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ScienceDaily_2014 07423.txt

#Testing biological treatment for pathogens that are killing honeybees and batsa researcher at Georgia State university is studying a new biological treatment for bacterial and fungal pathogens that are killing honeybees and bats in record numbers. Dr. Christopher Cornelison a postdoctoral researcher is testing how effective Rhodococcus rhodochrous a species of bacteria is in fighting pathogens affecting honeybees and bats. In honeybees Chalkbrood disease has contributed to the number of managed honeybee colonies in the U s. being cut in half a phenomenon known as Colony Collapse Disorder. Since 2006 White-Nose Syndrome has killed an estimated 7 million bats in North america the steepest wildlife decline in the past century. Cornelison grows the bacteria under certain conditions that enable them to inhibit the growth of fungi responsible for these diseases. The approach is unique because the bacteria do need not to make physical contact unlike many probiotics. It's also nontoxic allowing the honey to be edible for human consumption. Our bacteria produce a volatile chemical that's dispersed through the air and tremendously inhibits the growth of fungal and bacterial pathogens Cornelison said. Honeybees and bats are key to the ecosystem. One of every three bites of food in America is related to honeybee pollination according to the United states Department of agriculture. Many crops such as almonds and other tree nuts berries fruits and vegetables depend on pollination by honeybees. Bats play a crucial role in pest control. A single brown bat will eat its body mass equivalent in insects in one summer night Cornelison said. If these species go extinct we're losing something that we don't even comprehend the value of right now he said. Cornelison has achieved positive results in cell studies. In honeybees no negative effects were found in toxicity trials exposing bees to the bacteria in the air or in their honey. In bats Cornelison found the bacteria slow fungal growth and permanently eliminated spore germination. In collaboration with University of California-Davis he found the bacteria prevented the spread of fungi on bat skin without touching the skin. Cornelison's research is funded by the U s. Forest Service and Bat Conservation International. Story Source: The above story is provided based on materials by Georgia State university. Note: Materials may be edited for content and length h

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