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U.S. watershed scientists offer national flood and runoff assessment

Amherst, MA – Scientists from the University of Massachusetts Amherst have published a broad analysis of climate and land cover effects on watersheds in the United States aimed at land use and town planners and water quality managers.

The research provides a broad assessment of runoff, flooding and storm water management options, the university said in a news release.

Watershed scientist Timothy Randhir and his doctoral student Paul Ekness in the department of environmental conservation at the University of Massachusetts Amherst hope their new multivariate simulation and statistical models at the watershed system level will give managers some practical ideas on new incentives to get developers to include water quality, green infrastructure and conservation plans in their projects. They also want to encourage a new awareness of the need for cities and towns to co-operate when considering new development.

The study quantifies the connections between land use and climate, that is temperature and precipitation, to the runoff process and flooding in a watershed system at a larger scale than was available before. 

Randhir says this assessment of data from satellite imagery, field stations, water flow observations, temperature and stream gauges over the entire United States will generate new information about mechanisms and processes and will lead to a better understanding of the runoff process in large systems.

“We also want to highlight the importance of natural systems such as forest cover and open space when a town is considering new parking lots or shopping centers, for example,” he says. You can’t just take away such ecosystem services and expect everything to be OK. All towns now have a big problem dealing with storm water, and with climate change it’s going to get worse. In the past, the problems just flowed away to become some other town’s problem, but that isn’t going to work anymore.”

The watershed researcher says he hopes a new approach to water resource management will emerge so that towns and managers shift from dealing with storm and runoff problems after the fact, to looking at preventive, source-level solutions.

“There seems to be a better understanding now that water flowing away from you doesn’t just disappear, it affects someone else, and a problem in the system above you will affect you. This kind of systems thinking has to take over, and cooperation has to be used more often,” Randhir says.

His paper makes very specific recommendations on how to use such tools as urban forestry or increasing infiltration to mitigate flooding. The researchers ran models to quantify relationships between different land uses and conditions including urban forestry, agriculture, stream networks, soil types, temperature, precipitation and human interventions such as dams and parking lots.

“We propose the increased use of green infrastructure and best management practices to enhance the resilience of the watershed system,” Randhir says. For example, cities and towns should now offer incentives for their own and private developments to change practices when building facilities that increase impervious cover, for example a parking lot. Plans should include practices like pervious pavement that lets rainwater seep through and not run off, plus rain gardens or retention basins that capture hot, dirty runoff from asphalt to capture sediments, oil, grease and heavy metals.

This work was supported by the U.S. Department of Agriculture’s National Institute for Food and Agriculture.

Details appear today in an early online edition of the Journal of Geophysical Research: Biogeosciences.