377 results on '"Chaplin-Kramer, Rebecca"'
Search Results
2. An open-source approach for measuring corporate impacts on ecosystem services and biodiversity
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Mandle, Lisa, Shea, Andrew, Soth, Emily, Goldstein, Jesse A., Wolny, Stacie, Smith, Jeffrey R., Chaplin-Kramer, Rebecca, Sharp, Richard P., and Patel, Mayur
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- 2024
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3. Mapping the planet’s critical areas for biodiversity and nature’s contributions to people
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Neugarten, Rachel A., Chaplin-Kramer, Rebecca, Sharp, Richard P., Schuster, Richard, Strimas-Mackey, Matthew, Roehrdanz, Patrick R., Mulligan, Mark, van Soesbergen, Arnout, Hole, David, Kennedy, Christina M., Oakleaf, James R., Johnson, Justin A., Kiesecker, Joseph, Polasky, Stephen, Hanson, Jeffrey O., and Rodewald, Amanda D.
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- 2024
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4. Archetype models upscale understanding of natural pest control response to land‐use change
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Alexandridis, Nikolaos, Marion, Glenn, Chaplin‐Kramer, Rebecca, Dainese, Matteo, Ekroos, Johan, Grab, Heather, Jonsson, Mattias, Karp, Daniel S, Meyer, Carsten, O'Rourke, Megan E, Pontarp, Mikael, Poveda, Katja, Seppelt, Ralf, Smith, Henrik G, Walters, Richard J, Clough, Yann, and Martin, Emily A
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Life on Land ,Pest Control ,Biological ,Ecosystem ,Pest Control ,Agriculture ,Crops ,Agricultural ,Natural Resources ,archetype ,conservation biological control ,crop ,ecological model ,landscape ,land use ,natural enemy ,natural pest control ,pest ,upscale ,Environmental Sciences ,Biological Sciences ,Agricultural and Veterinary Sciences ,Ecology - 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.
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- 2022
5. The role of high-biodiversity regions in preserving Nature’s Contributions to People
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Cimatti, Marta, Chaplin-Kramer, Rebecca, and Di Marco, Moreno
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- 2023
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6. Increasing crop field size does not consistently exacerbate insect pest problems.
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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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Animals ,Crops ,Agricultural ,Ecosystem ,Insect Control ,Pest Control ,Biological ,Crop Protection ,Insecta ,agroecology ,crop yield ,field size ,pest density ,pesticide use - 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.
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- 2022
7. Integrated modeling of nature’s role in human well-being: A research agenda
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Chaplin-Kramer, Rebecca, Polasky, Stephen, Alkemade, Rob, Burgess, Neil D., Cheung, William W.L., Fetzer, Ingo, Harfoot, Mike, Hertel, Thomas W., Hill, Samantha L.L., Andrew Johnson, Justin, Janse, Jan H., José v. Jeetze, Patrick, Kim, HyeJin, Kuiper, Jan J., Lonsdorf, Eric, Leclère, David, Mulligan, Mark, Peterson, Garry D., Popp, Alexander, Roe, Stephanie, Schipper, Aafke M., Snäll, Tord, van Soesbergen, Arnout, Soterroni, Aline C., Stehfest, Elke, van Vuuren, Detlef P., Visconti, Piero, Wang-Erlandsson, Lan, Wells, Geoff, and Pereira, Henrique M.
