The 25 February 2011 Volume 331 issue of Science, a publication of the American Association for the Advancement of Science published the following article:
Researchers Use Weather Radar to Track Bat Movements
A new field of study called aeroecology looks at the interactions between flying animals and their airspace. Using weather radars, a bat ecologist has discovered that the weather strongly affects the behavior of at least one species. Brazilian free-tailed bats, common in the south-central United States and Mexico, emerge from their daytime slumber at different times of day depending on the temperature, she and her colleagues reported on 19 February at the AAAS annual meeting (see p. 995 and here for more meeting coverage).
Dual-polarized weather radar can estimate the number of bats in a swarm similar to the way it can estimate the number of raindrops in a cloud. This information is valuable to biologists, ecologists and entomologists as they try to understand how populations and behaviors of bats and insects are affected by changes in climate over time.
Several mobile radars, including NSSL’s dual-polarized mobile radar were used in a project to track swarms of millions of bats as they emerged from their caves each night to feast on insects. The radar images of bats appear as distinct “blooms.”
Usually data from birds, insects or bats are considered “clutter” and are filtered out. NSSL researchers have reversed the filter to now focus on the bioscatter. Using calculations of radar backscatter from a single bat in the laboratory, made by the University of Oklahoma, the group is developing the first means to calculate aerial densities of bats as they travel.
NSSL will use the data to enhance algorithms that remove the bioscatter clutter to see the weather more clearly.
“What we see in the dual-polarized fields provided by NSSL’s radar, and soon with WSR-88D dual-polarization, will bring a whole new era in behavioral ecology and conservation as well as radar quality control,” says NSSL’s Ken Howard.
The National Science Foundation sponsored project includes researchers from several Universities, the National Park Service and the USGS.
“The summer night sky is filled with a spectrum of biological life that is in many ways equivalent to what we observe in coral reefs,” says Howard. The data we collected has brought a new appreciation of the rich diversity of life and that can be seen using radars, and especially dual-polarized radars.”