Holm-oak (Quercus ilex subsp. Ballota) acorns infestation by insects in Mediterranean dehesas and shrublands

TitleHolm-oak (Quercus ilex subsp. Ballota) acorns infestation by insects in Mediterranean dehesas and shrublands
Publication TypeJournal Article
Year of Publication2005
AuthorsLeiva, M. José, & Fernández-Alés R.
JournalForest Ecology and Management
Volume212
Pagination221-229
Keywordsholm-oak self-regeneration, moths, pre-dispersive acorn predation, tree-to-tree variability in acorndry weight and in, weevils
Abstract

The aim of this study is to know if acorn predation by insects is limiting the sexual regeneration of holm-oak in Mediterranean dehesas and if this process plays the same or a different role in these human-managed ecosystems and in adjacent Mediterranean shrublands which are much less intensively transformed and exploited by man than Mediterranean dehesas. We conducted the study in Southern Spain, in three sites containing dehesas and in three sites containing Mediterranean shrublands and included a total of 90 holm-oak trees (15 holm-oak trees per site) and 4500 acorns (50 acorns per tree). The weevil Curculio elephas and the moth Cydia fagiglandana were the insect species that predated the acorns collected from our sites. The per-tree mean percentage of insect-infested acorns was 16.6% for the whole set of trees included in the study. However, at any given site, variability in the infestation rate among individual trees was very high (i.e., 2–72% and 0–32% infested acorns per tree in the most and less variable sites, respectively). There were significant differences in the infestation rate among the studied sites. However, these differences were not related to the ecosystem type as the group of sites that experienced the lowest significant infestation rate (10–16% infested acorns per tree in average) were occupied either by dehesas or by shrublands and the same was true for the group of sites that experienced the highest significant infestation rate (16–30% infested acorns per tree in average). Infested acorns experienced a 15% decreased in viability (i.e., acorn germination and seedling emergence) comparative to sound acorns. Combining this rate and the mean per-tree average rate of acorn infestation resulted in a 2.5% failures in seedling recruitment due to insect infestation for the whole studied area. We conclude that the effect of pre-dispersive seed predation on seedling recruitment is very low in average, although it likely varies moderately (i.e., from 1.5% to 4.5%) among sites. Current management in dehesas i.e., regular pruning of holm-oak trees and high consumption of the acorn crop by livestock from year to year, does not control pre-dispersive acorn predation by weevils and moths and thus, it does not contribute to explain the poor self-regeneration of the holm-oak trees in these ecosystems comparative to adjacent Mediterranean shrublands.