A novel framework for linking functional diversity of plants with other trophic levels for the quantification of ecosystem services

A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service delivery by multi-trophic systems. Development of the framework was based on an extension of the response—effect trait approach to capture fun...

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Published inJournal of vegetation science Vol. 24; no. 5; pp. 942 - 948
Main Authors Lavorel, Sandra, Storkey, Jonathan, Bardgett, Richard D., de Bello, Francesco, Berg, Matty P., Le Roux, Xavier, Moretti, Marco, Mulder, Christian, Pakeman, Robin J., Díaz, Sandra, Harrington, Richard
Format Journal Article
LanguageEnglish
Published Blackwell Publishing Ltd 01.09.2013
Wiley
Subjects
Animal ecology
Applied ecology
Biotic control
Biotic interactions
Data processing
Ecosystem functioning
Ecosystem services
Ecosystems
Environmental change
Field margins
Functional trait
Grassland
Landscape ecology
Life Sciences
Plant ecology
Plant-soil interactions
Plants
Pollination
Soil nitrogen
Trophic levels
Vegetation
Grassland
Plant-soil interactions
Field margins
Functional trait
Biotic control
Environmental change
Ecosystem functioning
Biotic interactions
Soil nitrogen
Pollination
Online AccessGet full text
ISSN1100-9233
1654-1103
DOI10.1111/jvs.12083

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Abstract A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service delivery by multi-trophic systems. Development of the framework was based on an extension of the response—effect trait approach to capture functional relationships that drive trophic interactions. The framework was populated with worked examples to demonstrate its flexibility and value for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models.
AbstractList A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service delivery by multi-trophic systems. Development of the framework was based on an extension of the response—effect trait approach to capture functional relationships that drive trophic interactions. The framework was populated with worked examples to demonstrate its flexibility and value for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models.
A novel conceptual framework is presented that proposes to apply trait‐based approaches to predicting the impact of environmental change on ecosystem service delivery by multi‐trophic systems. Development of the framework was based on an extension of the response–effect trait approach to capture functional relationships that drive trophic interactions. The framework was populated with worked examples to demonstrate its flexibility and value for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models. A novel conceptual framework, based on an extension of the plant response – effect trait approach, proposes to apply trait‐based approaches to predicting the impact of environmental change on ecosystem services delivered by multiple trophic levels. We demonstrate the flexibility and value of the framework for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models.
A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service delivery by multi-trophic systems. Development of the framework was based on an extension of the response-effect trait approach to capture functional relationships that drive trophic interactions. The framework was populated with worked examples to demonstrate its flexibility and value for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models. A novel conceptual framework, based on an extension of the plant response - effect trait approach, proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem services delivered by multiple trophic levels. We demonstrate the flexibility and value of the framework for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models.
A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service delivery by multi-trophic systems. Development of the framework was based on an extension of the response\textendasheffect trait approach to capture functional relationships that drive trophic interactions. The framework was populated with worked examples to demonstrate its flexibility and value for linking disparate data sources, identifying knowledge gaps and generating hypotheses for quantitative models.
Author Bardgett, Richard D.
Lavorel, Sandra
de Bello, Francesco
Storkey, Jonathan
Harrington, Richard
Pakeman, Robin J.
Díaz, Sandra
Le Roux, Xavier
Mulder, Christian
Berg, Matty P.
Moretti, Marco
Author_xml – sequence: 1
  givenname: Sandra
  surname: Lavorel
  fullname: Lavorel, Sandra
  email: sandra.lavorel@ujf-grenoble.fr
  organization: Laboratoire d'Ecologie Alpine, CNRS UMR 5553, Université Joseph Fourier, BP 53, Cedex 9, 38041, Grenoble, France
– sequence: 2
  givenname: Jonathan
  surname: Storkey
  fullname: Storkey, Jonathan
  email: jonathan.storkey@rothamsted.ac.uk
  organization: AgroEcology Department, Rothamsted Research, Harpenden, AL5 2JQ, Herts, UK
– sequence: 3
  givenname: Richard D.
  surname: Bardgett
  fullname: Bardgett, Richard D.
