182 results on '"Chaplin-Kramer, Rebecca"'
Search Results
152. A protocol for an intercomparison of biodiversity and ecosystem services models using harmonized land-use and climate scenarios.
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HyeJin Kim, Rosa, Isabel M. D., Alkemade, Rob, Leadley, Paul, Hurtt, George, Popp, Alexander, van Vuuren, Detlef P., Anthoni, Peter, Arneth, Almut, Baisero, Daniele, Caton, Emma, Chaplin-Kramer, Rebecca, Chini, Louise, De Palma, Adriana, Di Fulvio, Fulvio, Di Marco, Moreno, Espinoza, Felipe, Ferrier, Simon, Shinichiro Fujimori, and Gonzalez, Ricardo E.
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LAND use ,CLIMATE change ,BIODIVERSITY - Abstract
To support the assessments of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES), the IPBES Expert Group on Scenarios and Models is carrying out an intercomparison of biodiversity and ecosystem services models using harmonized scenarios (BES-SIM). The goals of BES-SIM are (1) to project the global impacts of land use and climate change on biodiversity and ecosystem services (i.e. nature's contributions to people) over the coming decades, compared to the 20th century, using a set of common metrics at multiple scales, and (2) to identify model uncertainties and research gaps through the comparisons of projected biodiversity and ecosystem services across models. BES-SIM uses three scenarios combining specific Shared Socio-economic Pathways (SSPs) and Representative Concentration Pathways (RCPs) to explore a wide range of land-use change and climate change futures. This paper describes the rationale for scenarios selection, the process of harmonizing input data for land use, based on the second phase of the Land Use Harmonization Project (LUH2), and climate, the biodiversity and ecosystem service models used, the core simulations carried out, the harmonization of the model output metrics, and the treatment of uncertainty. The results of this collaborative modelling project will support the ongoing global assessment of IPBES, strengthen ties between IPBES and the Intergovernmental Panel on Climate Change (IPCC) scenarios and modelling processes, advise the Convention on Biological Diversity (CBD) on its development of a post-2020 strategic plans and conservation goals, and inform the development of a new generation of nature-centred scenarios. [ABSTRACT FROM AUTHOR]
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- 2018
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153. Towards a better future for biodiversity and people: Modelling Nature Futures.
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Kim, HyeJin, Peterson, Garry D., Cheung, William W.L., Ferrier, Simon, Alkemade, Rob, Arneth, Almut, Kuiper, Jan J., Okayasu, Sana, Pereira, Laura, Acosta, Lilibeth A., Chaplin-Kramer, Rebecca, den Belder, Eefje, Eddy, Tyler D., Johnson, Justin A, Karlsson-Vinkhuyzen, Sylvia, Kok, Marcel T.J., Leadley, Paul, Leclère, David, Lundquist, Carolyn J., and Rondinini, Carlo
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NATURE conservation ,BIODIVERSITY ,QUALITY of life ,WELL-being - Abstract
[Display omitted] • Nature Futures Framework is a heiristic tool for creating positive futures for nature and people. • Nature Futures scenarios explore a mix of policies that progresses the world towards positive futures. • Reflecting diverse values and worldviews helps identify context-relevant interventions. • Mutually reinforcing positive social-ecological feedbacks can accelerate transformation pathways. • Indicators representing diverse values of nature build comprehensive evidence bases for policy. The Nature Futures Framework (NFF) is a heuristic tool for co-creating positive futures for nature and people. It seeks to open up a diversity of futures through mainly three value perspectives on nature – Nature for Nature, Nature for Society, and Nature as Culture. This paper describes how the NFF can be applied in modelling to support decision-making. First, we describe key considerations for the NFF in developing qualitative and quantitative scenarios: i) multiple value perspectives on nature as a state space where pathways improving nature toward a frontier can be represented, ii) mutually reinforcing key feedbacks of social-ecological systems that are important for nature conservation and human wellbeing, iii) indicators of multiple knowledge systems describing the evolution of complex social-ecological dynamics. We then present three approaches to modelling Nature Futures scenarios in the review, screening, and design phases of policy processes. This paper seeks to facilitate the integration of relational values of nature in models and strengthen modelled linkages across biodiversity, nature's contributions to people, and quality of life. [ABSTRACT FROM AUTHOR]
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- 2023
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154. Degradation in carbon stocks near tropical forest edges
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Chaplin-Kramer, Rebecca, primary, Ramler, Ivan, additional, Sharp, Richard, additional, Haddad, Nick M., additional, Gerber, James S., additional, West, Paul C., additional, Mandle, Lisa, additional, Engstrom, Peder, additional, Baccini, Alessandro, additional, Sim, Sarah, additional, Mueller, Carina, additional, and King, Henry, additional
- Published
- 2015
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155. A new approach to modeling the sediment retention service (InVEST 3.0): Case study of the Cape Fear catchment, North Carolina, USA
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Hamel, Perrine, primary, Chaplin-Kramer, Rebecca, additional, Sim, Sarah, additional, and Mueller, Carina, additional
- Published
- 2015
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156. Reply to Marini et al.: Insect spill-over is a double-edged sword in agriculture.
