Restored wetlands no match for real thing
|February 1, 2012 - It's difficult to restore the invaluable functions of wetlands once they are degraded according to new reports.|
|Los Angeles Times|
Samuel P. Schuchat, executive director of the Coastal Conservancy, left, walks through the Ballona Wetlands during a conservancy tour of the natural reserve in Marina del Rey. New studies show that wetlands do not quickly return to their original vitality once destroyed or altered. (Genaro Molina / Los Angeles Times / January 19, 2012)
How easy is it to recreate nature? When it comes to wetlands, the answer seems to be “not very.”
A new paper examining data from more than 600 restored or man-made wetlands found that in key ways, they don’t measure up to the real thing.
Wetlands perform vital ecosystem functions. They act as fish nurseries, control erosion, clean up water, store carbon, and provide wildlife habitat. But they have been filled, drained and paved over at a steady pace, prompting efforts to restore them in California and across the nation.
The study, published in the January issue of PLoS Biology, raises questions about the ultimate success of those projects.
“It’s much better to protect what we have now than to keep degrading it and put in the kind of substitutes that are not going to recover in many, many years. Or they are not going to recover ever,” said David Moreno-Mateos, the study’s lead author.
Now a restoration fellow at Stanford University’s Jasper Ridge Biological Preserve, he conducted the work while a postdoctoral fellow at UC Berkeley.
Moreno-Mateos and his three co-authors analyzed biologic measurements from 401 wetlands restored at their original sites and 220 newly created ones. They then compared the results with values from natural wetlands in similar locations.
They found rehabilitation projects quickly revived hydrologic functions. But compared with natural, undisturbed sites, carbon and nitrogen levels and the accumulation of soil organic matter were significantly less, as were the variety and abundance of native plants.
In some disturbed wetlands that had been allowed to recover on their own, native plant communities hadn’t fully returned to normal even after a century.
Wetlands appeared to respond more quickly to restoration efforts if they were larger than 250 acres, were located in a temperate climate, or exposed to large natural flow variations in tidal or river environments.
Most of the research surveyed by the authors was from U.S. wetlands, but the authors also reviewed international studies. Because nearly half of the data were from young restoration projects, Moreno-Mateos said the results should be cautiously interpreted. “We need more long-term monitoring to really know what is happening.”