Urbanization filters coccinellids composition and functional trait distributions in greenspaces across greater Santiago, Chile

《Urbanization filters coccinellids composition and functional trait distributions in greenspaces across greater Santiago, Chile》

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关键字: Conservation; Ladybeetle biodiversity; Landscape composition; Landscape configuration; Natural enemy; Urban; PARTIAL LEAST-SQUARES; HARMONIA-AXYRIDIS; SPECIES RICHNESS; BIODIVERSITY CONSERVATION; COLEOPTERA-COCCINELLIDAE; LANDSCAPE DRIVERS; NATURAL ENEMIE

作者单位: [Grez, Audrey A.; Alaniz, Alberto J.] Univ Chile, Fac Ciencias Vet & Pecuarias, Santiago, Chile. [Zaviezo, Tania] Pontificia Univ Catolica Chile, Fac Agron & Ingn Forestal, Santiago, Chile. [Gardiner, Mary M.] Ohio State Univ, Dept Entomol, Wooster, OH USA. Grez, AA (reprint author), Univ Chile, Fac Ciencias Vet & Pecuarias, Santiago, Chile. E-Mail: agrez@uchile.cl; tzaviezo@uc.cl; gardiner.29@osu.edu; alberto.alaniz@ug.uchile.cl

摘要: Urbanization alters community composition, frequently leading to decline in native species abundance and richness. Nevertheless, responses might also depend on trait-based local habitat and landscape-scale filters. In this work, we studied how local characteristics of greenspaces and landscape context at 100 and 1000 m influence taxonomic and functional traits composition of native and alien coccinellids (Coleoptera: Coccinellidae) across an urbanization gradient extending from the city of Santiago, Chile, into surrounding rural areas. We found that greenspaces supported a rich community of coccinellids, including many native species, but both native and alien species were negatively affected by urbanization. Local habitat variables were not important predictors of coccinellids richness, abundance or functional traits. On the other hand, landscape composition at both scales did affect coccinellid communities in greenspaces. At both landscape scales, there was variation in the association of coccinellids with landscape variables based on their primary diet, thus, urbanization might differentially affect the ecological service provided by different functional groups of coccinellids. Our results show that greenspaces support a rich community of coccinellids, including many native species, but the degree to which greenspaces conserve these communities depends on the level of urbanization.