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Rosenheim, Jay A., Cluff, Emma, Lippey, Mia K., Cass, Bodil N., Paredes, Daniel, Parsa, Soroush, Karp, Daniel S., and Chaplin-Kramer, Rebecca
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AGRICULTURE ,INSECTS ,PEST control ,INSECT size ,INDUCTIVE effect - Published
- 2023
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157. Detecting pest control services across spatial and temporal scales
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Chaplin-Kramer, Rebecca, primary, de Valpine, Perry, additional, Mills, Nicholas J., additional, and Kremen, Claire, additional
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- 2013
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158. Effects of Climate Change on Range Forage Production in the San Francisco Bay Area
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Chaplin-Kramer, Rebecca, primary and George, Melvin R., additional
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- 2013
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159. Conservation needs to integrate knowledge across scales.
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Chaplin-Kramer, Rebecca, Brauman, Kate A., Cavender-Bares, Jeannine, Díaz, Sandra, Duarte, Gabriela Teixeira, Enquist, Brian J., Garibaldi, Lucas A., Geldmann, Jonas, Halpern, Benjamin S., Hertel, Thomas W., Khoury, Colin K., Krieger, Joana Madeira, Lavorel, Sandra, Mueller, Thomas, Neugarten, Rachel A., Pinto-Ledezma, Jesús, Polasky, Stephen, Purvis, Andy, Reyes-García, Victoria, and Roehrdanz, Patrick R.
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- 2022
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160. A meta-analysis of crop pest and natural enemy response to landscape complexity
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Chaplin-Kramer, Rebecca, primary, O’Rourke, Megan E., additional, Blitzer, Eleanor J., additional, and Kremen, Claire, additional
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- 2011
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161. Modeling multiple ecosystem services and beneficiaries of riparian reforestation in Costa Rica.
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Langhans, Kelley E., Schmitt, Rafael J.P., Chaplin-Kramer, Rebecca, Anderson, Christopher B., Vargas Bolaños, Christian, Vargas Cabezas, Fermin, Dirzo, Rodolfo, Goldstein, Jesse A., Horangic, Theodora, Miller Granados, Cornelia, Powell, Taylor M., Smith, Jeffrey R., Alvarado Quesada, Irene, Umaña Quesada, Alvaro, Monge Vargas, Rafael, Wolny, Stacie, and Daily, Gretchen C.
- Abstract
• Riparian buffers are key places to reforest to increase ecosystem services. • Implementing existing riparian protection law in Costa Rica can lead to outsized benefits. • Small increase in forest cover leads to large increases in water quality via increased sediment and nutrient retention. • Increases in water quality are delivered to people who rely on surface water. • Reforesting benefits vulnerable populations in Costa Rica. Riparian buffers—forests along rivers—generate many essential ecosystem services, and their protection and restoration are the focus of many policy efforts. Costa Rica is a global leader in this regard, where legislative and executive frameworks work in concert to conserve forests that deliver public benefits such as water quality and carbon storage both locally and globally. Yet implementation and enforcement is an urgent challenge, and could benefit from high-resolution targeting with a quantitative understanding of expected benefits. Here, we undertake such an analysis, focusing on the benefits of implementing Forest Law 7575, which specifies the amount of forest to be preserved along rivers. We model changes in sediment retention, nutrient retention, and carbon sequestration from a baseline scenario based on current land use that is in partial compliance with the law. We contrast this with a simulated reforestation scenario, where riparian forest cover is increased to at least a minimum level of compliance (10 m buffers) everywhere. We find that targeted riparian reforestation—increasing national forest cover by 1.9 %—would substantially increase ecosystem services. Water quality regulation would be improved via an increase of 3.9 % in sediment retention (1.4 Mt/year), 81.4 % in nitrogen retention (0.012 Mt/year), and 85.9 % in phosphorus retention (0.0022 Mt/year). Moreover, riparian reforestation would increase the national carbon stock 1.4 % above current levels (7.0 Mt). Our analysis shows where riparian buffers are most beneficial—generally in steep, erosion-prone, and intensively fertilized landscapes. Through a canton-level analysis comparing potential increases in sediment and nutrient retention with demographic information, we find that these benefits would flow to communities that depend on rivers for drinking water and that are otherwise vulnerable. Small increases in riparian reforestation in Costa Rica, implemented via an existing law, could confer large benefits to rivers and all who depend on them. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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162. CHAPTER 2: THE SPEED AND SCALE OF CHANGE: People and nature.
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Chaplin-Kramer, Rebecca
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HUMAN ecology ,SUPPLY & demand - Published
- 2022
163. Mapping Ecosystem Services to Human Well‐being: a toolkit to support integrated landscape management for the SDGs.
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Johnson, Justin A., Jones, Sarah K., Wood, Sylvia L. R., Chaplin‐Kramer, Rebecca, Hawthorne, Peter L., Mulligan, Mark, Pennington, Derric, and DeClerck, Fabrice A.