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- 2024
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8. Diverse values of nature for sustainability
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Pascual, Unai, Balvanera, Patricia, Anderson, Christopher B., Chaplin-Kramer, Rebecca, Christie, Michael, González-Jiménez, David, Martin, Adrian, Raymond, Christopher M., Termansen, Mette, Vatn, Arild, Athayde, Simone, Baptiste, Brigitte, Barton, David N., Jacobs, Sander, Kelemen, Eszter, Kumar, Ritesh, Lazos, Elena, Mwampamba, Tuyeni H., Nakangu, Barbara, O’Farrell, Patrick, Subramanian, Suneetha M., van Noordwijk, Meine, Ahn, SoEun, Amaruzaman, Sacha, Amin, Ariane M., Arias-Arévalo, Paola, Arroyo-Robles, Gabriela, Cantú-Fernández, Mariana, Castro, Antonio J., Contreras, Victoria, De Vos, Alta, Dendoncker, Nicolas, Engel, Stefanie, Eser, Uta, Faith, Daniel P., Filyushkina, Anna, Ghazi, Houda, Gómez-Baggethun, Erik, Gould, Rachelle K., Guibrunet, Louise, Gundimeda, Haripriya, Hahn, Thomas, Harmáčková, Zuzana V., Hernández-Blanco, Marcello, Horcea-Milcu, Andra-Ioana, Huambachano, Mariaelena, Wicher, Natalia Lutti Hummel, Aydın, Cem İskender, Islar, Mine, Koessler, Ann-Kathrin, Kenter, Jasper O., Kosmus, Marina, Lee, Heera, Leimona, Beria, Lele, Sharachchandra, Lenzi, Dominic, Lliso, Bosco, Mannetti, Lelani M., Merçon, Juliana, Monroy-Sais, Ana Sofía, Mukherjee, Nibedita, Muraca, Barbara, Muradian, Roldan, Murali, Ranjini, Nelson, Sara H., Nemogá-Soto, Gabriel R., Ngouhouo-Poufoun, Jonas, Niamir, Aidin, Nuesiri, Emmanuel, Nyumba, Tobias O., Özkaynak, Begüm, Palomo, Ignacio, Pandit, Ram, Pawłowska-Mainville, Agnieszka, Porter-Bolland, Luciana, Quaas, Martin, Rode, Julian, Rozzi, Ricardo, Sachdeva, Sonya, Samakov, Aibek, Schaafsma, Marije, Sitas, Nadia, Ungar, Paula, Yiu, Evonne, Yoshida, Yuki, and Zent, Eglee
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- 2023
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9. 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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10. Transformation for inclusive conservation: evidence on values, decisions, and impacts in protected areas
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Chaplin-Kramer, Rebecca, Neugarten, Rachel A, Gonzalez-Jimenez, David, Ahmadia, Gabby, Baird, Timothy D, Crane, Nicole, Delgoulet, Elise, Eyster, Harold N, Kurashima, Natalie, Llopis, Jorge C, Millington, Alice, Pawlowska-Mainville, Agnieszka, Rulmal, John, Saunders, Fred, Shrestha, Sushma, Vaughan, Mehana Blaich, Winter, Kawika B, Wongbusarakum, Supin, and Pascual, Unai
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- 2023
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11. Landscape simplification increases vineyard pest outbreaks and insecticide use.
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Paredes, Daniel, Rosenheim, Jay A, Chaplin-Kramer, Rebecca, Winter, Silvia, and Karp, Daniel S
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Animals ,Insecticides ,Ecosystem ,Disease Outbreaks ,Pest Control ,Biological ,Farms ,Lobesia botrana ,Biological control ,Spain ,ecoinformatics ,ecosystem services ,integrated pest management ,Life on Land ,Lobesia botrana ,Ecological Applications ,Ecology ,Evolutionary Biology - 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.
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- 2021
12. Mapping the planet’s critical natural assets
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Chaplin-Kramer, Rebecca, Neugarten, Rachel A., Sharp, Richard P., Collins, Pamela M., Polasky, Stephen, Hole, David, Schuster, Richard, Strimas-Mackey, Matthew, Mulligan, Mark, Brandon, Carter, Diaz, Sandra, Fluet-Chouinard, Etienne, Gorenflo, L. J., Johnson, Justin A., Kennedy, Christina M., Keys, Patrick W., Longley-Wood, Kate, McIntyre, Peter B., Noon, Monica, Pascual, Unai, Reidy Liermann, Catherine, Roehrdanz, Patrick R., Schmidt-Traub, Guido, Shaw, M. Rebecca, Spalding, Mark, Turner, Will R., van Soesbergen, Arnout, and Watson, Reg A.
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- 2023
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13. Front Matter
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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14. Introduction: Down to Earth
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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15. Country Spotlights
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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16. Executive Summary
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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17. Back Matter: Appendix
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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18. Identifying a Sustainable Resource Efficiency Frontier: An Overview of the Approach
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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19. Policy Implications for More Efficient Landscapes
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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20. Envisioning a More Sustainable Future through a More Efficient Present
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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21. Efficiency Frontier for Air Quality
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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22. Conclusions
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Damania, Richard, primary, Polasky, Stephen, additional, Ruckelshaus, Mary, additional, Russ, Jason, additional, Amann, Markus, additional, Chaplin-Kramer, Rebecca, additional, Gerber, James, additional, Hawthorne, Peter, additional, Heger, Martin, additional, Mamun, Saleh, additional, Ruta, Giovanni, additional, Schmitt, Rafael, additional, Smith, Jeffrey, additional, Vogl, Adrian, additional, Wagner, Fabian, additional, and Zaveri, Esha, additional
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- 2023
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23. 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., Rondinini, Carlo, Scholes, Robert J., Schoolenberg, Machteld A., Shin, Yunne-Jai, Stehfest, Elke, Stephenson, Fabrice, Visconti, Piero, van Vuuren, Detlef, Wabnitz, Colette C.C., José Alava, Juan, Cuadros-Casanova, Ivon, Davies, Kathryn K., Gasalla, Maria A., Halouani, Ghassen, Harfoot, Mike, Hashimoto, Shizuka, Hickler, Thomas, Hirsch, Tim, Kolomytsev, Grigory, Miller, Brian W., Ohashi, Haruka, Gabriela Palomo, Maria, Popp, Alexander, Paco Remme, Roy, Saito, Osamu, Rashid Sumalia, U., Willcock, Simon, and Pereira, Henrique M.
