Digitization Specialist Part of NSF Study on Bat Species Linked to COVID-19

Deborah Paul HeadshotDeborah Paul, FSU College of Communication and Information digitization specialist, is on a team of researchers who received a $200,000 grant from the National Science Foundation to compile data on bat species linked to the COVID-19 crisis.

“Via this grant, it’s exciting to be able to contribute to the information SARS-CoV-2 virus researchers need about a potential source — the horseshoe bats (family Rhinolophidae),” Paul said. “I will be supervising a staff with extensive bat taxonomy and geocoding expertise, to provide thousands of new map data points for these bat specimens currently preserved in museums around the world.”

“Working with colleagues at FSU and collaborators, I’ll be facilitating the production of a research-ready dataset for studying these bats through time,” Paul said. “A key component I’m thrilled about includes ensuring these enhanced data records find their way back into the local museum collection databases worldwide.”

See below for the full press release:

FOR IMMEDIATE RELEASE 

CONTACT: Kathleen Haughney, University Communications
(850) 644-1489; khaughney@fsu.edu

@FSUResearch

June 2020

FSU RESEARCHERS NET $200K NSF GRANT TO COMPILE DATA ON BAT SPECIES LINKED TO COVID-19 CRISIS

TALLAHASSEE, Fla. – A team of Florida State University researchers has received a $200,000 grant from the National Science Foundation to create a global data set on the horseshoe bat, a possible source of the novel coronavirus plaguing nations worldwide.

Professor of Biological Science Austin Mast and College of Communication and Information digitization specialist Deborah Paul, along with collaborators from across North America, will develop the data set from about 100,000 horseshoe bat specimens housed at more than 100 natural history museums. To better understand the origins of this viral pathogen and how it spreads across species, researchers need more data about these bats.

The data set will link to information about tissue samples, DNA sequences, disease load data and more.

“Each specimen is an irreplaceable time capsule of information,” Mast said.

Mast and Paul also will collaborate with researchers from Yale University’s Peabody Museum of Natural History, who will enable rapid geocoding of the specimens. Staff and researchers from the American Museum of Natural History, Arizona State University and the University of Florida’s Florida Museum of Natural History also will assist with data refinement.

“With our National Science Foundation funding and our collaborators, we will apply our combined expertise to rapidly enhance these data records in several different ways; for example, by providing geocoordinates and standardizing location and collector information,” Paul said. “Once published, these additional data will allow scientists to visualize and potentially expand the known ranges for these bats through space and time.”

These range maps will pinpoint the locations of the bats. These can then be used for modeling the likelihood that viruses might spill over from bats into neighboring human communities.

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