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ECOSYSTEM services ,HUMAN services ,NONGOVERNMENTAL organizations ,WELL-being ,DEVELOPING countries - Abstract
The Sustainable Development Goals (SDGs) emphasize the global and multi‐dimensional nature of sustainability and thus require improving our capacity to articulate and trace the impact of ecosystem change to measures of human well‐being. Yet, the integrated nature of these goals is challenging to assess without similarly integrated assessment tools. We present a new modeling toolkit, "Mapping Ecosystem Services to Human well‐being" (MESH), that integrates commonly used, stand‐alone ecosystem services (ES) models from the InVEST suite of models to quantify and illustrate the trade‐offs and synergies across five ecosystem services and up to 10 associated SDGs. Development of the software and its functionality were informed by a broad stakeholder consultation with ministries, non‐governmental organizations and civil society groups in West Africa to identify common barriers to uptake and application of modeling tools in developing countries. In light of this process, key features included in MESH are (1) integration of multiple ecosystem service (ES) models into a common modeling framework supported by a curated base data set, (2) built‐in scenario generation capacity to support policy analysis, (3) visualization of outcomes and trade‐offs, and (4) mapping of ecosystem service change to SDG targets and goals. We illustrate the use of MESH in a case study in the Volta basin of West Africa comparing the effectiveness of three alternative conservation prioritization approaches: (1) land cover‐based, (2) topographic‐based, and (3) an ecosystem service‐based approach to minimize the impact of agricultural expansion. We evaluate these approaches by linking changes in service supply to potential impacts on achievement of specific SDG goals and targets. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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164. A protocol for an intercomparison of biodiversity and ecosystem services models using harmonized land-use and climate scenarios
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Kim, HyeJin, Rosa, Isabel M.D., Alkemade, Rob, Leadley, Paul, Hurtt, George, Popp, Alexander, Van Vuuren, Detlef P., Anthoni, Peter, Arneth, Almut, Baisero, Daniele, Caton, Emma, Chaplin-Kramer, Rebecca, Chini, Louise, De Palma, Adriana, Di Fulvio, Fulvio, Di Marco, Moreno, Espinoza, Felipe, Ferrier, Simon, Fujimori, Shinichiro, Gonzalez, Ricardo E., Gueguen, Maya, Guerra, Carlos, Harfoot, Mike, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hill, Samantha L.L., Hoskins, Andrew J., Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Martins, Ines S., Matsui, Tetsuya, Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke M., Sharp, Richard, Takahashi, Kiyoshi, Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, and Pereira, Henrique M.
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13. Climate action ,11. Sustainability ,15. Life on land - Abstract
To support the assessments of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES), the IPBES Expert Group on Scenarios and Models is carrying out an intercomparison of biodiversity and ecosystem services models using harmonized scenarios (BES-SIM). The goals of BES-SIM are (1) to project the global impacts of land-use and climate change on biodiversity and ecosystem services (i.e., nature's contributions to people) over the coming decades, compared to the 20th century, using a set of common metrics at multiple scales, and (2) to identify model uncertainties and research gaps through the comparisons of projected biodiversity and ecosystem services across models. BES-SIM uses three scenarios combining specific Shared Socio-economic Pathways (SSPs) and Representative Concentration Pathways (RCPs) – SSP1xRCP2.6, SSP3xRCP6.0, SSP5xRCP8.6 – to explore a wide range of land-use change and climate change futures. This paper describes the rationale for scenario selection, the process of harmonizing input data for land use, based on the second phase of the Land Use Harmonization Project (LUH2), and climate, the biodiversity and ecosystem services models used, the core simulations carried out, the harmonization of the model output metrics, and the treatment of uncertainty. The results of this collaborative modeling project will support the ongoing global assessment of IPBES, strengthen ties between IPBES and the Intergovernmental Panel on Climate Change (IPCC) scenarios and modeling processes, advise the Convention on Biological Diversity (CBD) on its development of a post-2020 strategic plans and conservation goals, and inform the development of a new generation of nature-centred scenarios., Geoscientific Model Development, 11 (11), ISSN:1991-9603, ISSN:1991-959X
165. A protocol for an intercomparison of biodiversity and ecosystem services models using harmonized land-use and climate scenarios
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Kim, HyeJin, Rosa, Isabel M. D., Alkemade, Rob, Leadley, Paul, Hurtt, George, Popp, Alexander, Van Vuuren, Detlef P, Anthoni, Peter, Arneth, Almut, Baisero, Daniele, Caton, Emma, Chaplin-Kramer, Rebecca, Chini, Louise, De Palma, Adriana, Di Fulvio, Fulvio, Di Marco, Moreno, Espinoza, Felipe, Ferrier, Simon, Fujimori, Shinichiro, Gonzalez, Ricardo E., Gueguen, Maya, Guerra, Carlos, Harfoot, Mike, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hill, Samantha L. L., Hirata, Akiko, Hoskins, Andrew J., Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Martins, Ines S., Matsui, Tetsuya, Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke, Sharp, Richard, Takahashi, Kiyoshi, Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, and Pereira, Henrique M.