  email: richard.bardgett@manchester.ac.uk
  organization: Faculty of Life Sciences, Michael Smith Building, The University of Manchester, Oxford Road, M13 9PT, Manchester, UK
– sequence: 4
  givenname: Francesco
  surname: de Bello
  fullname: de Bello, Francesco
  email: fradebello@ctfc.es
  organization: Institute of Botany, Czech Academy of Sciences, Dukelská 135, CZ-379 82, Třeboň, Czech Republic
– sequence: 5
  givenname: Matty P.
  surname: Berg
  fullname: Berg, Matty P.
  email: m.p.berg@vu.nl
  organization: Department of Ecological Science, VU University Amsterdam, De Boelelaan 1085, 1081 HV, Amsterdam, the Netherlands
– sequence: 6
  givenname: Xavier
  surname: Le Roux
  fullname: Le Roux, Xavier
  email: xavier.le-roux@univ-lyon1.fr
  organization: Laboratoire d'Ecologie Microbienne, Université de Lyon, Université Lyon 1, INRA (USC 1193), CNRS (UMR 5557), Bât Mendel, 43 bd du 11 novembre 1918, 69622, Villeurbanne, France
– sequence: 7
  givenname: Marco
  surname: Moretti
  fullname: Moretti, Marco
  email: marco.moretti@wsl.ch
  organization: Swiss Federal Research Institute WSL, Community Ecology, Via Belsoggiorno 22, CH-6500, Bellinzona, Switzerland
– sequence: 8
  givenname: Christian
  surname: Mulder
  fullname: Mulder, Christian
  email: christian.mulder@rivm.nl
  organization: Centre for Sustainability, Environment and Health, RIVM, Box 1, 3720 BA, Bilthoven, the Netherlands
– sequence: 9
  givenname: Robin J.
  surname: Pakeman
  fullname: Pakeman, Robin J.
  email: robin.pakeman@hutton.ac.uk
  organization: The James Hutton Institute, Craigiebuckler, AB15 8QH, Aberdeen, UK
– sequence: 10
  givenname: Sandra
  surname: Díaz
  fullname: Díaz, Sandra
  email: sdiaz@efn.uncor.edu
  organization: IMBIV (CONICET-UNC) and FCEFyN, Universidad Nacional de Córdoba, Casilla de Correo 495, 5000, Córdoba, Argentina
– sequence: 11
  givenname: Richard
  surname: Harrington
  fullname: Harrington, Richard
  email: richard.harrington@rothamsted.ac.uk
  organization: AgroEcology Department, Rothamsted Research, Harpenden, AL5 2JQ, Herts, UK
BackLink https://univ-lyon1.hal.science/hal-02522208$$DView record in HAL
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2013 International Association for Vegetation Science
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Issue 5
Keywords Grassland
Plant-soil interactions
Field margins
Functional trait
Biotic control
Environmental change
Ecosystem functioning
Biotic interactions
Soil nitrogen
Pollination
Language English
License http://onlinelibrary.wiley.com/termsAndConditions#vor
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Appendix S1. Formalizing available knowledge into the framework. Figure S1. Framework implementation for analysing the effects of changes in the intensity of grassland management through grazing and its influence on soil N provision via N transformations. Figure S2. Using trait linkages to assess the impact of field margin management on multiple ecosystem services.
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References Fenster, C.B., Armbruster, W.S., Wilson, P., Dudash, M.R. & Thomson, J.D. 2004. Pollination syndromes and floral specialization. Annual Review of Ecology and Systematics 35: 375-403.
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Garnier, E., Lavorel, S., Ansquer, P., Castro, H., Cruz, P., Dolezal, J., Eriksson, O., Fortunel, C., Freitas, H., Golodets, C., Grigulis, K., Jouany, C., Kazakou, E., Kigel, J., Kleyer, M., Lehsten, V., Leps, J., Meier, T., Pakeman, R., Papadimitriou, M., Papanastasis, V., Quested, H., Quétier, F., Robson, T.M., Roumet, C., Rusch, G., Skarpe, C., Sternberg, M., Theau, J.P., Thébault, A., Vile, D. & Zarovali, M.P. 2007. A standardized methodology to assess the effects of land use change on plant traits, communities and ecosystem functioning in grasslands. Annals of Botany 99: 967-985.
Mulder, C., Boit, A., Mori, S., Vonk, J.A., Dyer, S.D., Faggiano, L., Geisen, S., González, A.L., Kaspari, M., Lavorel, S., Marquet, P.A., Rossberg, A.G., Sterner, R.W., Voigt, W. & Wall, D.H. 2012. Distributional (in) congruence of Biodiversity-Ecosystem Functioning. Advances in Ecological Research 46: 1-88.