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- 2023
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24. 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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Agriculture ,Animals ,Crops ,Agricultural ,Ecosystem ,Insecta ,Pest Control ,Biological ,alien species ,biological invasions ,conservation biocontrol ,invasive insects ,global change ,landscape simplification ,Biological Sciences ,Agricultural and Veterinary Sciences ,Medical and Health Sciences - 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.
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- 2020
25. Closing yield gap is crucial to avoid potential surge in global carbon emissions
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Suh, Sangwon, Johnson, Justin A, Tambjerg, Lau, Sim, Sarah, Broeckx-Smith, Summer, Reyes, Whitney, and Chaplin-Kramer, Rebecca
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Land-use change ,Greenhouse gas emissions ,Agricultural expansion ,Intensification ,Maize ,Environmental Sciences - Published
- 2020
26. A global synthesis reveals biodiversity-mediated benefits for crop production.
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Dainese, Matteo, Martin, Emily A, Aizen, Marcelo A, Albrecht, Matthias, Bartomeus, Ignasi, Bommarco, Riccardo, Carvalheiro, Luisa G, Chaplin-Kramer, Rebecca, Gagic, Vesna, Garibaldi, Lucas A, Ghazoul, Jaboury, Grab, Heather, Jonsson, Mattias, Karp, Daniel S, Kennedy, Christina M, Kleijn, David, Kremen, Claire, Landis, Douglas A, Letourneau, Deborah K, Marini, Lorenzo, Poveda, Katja, Rader, Romina, Smith, Henrik G, Tscharntke, Teja, Andersson, Georg KS, Badenhausser, Isabelle, Baensch, Svenja, Bezerra, Antonio Diego M, Bianchi, Felix JJA, Boreux, Virginie, Bretagnolle, Vincent, Caballero-Lopez, Berta, Cavigliasso, Pablo, Ćetković, Aleksandar, Chacoff, Natacha P, Classen, Alice, Cusser, Sarah, da Silva E Silva, Felipe D, de Groot, G Arjen, Dudenhöffer, Jan H, Ekroos, Johan, Fijen, Thijs, Franck, Pierre, Freitas, Breno M, Garratt, Michael PD, Gratton, Claudio, Hipólito, Juliana, Holzschuh, Andrea, Hunt, Lauren, Iverson, Aaron L, Jha, Shalene, Keasar, Tamar, Kim, Tania N, Kishinevsky, Miriam, Klatt, Björn K, Klein, Alexandra-Maria, Krewenka, Kristin M, Krishnan, Smitha, Larsen, Ashley E, Lavigne, Claire, Liere, Heidi, Maas, Bea, Mallinger, Rachel E, Martinez Pachon, Eliana, Martínez-Salinas, Alejandra, Meehan, Timothy D, Mitchell, Matthew GE, Molina, Gonzalo AR, Nesper, Maike, Nilsson, Lovisa, O'Rourke, Megan E, Peters, Marcell K, Plećaš, Milan, Potts, Simon G, Ramos, Davi de L, Rosenheim, Jay A, Rundlöf, Maj, Rusch, Adrien, Sáez, Agustín, Scheper, Jeroen, Schleuning, Matthias, Schmack, Julia M, Sciligo, Amber R, Seymour, Colleen, Stanley, Dara A, Stewart, Rebecca, Stout, Jane C, Sutter, Louis, Takada, Mayura B, Taki, Hisatomo, Tamburini, Giovanni, Tschumi, Matthias, Viana, Blandina F, Westphal, Catrin, Willcox, Bryony K, Wratten, Stephen D, Yoshioka, Akira, Zaragoza-Trello, Carlos, Zhang, Wei, and Zou, Yi
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Humans ,Crops ,Agricultural ,Ecosystem ,Biodiversity ,Pest Control ,Biological ,Agriculture ,Pollination ,Crop Production ,Crops ,Agricultural ,Pest Control ,Biological - 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.
