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1. Articulating the effect of food systems innovation on the Sustainable Development Goals

Author

Herrero, Mario, Thornton, Philip K, Mason-D'Croz, Daniel, Palmer, Jeda, Bodirsky, Benjamin L, Pradhan, Prajal, Barrett, Christopher B, Benton, Tim G, Hall, Andrew, Pikaar, Ilje, Bogard, Jessica R, Bonnett, Graham D, Bryan, Brett A, Campbell, Bruce M, Christensen, Svend, Clark, Michael, Fanzo, Jessica, Godde, Cecile M, Jarvis, Andy, Loboguerrero, Ana Maria, Mathys, Alexander, McIntyre, C Lynne, Naylor, Rosamond L, Nelson, Rebecca, Obersteiner, Michael, Parodi, Alejandro, Popp, Alexander, Ricketts, Katie, Smith, Pete, Valin, Hugo, Vermeulen, Sonja J, Vervoort, Joost, van Wijk, Mark, van Zanten, Hannah HE, West, Paul C, Wood, Stephen A, and Rockström, Johan

Published
2021
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2. Shared Socio-economic Pathways for European agriculture and food systems: The Eur-Agri-SSPs

Author

Mitter, Hermine, Techen, Anja-K., Sinabell, Franz, Helming, Katharina, Schmid, Erwin, Bodirsky, Benjamin L., Holman, Ian, Kok, Kasper, Lehtonen, Heikki, Leip, Adrian, Le Mouël, Chantal, Mathijs, Erik, Mehdi, Bano, Mittenzwei, Klaus, Mora, Olivier, Øistad, Knut, Øygarden, Lillian, Priess, Jörg A., Reidsma, Pytrik, Schaldach, Rüdiger, and Schönhart, Martin

Published
2020
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4. A framework for nitrogen futures in the shared socioeconomic pathways

Author

Kanter, David R., Winiwarter, Wilfried, Bodirsky, Benjamin L., Bouwman, Lex, Boyer, Elizabeth, Buckle, Simon, Compton, Jana E., Dalgaard, Tommy, de Vries, Wim, Leclère, David, Leip, Adrian, Müller, Christoph, Popp, Alexander, Raghuram, Nandula, Rao, Shilpa, Sutton, Mark A., Tian, Hanqin, Westhoek, Henk, Zhang, Xin, and Zurek, Monika

Published
2020
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5. A protocol to develop Shared Socio-economic Pathways for European agriculture

Author

Mitter, Hermine, Techen, Anja-K., Sinabell, Franz, Helming, Katharina, Kok, Kasper, Priess, Jörg A., Schmid, Erwin, Bodirsky, Benjamin L., Holman, Ian, Lehtonen, Heikki, Leip, Adrian, Le Mouël, Chantal, Mathijs, Erik, Mehdi, Bano, Michetti, Melania, Mittenzwei, Klaus, Mora, Olivier, Øygarden, Lillian, Reidsma, Pytrik, Schaldach, Rüdiger, and Schönhart, Martin

Published
2019
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7. Innovation can accelerate the transition towards a sustainable food system

Author

Herrero, Mario, Thornton, Philip K., Mason-D’Croz, Daniel, Palmer, Jeda, Benton, Tim G., Bodirsky, Benjamin L., Bogard, Jessica R., Hall, Andrew, Lee, Bernice, Nyborg, Karine, Pradhan, Prajal, Bonnett, Graham D., Bryan, Brett A., Campbell, Bruce M., Christensen, Svend, Clark, Michael, Cook, Mathew T., de Boer, Imke J. M., Downs, Chris, Dizyee, Kanar, Folberth, Christian, Godde, Cecile M., Gerber, James S., Grundy, Michael, Havlik, Petr, Jarvis, Andrew, King, Richard, Loboguerrero, Ana Maria, Lopes, Mauricio A., McIntyre, C. Lynne, Naylor, Rosamond, Navarro, Javier, Obersteiner, Michael, Parodi, Alejandro, Peoples, Mark B., Pikaar, Ilje, Popp, Alexander, Rockström, Johan, Robertson, Michael J., Smith, Pete, Stehfest, Elke, Swain, Steve M., Valin, Hugo, van Wijk, Mark, van Zanten, Hannah H. E., Vermeulen, Sonja, Vervoort, Joost, and West, Paul C.

