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Oecologia


Title:Development of gypsy moth larvae feeding on red maple saplings at elevated CO2 and temperature
Author(s):Williams RS; Lincoln DE; Norby RJ;
Address:"Department of Biology, Appalachian State University, 572 Rivers Street, P.O. Box 32027, Boone, NC 28608-2027, USA. willmsrs@appstate.edu"
Journal Title:Oecologia
Year:2003
Volume:20030703
Issue:1
Page Number:114 - 122
DOI: 10.1007/s00442-003-1327-z
ISSN/ISBN:0029-8549 (Print) 0029-8549 (Linking)
Abstract:"Predicted increases in atmospheric CO(2) and global mean temperature may alter important plant-insect associations due to the direct effects of temperature on insect development and the indirect effects of elevated temperature and CO(2) enrichment on phytochemicals important for insect success. We investigated the effects of CO(2) and temperature on the interaction between gypsy moth (Lymantria dispar L.) larvae and red maple (Acer rubrum L.) saplings by bagging first instar larvae within open-top chambers at four CO(2)/temperature treatments: (1) ambient temperature, ambient CO(2), (2) ambient temperature, elevated CO(2) (+300 microl l(-1) CO(2)), (3) elevated temperature (+3.5 degrees C), ambient CO(2), and (4) elevated temperature, elevated CO(2). Larvae were reared to pupation and leaf samples taken biweekly to determine levels of total N, water, non-structural carbohydrates, and an estimate of defensive phenolic compounds in three age classes of foliage: (1) immature, (2) mid-mature and (3) mature. Elevated growth temperature marginally reduced (P <0.1) leaf N and significantly reduced ( P <0.05) leaf water across CO(2) treatments in mature leaves, whereas leaves grown at elevated CO(2) concentration had a significant decrease in leaf N and a significant increase in the ratio of starch:N and total non-structural carbohydrates:N. Leaf N and water decreased and starch:N and total non-structural carbohydrates:N ratios increased as leaves aged. Phenolics were unaffected by CO(2) or temperature treatment. There were no interactive effects of CO(2) and temperature on any phytochemical measure. Gypsy moth larvae reached pupation earlier at the elevated temperature (female =8 days, P <0.07; male =7.5 days, P <0.03), whereas mortality and pupal fresh weight of insects were unrelated to either CO(2), temperature or their interaction. Our data show that CO(2) or temperature-induced alterations in leaf constituents had no effect on insect performance; instead, the long-term exposure to a 3.5 degrees C increase in temperature shortened insect development but had no effect on pupal weight. It appears that in some tree-herbivorous insect systems the direct effects of an increased global mean temperature may have greater consequences for altering plant-insect interactions than the indirect effects of an increased temperature or CO(2) concentration on leaf constituents"
Keywords:Animals Carbon Dioxide/*metabolism *Feeding Behavior Larva Moths/*physiology Nitrogen/metabolism Plant Leaves/metabolism Temperature Trees/*metabolism Water/metabolism;
Notes:"MedlineWilliams, Ray S Lincoln, David E Norby, Richard J eng UA/96UOSC12/SC/NCI NIH HHS/ Research Support, U.S. Gov't, Non-P.H.S. Research Support, U.S. Gov't, P.H.S. Germany 2003/07/05 Oecologia. 2003 Sep; 137(1):114-22. doi: 10.1007/s00442-003-1327-z. Epub 2003 Jul 3"

 
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