occur in the summer.
The forecast, developed by the University of Michigan and Louisiana State University with support from the U.S. National Oceanic and Atmospheric Administration, estimates a Gulf dead zone of between 7,286 and 8,561 square miles (18,870 and 22,172 square kilometers).
The largest ever reported in the Gulf, 8,481 square miles (21,965 square kilometers), occurred in 2002.
On the flip side, the Chesapeake Bay—the country's biggest estuary—will likely experience a smaller-than-average dead zone this summer.
The forecasts are made using computer models, which are based on U.S. Geological Survey data of nutrient runoff in U.S. rivers and streams.
National Geographic talked to forecast contributor Donald Scavia, an aquatic ecologist at the University of Michigan, about dead zones—and why we should care about them.

Deadzone on July 27, 2009
The second largest dead zone in the world surrounds the mouth of the Mississippi River in the Gulf of Mexico.
Despite decades of efforts to clean up U.S. rivers and lakes, high nitrogen levels are currently combining with strong water flow to make that dead zone larger than it has ever been.
credit : LUMCON
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What's a dead zone?
A dead zone, which occurs in the oceans and Great Lakes, is an area usually in the bottom waters where there's not enough oxygen to sustain life.
It's generally caused by algae stimulated by lots of agricultural nutrients in surface waters.
When nutrients enter the water, [they] create an algal bloom. [When] the algae sink, bacteria start decomposing them, which uses up the [available] oxygen.
(Also see "World's Largest Dead Zone Suffocating Sea [2010].")
During summer, what you have is a stratified water column that inhibits oxygen from the atmosphere getting down to the deep water.
As the bacteria use up oxygen, it's not being replenished, so oxygen concentrations decrease until you get to two milligrams of oxygen per liter of water, which is bad for fish.
Below that, fish that can will leave that area.
Other organisms that can't [leave] die.

Sediment-laden water pours into the northern Gulf of Mexico from the Atchafalaya River

What are examples of organisms that would die?
Animals that live on the bottom.
Worms, clams, the kind of things that fish like to eat. Some fish may have trouble.

Why do we track and study dead zones?
It's important because most often those areas that become uninhabitable by fish, are preferred habitat for fish.
To draw on an analogy that's ironic, it would be like taking thousands of square miles of land in the Midwest out of production.
People wouldn't like it.

So dead zones are an invisible issue.
Yes. They're deep in the bottom waters, and you can't see oxygen.

 Long-term measured size of Gulf of Mexico hypoxic zone with 2011 forecast.
(Credit: Nancy Rabalais LUMCON/NOAA.)

What was your reaction to your finding that the Gulf of Mexico may have a record-breaking dead zone?
To be honest, I was expecting that, mostly because of reports of massive flooding in the Midwest.
The nitrogen and phosphorus in the floodwaters drive the problem.

What's causing the spring floods?
In recent history, the number of larger and more intense storms has been increasing—most climate models suggest storm intensity is going to continue.
(See "Global Warming to Create 'Permanent' Ocean Dead Zones?")

Is the news that the Chesapeake Bay's dead zone is small promising?
It's not really, because people in the area are not doing enough nutrient management—it was a dry spring.
The amount of nutrients going into systems is really dependent on rainfall.
The more water you get, the more nutrients you get going in there.
The real management issue—regardless of whether it's a wet or a dry year—is you've got to keep the nitrogen and phosphorus on the land and not in the rivers.

Is that mostly done by state regulations?
It's actually mostly controlled by the Farm Bill, the main funding mechanism for conservation in agriculture.
The problem with the Farm Bill is there's far more money for supporting commodities and subsidies and not enough into conservation.
I'm not blaming farmers—farmers do what the Farm Bill pays them to do—but we need a Farm Bill that's smarter and supports more conservation programs.
(The most recent Farm Bill, which is updated every five years, was rejected by the House of Representatives on Thursday.)

Do dead zones have lasting effects on the environment?
There's a sense in the Chesapeake, Lake Erie, and the Gulf of Mexico that repeated dead zones are somehow making systems more sensitive to nutrients.
For instance, the same amount of nutrient load now is producing larger dead zones than a decade ago.
(See "Female Fish Develop 'Testes' in Gulf Dead Zone.")
We think it has something to do with residual organic matter that's carried over from one year to the next, or from the changing types of organisms living in the ecosystem.
(Also see video: "Did Gulf Spill Boost 'Dead Zone'?")

5 years ago, there were more than 400 known dead zones in coastal waters worldwide,
compared to 305 in the 1990s, 162 in the 1980s, 87 in the 1970s, and 49 in the 1960s.
In the 1910s, four dead zones had been identified.

What should the public know about dead zones?
The key thing is they really have the potential to devastate the fishing industry—for instance, shrimp in the Gulf, walleye in the Great Lakes, and striped bass in the Chesapeake Bay.
The solution is really to be more aggressive in dealing with pollution coming from agriculture.

Links :
  • NOAA : Major flooding on the Mississippi river predicted to cause largest Gulf of Mexico dead zone ever recorded

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