Published
2020
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9. Key determinants of global land-use projections

Author

Stehfest, Elke, van Zeist, Willem-Jan, Valin, Hugo, Havlik, Petr, Popp, Alexander, Kyle, Page, Tabeau, Andrzej, Mason-D’Croz, Daniel, Hasegawa, Tomoko, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fujimori, Shinichiro, Humpenöder, Florian, Lotze-Campen, Hermann, van Meijl, Hans, and Wiebe, Keith

Published
2019
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10. Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Author

Doelman, Jonathan C, Beier, Felicitas D, Stehfest, Elke, Bodirsky, Benjamin L, Beusen, Arthur H W, Humpenöder, Florian, Mishra, Abhijeet, Popp, Alexander, Vuuren, Detlef P van, Vos, Lotte de, Weindl, Isabelle, Zeist, Willem-Jan van, Kram, Tom, Environmental Sciences, Geochemistry, Dep Aardwetenschappen, Environmental Sciences, Geochemistry, and Dep Aardwetenschappen

Subjects
nitrogen budget, Water and Food, Sustainability and the Environment, 333.7 Landflächen, Naturräume für Freizeit und Erholung, Naturreservate, Energie, Renewable Energy, Sustainability and the Environment, Environmental and Occupational Health, Public Health, Environmental and Occupational Health, Water en Voedsel, food security, water use, climate change mitigation, Environmental Science(all), ddc:333, integrated assessment, International Policy, Renewable Energy, Public Health, Internationaal Beleid, nexus, General Environmental Science, biodiversity
Abstract

The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (−45% to −58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (−3% to −24%), and reductions in nitrogen surpluses (−23% to −35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures are in conflict while others reinforce each other. This study provides an example of a nexus approach to scenario analysis providing input to the next generation of pathways aiming to achieve multiple dimensions of sustainable development. SHAPE Horizon 2020 Framework Programmehttp://dx.doi.org/10.13039/100010661 Deutsche Bundesstiftung Umwelthttp://dx.doi.org/10.13039/100007636

Published
2022

11. Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Author

Environmental Sciences, Geochemistry, Dep Aardwetenschappen, Doelman, Jonathan C, Beier, Felicitas D, Stehfest, Elke, Bodirsky, Benjamin L, Beusen, Arthur H W, Humpenöder, Florian, Mishra, Abhijeet, Popp, Alexander, Vuuren, Detlef P van, Vos, Lotte de, Weindl, Isabelle, Zeist, Willem-Jan van, Kram, Tom, Environmental Sciences, Geochemistry, Dep Aardwetenschappen, Doelman, Jonathan C, Beier, Felicitas D, Stehfest, Elke, Bodirsky, Benjamin L, Beusen, Arthur H W, Humpenöder, Florian, Mishra, Abhijeet, Popp, Alexander, Vuuren, Detlef P van, Vos, Lotte de, Weindl, Isabelle, Zeist, Willem-Jan van, and Kram, Tom

Published
2022

12. Quantifying synergies and trade-offs in the global water-land-food-climate nexus using a multi-model scenario approach

Author

Doelman, Jonathan C., Beier, Felicitas D., Stehfest, Elke, Bodirsky, Benjamin L., Beusen, Arthur H.W., Humpenöder, Florian, Mishra, Abhijeet, Popp, Alexander, Van Vuuren, Detlef P., De Vos, Lotte, Weindl, Isabelle, Van Zeist, Willem Jan, Kram, Tom, Doelman, Jonathan C., Beier, Felicitas D., Stehfest, Elke, Bodirsky, Benjamin L., Beusen, Arthur H.W., Humpenöder, Florian, Mishra, Abhijeet, Popp, Alexander, Van Vuuren, Detlef P., De Vos, Lotte, Weindl, Isabelle, Van Zeist, Willem Jan, and Kram, Tom