Stang, M., Klinkhamer, P. & Van der Meijden, E. 2007. Asymmetric specialization and extinction risk in plant-flower visitor webs: a matter of morphology or abundance? Oecologia 151: 442-453.
Tylianakis, J.M., Didham, R.K., Bascompte, J. & Wardle, D.A. 2008. Global change and species interactions in terrestrial ecosystems. Ecology Letters 11: 1351-1363.
Potts, S.G., Vulliamy, B., Dafni, A., Ne'eman, G. & Willmer, P. 2003. Linking bees and flowers: how do floral communities structure pollinator communities? Ecology 84: 2628-2642.
Woodcock, B.A., Redhead, J., Vanbergen, A.J., Hulmes, L., Hulmes, S., Peyton, J., Nowakowski, M., Pywell, R.F. & Heard, M.S. 2010. Impact of habitat type and landscape structure on biomass, species richness and functional diversity of ground beetles. Agriculture, Ecosystems and Environment 139: 181-186.
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Lienin, P. & Kleyer, M. 2012. Plant trait responses to the environment and effects on multiple ecosystem properties. Basic and Applied Ecology 13: 301-311.
Luck, G.W., Lavorel, S., McIntyre, S. & Lumb, K. 2012. Extending trait-based frameworks to vertebrates and improving their application to the study of ecosystem services. Journal of Animal Ecology 81: 1065-1076.
Suding, K.N., Lavorel, S., Chapin, F.S. III, Díaz, S., Garnier, E., Goldberg, D., Hooper, D.U., Jackson, S.T. & Navas, M.L. 2008. Scaling environmental change from traits to communities to ecosystems: the challenge of intermediate-level complexity. Global Change Biology 14: 1125-1140.
Cornelissen, J.H.C., Lavorel, S., Garnier, E., Díaz, S., Buchmann, N., Gurvich, D.E., Reich, P.B., Ter Steege, H., Morgan, H.D., Van der Heijden, M.G.A., Pausas, J.G. & Poorter, H. 2003. Handbook of protocols for standardised and easy measurement of plant functional traits worldwide. Australian Journal of Botany 51: 335-380.
Schmitz, O.J. 2008. Effects of predator hunting mode on grassland ecosystem function. Science 319: 952-954.
Fahrig, L., Baudry, J., Brotons, L., Burel, F.G., Crist, T.O., Fuller, R.J., Sirami, C., Siriwardena, G.M. & Martin, J.-L. 2011. Functional landscape heterogeneity and animal biodiversity in agricultural landscapes. Ecology Letters 14: 101-112.
Laliberté, E. & Tylianakis, J.M. 2012. Cascading effects of long-term land-use changes on plant traits and ecosystem functioning. Ecology 93: 145-155.
Lavorel, S. & Garnier, E. 2002. Predicting the effects of environmental changes on plant community composition and ecosystem functioning: revisiting the Holy Grail. Functional Ecology 16: 545-556.
Carvell, C., Roy, D.B., Smart, S.M., Pywell, R.F., Preston, C.D. & Goulson, D. 2006. Declines in forage availability for bumblebees at a national scale. Biological Conservation 132: 481-489.
Kremen, C., Williams, N.E., Aizen, M.A., Gemmill-Herren, B., LeBuhn, G., Minckley, R., Packer, L., Potts, S.G., Roulston, T., Steffan-Dewenter, I., Vasquez, D.P., Winfree, R., Adams, L., Crone, E.E., Greenleaf, S.S., Keitt, T.H., Klein, A.-M., Regetz, J. & Rickletts, T.H. 2007. Pollination and other ecosystem services produced by mobile organisms: a conceptual framework for the effects of land-use change. Ecology Letters 10: 299-314.
Lavorel, S., Grigulis, K., Lamarque, P., Colace, M.-P., Garden, D., Girel, J., Douzet, R. & Pellet, G. 2009. Using plant functional traits to understand the landscape-scale distribution of multiple ecosystem services. Journal of Ecology 99: 135-147.
