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Oecologia


Title:Insect herbivory in an intact forest understory under experimental CO2 enrichment
Author(s):Hamilton JG; Zangerl AR; Berenbaum MR; Pippen J; Aldea M; DeLucia EH;
Address:"Department of Biology, Ithaca College, Ithaca, NY 14850, USA. jhamilton@ithaca.edu"
Journal Title:Oecologia
Year:2004
Volume:20040109
Issue:4
Page Number:566 - 573
DOI: 10.1007/s00442-003-1463-5
ISSN/ISBN:0029-8549 (Print) 0029-8549 (Linking)
Abstract:"Human-induced increases in atmospheric CO(2) concentration have the potential to alter the chemical composition of plant tissue, and thereby affect the amount of tissue consumed by herbivorous arthropods. At the Duke Forest free-air concentration enrichment (FACE) facility in North Carolina (FACTS-1 research facility), we measured the amount of leaf tissue damaged by insects and other herbivorous arthropods during two growing seasons in a deciduous forest understory continuously exposed to ambient (360 microl l(-1)) and elevated (approximately 560 microl l(-1)) CO(2) conditions. In 1999, there was a significant interaction between CO(2) and species such that winged elm ( Ulmus alata) showed lower herbivory in elevated CO(2) plots, whereas red maple (Acer rubra) and sweetgum (Liquidambar styraciflua) did not. In 2000, our results did not achieve statistical significance but the magnitude of the result was consistent with the 1999 results. In 1999 and 2000, we found a decline (10-46%) in community-level herbivory in elevated CO(2) plots driven primarily by reductions in herbivory on elm. The major contribution to total leaf damage was from missing tissue (66% of the damaged tissue), with galls, skeletonized, and discolored tissue making smaller contributions. It is unclear whether the decline in leaf damage is a result of altered insect populations, altered feeding, or a combination. We were not able to quantify insect populations, and our measurements did not resolve an effect of elevated CO(2) on leaf chemical composition (total nitrogen, carbon, C/N, sugars, phenolics, starch). Despite predictions from a large number of single-species studies that herbivory may increase under elevated CO(2), we have found a decrease in herbivory in a naturally established forest understory exposed to a full suite of insect herbivores and their predators"
Keywords:"*Adaptation, Physiological Animals Carbon Dioxide/*metabolism *Feeding Behavior Insecta/*physiology North Carolina Plant Leaves Trees/*physiology;"
Notes:"MedlineHamilton, Jason G Zangerl, Arthur R Berenbaum, May R Pippen, Jeffrey Aldea, Mihai DeLucia, Evan H eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Germany 2004/01/10 Oecologia. 2004 Mar; 138(4):566-73. doi: 10.1007/s00442-003-1463-5. Epub 2004 Jan 9"

 
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