Abstract

The human-earth system is confronted with the challenge of providing a range of resources for a growing and more prosperous world population while simultaneously reducing environmental degradation. The sustainable development goals and the planetary boundaries define targets to manage this challenge. Many of these are linked to the land system, such as biodiversity, water, food, nutrients and climate, and are strongly interconnected. A key question is how measures can be designed in the context of multi-dimensional sustainability targets to exploit synergies. To address this, a nexus approach is adopted that acknowledges the interconnectedness between the important sub-systems water, land, food, and climate. This study quantifies synergies and trade-offs from ambitious interventions in different components of this water-land-fod-climate nexus at the global scale. For this purpose, a set of six harmonized scenarios is simulated with the model of agricultural production and its impact on the environment and Integrated model to assess the global environment models. The multi-model approach improves robustness of the results while shedding light on variations coming from different modelling approaches. Our results show that measures in the food component towards healthy diets with low meat consumption have synergies with all other nexus dimensions: Increased natural land improving terrestrial biodiversity (+4% to +8%), lower greenhouse gas emissions from land (-45% to -58%), reduced irrigation water withdrawals to protect or restore hydrological environmental flows (-3% to -24%), and reductions in nitrogen surpluses (-23% to -35%). Climate mitigation measures in line with the Paris Agreement have trade-offs with the water and food components of the nexus, as they adversely affect irrigation water withdrawals (+5% to +30% in 2050 compared to reference scenario) and food prices (+1% to +20%). The analysis of a scenario combining all measures reveals how certain measures a

Published
2022

14. Articulating the effect of food systems innovation on the Sustainable Development Goals

Author

Environmental Governance, Herrero, Mario, Thornton, Philip K, Mason-D'Croz, Daniel, Palmer, Jeda, Bodirsky, Benjamin L, Pradhan, Prajal, Barrett, Christopher B, Benton, Tim G, Hall, Andrew, Pikaar, Ilje, Bogard, Jessica R, Bonnett, Graham D, Bryan, Brett A, Campbell, Bruce M, Christensen, Svend, Clark, Michael, Fanzo, Jessica, Godde, Cecile M, Jarvis, Andy, Loboguerrero, Ana Maria, Mathys, Alexander, McIntyre, C Lynne, Naylor, Rosamond L, Nelson, Rebecca, Obersteiner, Michael, Parodi, Alejandro, Popp, Alexander, Ricketts, Katie, Smith, Pete, Valin, Hugo, Vermeulen, Sonja J, Vervoort, Joost, van Wijk, Mark, van Zanten, Hannah HE, West, Paul C, Wood, Stephen A, Rockström, Johan, Environmental Governance, Herrero, Mario, Thornton, Philip K, Mason-D'Croz, Daniel, Palmer, Jeda, Bodirsky, Benjamin L, Pradhan, Prajal, Barrett, Christopher B, Benton, Tim G, Hall, Andrew, Pikaar, Ilje, Bogard, Jessica R, Bonnett, Graham D, Bryan, Brett A, Campbell, Bruce M, Christensen, Svend, Clark, Michael, Fanzo, Jessica, Godde, Cecile M, Jarvis, Andy, Loboguerrero, Ana Maria, Mathys, Alexander, McIntyre, C Lynne, Naylor, Rosamond L, Nelson, Rebecca, Obersteiner, Michael, Parodi, Alejandro, Popp, Alexander, Ricketts, Katie, Smith, Pete, Valin, Hugo, Vermeulen, Sonja J, Vervoort, Joost, van Wijk, Mark, van Zanten, Hannah HE, West, Paul C, Wood, Stephen A, and Rockström, Johan

