Angiosperm Flora of India

A petiole-galling insect herbivore decelerates leaf lamina litter decomposition rates

Publication Type:Journal Article
Year of Publication:2012
Authors:Frost, CJ, Dean, JM, Smyers, EC, MESCHER, MARKC, Carlson, JE, DE MORAES, CONSUELOM, Tooker, JF
Journal:Functional Ecology
Date Published:2012
ISBN Number:1365-2435
Keywords:Ectoedemia, leaf chemistry, leaf-litter decomposition, plant–herbivore interactions, Populus

1. Herbivore-mediated changes in leaf-litter chemistry are often considered responsible for altering litter decomposition rates, but such chemical changes often co-occur with other factors such as physical alteration of leaf material that also influence decomposition rates. We attempted to disentangle these effects using the poplar petiole gall moth (Ectoedemia populella Brusk), which forms galls on petioles at the base of the leaf lamina but does not alter leaf morphology. Thus, differences in leaf decomposition rates between galled and ungalled leaves should be explained by gall-mediated changes in leaf chemistry. 2. Petiole galling decelerated leaf lamina litter decomposition in two Populus host species, but in temporally distinct ways. In Populus granidentata, galling decelerated decomposition by 7% after 4 months. After 12 and 18 months, Populus tremuloides litter decomposition rates were 12% and 17% lower, respectively, in lamina tissue whose petiole had been galled relative to ungalled. On average, the petiole galler increased leaf lamina nitrogen concentrations by 17%, decreased tannin concentrations from 37% to 53% and decreased tannin-binding capacity by 11% and 37% in P. grandidentata and P. tremuloides, respectively. These changes would be expected to increase, rather than decrease, decomposition rates. 3. Unlike other insect herbivores guilds that have variable effects on litter decomposition in direction and magnitude, all gall insects studied to date have decelerated leaf-litter decomposition. This consistent effect of galling on decomposition provides a framework for deciphering a fundamental aspect of insect herbivory on a critical ecosystem process. 4. We used a gall-inducing moth with a distinctive natural history to confirm the role of herbivore-mediated litter chemistry in leaf-litter decomposition dynamics. Moreover, we advance the hypothesis that gall-induced defensive manipulations that protect a host plant from injury by other herbivores lead to decelerated litter decomposition.

Short Title:Functional Ecology
Taxonomic name: 
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Scratchpads developed and conceived by (alphabetical): Ed Baker, Katherine Bouton Alice Heaton Dimitris Koureas, Laurence Livermore, Dave Roberts, Simon Rycroft, Ben Scott, Vince Smith