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- 2019
27. 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.
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- 2022
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28. Co-benefits of forest carbon projects in Southeast Asia
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Sarira, Tasya Vadya, Zeng, Yiwen, Neugarten, Rachel, Chaplin-Kramer, Rebecca, and Koh, Lian Pin
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- 2022
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29. Crop pests and predators exhibit inconsistent responses to surrounding landscape composition.
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Karp, Daniel S, Chaplin-Kramer, Rebecca, Meehan, Timothy D, Martin, Emily A, DeClerck, Fabrice, Grab, Heather, Gratton, Claudio, Hunt, Lauren, Larsen, Ashley E, Martínez-Salinas, Alejandra, O'Rourke, Megan E, Rusch, Adrien, Poveda, Katja, Jonsson, Mattias, Rosenheim, Jay A, Schellhorn, Nancy A, Tscharntke, Teja, Wratten, Stephen D, Zhang, Wei, Iverson, Aaron L, Adler, Lynn S, Albrecht, Matthias, Alignier, Audrey, Angelella, Gina M, Zubair Anjum, Muhammad, Avelino, Jacques, Batáry, Péter, Baveco, Johannes M, Bianchi, Felix JJA, Birkhofer, Klaus, Bohnenblust, Eric W, Bommarco, Riccardo, Brewer, Michael J, Caballero-López, Berta, Carrière, Yves, Carvalheiro, Luísa G, Cayuela, Luis, Centrella, Mary, Ćetković, Aleksandar, Henri, Dominic Charles, Chabert, Ariane, Costamagna, Alejandro C, De la Mora, Aldo, de Kraker, Joop, Desneux, Nicolas, Diehl, Eva, Diekötter, Tim, Dormann, Carsten F, Eckberg, James O, Entling, Martin H, Fiedler, Daniela, Franck, Pierre, Frank van Veen, FJ, Frank, Thomas, Gagic, Vesna, Garratt, Michael PD, Getachew, Awraris, Gonthier, David J, Goodell, Peter B, Graziosi, Ignazio, Groves, Russell L, Gurr, Geoff M, Hajian-Forooshani, Zachary, Heimpel, George E, Herrmann, John D, Huseth, Anders S, Inclán, Diego J, Ingrao, Adam J, Iv, Phirun, Jacot, Katja, Johnson, Gregg A, Jones, Laura, Kaiser, Marina, Kaser, Joe M, Keasar, Tamar, Kim, Tania N, Kishinevsky, Miriam, Landis, Douglas A, Lavandero, Blas, Lavigne, Claire, Le Ralec, Anne, Lemessa, Debissa, Letourneau, Deborah K, Liere, Heidi, Lu, Yanhui, Lubin, Yael, Luttermoser, Tim, Maas, Bea, Mace, Kevi, Madeira, Filipe, Mader, Viktoria, Cortesero, Anne Marie, Marini, Lorenzo, Martinez, Eliana, Martinson, Holly M, Menozzi, Philippe, Mitchell, Matthew GE, Miyashita, Tadashi, Molina, Gonzalo AR, and Molina-Montenegro, Marco A
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Animals ,Crops ,Agricultural ,Ecosystem ,Pest Control ,Biological ,Models ,Biological ,agroecology ,biodiversity ,biological control ,ecosystem services ,natural enemies ,Crops ,Agricultural ,Pest Control ,Biological ,Models - Abstract
The idea that noncrop habitat enhances pest control and represents a win-win opportunity to conserve biodiversity and bolster yields has emerged as an agroecological paradigm. However, while noncrop habitat in landscapes surrounding farms sometimes benefits pest predators, natural enemy responses remain heterogeneous across studies and effects on pests are inconclusive. The observed heterogeneity in species responses to noncrop habitat may be biological in origin or could result from variation in how habitat and biocontrol are measured. Here, we use a pest-control database encompassing 132 studies and 6,759 sites worldwide to model natural enemy and pest abundances, predation rates, and crop damage as a function of landscape composition. Our results showed that although landscape composition explained significant variation within studies, pest and enemy abundances, predation rates, crop damage, and yields each exhibited different responses across studies, sometimes increasing and sometimes decreasing in landscapes with more noncrop habitat but overall showing no consistent trend. Thus, models that used landscape-composition variables to predict pest-control dynamics demonstrated little potential to explain variation across studies, though prediction did improve when comparing studies with similar crop and landscape features. Overall, our work shows that surrounding noncrop habitat does not consistently improve pest management, meaning habitat conservation may bolster production in some systems and depress yields in others. Future efforts to develop tools that inform farmers when habitat conservation truly represents a win-win would benefit from increased understanding of how landscape effects are modulated by local farm management and the biology of pests and their enemies.
