Agricultural intensification and biodiversity partitioning in European landscapes comparing plants, carabids, and birds

Effects of agricultural intensification (AI) on biodiversity are often assessed on the plot scale, although processes determining diversity also operate on larger spatial scales. Here, we analyzed the diversity of vascular plants, carabid beetles, and birds in agricultural landscapes in cereal crop...

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Published in	Ecological applications Vol. 21; no. 5; p. 1772
Main Authors	Flohre, Andreas, Fischer, Christina, Aavik, Tsipe, Bengtsson, Jan, Berendse, Frank, Bommarco, Riccardo, Ceryngier, Piotr, Clement, Lars W, Dennis, Christopher, Eggers, Sönke, Emmerson, Mark, Geiger, Flavia, Guerrero, Irene, Hawro, Violetta, Inchausti, Pablo, Liira, Jaan, Morales, Manuel B, Oñate, Juan J, Pärt, Tomas, Weisser, Wolfgang W, Winqvist, Camilla, Thies, Carsten, Tscharntke, Teja
Format	Journal Article
Language	English
Published	United States 01.07.2011
Subjects	Agriculture Animals Biodiversity Birds - physiology Coleoptera - physiology Demography Europe Models, Biological Models, Statistical Plant Development Species Specificity
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Abstract	Effects of agricultural intensification (AI) on biodiversity are often assessed on the plot scale, although processes determining diversity also operate on larger spatial scales. Here, we analyzed the diversity of vascular plants, carabid beetles, and birds in agricultural landscapes in cereal crop fields at the field (n = 1350), farm (n = 270), and European-region (n = 9) scale. We partitioned diversity into its additive components alpha, beta, and gamma, and assessed the relative contribution of beta diversity to total species richness at each spatial scale. AI was determined using pesticide and fertilizer inputs, as well as tillage operations and categorized into low, medium, and high levels. As AI was not significantly related to landscape complexity, we could disentangle potential AI effects on local vs. landscape community homogenization. AI negatively affected the species richness of plants and birds, but not carabid beetles, at all spatial scales. Hence, local AI was closely correlated to beta diversity on larger scales up to the farm and region level, and thereby was an indicator of farm- and region-wide biodiversity losses. At the scale of farms (12.83-20.52%) and regions (68.34-80.18%), beta diversity accounted for the major part of the total species richness for all three taxa, indicating great dissimilarity in environmental conditions on larger spatial scales. For plants, relative importance of alpha diversity decreased with AI, while relative importance of beta diversity on the farm scale increased with AI for carabids and birds. Hence, and in contrast to our expectations, AI does not necessarily homogenize local communities, presumably due to the heterogeneity of farming practices. In conclusion, a more detailed understanding of AI effects on diversity patterns of various taxa and at multiple spatial scales would contribute to more efficient agri-environmental schemes in agroecosystems.
AbstractList	Effects of agricultural intensification (AI) on biodiversity are often assessed on the plot scale, although processes determining diversity also operate on larger spatial scales. Here, we analyzed the diversity of vascular plants, carabid beetles, and birds in agricultural landscapes in cereal crop fields at the field (n = 1350), farm (n = 270), and European-region (n = 9) scale. We partitioned diversity into its additive components alpha, beta, and gamma, and assessed the relative contribution of beta diversity to total species richness at each spatial scale. AI was determined using pesticide and fertilizer inputs, as well as tillage operations and categorized into low, medium, and high levels. As AI was not significantly related to landscape complexity, we could disentangle potential AI effects on local vs. landscape community homogenization. AI negatively affected the species richness of plants and birds, but not carabid beetles, at all spatial scales. Hence, local AI was closely correlated to beta diversity on larger scales up to the farm and region level, and thereby was an indicator of farm- and region-wide biodiversity losses. At the scale of farms (12.83-20.52%) and regions (68.34-80.18%), beta diversity accounted for the major part of the total species richness for all three taxa, indicating great dissimilarity in environmental conditions on larger spatial scales. For plants, relative importance of alpha diversity decreased with AI, while relative importance of beta diversity on the farm scale increased with AI for carabids and birds. Hence, and in contrast to our expectations, AI does not necessarily homogenize local communities, presumably due to the heterogeneity of farming practices. In conclusion, a more detailed understanding of AI effects on diversity patterns of various taxa and at multiple spatial scales would contribute to more efficient agri-environmental schemes in agroecosystems.
Author	Liira, Jaan Weisser, Wolfgang W Hawro, Violetta Inchausti, Pablo Bengtsson, Jan Thies, Carsten Geiger, Flavia Berendse, Frank Bommarco, Riccardo Eggers, Sönke Morales, Manuel B Winqvist, Camilla Tscharntke, Teja Emmerson, Mark Clement, Lars W Guerrero, Irene Dennis, Christopher Flohre, Andreas Ceryngier, Piotr Pärt, Tomas Oñate, Juan J Aavik, Tsipe Fischer, Christina
Author_xml	– sequence: 1 givenname: Andreas surname: Flohre fullname: Flohre, Andreas email: aflohre@gwdg.de organization: Agroecology, Department of Crop Science, Georg-August-University, Waldweg 26, 37073 Göttingen, Germany. aflohre@gwdg.de – sequence: 2 givenname: Christina surname: Fischer fullname: Fischer, Christina – sequence: 3 givenname: Tsipe surname: Aavik fullname: Aavik, Tsipe – sequence: 4 givenname: Jan surname: Bengtsson fullname: Bengtsson, Jan – sequence: 5 givenname: Frank surname: Berendse fullname: Berendse, Frank – sequence: 6 givenname: Riccardo surname: Bommarco fullname: Bommarco, Riccardo – sequence: 7 givenname: Piotr surname: Ceryngier fullname: Ceryngier, Piotr – sequence: 8 givenname: Lars W surname: Clement fullname: Clement, Lars W – sequence: 9 givenname: Christopher surname: Dennis fullname: Dennis, Christopher – sequence: 10 givenname: Sönke surname: Eggers fullname: Eggers, Sönke – sequence: 11 givenname: Mark surname: Emmerson fullname: Emmerson, Mark – sequence: 12 givenname: Flavia surname: Geiger fullname: Geiger, Flavia – sequence: 13 givenname: Irene surname: Guerrero fullname: Guerrero, Irene – sequence: 14 givenname: Violetta surname: Hawro fullname: Hawro, Violetta – sequence: 15 givenname: Pablo surname: Inchausti fullname: Inchausti, Pablo – sequence: 16 givenname: Jaan surname: Liira fullname: Liira, Jaan – sequence: 17 givenname: Manuel B surname: Morales fullname: Morales, Manuel B – sequence: 18 givenname: Juan J surname: Oñate fullname: Oñate, Juan J – sequence: 19 givenname: Tomas surname: Pärt fullname: Pärt, Tomas – sequence: 20 givenname: Wolfgang W surname: Weisser fullname: Weisser, Wolfgang W – sequence: 21 givenname: Camilla surname: Winqvist fullname: Winqvist, Camilla – sequence: 22 givenname: Carsten surname: Thies fullname: Thies, Carsten – sequence: 23 givenname: Teja surname: Tscharntke fullname: Tscharntke, Teja
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/21830717$$D View this record in MEDLINE/PubMed
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SubjectTerms	Agriculture Animals Biodiversity Birds - physiology Coleoptera - physiology Demography Europe Models, Biological Models, Statistical Plant Development Species Specificity
Title	Agricultural intensification and biodiversity partitioning in European landscapes comparing plants, carabids, and birds
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