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13. Climate action ,11. Sustainability ,IPBES ,15. Life on land ,Land use change ,LPJ-GUESS
166. Agricultural ecosystems and their services: the vanguard of sustainability?
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DeClerck, Fabrice A.J., Jones, S.K., Attwood, S., Bossio, Deborah A., Girvetz, Evan H., Chaplin-Kramer, Rebecca, Enfors, E., Fremier, Alexander K., Gordon, L.J., Kizito, Fred, Noriega, I.L., Matthews, Nathaniel, McCartney, Matthew P., Meacham, M., Noble, A.D., Quintero, Marcela, Remans, S., Soppe, R., Willemen, L., Wood, S.L.R., Zhang, W., DeClerck, Fabrice A.J., Jones, S.K., Attwood, S., Bossio, Deborah A., Girvetz, Evan H., Chaplin-Kramer, Rebecca, Enfors, E., Fremier, Alexander K., Gordon, L.J., Kizito, Fred, Noriega, I.L., Matthews, Nathaniel, McCartney, Matthew P., Meacham, M., Noble, A.D., Quintero, Marcela, Remans, S., Soppe, R., Willemen, L., Wood, S.L.R., and Zhang, W.
167. Agricultural ecosystems and their services: the vanguard of sustainability?
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DeClerck, Fabrice A.J., Jones, S.K., Attwood, S., Bossio, Deborah A., Girvetz, Evan H., Chaplin-Kramer, Rebecca, Enfors, E., Fremier, Alexander K., Gordon, L.J., Kizito, Fred, Noriega, I.L., Matthews, Nathaniel, McCartney, Matthew P., Meacham, M., Noble, A.D., Quintero, Marcela, Remans, S., Soppe, R., Willemen, L., Wood, S.L.R., Zhang, W., DeClerck, Fabrice A.J., Jones, S.K., Attwood, S., Bossio, Deborah A., Girvetz, Evan H., Chaplin-Kramer, Rebecca, Enfors, E., Fremier, Alexander K., Gordon, L.J., Kizito, Fred, Noriega, I.L., Matthews, Nathaniel, McCartney, Matthew P., Meacham, M., Noble, A.D., Quintero, Marcela, Remans, S., Soppe, R., Willemen, L., Wood, S.L.R., and Zhang, W.
168. Leveraging satellite observations to reveal ecological drivers of pest densities across landscapes.
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Emery, Sara E., Rosenheim, Jay A., Chaplin-Kramer, Rebecca, Sharp, Richard, and Karp, Daniel S.
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- 2024
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169. Global trends and scenarios for terrestrial biodiversity and ecosystem services from 1900 to 2050.
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Pereira, Henrique M., Martins, Inês S., Rosa, Isabel M. D., Kim, HyeJin, Leadley, Paul, Popp, Alexander, van Vuuren, Detlef P., Hurtt, George, Quoss, Luise, Arneth, Almut, Baisero, Daniele, Bakkenes, Michel, Chaplin-Kramer, Rebecca, Chini, Louise, Marco, Moreno Di, Ferrier, Simon, Fujimori, Shinichiro, Guerra, Carlos A., Harfoot, Michael, and Harwood, Thomas D.
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ECOSYSTEM services , *BIODIVERSITY , *ENVIRONMENTAL degradation , *CLIMATE change , *TWENTIETH century - Abstract
Based on an extensive model intercomparison, we assessed trends in biodiversity and ecosystem services from historical reconstructions and future scenarios of land-use and climate change. During the 20th century, biodiversity declined globally by 2 to 11%, as estimated by a range of indicators. Provisioning ecosystem services increased several fold, and regulating services decreased moderately. Going forward, policies toward sustainability have the potential to slow biodiversity loss resulting from land-use change and the demand for provisioning services while reducing or reversing declines in regulating services. However, negative impacts on biodiversity due to climate change appear poised to increase, particularly in the higher-emissions scenarios. Our assessment identifies remaining modeling uncertainties but also robustly shows that renewed policy efforts are needed to meet the goals of the Convention on Biological Diversity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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170. Agrofood System (Agrifood)
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Chaplin-Kramer, Rebecca, primary and Kramer, Daniel, additional
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171. Landscape simplification increases vineyard pest outbreaks and insecticide use.
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Paredes, Daniel, Rosenheim, Jay A., Chaplin‐Kramer, Rebecca, Winter, Silvia, Karp, Daniel S., and Mori, Akira
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LANDSCAPES , *INSECTICIDE application , *PEST control , *INSECTICIDES , *PESTS , *VINEYARDS - Abstract
Diversifying agricultural landscapes may mitigate biodiversity declines and improve pest management. Yet landscapes are rarely managed to suppress pests, in part because researchers seldom measure key variables related to pest outbreaks and insecticides that drive management decisions. We used a 13‐year government database to analyse landscape effects on European grapevine moth (Lobesia botrana) outbreaks and insecticides across c. 400 Spanish vineyards. At harvest, we found pest outbreaks increased four‐fold in simplified, vineyard‐dominated landscapes compared to complex landscapes in which vineyards are surrounded by semi‐natural habitats. Similarly, insecticide applications doubled in vineyard‐dominated landscapes but declined in vineyards surrounded by shrubland. Importantly, pest population stochasticity would have masked these large effects if numbers of study sites and years were reduced to typical levels in landscape pest‐control studies. Our results suggest increasing landscape complexity may mitigate pest populations and insecticide applications. Habitat conservation represents an economically and environmentally sound approach for achieving sustainable grape production. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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172. Chapter One - Ecosystem services and the resilience of agricultural landscapes.