- Published
- 2018
30. Global trends and scenarios for terrestrial biodiversity and ecosystem services from 1900 to 2050
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Pereira, Henrique M., primary, Martins, Inês S., additional, Rosa, Isabel M. D., additional, Kim, HyeJin, additional, Leadley, Paul, additional, Popp, Alexander, additional, van Vuuren, Detlef P., additional, Hurtt, George, additional, Quoss, Luise, additional, Arneth, Almut, additional, Baisero, Daniele, additional, Bakkenes, Michel, additional, Chaplin-Kramer, Rebecca, additional, Chini, Louise, additional, Di Marco, Moreno, additional, Ferrier, Simon, additional, Fujimori, Shinichiro, additional, Guerra, Carlos A., additional, Harfoot, Michael, additional, Harwood, Thomas D., additional, Hasegawa, Tomoko, additional, Haverd, Vanessa, additional, Havlík, Petr, additional, Hellweg, Stefanie, additional, Hilbers, Jelle P., additional, Hill, Samantha L. L., additional, Hirata, Akiko, additional, Hoskins, Andrew J., additional, Humpenöder, Florian, additional, Janse, Jan H., additional, Jetz, Walter, additional, Johnson, Justin A., additional, Krause, Andreas, additional, Leclère, David, additional, Matsui, Tetsuya, additional, Meijer, Johan R., additional, Merow, Cory, additional, Obersteiner, Michael, additional, Ohashi, Haruka, additional, De Palma, Adriana, additional, Poulter, Benjamin, additional, Purvis, Andy, additional, Quesada, Benjamin, additional, Rondinini, Carlo, additional, Schipper, Aafke M., additional, Settele, Josef, additional, Sharp, Richard, additional, Stehfest, Elke, additional, Strassburg, Bernardo B. N., additional, Takahashi, Kiyoshi, additional, Talluto, Matthew V., additional, Thuiller, Wilfried, additional, Titeux, Nicolas, additional, Visconti, Piero, additional, Ware, Christopher, additional, Wolf, Florian, additional, and Alkemade, Rob, additional
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- 2024
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31. Scale matters in service supply
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Chaplin-Kramer, Rebecca
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- 2023
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32. Atmospheric water recycling an essential feature of critical natural asset stewardship
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Keys, Patrick W., Collins, Pamela M., Chaplin-Kramer, Rebecca, Wang-Erlandsson, Lan, Keys, Patrick W., Collins, Pamela M., Chaplin-Kramer, Rebecca, and Wang-Erlandsson, Lan
- Abstract
Non-technical summary. In this paper, we explore how critically important ecosystems on the land provide evaporation to the atmosphere, which will later fall as precipitation elsewhere. Using a model-based analysis that tracks water flowing through the atmosphere, we find that more than two-thirds of the precipitation over critically important ecosystem areas is supplied by evaporation from other land. Likewise, more than 40% of the evaporation from critically important ecosystems falls as precipitation on other land. We conclude our work by discussing the policy implications for how these critically important ecosystems connect spatially distant wild and working lands via the atmospheric water cycle.Technical summary. Global ecosystems are interconnected via atmospheric water vapor flows. Land use change can modify evaporation from land, altering atmospheric moisture recycling and potentially leading to significant changes in downwind precipitation and associated ecological impacts. We combine insights on global ecosystem-regulated moisture recycling with an analysis of critical natural assets (CNA, the 30% of global land providing most of nature's contributions to people) to reveal the sources and sinks of atmospheric water cycle regulation. We find that 65% of the precipitation over CNA is supplied by evaporation from other land areas. Likewise, CNA regions supply critical moisture as precipitation to terrestrial natural ecosystems and production systems worldwide, with 44% of CNA evaporation falling on terrestrial surfaces. Specifically, the Congo River basin emerges as a hotspot of overlap between local atmospheric water cycle maintenance and concentration of nature's contributions to people. Our results suggest global priority areas for conservation efforts beyond and in support of CNA, emphasizing the importance of sparsely populated managed forests and rangelands, along with wild forests, for fostering moisture recycling to and within CNA. This work also und
