relation: http://publicatio.bibl.u-szeged.hu/16579/
title: Spider assemblage structure and functional diversity patterns of natural forest steppes and exotic forest plantations
creator:  Gallé Róbert
creator:  Szabó Ágota
creator:  Császár Péter
creator:  Torma Attila
description: The majority of natural forest steppes in Central-Europe were converted to forest plantations, a significant part of plantations are composed of exotic pine trees. This brings dramatic changes in habitat structure. The formerly open-canopy forest patches and grasslands became closed-canopy forests and key habitat factors were altered, such as microhabitat diversity, plant species composition, microclimate, and amount of dead organic matter. Here we studied the difference in spider species richness, assemblage composition, and functional diversity of native forest steppes, exotic pine plantations, their edges, and adjacent grasslands. We selected 10 native forest patches and 10 pine plantations in commercial maturity, all plantations had direct interface with extensive forest steppe areas. We sampled spiders in forests, forest edges, and adjacent steppe grasslands, resulting in 60 sampling plots. We found different species composition in natural forest patches and pine plantations; however forest edges and grasslands near forest edges did not differ significantly. Spiders with preferences for shaded and humid habitats were associated with forests. Web builders were associated with pine plantations and their edges, large vegetation dwelling spiders had preferences for grasslands and native forest edge, and ballooning spiders were associated with grasslands and edges. Pine forest belts around natural forest steppe patches, besides being low quality secondary habitats for forest steppe spiders, also hamper effective dispersal; the high density of trees and the lower wind speed may act as barriers for effective ballooning. Contrary to our expectations, we found lower functional diversity at natural sites than at pine plantations. The hot and dry microclimate of natural forest steppes favours some trait states (e.g., drought-tolerant, preferences for open habitats), and this may lead to convergence in trait values and a lower functional diversity of forest steppe spider assemblages than the that of assemblages in pine plantations.
date: 2018
type: Folyóiratcikk
type: PeerReviewed
format: text
identifier: http://publicatio.bibl.u-szeged.hu/16579/1/Galleetal2018_FEM.pdf
identifier:     Gallé Róbert;  Szabó Ágota;  Császár Péter;  Torma Attila: Spider assemblage structure and functional diversity patterns of natural forest steppes and exotic forest plantations.   FOREST ECOLOGY AND MANAGEMENT, 411 (1).  pp. 234-239.  ISSN 0378-1127 (2018)     
identifier: doi:10.1016/j.foreco.2018.01.040
relation: 3332696
language: eng
relation: info:eu-repo/semantics/altIdentifier/doi/10.1016/j.foreco.2018.01.040
rights: info:eu-repo/semantics/restrictedAccess