This fall researchers at the Georgia Museum of Natural History at the University of Georgia will lead an effort to digitize around 2.1 million specimens from the order Lepidoptera -- moths and butterflies -- and to make that data available to scientists studying climate, natural habitats and agricultural pests.
They hope the insect specimens will tell the story of the world's climatic shifts, animals on the move and changing fauna.
Joe McHugh, curator of the arthropod collection at the museum and professor of entomology at the UGA College of Agricultural and Environmental Sciences, will lead the National Science Foundation-funded effort. When LepNet -- as the project is being called -- is complete, it will be one of the largest databases of insect data to date, opening centuries of scientific inquiry to the new world of data analytics. This project also could set a framework for other museums to follow.
"People don't really want to spend five years going around the world visiting collections in museums and transcribing data from tiny little labels just to understand the biology and distribution of a species," said McHugh. "Researchers want to be able to address serious questions by going to some web-based resource and pulling down all the relevant information in some standard format for analysis."
Scientists have been collecting and organizing insect specimens since before the Enlightenment, and museums across the world have solid collections dating back 300 years. Museums in North America alone house around 250 million insect specimens from around the world.
Most specimens are stored with details of their capture: the date and the time of day they were found, climatic data, the geographic location, the plants that were being used as food, the condition of the insect and whether there were other insects around. Each entry represents a datapoint that can now be used to construct a clearer understanding of the biology of that species and of how populations move and change, and why.
"You can ask, 'Where does this species occur right now?' 'Where was it 10 years ago?' and then, 'Where did it used to occur in the distant past?'" McHugh said. "We can use this information to look at questions about climate change or human impact on environments by seeing how, over time, the ranges of insect species have changed."
Researchers can also build models to project when and where problem insects, like crop-devouring caterpillars, will appear, allowing farmers to prepare for the arrival of a species, McHugh said.
"You can layer in climate information, soil information and host-plant information, and you can predict, pretty accurately in many cases, where a species will occur, even if it has never been collected there yet," he added. "All of the data from various sources could indicate that a location has the right conditions for a particular species."
These kinds of models are almost impossible to generate today because only a very small portion of the collections in museums across the globe has been digitized, and what has been done has been in fits and starts.
There's a digitized collection of parasitoid wasps here, the beginnings of a great beetle database there, but for many years there was been nothing comprehensive and little agreement in the scientific community about the format that these electronic records should take. In recent years, however, great progress has been made to develop universal standards for digitizing museum specimens, McHugh said.
With LepNet being the largest undertaking of its kind to date, McHugh and his colleagues are hoping to further refine the process.
While butterflies and moths are not McHugh's main research focus -- he studies beetles -- his team chose Lepidoptera to start the digitization project because the order includes many major pests and some beneficial species. Also, scientists and naturalists have been collecting specimens for hundreds of years. There are more than 15 million specimens in museums in North America alone.
"They are a group that's charismatic, visible, frequently collected and more easily identified than other taxa," he said. "You can identify more than 50 percent of butterflies and macro-moths to species with a picture book, just by sight."
In addition to searchable datapoints, LepNet will include 95,000 high-quality specimen photos that will represent 60 percent of North America's Lepidoptera species. Eventually, photo-recognition software may enable these images to be used in a publicly available butterfly and moth identification app called "LepSnap."
McHugh's team, including an army of student researchers across North America, will start the digitization process this fall at 29 major insect collections. In addition to the UGA Collection of Arthropods at the Georgia Museum of Natural History, participating museums and institutions include the University of Florida; Mississippi State University; University of Missouri; University of Oklahoma; Kansas State University; New Mexico State University; Arizona State University; the Denver Museum of Nature and Science; Northern Arizona University; University of California, Davis; University of Nevada, Reno; University of Utah; Oregon State University; University of Alaska; Western Washington University; University of Idaho; Colorado State University; University of Minnesota; University of Wisconsin; Milwaukee Public Museum; Purdue University; Michigan State University; Ohio State University; Harvard University; Yale University; Drexel University; University of Delaware; and Clemson University.
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