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- 2024
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33. Global trends and scenarios for terrestrial biodiversity and ecosystem services from 1900 to 2050
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Environmental Sciences, Pereira, Henrique M., Martins, Inês S., Rosa, Isabel M.D., Kim, Hye Jin, Leadley, Paul, Popp, Alexander, van Vuuren, Detlef P., Hurtt, George, Quoss, Luise, Arneth, Almut, Baisero, Daniele, Bakkenes, Michel, Chaplin-Kramer, Rebecca, Chini, Louise, Di Marco, Moreno, Ferrier, Simon, Fujimori, Shinichiro, Guerra, Carlos A., Harfoot, Michael, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hilbers, Jelle P., Hill, Samantha L.L., Hirata, Akiko, Hoskins, Andrew J., Humpenöder, Florian, Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Matsui, Tetsuya, Meijer, Johan R., Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, De Palma, Adriana, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke M., Settele, Josef, Sharp, Richard, Stehfest, Elke, Strassburg, Bernardo B.N., Takahashi, Kiyoshi, Talluto, Matthew V., Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, Alkemade, Rob, Environmental Sciences, Pereira, Henrique M., Martins, Inês S., Rosa, Isabel M.D., Kim, Hye Jin, Leadley, Paul, Popp, Alexander, van Vuuren, Detlef P., Hurtt, George, Quoss, Luise, Arneth, Almut, Baisero, Daniele, Bakkenes, Michel, Chaplin-Kramer, Rebecca, Chini, Louise, Di Marco, Moreno, Ferrier, Simon, Fujimori, Shinichiro, Guerra, Carlos A., Harfoot, Michael, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hilbers, Jelle P., Hill, Samantha L.L., Hirata, Akiko, Hoskins, Andrew J., Humpenöder, Florian, Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Matsui, Tetsuya, Meijer, Johan R., Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, De Palma, Adriana, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke M., Settele, Josef, Sharp, Richard, Stehfest, Elke, Strassburg, Bernardo B.N., Takahashi, Kiyoshi, Talluto, Matthew V., Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, and Alkemade, Rob
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- 2024
34. 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, Di Marco, Moreno, Ferrier, Simon, Fujimori, Shinichiro, Guerra, Carlos A., Harfoot, Michael, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hilbers, Jelle P., Hill, Samantha L. L., Hirata, Akiko, Hoskins, Andrew J., Humpenöder, Florian, Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Matsui, Tetsuya, Meijer, Johan R., Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, De Palma, Adriana, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke M., Settele, Josef, Sharp, Richard, Stehfest, Elke, Strassburg, Bernardo B. N., Takahashi, Kiyoshi, Talluto, Matthew V., Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, Alkemade, Rob, 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, Di Marco, Moreno, Ferrier, Simon, Fujimori, Shinichiro, Guerra, Carlos A., Harfoot, Michael, Harwood, Thomas D., Hasegawa, Tomoko, Haverd, Vanessa, Havlík, Petr, Hellweg, Stefanie, Hilbers, Jelle P., Hill, Samantha L. L., Hirata, Akiko, Hoskins, Andrew J., Humpenöder, Florian, Janse, Jan H., Jetz, Walter, Johnson, Justin A., Krause, Andreas, Leclère, David, Matsui, Tetsuya, Meijer, Johan R., Merow, Cory, Obersteiner, Michael, Ohashi, Haruka, De Palma, Adriana, Poulter, Benjamin, Purvis, Andy, Quesada, Benjamin, Rondinini, Carlo, Schipper, Aafke M., Settele, Josef, Sharp, Richard, Stehfest, Elke, Strassburg, Bernardo B. N., Takahashi, Kiyoshi, Talluto, Matthew V., Thuiller, Wilfried, Titeux, Nicolas, Visconti, Piero, Ware, Christopher, Wolf, Florian, and Alkemade, Rob
- 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.
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- 2024
35. Win-wins or trade-offs? Site and strategy determine carbon and local ecosystem service benefits for protection, restoration, and agroforestry.
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McDonald, Robert I., Chaplin-Kramer, Rebecca, Mulligan, Mark, Kropf, Chahan M., Hülsen, Sarah, Welker, Preston, Poor, Erin, Erbaugh, James T., and Masuda, Yuta J.