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Bennett, Elena M., Baird, Julia, Baulch, Helen, Chaplin-Kramer, Rebecca, Fraser, Evan, Loring, Phil, Morrison, Peter, Parrott, Lael, Sherren, Kate, Winkler, Klara J., Cimon-Morin, Jérôme, Fortin, Marie-Josée, Kurylyk, Barret L., Lundholm, Jeremy, Poulin, Monique, Rieb, Jesse T., Gonzalez, Andrew, Hickey, Gordon M., and Lapen, David
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ECOLOGY periodicals , *ECOSYSTEM services , *CLIMATE change , *AGRICULTURAL productivity - Abstract
Global social and economic changes, alongside climate change, are affecting the operating environment for agriculture, leading to efforts to increase production and yields, typically through the use of agrochemicals like pesticides and fertilizers, expanded irrigation, and changes in seed varieties. Intensification, alongside the expansion of agriculture into new areas, has increased harvest, but has also had numerous well-known impacts on the environment, ultimately resulting in a loss of resilience and lack of sustainability in agro-ecosystems. Combined with features of agricultural systems such as the differential movement of ecosystem services, and interactions among ecosystem services driven in part by management choices, such intensification has disrupted key feedbacks in agricultural systems. These changes have tended to perpetuate the management choices that have led to efficient, productive agriculture, often at the expense of nature and the provision of important nonfood ecosystem services. Here, we explore how agriculture functions as a complex adaptive system. We assess how recent changes have interacted with agro-ecosystem features to result in a loss of resilience, and suggest key research directions to help harmonize production and ecosystem function, drawing primarily on Canadian examples. Enhancing the resilience of agricultural landscapes is critical to the long-term sustainability of agriculture in a rapidly changing world. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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173. Species traits elucidate crop pest response to landscape composition: a global analysis.
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Tamburini, Giovanni, Santoiemma, Giacomo, O'Rourke, Megan E., Bommarco, Riccardo, Chaplin-Kramer, Rebecca, Dainese, Matteo, Karp, Daniel S., Kim, Tania N., Martin, Emily A., Petersen, Matt, and Marini, Lorenzo
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AGRICULTURAL pests , *GLOBAL analysis (Mathematics) , *INSECT pests , *LANDSCAPES , *HOST plants , *SUSTAINABLE design - Abstract
Recent synthesis studies have shown inconsistent responses of crop pests to landscape composition, imposing a fundamental limit to our capacity to design sustainable crop protection strategies to reduce yield losses caused by insect pests. Using a global dataset composed of 5242 observations encompassing 48 agricultural pest species and 26 crop species, we tested the role of pest traits (exotic status, host breadth and habitat breadth) and environmental context (crop type, range in landscape gradient and climate) in modifying the pest response to increasing semi-natural habitats in the surrounding landscape. For natives, increasing semi-natural habitats decreased the abundance of pests that exploit only crop habitats or that are highly polyphagous. On the contrary, populations of exotic pests increased with an increasing cover of semi-natural habitats. These effects might be related to changes in host plants and other resources across the landscapes and/or to modified top-down control by natural enemies. The range of the landscape gradient explored and climate did not affect pests, while crop type modified the response of pests to landscape composition. Although species traits and environmental context helped in explaining some of the variability in pest response to landscape composition, the observed large interspecific differences suggest that a portfolio of strategies must be considered and implemented for the effective control of rapidly changing communities of crop pests in agroecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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174. Summary for policymakers of the methodological assessment of the diverse values and valuation of nature of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES)
- Author
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Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services, Pascual, Unai, Balvanera, Patricia, Christie, Michael, Baptiste, Brigitte, González-Jiménez, David, Anderson, Christopher B., Athayde, Simone, Barton, David N., Chaplin-Kramer, Rebecca, Jacobs, Sander, Kelemen, Eszter, Kumar, Ritesh, Lazos, Elena, Martin, Adrian, Mwampamba, Tuyeni H., Nakangu, Barbara, O'Farrell, Patrick, Raymond, Christopher M., Subramanian, Suneetha M., Termansen, Mette, Van Noordwijk, Meine, and Vatn, Arild
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Diverse values ,Methods ,IPBES ,Values assessment ,Summary for policymakers ,Decision making ,Valuation - Abstract
IPBES is an independent intergovernmental body comprising over 130 member Governments. Established by Governments in 2012, IPBES provides policymakers with objective scientific assessments about the state of knowledge regarding the planet’s biodiversity, ecosystems and the contributions they make to people, as well as options and actions to protect and sustainably use these vital natural assets. The IPBES Methodological Assessment of the Diverse Values and Valuation of Nature was initiated following a decision from the IPBES Plenary at its sixth session (IPBES 6, Medellin, 2018), and considered by the IPBES Plenary at its ninth session (IPBES-9, Bonn, 2022). It is composed of a summary for policymakers which was approved at IPBES-9, and six chapters, which were accepted at IPBES 9., Suggested citation: IPBES (2022): IPBES (2022). Summary for Policymakers of the Methodological Assessment Report on the Diverse Values and Valuation of Nature of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. Pascual, U., Balvanera, P., Christie, M., Baptiste, B., González-Jiménez, D., Anderson, C.B., Athayde, S., Barton, D.N., Chaplin-Kramer, R., Jacobs, S., Kelemen, E., Kumar, R., Lazos, E., Martin, A., Mwampamba, T.H., Nakangu, B., O'Farrell, P., Raymond, C.M., Subramanian, S.M., Termansen, M., Van Noordwijk, M., and Vatn, A. (eds.). IPBES secretariat, Bonn, Germany. https://doi.org/10.5281/zenodo.6522392
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- 2022
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175. Protected Area Case Study. Masoala National Park, Madagascar
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Llopis, Jorge C., Borgerson, Cortni, Andrianarimisa, Aristide, Chaplin-Kramer, Rebecca, and Neugarten, Rachel
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- 2022
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176. Mapping the planet's critical areas for biodiversity and nature's contributions to people.