De Bello, F., Lavorel, S., Díaz, S., Harrington, R., Cornelissen, J.H.C., Bardgett, R.D., Berg, M.P., Cipriotti, P., Feld, C.K., Hering, D., Da Silva, P.M., Potts, S.G., Sandin, L., Sousa, J.P., Storkey, J., Wardle, D.A. & Harrison, P.A. 2010. Towards an assessment of multiple ecosystem processes and services via functional traits. Biodiversity and Conservation 19: 2873-2893.
Kattge, J., Díaz, S., Lavorel, S., Prentice, I.C., Leadley, P., Bönisch, G., Garnier, E., Westoby, M., Reich, P.B., Wright, I.J., Cornelissen, J.H.C., Violle, C., Harrison, S.P., Van Bodegom, P.M., Reichstein, M., Enquist, B.J., Soudzilovskaia, N.A., Ackerly, D.D., Anand, M., Atkin, O., Bahn, M., Baker, T.R., Baldocchi, D., Bekker, R., Blanco, C.C., Blonder, B., Bond, W.J., Bradstock, R., Bunker, D.E., Casanoves, F., Cavender-Bares, J., Chambers, J.Q., Chapin, F.S. III, Chave, J., Coomes, D., Cornwell, W.K., Craine, J.M., Dobrin, B.H., Duarte, L., Durka, W., Elser, J., Esser, G., Estiarte, M., Fagan, W.F., Fang, J., Fernández-Méndez, F., Fidelis, A., Finegan, B., Flores, O., Ford, H., Frank, D., Freschet, G.T., Fyllas, N.M., Gallagher, R.V., Green, W.A., Gutierrez, A.G., Hickler, T., Higgins, S.I., Hodgson, J.G., Jalili, A., Jansen, S., Joly, C.A., Kerkhoff, A.J., Kirkup, D., Kitajima, K., Kleyer, M., Klotz, S., Knops, J.M.H., Kramer, K., Kühn, I., Kurokawa, H., Laughlin, D., Lee, T.D., Leishman, M., Lens, F., Lenz, T., Lewis, S.L., Lloyd, J., Llusià, J., Louault, F., Ma, S., Mahecha, M.D., Manning, P., Massad, T., Medlyn, B.E., Messier, J., Moles, A.T., Müller, S.C., Nadrowski, K., Naeem, S., Niinemets, Ü., Nöllert, S., Nüske, A., Ogaya, R., Oleksyn, J., Onipchenko, V.G., Onoda, Y., Ordoñez, J., Overbeck, G., Ozinga, W.A., Patiño, S., Paula, S., Pausas, J.G., Peñuelas, J., Phillips, O.L., Pillar, V., Poorter, H., Poorter, L., Poschlod, P., Prinzing, A., Proulx, R., Rammig, A., Reinsch, S., Reu, B., Sack, L., Salgado-Negret, B., Sardans, J., Shiodera, S., Shipley, B., Siefert, A., Sosinski, E., Soussana, J.-F., Swaine, E., Swenson, N., Thompson, K., Thornton, P., Waldram, M., Weiher, E., White, M., White, S., Wright, S.J., Yguel, B., Zaehle, S., Zanne, A.E. & Wirth, C. 2011. TRY - a global database of plant traits. Global Change Biology 17: 2905-2935.
Minden, V. & Kleyer, M. 2011. Testing the effect-response framework: key response and effect traits determining above-ground biomass of salt marshes. Journal of Vegetation Science 22: 387-401.
Díaz, S., Lavorel, S., De Bello, F., Quétier, F., Grigulis, K. & Robson, T.M. 2007. Incorporating plant functional diversity effects in ecosystem service assessments. Proceedings of the National Academy of Sciences of the United States of America 104: 20684-20689.
Pakeman, R.J. & Stockan, J. In press Using plant functional traits as a link between land use and bee foraging abundance. Acta Oecologica, in press.
Kremen, C. 2005. Managing ecosystem services: what do we need to know about their ecology? Ecology Letters 8: 468-479.
Lavorel, S. & Grigulis, K. 2012. How fundamental plant functional trait relationships scale-up to trade-offs and synergies in ecosystem services. Journal of Ecology 100: 128-140.
Bluethgen, N. & Klein, A.-M. 2011. Functional complementarity and specialisation: the role of biodiversity in plant-pollina
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References_xml – reference: Carvell, C., Roy, D.B., Smart, S.M., Pywell, R.F., Preston, C.D. & Goulson, D. 2006. Declines in forage availability for bumblebees at a national scale. Biological Conservation 132: 481-489.
