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1.
Neotrop Entomol ; 48(5): 764-771, 2019 Oct.
Article in English | MEDLINE | ID: mdl-31154577

ABSTRACT

Fragmentation leads to the formation of edges between habitats, which in turn changes biotic and abiotic factors that might influence herbivory or plant-herbivory interactions. The aims of this study were to describe the herbivory community associated with oak (Quercus) and to determine the effects of proximity to a Eucalyptus edge and season on insect herbivory. We selected three forest sites that were subsequently divided into three quadrants located at different distances from the Eucalyptus edge: edge (0 m), intermediate (30 m), and oak forest interior (60 m). We randomly selected 10 oak trees per quadrant and conducted monthly surveys, during the dry and rainy season (from February to October 2010), where we quantified leaf area and the percentage of herbivory. These were analyzed using linear mixed models, with distance and season as fixed factors and individual and site as random factors. The primary oak herbivores were Lepidoptera caterpillars. We found that herbivory increased away from the edge but just during the rainy season, although higher herbivory levels were found during the dry season. These results seem to be related to a specialist community of herbivorous associated to the Quercus. This study emphasizes the importance of considering border effect, especially within Natural Protected Areas to establish strategies to improve and maintain native oak forest and the biodiversity of its Lepidoptera herbivorous community.


Subject(s)
Eucalyptus , Forests , Herbivory , Lepidoptera/physiology , Quercus , Animals , Linear Models , Mexico , Rain , Seasons
2.
Neotrop Entomol ; 45(2): 170-9, 2016 Apr.
Article in English | MEDLINE | ID: mdl-26696090

ABSTRACT

Ants have been used to assess land use conversion, because they reflect environmental change, and their response to these changes have been useful in the identification of bioindicators. We evaluated ant diversity and composition associated to different land use change in a temperate forest (above 2000 m asl) in Mexico. The study was carried out in "Flor del Bosque" Park a vegetation mosaic of native Oak Forests and introduced Eucalyptus and grasslands. Species richness, dominance and diversity rarefaction curves, based on ant morphospecies and functional groups, were constructed and compared among the three vegetation types, for the rainy and the dry seasons of 2008-2009. Jaccard and Sorensen incidence-based indices were calculated to obtain similarity values among all the habitats. The Oak Forest was a rich dominant community, both in species and functional groups; the Eucalyptus plantation was diverse with low dominance. The most seasonality habitat was the grassland, with low species and high functional group diversity during the dry seasons, but the reverse pattern during the wet season. The Oak Forest was more similar to the Eucalyptus plantation than to the grassland, particularly during the dry season. Oak Forests are dominated by Cold Climate Specialists, specifically Prenolepis imparis (Say). The Eucalyptus and the grassland are characterized by generalized Myrmicinae, as Pheidole spp. and Monomorium ebenium (Forel). The conservation of the native Oak Forest is primordial for the maintenance of Cold Climate Specialist ant communities. The microclimatic conditions in this forest, probably, prevented the invasion by opportunistic species.


Subject(s)
Ants/classification , Biodiversity , Forests , Seasons , Animals , Eucalyptus , Grassland , Mexico , Quercus
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