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Neugarten RA, Chaplin-Kramer R, Sharp RP, Schuster R, Strimas-Mackey M, Roehrdanz PR, Mulligan M, van Soesbergen A, Hole D, Kennedy CM, Oakleaf JR, Johnson JA, Kiesecker J, Polasky S, Hanson JO, and Rodewald AD
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- Humans, Biodiversity, Agriculture, Climate, Ecosystem, Planets
- Abstract
Meeting global commitments to conservation, climate, and sustainable development requires consideration of synergies and tradeoffs among targets. We evaluate the spatial congruence of ecosystems providing globally high levels of nature's contributions to people, biodiversity, and areas with high development potential across several sectors. We find that conserving approximately half of global land area through protection or sustainable management could provide 90% of the current levels of ten of nature's contributions to people and meet minimum representation targets for 26,709 terrestrial vertebrate species. This finding supports recent commitments by national governments under the Global Biodiversity Framework to conserve at least 30% of global lands and waters, and proposals to conserve half of the Earth. More than one-third of areas required for conserving nature's contributions to people and species are also highly suitable for agriculture, renewable energy, oil and gas, mining, or urban expansion. This indicates potential conflicts among conservation, climate and development goals., (© 2024. The Author(s).)
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- 2024
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177. Diverse values of nature for sustainability.
- Author
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Pascual U, Balvanera P, Anderson CB, Chaplin-Kramer R, Christie M, González-Jiménez D, Martin A, Raymond CM, Termansen M, Vatn A, Athayde S, Baptiste B, Barton DN, Jacobs S, Kelemen E, Kumar R, Lazos E, Mwampamba TH, Nakangu B, O'Farrell P, Subramanian SM, van Noordwijk M, Ahn S, Amaruzaman S, Amin AM, Arias-Arévalo P, Arroyo-Robles G, Cantú-Fernández M, Castro AJ, Contreras V, De Vos A, Dendoncker N, Engel S, Eser U, Faith DP, Filyushkina A, Ghazi H, Gómez-Baggethun E, Gould RK, Guibrunet L, Gundimeda H, Hahn T, Harmáčková ZV, Hernández-Blanco M, Horcea-Milcu AI, Huambachano M, Wicher NLH, Aydın Cİ, Islar M, Koessler AK, Kenter JO, Kosmus M, Lee H, Leimona B, Lele S, Lenzi D, Lliso B, Mannetti LM, Merçon J, Monroy-Sais AS, Mukherjee N, Muraca B, Muradian R, Murali R, Nelson SH, Nemogá-Soto GR, Ngouhouo-Poufoun J, Niamir A, Nuesiri E, Nyumba TO, Özkaynak B, Palomo I, Pandit R, Pawłowska-Mainville A, Porter-Bolland L, Quaas M, Rode J, Rozzi R, Sachdeva S, Samakov A, Schaafsma M, Sitas N, Ungar P, Yiu E, Yoshida Y, and Zent E
- Subjects
- Humans, Biodiversity, Climate Change, Ecosystem, Sustainable Development economics, Goals, Environmental Policy economics, Environmental Justice
- Abstract
Twenty-five years since foundational publications on valuing ecosystem services for human well-being
1,2 , addressing the global biodiversity crisis3 still implies confronting barriers to incorporating nature's diverse values into decision-making. These barriers include powerful interests supported by current norms and legal rules such as property rights, which determine whose values and which values of nature are acted on. A better understanding of how and why nature is (under)valued is more urgent than ever4 . Notwithstanding agreements to incorporate nature's values into actions, including the Kunming-Montreal Global Biodiversity Framework (GBF)5 and the UN Sustainable Development Goals6 , predominant environmental and development policies still prioritize a subset of values, particularly those linked to markets, and ignore other ways people relate to and benefit from nature7 . Arguably, a 'values crisis' underpins the intertwined crises of biodiversity loss and climate change8 , pandemic emergence9 and socio-environmental injustices10 . On the basis of more than 50,000 scientific publications, policy documents and Indigenous and local knowledge sources, the Intergovernmental Platform on Biodiversity and Ecosystem Services (IPBES) assessed knowledge on nature's diverse values and valuation methods to gain insights into their role in policymaking and fuller integration into decisions7,11 . Applying this evidence, combinations of values-centred approaches are proposed to improve valuation and address barriers to uptake, ultimately leveraging transformative changes towards more just (that is, fair treatment of people and nature, including inter- and intragenerational equity) and sustainable futures., (© 2023. The Author(s).)- Published
