A global synthesis of the effects of diversified farming systems on arthropod diversity within fields and across agricultural landscapes

被引：252

作者：

Lichtenberg, Elinor M. ^{[1
,2
]}

Kennedy, Christina M. ^{[3
]}

Kremen, Claire ^{[4
]}

Batary, Peter ^{[5
]}

Berendse, Frank ^{[6
]}

Bommarco, Riccardo ^{[7
]}

Bosque-Perez, Nilsa A. ^{[8
]}

Carvalheiro, Luisa G. ^{[9
,10
]}

Snyder, William E. ^{[1
]}

Williams, Neal M. ^{[11
]}

Winfree, Rachael ^{[12
]}

Klatt, Bjoern K. ^{[5
,13
,14
]}

Astrom, Sandra ^{[15
]}

Benjamin, Faye ^{[12
]}

Brittain, Claire ^{[11
]}

Chaplin-Kramer, Rebecca ^{[16
]}

Clough, Yann ^{[13
]}

Danforth, Bryan ^{[17
]}

Diekoetter, Tim ^{[18
]}

Eigenbrode, Sanford D. ^{[8
]}

Ekroos, Johan ^{[13
]}

Elle, Elizabeth ^{[19
]}

Freitas, Breno M. ^{[20
]}

Fukuda, Yuki ^{[21
]}

Gaines-Day, Hannah R. ^{[22
]}

Grab, Heather ^{[17
]}

Gratton, Claudio ^{[22
]}

Holzschuh, Andrea ^{[23
]}

Isaacs, Rufus ^{[24
]}

Isaia, Marco ^{[25
]}

Jha, Shalene ^{[26
]}

Jonason, Dennis ^{[27
]}

Jones, Vincent P. ^{[28
]}

Klein, Alexandra-Maria ^{[29
]}

Krauss, Jochen ^{[23
]}

Letourneau, Deborah K. ^{[30
]}

Macfadyen, Sarina ^{[31
]}

Mallinger, Rachel E. ^{[22
]}

Martin, Emily A. ^{[23
]}

Martinez, Eliana ^{[32
]}

Memmott, Jane ^{[33
]}

Morandin, Lora ^{[34
]}

Neame, Lisa ^{[35
]}

Otieno, Mark ^{[36
]}

Park, Mia G. ^{[17
,37
]}

Pfiffner, Lukas ^{[38
]}

Pocock, Michael J. O. ^{[39
]}

Ponce, Carlos ^{[40
]}

Potts, Simon G. ^{[41
]}

Poveda, Katja ^{[17
]}

机构：

[1] Washington State Univ, Dept Entomol, Pullman, WA 99164 USA

[2] Univ Arizona, Dept Ecol & Evolut Biol, Tucson, AZ 85721 USA

[3] Nature Conservancy, Global Lands Program, Ft Collins, CO USA

[4] Univ Calif Berkeley, Dept Environm Sci Policy & Management, Berkeley, CA 94720 USA

[5] Univ Gottingen, Agroecol, Gottingen, Germany

[6] Wageningen Univ, Nat Conservat & Plant Ecol Grp, Wageningen, Netherlands

[7] Swedish Univ Agr Sci, Dept Ecol, Uppsala, Sweden

[8] Univ Idaho, Dept Entomol Plant Pathol & Nematol, Moscow, ID 83843 USA

[9] Univ Brasilia, Dept Ecol, Brasilia, DF, Brazil

[10] Univ Lisbon, Ctr Ecol Evolut & Environm Changes CE3C, Fac Ciencias, Lisbon, Portugal

[11] Univ Calif Davis, Dept Entomol & Nematol, Davis, CA 95616 USA

[12] Rutgers State Univ, Dept Ecol Evolut & Nat Resources, New Brunswick, NJ USA

[13] Lund Univ, Ctr Environm & Climate Res, Lund, Sweden

[14] Lund Univ, Dept Biol, Lund, Sweden

[15] Norwegian Inst Nat Res NINA, Trondheim, Norway

[16] Stanford Univ, Nat Capital Project, Stanford, CA 94305 USA

[17] Cornell Univ, Dept Entomol, Ithaca, NY 14853 USA

[18] Univ Kiel, Dept Landscape Ecol, Kiel, Germany

[19] Simon Fraser Univ, Dept Biol Sci, Burnaby, BC, Canada

[20] Univ Fed Ceara, Dept Zootecnia, Fortaleza, CE, Brazil

[21] Univ Otago, Ctr Study Agr Food & Environm, Dunedin, New Zealand

[22] Univ Wisconsin, Dept Entomol, Madison, WI 53706 USA

[23] Univ Wurzburg, Dept Anim Ecol & Trop Biol, Biocenter, Wurzburg, Germany

[24] Michigan State Univ, Dept Entomol, E Lansing, MI 48824 USA

[25] Univ Torino, Dept Life Sci & Syst Biol, Turin, Italy

[26] Univ Texas Austin, Dept Integrat Biol, Austin, TX 78712 USA

[27] Stockholm Univ, Dept Phys Geog, Stockholm, Sweden

[28] Washington State Univ, Ctr Tree Fruit Res & Extens, Dept Entomol, Wenatchee, WA 98801 USA

