October 1st, 2012-
This article that we are bringing to you from the USGS.gov website shows how the study of these salt water mashes gives evidence that the carbon in the air can be removed from the air and put into the ground to become worked into the environment in a natural way. Yet there is no way that enough marshes could be saved and re-created in order to curb the carbon levels from human growth and environmental pollutants like solar cycles and volcanism, both on land and in the sea. Mankind should be saving and creating as many saltwater marshes to help preserve natural wildlife habitats and teach growing generations how we need to care for our only planet. Earth will change in ways out of our control, yet there are many things humans can and should be doing in order to soften the “blow” from climate change that is constant and enevatible. Read this article and brows the links provided to enlighten yourself about these wonderful ecosystems that can give us all cleaner air quality along the west coast.:
USGS.gov – Salt marshes may help slow the rate of climate change in the future, as rising and warmer oceans will enable them to more quickly capture and remove carbon dioxide from the atmosphere, according to a study published in the journal Nature this week.
Carbon dioxide is the predominant “greenhouse gas” that traps heat and warms the atmosphere.
Marshes and Carbon
“Our research suggests that the value of these ecosystems in capturing atmospheric carbon might become much more important in the future, as the climate warms,” said Matthew Kirwan, a University of Virginia environmental scientist, and the lead author of this USGS-funded and supported research.
In fact, said Kirwan, the research forecasts that under faster sea-level rise rates, salt marshes could bury up to four times as much carbon as they do now. “The study forecasts that marshes will absorb some of that carbon dioxide, and if other coastal ecosystems – such as seagrasses and mangroves – respond similarly, there might be a little less warming,” said Kirwan.
One of the most interesting facets about salt marshes is they are perhaps the best example of an ecosystem that actually depends on carbon accumulation to survive climate change: the accumulation of roots in the soil builds their elevation, keeping the plants above the water, Kirwan noted.
Salt marshes store significant quantities of carbon by taking carbon dioxide out of the atmosphere through their leaves, and then storing it in their roots. As plants die, the carbon becomes part of the soil and helps the marsh survive sea level rise.
“Coastal wetlands are among the most economically and ecologically valuable ecosystems on Earth, with their services estimated worth about $15,000 an acre,” said Matthew Larsen, associate director for climate and land use research at the U.S. Geological Survey. “They provide clean water, abundant food, wildlife habitat, and protection from storms. This and other USGS research aims to understand and forecast the vulnerability of coastal wetland systems to global change and identify ways that managers can effectively respond to global change effects.”
Marshes and Sea Level Rise
Kirwan cautioned that the study also showed that marshes can survive only moderately fast rates of sea level rise. To survive, the elevation of the soil surface has to build vertically through time. If the seas rise more quickly than the marsh can build up, marshes drown and die off.
“At fast levels of sea level rise, no realistic amount of carbon accumulation will help them survive,” Kirwan noted.
And, said Kirwan, if marshes are drowned by fast-rising seas, they no longer would provide a significant carbon storage capacity.
The Value of Marsh Ecosystems
Salt marshes, made up primarily of grasses, are important coastal ecosystems that provide a variety of ecosystem services for wildlife, fisheries, and people. They help protect shorelines from storms, provide diverse wildlife habitat for birds, mammals, fish, and mollusks. They also build up coastal elevations by trapping sediment during floods, producing new soil from roots and decaying organic matter. New Orleans, for example, is separated from the Gulf of Mexico almost entirely by marshes.
Little Blue herons in a Louisiana marsh.
DOI manages 35 million acres of low-lying coastal areas, including marshes and thousands of miles of shoreline. The U.S. Fish and Wildlife Service alone manages about 5 million acres of coastal wetlands.
“This research can help decision makers understand and prepare for how coastal areas may fare in response to climate change,” said Glenn Guntenspergen, a USGS researcher who leads a project on Coastal Marsh Response to Climate and Land Use Change Project that this study was a part of. Kirwan and his co-author, Simon Mudd, a geosciences researcher at the University of Edinburgh in Scotland, used computer models to predict salt marsh growth rates under different climate change and sea level scenarios. – USGS.gov
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