Published
2021

15. A framework for nitrogen futures in the shared socioeconomic pathways

Author

Geochemistry, Bio-, hydro-, and environmental geochemistry, Kanter, David R., Winiwarter, Wilfried, Bodirsky, Benjamin L., Bouwman, Lex, Boyer, Elizabeth, Buckle, Simon, Compton, Jana E., Dalgaard, Tommy, de Vries, Wim, Leclère, David, Leip, Adrian, Müller, Christoph, Popp, Alexander, Raghuram, Nandula, Rao, Shilpa, Sutton, Mark A., Tian, Hanqin, Westhoek, Henk, Zhang, Xin, Zurek, Monika, Geochemistry, Bio-, hydro-, and environmental geochemistry, Kanter, David R., Winiwarter, Wilfried, Bodirsky, Benjamin L., Bouwman, Lex, Boyer, Elizabeth, Buckle, Simon, Compton, Jana E., Dalgaard, Tommy, de Vries, Wim, Leclère, David, Leip, Adrian, Müller, Christoph, Popp, Alexander, Raghuram, Nandula, Rao, Shilpa, Sutton, Mark A., Tian, Hanqin, Westhoek, Henk, Zhang, Xin, and Zurek, Monika

Published
2020

16. Harmonization of global land use change and management for the period 850–2100 (LUH2) for CMIP6

Author

Hurtt, George C., Chini, Louise, Sahajpal, Ritvik, Frolking, Steve, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fisk, Justin, Fujimori, Shinichiro, Klein Goldewijk, Kees, Hasegawa, Tomoko, Havlik, Peter, Heinimann, Andreas, Humpenöder, Florian, Jungclaus, Johan, Kaplan, Jed O., Kennedy, Jennifer, Krisztin, Tamás, Lawrence, David, Lawrence, Peter, Ma, Lei, Mertz, Ole, Pongratz, Julia, Popp, Alexander, Poulter, Benjamin, Riahi, Keywan, Shevliakova, Elena, Stehfest, Elke, Thornton, Peter, Tubiello, Francesco N., Van Vuuren, Detlef P., Zhang, Xin, Hurtt, George C., Chini, Louise, Sahajpal, Ritvik, Frolking, Steve, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fisk, Justin, Fujimori, Shinichiro, Klein Goldewijk, Kees, Hasegawa, Tomoko, Havlik, Peter, Heinimann, Andreas, Humpenöder, Florian, Jungclaus, Johan, Kaplan, Jed O., Kennedy, Jennifer, Krisztin, Tamás, Lawrence, David, Lawrence, Peter, Ma, Lei, Mertz, Ole, Pongratz, Julia, Popp, Alexander, Poulter, Benjamin, Riahi, Keywan, Shevliakova, Elena, Stehfest, Elke, Thornton, Peter, Tubiello, Francesco N., Van Vuuren, Detlef P., and Zhang, Xin

Published
2020

17. Harmonization of global land use change and management for the period 850–2100 (LUH2) for CMIP6

Author

Hurtt, George C., primary, Chini, Louise, additional, Sahajpal, Ritvik, additional, Frolking, Steve, additional, Bodirsky, Benjamin L., additional, Calvin, Katherine, additional, Doelman, Jonathan C., additional, Fisk, Justin, additional, Fujimori, Shinichiro, additional, Klein Goldewijk, Kees, additional, Hasegawa, Tomoko, additional, Havlik, Peter, additional, Heinimann, Andreas, additional, Humpenöder, Florian, additional, Jungclaus, Johan, additional, Kaplan, Jed O., additional, Kennedy, Jennifer, additional, Krisztin, Tamás, additional, Lawrence, David, additional, Lawrence, Peter, additional, Ma, Lei, additional, Mertz, Ole, additional, Pongratz, Julia, additional, Popp, Alexander, additional, Poulter, Benjamin, additional, Riahi, Keywan, additional, Shevliakova, Elena, additional, Stehfest, Elke, additional, Thornton, Peter, additional, Tubiello, Francesco N., additional, van Vuuren, Detlef P., additional, and Zhang, Xin, additional

Published
2020
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18. Environmental co-benefits and adverse side-effects of alternative power sector decarbonization strategies