- 2023
- Full Text
- View/download PDF
178. Mapping the planet's critical natural assets.
- Author
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Chaplin-Kramer R, Neugarten RA, Sharp RP, Collins PM, Polasky S, Hole D, Schuster R, Strimas-Mackey M, Mulligan M, Brandon C, Diaz S, Fluet-Chouinard E, Gorenflo LJ, Johnson JA, Kennedy CM, Keys PW, Longley-Wood K, McIntyre PB, Noon M, Pascual U, Reidy Liermann C, Roehrdanz PR, Schmidt-Traub G, Shaw MR, Spalding M, Turner WR, van Soesbergen A, and Watson RA
- Subjects
- Humans, Animals, Conservation of Natural Resources, Biodiversity, Birds, Mammals, Ecosystem, Planets
- Abstract
Sustaining the organisms, ecosystems and processes that underpin human wellbeing is necessary to achieve sustainable development. Here we define critical natural assets as the natural and semi-natural ecosystems that provide 90% of the total current magnitude of 14 types of nature's contributions to people (NCP), and we map the global locations of these critical natural assets at 2 km resolution. Critical natural assets for maintaining local-scale NCP (12 of the 14 NCP) account for 30% of total global land area and 24% of national territorial waters, while 44% of land area is required to also maintain two global-scale NCP (carbon storage and moisture recycling). These areas overlap substantially with cultural diversity (areas containing 96% of global languages) and biodiversity (covering area requirements for 73% of birds and 66% of mammals). At least 87% of the world's population live in the areas benefitting from critical natural assets for local-scale NCP, while only 16% live on the lands containing these assets. Many of the NCP mapped here are left out of international agreements focused on conserving species or mitigating climate change, yet this analysis shows that explicitly prioritizing critical natural assets and the NCP they provide could simultaneously advance development, climate and conservation goals., (© 2022. The Author(s).)
- Published
- 2023
- Full Text
- View/download PDF
179. Archetype models upscale understanding of natural pest control response to land-use change.
- Author
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Alexandridis N, Marion G, Chaplin-Kramer R, Dainese M, Ekroos J, Grab H, Jonsson M, Karp DS, Meyer C, O'Rourke ME, Pontarp M, Poveda K, Seppelt R, Smith HG, Walters RJ, Clough Y, and Martin EA
- Subjects
- Pest Control, Agriculture, Crops, Agricultural, Natural Resources, Pest Control, Biological, Ecosystem
- Abstract
Control of crop pests by shifting host plant availability and natural enemy activity at landscape scales has great potential to enhance the sustainability of agriculture. However, mainstreaming natural pest control requires improved understanding of how its benefits can be realized across a variety of agroecological contexts. Empirical studies suggest significant but highly variable responses of natural pest control to land-use change. Current ecological models are either too specific to provide insight across agroecosystems or too generic to guide management with actionable predictions. We suggest obtaining the full benefit of available empirical, theoretical, and methodological knowledge by combining trait-mediated understanding from correlative studies with the explicit representation of causal relationships achieved by mechanistic modeling. To link these frameworks, we adapt the concept of archetypes, or context-specific generalizations, from sustainability science. Similar responses of natural pest control to land-use gradients across cases that share key attributes, such as functional traits of focal organisms, indicate general processes that drive system behavior in a context-sensitive manner. Based on such observations of natural pest control, a systematic definition of archetypes can provide the basis for mechanistic models of intermediate generality that cover all major agroecosystems worldwide. Example applications demonstrate the potential for upscaling understanding and improving predictions of natural pest control, based on knowledge transfer and scientific synthesis. A broader application of this mechanistic archetype approach promises to enhance ecology's contribution to natural resource management across diverse regions and social-ecological contexts., (© 2022 The Authors. Ecological Applications published by Wiley Periodicals LLC on behalf of The Ecological Society of America.)
