FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1847811580> ?p ?o ?g. }

• W1847811580 endingPage "22" @default.
• W1847811580 startingPage "9" @default.
• W1847811580 abstract "Following the multiplicity of studies dealing with the effects of agricultural intensification on bird diversity, one of the lessons drawn is that these effects depend on both the taxonomic group, the component of diversity, the aspect of intensification, and the spatial scale. This often leads to disparate results among studies suggesting that the investigation of agriculture-biodiversity relationships suffers from scale-dependence, information redundancy, non-linearity problems, and thus, unpredictability. Here, we propose a multi-scale and multi-facet approach to clarify the impacts of agricultural intensification on biodiversity and possible mitigating actions. Our study is based on bird and agricultural practice surveys of 199 agricultural fields in three agricultural regions of France. Using landscape characteristics and agricultural practice variables, we disentangled four main gradients of agricultural intensification on our study sites: landscape opening (farmland expansion), landscape homogenization (decrease in crop and land cover diversity), chemical intensification (fertilizer, insecticide, and fungicide), and tillage vs. herbicide. We tested whether and how these gradients interacted with each other at field, farm and regional levels in shaping taxonomic diversity (alpha, gamma and beta diversity) and ecological responses of bird communities (relative proportion of specialist vs. generalist species, trophic categories). Landscape homogenisation and opening affected the taxonomic and ecological responses of birds at field and farm levels, but not at the regional level, highlighting the scale-dependence of agriculture–biodiversity relationships. At field and farm levels, landscape opening had a positive effect on beta diversity, and community specialization by enabling the existence of farmland specialists, while heterogeneous landscapes promoted generalists. Chemical intensification had negative impacts, especially at the farm level and on almost all facets of diversity. However, some bird species seemed to tolerate higher levels of both chemical and tillage intensification. Some important interaction effects between landscape and agricultural practices, which are often disregarded, were also revealed, such that landscape homogenization in interaction with tillage reduction was correlated with higher specialization. The field level appeared mostly relevant for explaining community variations by habitat and resource availability. Meanwhile at the coarsest scale, i.e., the Small Agricultural Region, only some possible dispersal limitations were likely to occur. Finally, our results highlight the farm level (intermediate scale) as a relevant unit for management and agricultural policies, since the community responded to both landscape and agricultural practices intensification at this level. In particular, we emphasize the necessity to conserve both heterogeneous and homogeneous agricultural landscapes under extensive practices; the former promotes taxonomic diversity, when the latter favors specialized farmland biodiversity." @default.
• W1847811580 created "2016-06-24" @default.
• W1847811580 creator A5012180787 @default.
• W1847811580 creator A5022576876 @default.
• W1847811580 creator A5038739932 @default.
• W1847811580 creator A5044833365 @default.
• W1847811580 creator A5058839001 @default.
• W1847811580 creator A5069668595 @default.
• W1847811580 date "2016-01-01" @default.
• W1847811580 modified "2023-10-18" @default.
• W1847811580 title "Impacts of agricultural intensification on bird communities: New insights from a multi-level and multi-facet approach of biodiversity" @default.
• W1847811580 cites W1500023561 @default.
• W1847811580 cites W1512237639 @default.
• W1847811580 cites W1520907354 @default.
• W1847811580 cites W1810477971 @default.
• W1847811580 cites W1858058589 @default.
• W1847811580 cites W1915813532 @default.
• W1847811580 cites W1919328240 @default.
• W1847811580 cites W1952066190 @default.
• W1847811580 cites W1963379118 @default.
• W1847811580 cites W1965396579 @default.
• W1847811580 cites W1967156257 @default.
• W1847811580 cites W1981471260 @default.
• W1847811580 cites W1985585940 @default.
• W1847811580 cites W1991105669 @default.
• W1847811580 cites W1991915037 @default.
• W1847811580 cites W1993517184 @default.
• W1847811580 cites W1999176633 @default.
• W1847811580 cites W2006231265 @default.
• W1847811580 cites W2006690660 @default.
• W1847811580 cites W2007414532 @default.
• W1847811580 cites W2013035681 @default.
• W1847811580 cites W2016306716 @default.
• W1847811580 cites W2016771579 @default.
• W1847811580 cites W2026590336 @default.
• W1847811580 cites W2027723521 @default.
• W1847811580 cites W2042568007 @default.
• W1847811580 cites W2045760302 @default.
• W1847811580 cites W2071679393 @default.
• W1847811580 cites W2093715249 @default.
• W1847811580 cites W2093940020 @default.
• W1847811580 cites W2098287950 @default.
• W1847811580 cites W2105680496 @default.
• W1847811580 cites W2109289609 @default.
• W1847811580 cites W2111366008 @default.
• W1847811580 cites W2113811841 @default.
• W1847811580 cites W2115250811 @default.
• W1847811580 cites W2115815603 @default.
• W1847811580 cites W2118562479 @default.
• W1847811580 cites W2120474334 @default.
• W1847811580 cites W2121598363 @default.
• W1847811580 cites W2121910286 @default.
• W1847811580 cites W2124478410 @default.
• W1847811580 cites W2128414544 @default.
• W1847811580 cites W2129994723 @default.
• W1847811580 cites W2130256384 @default.
• W1847811580 cites W2130831601 @default.
• W1847811580 cites W2132879315 @default.
• W1847811580 cites W2133356809 @default.
• W1847811580 cites W2138111878 @default.
• W1847811580 cites W2148216095 @default.
• W1847811580 cites W2149116407 @default.
• W1847811580 cites W2150719606 @default.
• W1847811580 cites W2152230231 @default.
• W1847811580 cites W2153804214 @default.
• W1847811580 cites W2158606140 @default.
• W1847811580 cites W2164959286 @default.
• W1847811580 cites W2167094923 @default.
• W1847811580 cites W2171347020 @default.
• W1847811580 cites W2314024131 @default.
• W1847811580 cites W2327122818 @default.
• W1847811580 doi "https://doi.org/10.1016/j.agee.2015.09.017" @default.
• W1847811580 hasPublicationYear "2016" @default.
• W1847811580 type Work @default.
• W1847811580 sameAs 1847811580 @default.
• W1847811580 citedByCount "63" @default.
• W1847811580 countsByYear W18478115802016 @default.
• W1847811580 countsByYear W18478115802017 @default.
• W1847811580 countsByYear W18478115802018 @default.
• W1847811580 countsByYear W18478115802019 @default.
• W1847811580 countsByYear W18478115802020 @default.
• W1847811580 countsByYear W18478115802021 @default.
• W1847811580 countsByYear W18478115802022 @default.
• W1847811580 countsByYear W18478115802023 @default.
• W1847811580 crossrefType "journal-article" @default.
• W1847811580 hasAuthorship W1847811580A5012180787 @default.
• W1847811580 hasAuthorship W1847811580A5022576876 @default.
• W1847811580 hasAuthorship W1847811580A5038739932 @default.
• W1847811580 hasAuthorship W1847811580A5044833365 @default.
• W1847811580 hasAuthorship W1847811580A5058839001 @default.
• W1847811580 hasAuthorship W1847811580A5069668595 @default.
• W1847811580 hasConcept C107826830 @default.
• W1847811580 hasConcept C118518473 @default.
• W1847811580 hasConcept C130217890 @default.
• W1847811580 hasConcept C141151480 @default.
• W1847811580 hasConcept C16397148 @default.
• W1847811580 hasConcept C185933670 @default.
• W1847811580 hasConcept C18903297 @default.

• next