IMBIV   05474
INSTITUTO MULTIDISCIPLINARIO DE BIOLOGIA VEGETAL
Unidad Ejecutora - UE
artículos
Título:
Edge effects on insect–plant food webs: assessing the influence of geographical orientation and microclimatic conditions
Autor/es:
BERNASCHINI, MARÍA LAURA; VALLADARES, GRACIELA; SALVO, ADRIANA
Revista:
ECOLOGICAL ENTOMOLOGY
Editorial:
WILEY-BLACKWELL PUBLISHING, INC
Referencias:
Año: 2020 vol. 45 p. 806 - 820
ISSN:
0307-6946
Resumen:
1. Geographical orientation affects the magnitude of microclimatic edge effects, mainly by altering the exposure to solar radiation. There is considerable evidence available concerning the influence of microclimatic edge effects on organisms at the population level, although little is known about effects at the community level, and variations with edge geographical orientation have barely been addressed. The present study investigated the influence of microclimatic conditions at the forest interior and edges with different geographical orientation on plant?leafminer?parasitoid food webs in the fragmented Chaco Serrano forest located in Central Argentina. 2. Microclimatic variables were measured in three locations: interior, north, and south-facing edges of six forest fragments. In each location, plant resource availability was assessed and mined leaves were collected to investigate plant?leafminer?parasitoid communities by rearing leafminer and parasitoid adults. 3. The results obtained revealed changes in the specific composition of plant, leafminer and parasitoid communities among locations, although they failed to detect location influences on most variables linked to abundance (except for leafminers), richness or food web structure. Leafminer abundance was negatively related to temperature, whereas their richness was related, also negatively, to moisture. Instead, parasitoids were favoured by higher temperatures and light levels, stronger winds, and lower humidity. 4. The results of the present study indicate that the effects of microclimatic conditions may depend on the trophic level considered. Moreover, the findings suggest that possible trade-offs between direct and indirect effects (such as plant quality, floral resources, etc.) of microclimatic conditions could influence plant and insect responses to location.