– reference: Kennedy, C.M., Marra, P.P., Fagan, W.F. & Neel, M.C. 2010. Landscape matrix and species traits mediate responses of Neotropical resident birds to forest fragmentation in Jamaica. Ecological Monographs 80: 651-669.
– reference: Lavorel, S. 2013. Plant functional effects on ecosystem services. Journal of Ecology 101: 4-8.
– reference: Pakeman, R.J. & Stockan, J. In press Using plant functional traits as a link between land use and bee foraging abundance. Acta Oecologica, in press.
– reference: Stang, M., Klinkhamer, P. & Van der Meijden, E. 2007. Asymmetric specialization and extinction risk in plant-flower visitor webs: a matter of morphology or abundance? Oecologia 151: 442-453.
– reference: Lavorel, S., Grigulis, K., Lamarque, P., Colace, M.-P., Garden, D., Girel, J., Douzet, R. & Pellet, G. 2009. Using plant functional traits to understand the landscape-scale distribution of multiple ecosystem services. Journal of Ecology 99: 135-147.
– reference: Reiss, J., Bridle, J.R., Montoya, J.M. & Woodward, G. 2009. Emerging horizons in biodiversity and ecosystem functioning research. Trends in Ecology & Evolution 24: 505-514.
– reference: Kremen, C., Williams, N.E., Aizen, M.A., Gemmill-Herren, B., LeBuhn, G., Minckley, R., Packer, L., Potts, S.G., Roulston, T., Steffan-Dewenter, I., Vasquez, D.P., Winfree, R., Adams, L., Crone, E.E., Greenleaf, S.S., Keitt, T.H., Klein, A.-M., Regetz, J. & Rickletts, T.H. 2007. Pollination and other ecosystem services produced by mobile organisms: a conceptual framework for the effects of land-use change. Ecology Letters 10: 299-314.
– reference: Díaz, S., Lavorel, S., De Bello, F., Quétier, F., Grigulis, K. & Robson, T.M. 2007. Incorporating plant functional diversity effects in ecosystem service assessments. Proceedings of the National Academy of Sciences of the United States of America 104: 20684-20689.
– reference: Díaz, S., Fargione, J., Chapin, F.S. III & Tilman, D. 2006. Biodiversity loss threatens human well-being. PLoS Biology 4: e277.
– reference: Luck, G.W., Lavorel, S., McIntyre, S. & Lumb, K. 2012. Extending trait-based frameworks to vertebrates and improving their application to the study of ecosystem services. Journal of Animal Ecology 81: 1065-1076.
– reference: Kremen, C. 2005. Managing ecosystem services: what do we need to know about their ecology? Ecology Letters 8: 468-479.
– reference: Minden, V. & Kleyer, M. 2011. Testing the effect-response framework: key response and effect traits determining above-ground biomass of salt marshes. Journal of Vegetation Science 22: 387-401.
– reference: Mulder, C., Boit, A., Mori, S., Vonk, J.A., Dyer, S.D., Faggiano, L., Geisen, S., González, A.L., Kaspari, M., Lavorel, S., Marquet, P.A., Rossberg, A.G., Sterner, R.W., Voigt, W. & Wall, D.H. 2012. Distributional (in) congruence of Biodiversity-Ecosystem Functioning. Advances in Ecological Research 46: 1-88.
– reference: Garnier, E., Lavorel, S., Ansquer, P., Castro, H., Cruz, P., Dolezal, J., Eriksson, O., Fortunel, C., Freitas, H., Golodets, C., Grigulis, K., Jouany, C., Kazakou, E., Kigel, J., Kleyer, M., Lehsten, V., Leps, J., Meier, T., Pakeman, R., Papadimitriou, M., Papanastasis, V., Quested, H., Quétier, F., Robson, T.M., Roumet, C., Rusch, G., Skarpe, C., Sternberg, M., Theau, J.P., Thébault, A., Vile, D. & Zarovali, M.P. 2007. A standardized methodology to assess the effects of land use change on plant traits, communities and ecosystem functioning in grasslands. Annals of Botany 99: 967-985.
– reference: Bardgett, R.D. & Wardle, D.A. 2003. Herbivore-mediated linkages between aboveground and belowground communities. Ecology 84: 2258-2268.