- Published
- 2022
- Full Text
- View/download PDF
180. Increasing crop field size does not consistently exacerbate insect pest problems.
- Author
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Rosenheim JA, Cluff E, Lippey MK, Cass BN, Paredes D, Parsa S, Karp DS, and Chaplin-Kramer R
- Subjects
- Animals, Ecosystem, Crop Protection, Crops, Agricultural parasitology, Insect Control, Insecta, Pest Control, Biological
- Abstract
Increasing diversity on farms can enhance many key ecosystem services to and from agriculture, and natural control of arthropod pests is often presumed to be among them. The expectation that increasing the size of monocultural crop plantings exacerbates the impact of pests is common throughout the agroecological literature. However, the theoretical basis for this expectation is uncertain; mechanistic mathematical models suggest instead that increasing field size can have positive, negative, neutral, or even nonlinear effects on arthropod pest densities. Here, we report a broad survey of crop field-size effects: across 14 pest species, 5 crops, and 20,000 field years of observations, we quantify the impact of field size on pest densities, pesticide applications, and crop yield. We find no evidence that larger fields cause consistently worse pest impacts. The most common outcome (9 of 14 species) was for pest severity to be independent of field size; larger fields resulted in less severe pest problems for four species, and only one species exhibited the expected trend of larger fields worsening pest severity. Importantly, pest responses to field size strongly correlated with their responses to the fraction of the surrounding landscape planted to the focal crop, suggesting that shared ecological processes produce parallel responses to crop simplification across spatial scales. We conclude that the idea that larger field sizes consistently disrupt natural pest control services is without foundation in either the theoretical or empirical record.
- Published
- 2022
- Full Text
- View/download PDF
181. Global synthesis of effects of plant species diversity on trophic groups and interactions.
- Author
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Wan NF, Zheng XR, Fu LW, Kiær LP, Zhang Z, Chaplin-Kramer R, Dainese M, Tan J, Qiu SY, Hu YQ, Tian WD, Nie M, Ju RT, Deng JY, Jiang JX, Cai YM, and Li B
- Subjects
- Animals, Herbivory, Insecta, Population Dynamics, Biodiversity, Ecosystem, Plants
- Abstract
Numerous studies have demonstrated that plant species diversity enhances ecosystem functioning in terrestrial ecosystems, including diversity effects on insects (herbivores, predators and parasitoids) and plants. However, the effects of increased plant diversity across trophic levels in different ecosystems and biomes have not yet been explored on a global scale. Through a global meta-analysis of 2,914 observations from 351 studies, we found that increased plant species richness reduced herbivore abundance and damage but increased predator and parasitoid abundance, predation, parasitism and overall plant performance. Moreover, increased predator/parasitoid performance was correlated with reduced herbivore abundance and enhanced plant performance. We conclude that increasing plant species diversity promotes beneficial trophic interactions between insects and plants, ultimately contributing to increased ecosystem services.
- Published
- 2020
- Full Text
- View/download PDF
182. A global synthesis reveals biodiversity-mediated benefits for crop production.
- Author
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Dainese M, Martin EA, Aizen MA, Albrecht M, Bartomeus I, Bommarco R, Carvalheiro LG, Chaplin-Kramer R, Gagic V, Garibaldi LA, Ghazoul J, Grab H, Jonsson M, Karp DS, Kennedy CM, Kleijn D, Kremen C, Landis DA, Letourneau DK, Marini L, Poveda K, Rader R, Smith HG, Tscharntke T, Andersson GKS, Badenhausser I, Baensch S, Bezerra ADM, Bianchi FJJA, Boreux V, Bretagnolle V, Caballero-Lopez B, Cavigliasso P, Ćetković A, Chacoff NP, Classen A, Cusser S, da Silva E Silva FD, de Groot GA, Dudenhöffer JH, Ekroos J, Fijen T, Franck P, Freitas BM, Garratt MPD, Gratton C, Hipólito J, Holzschuh A, Hunt L, Iverson AL, Jha S, Keasar T, Kim TN, Kishinevsky M, Klatt BK, Klein AM, Krewenka KM, Krishnan S, Larsen AE, Lavigne C, Liere H, Maas B, Mallinger RE, Martinez Pachon E, Martínez-Salinas A, Meehan TD, Mitchell MGE, Molina GAR, Nesper M, Nilsson L, O'Rourke ME, Peters MK, Plećaš M, Potts SG, Ramos DL, Rosenheim JA, Rundlöf M, Rusch A, Sáez A, Scheper J, Schleuning M, Schmack JM, Sciligo AR, Seymour C, Stanley DA, Stewart R, Stout JC, Sutter L, Takada MB, Taki H, Tamburini G, Tschumi M, Viana BF, Westphal C, Willcox BK, Wratten SD, Yoshioka A, Zaragoza-Trello C, Zhang W, Zou Y, and Steffan-Dewenter I
- Subjects
- Agriculture methods, Biodiversity, Crop Production methods, Ecosystem, Humans, Pest Control, Biological methods, Pollination physiology, Crops, Agricultural metabolism, Crops, Agricultural physiology
- Abstract
Human land use threatens global biodiversity and compromises multiple ecosystem functions critical to food production. Whether crop yield-related ecosystem services can be maintained by a few dominant species or rely on high richness remains unclear. Using a global database from 89 studies (with 1475 locations), we partition the relative importance of species richness, abundance, and dominance for pollination; biological pest control; and final yields in the context of ongoing land-use change. Pollinator and enemy richness directly supported ecosystem services in addition to and independent of abundance and dominance. Up to 50% of the negative effects of landscape simplification on ecosystem services was due to richness losses of service-providing organisms, with negative consequences for crop yields. Maintaining the biodiversity of ecosystem service providers is therefore vital to sustain the flow of key agroecosystem benefits to society., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)
- Published
- 2019
- Full Text
- View/download PDF
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