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Heat Key Factor In Population Growth Of Some Urban Insect Pests

Posted March 29, 2013

New research from North Carolina State University finds that higher temperatures found in urban environments are a key contributor to higher populations of insect pests called scale insects – indicating that an increase in temperatures associated with global climate change could lead to a significant increase in scale insect populations.

“We now have a better understanding of why trees in urban areas are infested by so many of these pests,” says Dr. Steve Frank, an assistant professor of entomology at NC State and co-author of a paper describing the study. “And if climate change causes temperatures to rise in forests, as we expect, we may see scale insects becoming a much bigger problem for ecosystem health.”

Scale insects are small pests that latch onto a plant and feed off of its sap, weakening and potentially killing the plant. In this study, researchers looked specifically at the oak lecanium scale insect (Parthenolecanium quercifex), which feeds solely on oaks.

The researchers used temperature maps to identify the hottest and coolest zones in the urban environment of Raleigh, N.C. They then evaluated the population densities of P. quercifex in those zones, and found that the scale populations were as much as 800 percent higher in the warm zones.

To determine whether the population difference was due to heat or other environmental factors, the researchers brought P. quercifex egg sacs from both hot and cool zones into the lab. Some egg sacs from the hot zones were placed in heat chambers, while other sacs from hot zones were placed in cooling chambers. Egg sacs from cool zones were also placed in heat and cooling chambers.

The egg sacs taken from the warmest urban zones and placed in the laboratory heat chamber resulted in a scale insect population that was 250 percent more abundant than any of the other scale groups.

“The scale insects in the hotter urban zones appear to have adapted or acclimated to the higher temperatures in urban environments,” says Emily Meineke, a Ph.D. student at NC State and lead author of the paper. “Theoretically, that adaptation would also allow them to take advantage of warmer temperatures that may result from climate change.”

Source: NC State

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