- Subjects
ECOSYSTEM services ,REFORESTATION ,CLIMATE change mitigation ,AGROFORESTRY ,CLIMATE change ,FOREST conversion ,CLIMATE change models - Abstract
Nature-based solutions (NBS) can deliver many benefits to human wellbeing, including some crucial to climate adaptation. We quantitatively assess the global potential of NBS strategies of protection, restoration, and agroforestry by modeling global climate change mitigation and local ecosystem services (water availability, sediment retention, runoff, pollination, nitrogen retention, green water storage, and coastal protection). The strategies with the most potential to help people do not necessarily deliver the most climate change mitigation: per area of conservation action, agroforestry provides substantial benefits (>20% increase in at least one local ecosystem service) to three times more people on average than reforestation while providing less than one tenth the carbon sequestration per unit area. Each strategy delivers a different suite of ecosystem service benefits; for instance, avoided forest conversion provides a strong increase in nitrogen retention (100% increase to 72 million people if fully implemented globally) while agroforestry increases pollination services (100% increase to 3.0 billion people if fully implemented globally). One common disservice shared by all the NBS strategies modeled here is that increased woody biomass increases transpiration, reducing annual runoff and in some watersheds negatively impacting local water availability. In addition, the places with the greatest potential for climate change mitigation are not necessarily the ones with the most people. For instance, reforestation in Latin America has the greatest climate change mitigation potential, but the greatest ecosystem service benefits are in Africa. Focusing on nations with high climate mitigation potential as well as high local ecosystem service potential, such as Nigeria in the case of reforestation, India for agroforestry, and the Republic of Congo for avoided forest conversion, can help identify win-win sites for implementation. We find that concentrating implementation of these three conservation strategies in critical places, covering 5.8 million km2, could benefit 2.0 billion people with increased local ecosystem services provision. These critical places cover only 35% of the possible area of implementation but would provide 80% of the benefits that are possible globally for the selected set of ecosystem services under the NBS scenarios examined here. We conclude that targeting these critical places for protection, restoration, and agroforestry interventions will be key to achieving adaptation and human wellbeing goals while also increasing nature-based carbon mitigation. [ABSTRACT FROM AUTHOR]
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- 2024
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36. Market-Based Mechanisms
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Chaplin-Kramer, Rebecca, Mandle, Lisa, Ferstandig, Lauren, Mandle, Lisa, editor, Ouyang, Zhiyun, editor, Salzman, James E., editor, and Daily, Gretchen, editor
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- 2019
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37. Expanding the E in ESG with high-resolution global mapping of ecosystem services and corporate physical assets
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Mandle, Lisa, primary, Shea, Andrew, additional, Soth, Emily, additional, Goldstein, Jesse A., additional, Wolny, Stacie, additional, Smith, Jeffrey R., additional, Chaplin-Kramer, Rebecca, additional, Sharp, Richard P., additional, and Patel, Mayur, additional
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- 2024
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38. Atmospheric water recycling an essential feature of critical natural asset stewardship
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Keys, Patrick W., primary, Collins, Pamela M., additional, Chaplin-Kramer, Rebecca, additional, and Wang-Erlandsson, Lan, additional
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- 2024
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39. Increasing decision relevance of ecosystem service science
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Mandle, Lisa, Shields-Estrada, Analisa, Chaplin-Kramer, Rebecca, Mitchell, Matthew G. E., Bremer, Leah L., Gourevitch, Jesse D., Hawthorne, Peter, Johnson, Justin A., Robinson, Brian E., Smith, Jeffrey R., Sonter, Laura J., Verutes, Gregory M., Vogl, Adrian L., Daily, Gretchen C., and Ricketts, Taylor H.
