Ecological intensification to mitigate impacts of conventional intensive land use on pollinators and pollination

Worldwide, human appropriation of ecosystems is disrupting plant–pollinator communities and pollination function through habitat conversion and landscape homogenisation. Conversion to agriculture is destroying and degrading semi‐natural ecosystems while conventional land‐use intensification (e.g. in...

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Published in	Ecology letters Vol. 20; no. 5; pp. 673 - 689
Main Authors	Kovács‐Hostyánszki, Anikó, Espíndola, Anahí, Vanbergen, Adam J., Settele, Josef, Kremen, Claire, Dicks, Lynn V., Irwin, Rebecca
Format	Journal Article
Language	English
Published	England Blackwell Publishing Ltd 01.05.2017 John Wiley and Sons Inc
Subjects	Abundance Agricultural land Agricultural policy Agricultural practices Agricultural production Agriculture Agrochemicals Animals Anthropogenic factors Biodiversity Biota Conservation of Natural Resources Conversion Crop production Crop rotation Crops, Agricultural - physiology diversification Ecology Ecosystems Farming Farms Food Food production food security grazing/mowing intensity habitat loss habitats homogenization Human influences humans Industrial management Insecta - physiology Intercropping Land use Land use management Landscape landscape fragmentation landscapes mass‐flowering crops Monoculture Nesting Plant communities Plant reproduction Pollination Pollinators Review and Synthesis Strategic management Sustainable agriculture Sustainable food systems Sustainable production wild pollinator diversity landscape fragmentation habitat loss Crop production wild pollinator diversity food security diversification mass-flowering crops grazing/mowing intensity
Online Access	Get full text
ISSN	1461-023X 1461-0248 1461-0248
DOI	10.1111/ele.12762

