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CTAHR scientists create new app to track papaya virus and GE papaya

CTAHR scientists create new app to track papaya virus and GE papaya

Scot Nelson and Richard Manshardt, scientists with the College of Tropical Agriculture and Human Resources, have created a new citizen science app for iOS and Android users that tracks what they believe to be the declining incidence of papaya ringspot virus (PRSV) in the Honolulu area—as well as a possible increase in the incidence of PRSV-resistant genetically engineered (GE) papayas.

Scot Nelson

Scot Nelson shows the Pic-a-Papaya app.

As the scientists point out, the disease used to be common, from its appearance in the 1940s through the early 2000s. Its rapid spread devastated the papaya industry on O‘ahu in the 1960s and struck Big Island growers with 50% losses in the 1990s. Now, however, PRSV appears to be relatively rare. This may be due to the fact that the “Rainbow” papaya, genetically engineered by CTAHR, Cornell and USDA researchers to be resistant to the virus, was introduced in 1998 after extensive testing and has been grown commercially for 15 years. By 2002, approximately half of the commercial papaya crop in Hawai‘i was Rainbow, a development that has been credited with saving the papaya industry in the Islands. In 2009, about 77 percent consisted of Rainbow or the related genetically engineered “SunUp,” also released by CTAHR.

Richard Manshardt

Richard Manshardt under a papaya tree.

But Nelson, a specialist in the Department of Plant and Environmental Protection Sciences, and Manshardt, a horticulturalist in the Department of Tropical Plant and Soil Sciences, are interested to learn how many papaya plants growing in home gardens or public areas are genetically engineered—and of those that are not, how many are still harboring the virus. They hope their new Pic-a-Papaya project will help them to gather this information.

Users are invited to visit the Pic-a-Papaya website (http://www.ctahr.hawaii.edu/pic-a-papaya) and download the free app, which will allow them to take pictures of papaya plants in the Honolulu metropolitan area—Hawai‘i Kai to Kapolei—and send them to Nelson and Manshardt for diagnosis of PRSV. Each plant will be assessed a value of healthy or diseased and its GPS coordinates mapped. Users of the app can then view the map to see the distribution of infected plants.

People who want to know whether their papaya plant is a genetically engineered variety can also find out this information for free by taking a sample of a leaf from the plant and mailing it to the scientists for testing. Further instructions for mailing the sample can be found at the project website.

Perhaps the most appealing aspect of the project is that it offers free papaya seeds to users who wish to replace papaya plants that have been diagnosed with PRSV or have been determined to be genetically engineered strains. A choice of either non-genetically engineered seed with partial virus tolerance or virus-resistant Rainbow or SunUp genetically engineered seeds is available.

The iOS version of the app may be found at https://itunes.apple.com/us/app/pic-a-papaya/id852773229?ls=1&mt=8. The Android version may be downloaded at https://play.google.com/store/apps/details?id=edu.hawaii.papaya

Nelson is no stranger to using technology to enlist citizen scientists in the quest to map and combat invasive crop pests in Hawai‘i. It was his Plant Doctor app (http://hawaiiplantdisease.net/%22The-Plant-Doctor%22-app-for-Android-and-iPhones.php) that led to the discovery in January 2014 of a new pest of coffee on the Big Island, an emaravirus that reportedly renders coffee cherries unmarketable (https://sites.google.com/a/hawaii.edu/emaravirus-infects-coffee-in-hawaii/home).

Source:  A UH Mānoa press release

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