– reference: Lienin, P. & Kleyer, M. 2012. Plant trait responses to the environment and effects on multiple ecosystem properties. Basic and Applied Ecology 13: 301-311.
– reference: Potts, S.G., Vulliamy, B., Dafni, A., Ne'eman, G. & Willmer, P. 2003. Linking bees and flowers: how do floral communities structure pollinator communities? Ecology 84: 2628-2642.
– reference: Zhang, W., Ricketts, T.H., Kremen, C., Carney, K. & Swinton, S.M. 2007. Ecosystem services and dis-services to agriculture. Ecological Economics 64: 253-260.
– reference: Cornelissen, J.H.C., Lavorel, S., Garnier, E., Díaz, S., Buchmann, N., Gurvich, D.E., Reich, P.B., Ter Steege, H., Morgan, H.D., Van der Heijden, M.G.A., Pausas, J.G. & Poorter, H. 2003. Handbook of protocols for standardised and easy measurement of plant functional traits worldwide. Australian Journal of Botany 51: 335-380.
– reference: Laliberté, E. & Tylianakis, J.M. 2012. Cascading effects of long-term land-use changes on plant traits and ecosystem functioning. Ecology 93: 145-155.
– reference: Öckinger, E., Schweiger, O., Crist, T.O., Debinski, D.M., Krauss, J., Kuussaari, M., Petersen, J.D., Pöyry, J., Settele, J., Summerville, K.S. & Bommarco, R. 2010. Life-history traits predict species responses to habitat area and isolation: a cross-continental synthesis. Ecology Letters 13: 969-979.
– reference: Tylianakis, J.M., Didham, R.K., Bascompte, J. & Wardle, D.A. 2008. Global change and species interactions in terrestrial ecosystems. Ecology Letters 11: 1351-1363.
– reference: Fahrig, L., Baudry, J., Brotons, L., Burel, F.G., Crist, T.O., Fuller, R.J., Sirami, C., Siriwardena, G.M. & Martin, J.-L. 2011. Functional landscape heterogeneity and animal biodiversity in agricultural landscapes. Ecology Letters 14: 101-112.
– reference: Lavorel, S. & Grigulis, K. 2012. How fundamental plant functional trait relationships scale-up to trade-offs and synergies in ecosystem services. Journal of Ecology 100: 128-140.
– reference: Pakeman, R.J. 2011. Multivariate identification of plant functional response and effect traits in an agricultural landscape. Ecology 92: 1353-1365.
– reference: Suding, K.N., Lavorel, S., Chapin, F.S. III, Díaz, S., Garnier, E., Goldberg, D., Hooper, D.U., Jackson, S.T. & Navas, M.L. 2008. Scaling environmental change from traits to communities to ecosystems: the challenge of intermediate-level complexity. Global Change Biology 14: 1125-1140.
– reference: Lavorel, S. & Garnier, E. 2002. Predicting the effects of environmental changes on plant community composition and ecosystem functioning: revisiting the Holy Grail. Functional Ecology 16: 545-556.
– reference: De Bello, F., Lavorel, S., Díaz, S., Harrington, R., Cornelissen, J.H.C., Bardgett, R.D., Berg, M.P., Cipriotti, P., Feld, C.K., Hering, D., Da Silva, P.M., Potts, S.G., Sandin, L., Sousa, J.P., Storkey, J., Wardle, D.A. & Harrison, P.A. 2010. Towards an assessment of multiple ecosystem processes and services via functional traits. Biodiversity and Conservation 19: 2873-2893.
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Snippet A novel conceptual framework is presented that proposes to apply trait-based approaches to predicting the impact of environmental change on ecosystem service...
A novel conceptual framework is presented that proposes to apply trait‐based approaches to predicting the impact of environmental change on ecosystem service...
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SubjectTerms Animal ecology
Applied ecology
Biotic control
Biotic interactions
Data processing
Ecosystem functioning
Ecosystem services
Ecosystems
Environmental change
Field margins
Functional trait
Grassland
Landscape ecology
Life Sciences
Plant ecology
Plant-soil interactions
Plants
Pollination
Soil nitrogen
Trophic levels
Vegetation
Title A novel framework for linking functional diversity of plants with other trophic levels for the quantification of ecosystem services
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https://www.jstor.org/stable/23467179
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjvs.12083
https://www.proquest.com/docview/1434033557
https://univ-lyon1.hal.science/hal-02522208
Volume 24
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