INVESTIGADORES
GARIBALDI Lucas Alejandro
artículos
Título:
Environmental and genetic control of insect abundance and herbivory along a forest elevational gradient
Autor/es:
GARIBALDI, L. A.; KITZBERGER, T.; CHANETON, E. J.
Revista:
OECOLOGIA
Editorial:
SPRINGER
Referencias:
Año: 2011 vol. 167 p. 117 - 129
ISSN:
0029-8549
Resumen:
Environmental conditions
and plant genotype may influence insect herbivory along elevational gradients.
Plant damage would decrease with elevation as temperature declines to
suboptimal levels for insects. However, host plants at higher elevations may
exhibit traits that either reduce or enhance leaf quality to insects, with
uncertain net effects on herbivory. We examined folivory, insect abundance and
leaf traits along six replicated elevational ranges in Nothofagus pumilio
forests of the northern Patagonian Andes, Argentina. We also conducted a
reciprocal transplant experiment between low- and high-elevation sites to test
the extent of environmental and plant genetic control on insect abundance and
folivory. We found that insect abundance, leaf size and specific leaf area
decreased, whereas foliar phosphorous content increased, from low-, through
mid- to high-elevation sites. Path analysis indicated that changes in both
insect abundance and leaf traits were important in reducing folivory with
increasing elevation and decreasing mean temperature. At both planting sites,
plants from a low-elevation origin experienced higher damage and supported
greater insect loads than plants from a high-elevation origin. The differences
in leaf damage between sites were twofold larger than those between plant
origins, suggesting that local environment was more important than host
genotype in explaining folivory patterns. Different folivore guilds exhibited
qualitatively similar responses to elevation. Our results suggest an increase
in insect folivory on high-elevation N. pumilio forests under future climate
warming scenarios. However, in the short-term, folivory increases might be
smaller than expected from insect abundance only because at high elevations
herbivores would encounter more resistant tree genotypes.