[29] Univ Freiburg, Fac Environm & Nat Resources, Nat Conservat & Landscape Ecol, Freiburg, Germany

[30] Univ Calif Santa Cruz, Dept Environm Studies, Santa Cruz, CA 95064 USA

[31] CSIRO, Acton, ACT, Australia

[32] Ctr Invest Obonuco, CORPOICA, Pasto, Colombia

[33] Univ Bristol, Sch Biol Sci, Bristol, Avon, England

[34] Pollinator Partnership Canada, Victoria, BC, Canada

[35] Alberta Environm & Parks, Reg Planning Branch, Edmonton, AB, Canada

[36] Embu Univ Coll, Dept Agr Resource Management, Embu, Kenya

[37] Univ North Dakota, Dept Humanities & Integrated Studies, Grand Forks, ND 58201 USA

[38] Res Inst Organ Agr, Dept Crop Sci, Frick, Switzerland

[39] NERC Ctr Ecol & Hydrol, Wallingford, Oxon, England

[40] Museo Nacl Ciencias Nat, CSIC, Dept Evolutionary Ecol, Madrid, Spain

[41] Univ Reading, Sch Agr Policy & Dev, Ctr Agrienvironm Res, Reading, Berks, England

[42] Univ Puerto Rico, Dept Agr Technol, Utuado, PR USA

[43] Charles Sturt Univ, Inst Land Water & Soc, Albury, NSW, Australia

[44] AgResearch, Lincoln Res Ctr, Christchurch, New Zealand

[45] Univ Calif Cooperat Extens, Half Moon Bay, CA USA

[46] Palacky Univ, Fac Sci, Dept Zool, Olomouc, Czech Republic

[47] Tech Univ Munich, Sch Life Sci Weihenstephan, Dept Ecol & Ecosyst Management, Terrestrial Ecol Res Grp, Freising Weihenstephan, Germany

来源：

GLOBAL CHANGE BIOLOGY | 2017年 / 23卷 / 11期

基金：

美国食品与农业研究所;

关键词：

agricultural management schemes; arthropod diversity; biodiversity; evenness; functional groups; landscape complexity; meta-analysis; organic farming; plant diversity; ORGANIC AGRICULTURE; RESPONSE DIVERSITY; SPECIES RICHNESS; BIODIVERSITY; EVENNESS; INTENSIFICATION; CONSERVATION; METAANALYSIS; MANAGEMENT; PEST;

D O I：

10.1111/gcb.13714

中图分类号：

X176 [生物多样性保护];

学科分类号：

090705 ;

摘要：

Agricultural intensification is a leading cause of global biodiversity loss, which can reduce the provisioning of ecosystem services in managed ecosystems. Organic farming and plant diversification are farm management schemes that may mitigate potential ecological harm by increasing species richness and boosting related ecosystem services to agroecosystems. What remains unclear is the extent to which farm management schemes affect biodiversity components other than species richness, and whether impacts differ across spatial scales and landscape contexts. Using a global metadataset, we quantified the effects of organic farming and plant diversification on abundance, local diversity (communities within fields), and regional diversity (communities across fields) of arthropod pollinators, predators, herbivores, and detritivores. Both organic farming and higher in-field plant diversity enhanced arthropod abundance, particularly for rare taxa. This resulted in increased richness but decreased evenness. While these responses were stronger at local relative to regional scales, richness and abundance increased at both scales, and richness on farms embedded in complex relative to simple landscapes. Overall, both organic farming and in-field plant diversification exerted the strongest effects on pollinators and predators, suggesting these management schemes can facilitate ecosystem service providers without augmenting herbivore (pest) populations. Our results suggest that organic farming and plant diversification promote diverse arthropod metacommunities that may provide temporal and spatial stability of ecosystem service provisioning. Conserving diverse plant and arthropod communities in farming systems therefore requires sustainable practices that operate both within fields and across landscapes.

引用

页码：4946 / 4957

页数：12

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