Orchard and riparian habitats enhance ground dwelling beetle diversity in Mediterranean agro-forestry systems

TitleOrchard and riparian habitats enhance ground dwelling beetle diversity in Mediterranean agro-forestry systems
Publication TypeJournal Article
Year of Publication2011
Authorsda Silva, P. Martins, Aguiar C. a S., Silva I. de Faria e, Serrano A. R. M., Silva I. Faria e, & Serrano A. R. M.
JournalBiodiversity and Conservation
Volume20
Issue4
Pagination861 - 872
Date Published2011///
Keywords10, 1007, á land-use intensification á, á moisture traits, article, authorized users, Beta diversity, Coleoptera, coleoptera á beta diversity, contains supplementary material, doi, electronic supplementary material the, Land-use intensification, Moisture traits, montado, mosaic á sclerophyllous woodland, online version of this, s10531-010-9987-6, Sclerophyllous woodland, which is available to, ‘‘Montado’’ mosaic
Abstract

The relative contribution of mixed orchard and riparian vegetation patches to local and regional diversity of Mediterranean landscapes dominated by cork-oak woodlands was tested in 2006–2007 using ground, rove and darkling beetles (Coleoptera: Carabidae, Staphylinidae, Tenebrionidae). Mixed orchard and riparian gallery habitats recorded higher values of abundance and species richness for overall beetle species, although most darkling beetle species were associated with the sclerophyllous cork-oak woodlands. Ground and rove beetle community structure changed from the orchard and riparian habitats to samples placed 100 m away into the surrounding cork-oak woodland, i.e., non-cork-oak patches enhanced beta diversity within the landscape mosaic. Analysis of ground beetle traits concerning moisture preferences revealed a higher proportion of hygrophilous species in mixed orchard and riparian gallery habitats while xerophilous species were dominant within the cork-oak woodlands. The results of this study suggested that land-use management promoting the maintenance of habitat heterogeneity enhances biodiversity conservation of important hygrophilous and xerophilous species, and subsequently the sustainable use of Mediterranean agro-forest mosaics.

URLhttp://www.springerlink.com/index/10.1007/s10531-010-9987-6http://link.springer.com/10.1007/s10531-010-9987-6