A new research project at East Carolina University should lead to improved climate forecasting for North Carolina.
ECU geography professors Dr. Tom Rickenbach and Dr. Rosana Nieto-Ferreira will examine how changes in the atmosphere control the manner in which rain and snow falls in the state and how those changes affect the state’s current and future climate. The study is made possible by a three-year $314,000 National Sciences Foundation grant funded by the NSF Directorate for Geosciences’ Atmospheric and Geospace Sciences Division.
In their grant proposal, the researchers noted that precipitation is a primary source of water for North Carolina’s rivers, soils and groundwater reservoirs. They said that studying the manner in which the precipitation arrives will help scientists understand how increasing population, climate change and land use patterns are affecting the state’s climate.
“Scientists and engineers are constantly improving our ability to measure how much rain and snow reach the surface. What we don’t understand as well is the manner in which that water is typically delivered to us,” said Rickenbach.
“That missing piece of the puzzle is crucial to knowing whether precipitation reaching the ground will help or hinder us as we lead our lives. Knowing how a given amount of precipitation reached us – as gentle widespread daily showers, intense isolated but brief thunderstorms, or heavy snowfall – determines how we can best harness it for our needs and whether we must protect ourselves from its impacts.”
Nieto-Ferreira said that scientists do not fully understand how the state’s fresh water resource responds to changes in the environment; more research is needed. She said, “We may then better understand how these variations in precipitation impact our lives, such as agriculture, urban runoff, coastal development and flooding.”
The scientists will conduct their research in three steps. First, every precipitation system that occurred across North Carolina over a three-year period will be identified and characterized using newly available high-resolution precipitation and three-dimensional radar reflectivity data sets. Next, the mode of delivery of the precipitation will be placed in the context of the prevailing wind and weather patterns of the atmosphere, based on archived maps and analysis. Finally, the climatology will be applied, with the goal of improving the interpretation of state-of-the-art model simulations of future regional climates.
The University of North Carolina Renaissance Computing Institute and the National Climate Data Center will partner with Rickenbach and Nieto-Ferreira to construct and analyze radar-based datasets tailored to the project.
For additional information about this NSF grant, contact Rickenbach at 252-328-1039 or firstname.lastname@example.org, or Nieto-Ferreira at 252-328-0751 or email@example.com.