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Abstract	Worldwide, human appropriation of ecosystems is disrupting plant–pollinator communities and pollination function through habitat conversion and landscape homogenisation. Conversion to agriculture is destroying and degrading semi‐natural ecosystems while conventional land‐use intensification (e.g. industrial management of large‐scale monocultures with high chemical inputs) homogenises landscape structure and quality. Together, these anthropogenic processes reduce the connectivity of populations and erode floral and nesting resources to undermine pollinator abundance and diversity, and ultimately pollination services. Ecological intensification of agriculture represents a strategic alternative to ameliorate these drivers of pollinator decline while supporting sustainable food production, by promoting biodiversity beneficial to agricultural production through management practices such as intercropping, crop rotations, farm‐level diversification and reduced agrochemical use. We critically evaluate its potential to address and reverse the land use and management trends currently degrading pollinator communities and potentially causing widespread pollination deficits. We find that many of the practices that constitute ecological intensification can contribute to mitigating the drivers of pollinator decline. Our findings support ecological intensification as a solution to pollinator declines, and we discuss ways to promote it in agricultural policy and practice.
AbstractList	Worldwide, human appropriation of ecosystems is disrupting plant–pollinator communities and pollination function through habitat conversion and landscape homogenisation. Conversion to agriculture is destroying and degrading semi‐natural ecosystems while conventional land‐use intensification (e.g. industrial management of large‐scale monocultures with high chemical inputs) homogenises landscape structure and quality. Together, these anthropogenic processes reduce the connectivity of populations and erode floral and nesting resources to undermine pollinator abundance and diversity, and ultimately pollination services. Ecological intensification of agriculture represents a strategic alternative to ameliorate these drivers of pollinator decline while supporting sustainable food production, by promoting biodiversity beneficial to agricultural production through management practices such as intercropping, crop rotations, farm‐level diversification and reduced agrochemical use. We critically evaluate its potential to address and reverse the land use and management trends currently degrading pollinator communities and potentially causing widespread pollination deficits. We find that many of the practices that constitute ecological intensification can contribute to mitigating the drivers of pollinator decline. Our findings support ecological intensification as a solution to pollinator declines, and we discuss ways to promote it in agricultural policy and practice. Worldwide, human appropriation of ecosystems is disrupting plant-pollinator communities and pollination function through habitat conversion and landscape homogenisation. Conversion to agriculture is destroying and degrading semi-natural ecosystems while conventional land-use intensification (e.g. industrial management of large-scale monocultures with high chemical inputs) homogenises landscape structure and quality. Together, these anthropogenic processes reduce the connectivity of populations and erode floral and nesting resources to undermine pollinator abundance and diversity, and ultimately pollination services. Ecological intensification of agriculture represents a strategic alternative to ameliorate these drivers of pollinator decline while supporting sustainable food production, by promoting biodiversity beneficial to agricultural production through management practices such as intercropping, crop rotations, farm-level diversification and reduced agrochemical use. We critically evaluate its potential to address and reverse the land use and management trends currently degrading pollinator communities and potentially causing widespread pollination deficits. We find that many of the practices that constitute ecological intensification can contribute to mitigating the drivers of pollinator decline. Our findings support ecological intensification as a solution to pollinator declines, and we discuss ways to promote it in agricultural policy and practice.Worldwide, human appropriation of ecosystems is disrupting plant-pollinator communities and pollination function through habitat conversion and landscape homogenisation. Conversion to agriculture is destroying and degrading semi-natural ecosystems while conventional land-use intensification (e.g. industrial management of large-scale monocultures with high chemical inputs) homogenises landscape structure and quality. Together, these anthropogenic processes reduce the connectivity of populations and erode floral and nesting resources to undermine pollinator abundance and diversity, and ultimately pollination services. Ecological intensification of agriculture represents a strategic alternative to ameliorate these drivers of pollinator decline while supporting sustainable food production, by promoting biodiversity beneficial to agricultural production through management practices such as intercropping, crop rotations, farm-level diversification and reduced agrochemical use. We critically evaluate its potential to address and reverse the land use and management trends currently degrading pollinator communities and potentially causing widespread pollination deficits. We find that many of the practices that constitute ecological intensification can contribute to mitigating the drivers of pollinator decline. Our findings support ecological intensification as a solution to pollinator declines, and we discuss ways to promote it in agricultural policy and practice.
Author	Kovács‐Hostyánszki, Anikó Settele, Josef Irwin, Rebecca Kremen, Claire Dicks, Lynn V. Espíndola, Anahí Vanbergen, Adam J.
AuthorAffiliation	9 School of Biological Sciences University of East Anglia Norwich, NR4 7TJ UK 7 Institute of Biological Sciences College of Arts and Sciences University of the Philippines Los Banos, College Laguna 4031 Philippines 2 MTA Centre for Ecological Research GINOP Sustainable Ecosystems Group Klebelsberg Kuno u. 3. 8237 Tihany Hungary 6 iDiv German Centre for Integrative Biodiversity Research Halle‐Jena‐Leipzig Deutscher Platz 5e, 04103 Leipzig Germany 8 University of California 217 Wellman Hall Berkeley California 94720‐3114 CA USA 3 Department of Biological Sciences Life Sciences South 252 University of Idaho Moscow ID 83844‐3051 USA 4 NERC Centre for Ecology & Hydrology Bush Estate, Penicuik Edinburgh EH26 0QB UK 1 MTA Centre for Ecological Research Institute of Ecology and Botany Lendület Ecosystem Services Research Group Alkotmány u. 2‐4. 2163 Vácrátót Hungary 5 UFZ ‐ Helmholtz Centre for Environmental Research, Dept. of Community Ecology Theodor‐Lieser‐Str. 4, 06120 Halle Germany
AuthorAffiliation_xml	– name: 9 School of Biological Sciences University of East Anglia Norwich, NR4 7TJ UK – name: 6 iDiv German Centre for Integrative Biodiversity Research Halle‐Jena‐Leipzig Deutscher Platz 5e, 04103 Leipzig Germany – name: 1 MTA Centre for Ecological Research Institute of Ecology and Botany Lendület Ecosystem Services Research Group Alkotmány u. 2‐4. 2163 Vácrátót Hungary – name: 5 UFZ ‐ Helmholtz Centre for Environmental Research, Dept. of Community Ecology Theodor‐Lieser‐Str. 4, 06120 Halle Germany – name: 7 Institute of Biological Sciences College of Arts and Sciences University of the Philippines Los Banos, College Laguna 4031 Philippines – name: 3 Department of Biological Sciences Life Sciences South 252 University of Idaho Moscow ID 83844‐3051 USA – name: 8 University of California 217 Wellman Hall Berkeley California 94720‐3114 CA USA – name: 2 MTA Centre for Ecological Research GINOP Sustainable Ecosystems Group Klebelsberg Kuno u. 3. 8237 Tihany Hungary – name: 4 NERC Centre for Ecology & Hydrology Bush Estate, Penicuik Edinburgh EH26 0QB UK
Author_xml	– sequence: 1 givenname: Anikó surname: Kovács‐Hostyánszki fullname: Kovács‐Hostyánszki, Anikó email: kovacs.aniko@okologia.mta.hu organization: GINOP Sustainable Ecosystems Group – sequence: 2 givenname: Anahí surname: Espíndola fullname: Espíndola, Anahí organization: University of Idaho – sequence: 3 givenname: Adam J. surname: Vanbergen fullname: Vanbergen, Adam J. organization: NERC Centre for Ecology & Hydrology – sequence: 4 givenname: Josef surname: Settele fullname: Settele, Josef organization: University of the Philippines Los Banos, College – sequence: 5 givenname: Claire surname: Kremen fullname: Kremen, Claire organization: University of California – sequence: 6 givenname: Lynn V. surname: Dicks fullname: Dicks, Lynn V. organization: University of East Anglia – sequence: 7 givenname: Rebecca surname: Irwin fullname: Irwin, Rebecca
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/28346980$$D View this record in MEDLINE/PubMed
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Snippet	Worldwide, human appropriation of ecosystems is disrupting plant–pollinator communities and pollination function through habitat conversion and landscape... Worldwide, human appropriation of ecosystems is disrupting plant-pollinator communities and pollination function through habitat conversion and landscape...
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SubjectTerms	Abundance Agricultural land Agricultural policy Agricultural practices Agricultural production Agriculture Agrochemicals Animals Anthropogenic factors Biodiversity Biota Conservation of Natural Resources Conversion Crop production Crop rotation Crops, Agricultural - physiology diversification Ecology Ecosystems Farming Farms Food Food production food security grazing/mowing intensity habitat loss habitats homogenization Human influences humans Industrial management Insecta - physiology Intercropping Land use Land use management Landscape landscape fragmentation landscapes mass‐flowering crops Monoculture Nesting Plant communities Plant reproduction Pollination Pollinators Review and Synthesis Strategic management Sustainable agriculture Sustainable food systems Sustainable production wild pollinator diversity
Title	Ecological intensification to mitigate impacts of conventional intensive land use on pollinators and pollination
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fele.12762 https://www.ncbi.nlm.nih.gov/pubmed/28346980 https://www.proquest.com/docview/1888877328 https://www.proquest.com/docview/1901008762 https://www.proquest.com/docview/1881774637 https://www.proquest.com/docview/1891884295 https://www.proquest.com/docview/2020905249 https://pubmed.ncbi.nlm.nih.gov/PMC6849539
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