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- 2021
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40. Ecosystem service modelling
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Hamann, Maike, primary, Johnson, Justin A., additional, Chaigneau, Tomas, additional, Chaplin-Kramer, Rebecca, additional, Mandle, Lisa, additional, and Rieb, Jesse T., additional
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- 2021
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41. 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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- 2019
42. Global synthesis of effects of plant species diversity on trophic groups and interactions
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Wan, Nian-Feng, Zheng, Xiang-Rong, Fu, Li-Wan, Kiær, Lars Pødenphant, Zhang, Zhijie, Chaplin-Kramer, Rebecca, Dainese, Matteo, Tan, Jiaqi, Qiu, Shi-Yun, Hu, Yue-Qing, Tian, Wei-Dong, Nie, Ming, Ju, Rui-Ting, Deng, Jian-Yu, Jiang, Jie-Xian, Cai, You-Ming, and Li, Bo
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- 2020
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43. Ecosystem services and the resilience of agricultural landscapes
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Bennett, Elena M., primary, Baird, Julia, additional, Baulch, Helen, additional, Chaplin-Kramer, Rebecca, additional, Fraser, Evan, additional, Loring, Phil, additional, Morrison, Peter, additional, Parrott, Lael, additional, Sherren, Kate, additional, Winkler, Klara J., additional, Cimon-Morin, Jérôme, additional, Fortin, Marie-Josée, additional, Kurylyk, Barret L., additional, Lundholm, Jeremy, additional, Poulin, Monique, additional, Rieb, Jesse T., additional, Gonzalez, Andrew, additional, Hickey, Gordon M., additional, Humphries, Murray, additional, Bahadur KC, Krishna, additional, and Lapen, David, additional
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- 2021
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44. 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, Roehrdanz, Patrick R., Shannon, Lynne J., Shaw, M. Rebecca, Strassburg, Bernardo B. N., Tylianakis, Jason M., Verburg, Peter H., Visconti, Piero, and Zafra-Calvo, Noelia
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- 2022
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45. Global protection from tropical cyclones by coastal ecosystems—past, present, and under climate change
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Hülsen, Sarah, primary, McDonald, Robert I, additional, Chaplin-Kramer, Rebecca, additional, Bresch, David N, additional, Sharp, Richard, additional, Worthington, Thomas, additional, and Kropf, Chahan M, additional
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- 2023
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46. Response to Kabisch and Colleagues
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RIEB, JESSE T., CHAPLIN-KRAMER, REBECCA, DAILY, GRETCHEN C., ARMSWORTH, PAUL R., BÖHNING-GAESE, KATRIN, BONN, ALETTA, CUMMING, GRAEME S., EIGENBROD, FELIX, GRIMM, VOLKER, JACKSON, BETHANNA M., MARQUES, ALEXANDRA, PATTANAYAK, SUBHRENDU K., PEREIRA, HENRIQUE M., PETERSON, GARRY D., RICKETTS, TAYLOR H., ROBINSON, BRIAN E., SCHRÖTER, MATTHIAS, SCHULTE, LISA A., SEPPELT, RALF, TURNER, MONICA G., and BENNETT, ELENA M.
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- 2018
47. Ecosystem Services
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Balvanera, Patricia, Quijas, Sandra, Karp, Daniel S., Ash, Neville, Bennett, Elena M., Boumans, Roel, Brown, Claire, Chan, Kai M. A., Chaplin-Kramer, Rebecca, Halpern, Benjamin S., Honey-Rosés, Jordi, Kim, Choong-Ki, Cramer, Wolfgang, Martínez-Harms, Maria José, Mooney, Harold, Mwampamba, Tuyeni, Nel, Jeanne, Polasky, Stephen, Reyers, Belinda, Roman, Joe, Turner, Woody, Scholes, Robert J., Tallis, Heather, Thonicke, Kirsten, Villa, Ferdinando, Walpole, Matt, Walz, Ariane, Walters, Michele, editor, and Scholes, Robert J., editor
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- 2017
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48. Distilling the role of ecosystem services in the Sustainable Development Goals
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Wood, Sylvia L.R., Jones, Sarah K., Johnson, Justin A., Brauman, Kate A., Chaplin-Kramer, Rebecca, Fremier, Alexander, Girvetz, Evan, Gordon, Line J., Kappel, Carrie V., Mandle, Lisa, Mulligan, Mark, O'Farrell, Patrick, Smith, William K., Willemen, Louise, Zhang, Wei, and DeClerck, Fabrice A.
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- 2018
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49. Natural habitat increases natural pest control in olive groves: economic implications
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Paredes, Daniel, Karp, Daniel S., Chaplin-Kramer, Rebecca, Benítez, Emilio, and Campos, Mercedes
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- 2019
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50. When, Where, and How Nature Matters for Ecosystem Services : Challenges for the Next Generation of Ecosystem Service Models
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RIEB, JESSE T., CHAPLIN-KRAMER, REBECCA, DAILY, GRETCHEN C., ARMSWORTH, PAUL R., BÖHNING-GAESE, KATRIN, BONN, ALETTA, CUMMING, GRAEME S., EIGENBROD, FELIX, GRIMM, VOLKER, JACKSON, BETHANNA M., MARQUES, ALEXANDRA, PATTANAYAK, SUBHRENDU K., PEREIRA, HENRIQUE M., PETERSON, GARRY D., RICKETTS, TAYLOR H., ROBINSON, BRIAN E., SCHRÖTER, MATTHIAS, SCHULTE, LISA A., SEPPELT, RALF, TURNER, MONICA G., and BENNETT, ELENA M.
- Published
- 2017
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