Author

Pehl, Michaja, Arvesen, Anders, Gibon, Thomas, Bodirsky, Benjamin L., de Boer, Harmen Sytze, Fricko, Oliver, Hejazi, Mohamad, Humpenoeder, Florian, Iyer, Gokul, Mina, silvana, Mouratiadou, Ioanna, Pietzcker, Robert C., Popp, Alexander, van den Berg, Maarten, van Vuuren, Detlef, Hertwich, Edgar G., and Luderer, Gunnar

Subjects
life-cycle assessment, climate-change mitigation, land-use, integrated assessment, impact assessment, water demand, transformation pathways, electricity-generation, severe accidents, air-pollution
Abstract

A rapid and deep decarbonization of power supply worldwide is required to limit global warming to well below 2 degrees C. Beyond greenhouse gas emissions, the power sector is also responsible for numerous other environmental impacts. Here we combine scenarios from integrated assessment models with a forward-looking life-cycle assessment to explore how alternative technology choices in power sector decarbonization pathways compare in terms of non-climate environmental impacts at the system level. While all decarbonization pathways yield major environmental co-benefits, we find that the scale of co-benefits as well as profiles of adverse side-effects depend strongly on technology choice. Mitigation scenarios focusing on wind and solar power are more effective in reducing human health impacts compared to those with low renewable energy, while inducing a more pronounced shift away from fossil and toward mineral resource depletion. Conversely, non-climate ecosystem damages are highly uncertain but tend to increase, chiefly due to land requirements for bioenergy.

Published
2019

19. Key determinants of global land-use projections

Author

80585836, Stehfest, Elke, van Zeist, Willem-Jan, Valin, Hugo, Havlik, Petr, Popp, Alexander, Kyle, Page, Tabeau, Andrzej, Mason-D’Croz, Daniel, Hasegawa, Tomoko, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fujimori, Shinichiro, Humpenöder, Florian, Lotze-Campen, Hermann, van Meijl, Hans, Wiebe, Keith, 80585836, Stehfest, Elke, van Zeist, Willem-Jan, Valin, Hugo, Havlik, Petr, Popp, Alexander, Kyle, Page, Tabeau, Andrzej, Mason-D’Croz, Daniel, Hasegawa, Tomoko, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fujimori, Shinichiro, Humpenöder, Florian, Lotze-Campen, Hermann, van Meijl, Hans, and Wiebe, Keith

Abstract

Land use is at the core of various sustainable development goals. Long-term climate foresight studies have structured their recent analyses around five socio-economic pathways (SSPs), with consistent storylines of future macroeconomic and societal developments; however, model quantification of these scenarios shows substantial heterogeneity in land-use projections. Here we build on a recently developed sensitivity approach to identify how future land use depends on six distinct socio-economic drivers (population, wealth, consumption preferences, agricultural productivity, land-use regulation, and trade) and their interactions. Spread across models arises mostly from diverging sensitivities to long-term drivers and from various representations of land-use regulation and trade, calling for reconciliation efforts and more empirical research. Most influential determinants for future cropland and pasture extent are population and agricultural efficiency. Furthermore, land-use regulation and consumption changes can play a key role in reducing both land use and food-security risks, and need to be central elements in sustainable development strategies.

Published
2019

20. Key determinants of global land-use projections

Author

Environmental Sciences, Stehfest, Elke, van Zeist, Willem-Jan, Valin, Hugo, Havlik, Petr, Popp, Alexander, Kyle, Page, Tabeau, Andrzej, Mason-D'Croz, Daniel, Hasegawa, Tomoko, Bodirsky, Benjamin L, Calvin, Katherine, Doelman, Jonathan C, Fujimori, Shinichiro, Humpenöder, Florian, Lotze-Campen, Hermann, van Meijl, Hans, Wiebe, Keith, Environmental Sciences, Stehfest, Elke, van Zeist, Willem-Jan, Valin, Hugo, Havlik, Petr, Popp, Alexander, Kyle, Page, Tabeau, Andrzej, Mason-D'Croz, Daniel, Hasegawa, Tomoko, Bodirsky, Benjamin L, Calvin, Katherine, Doelman, Jonathan C, Fujimori, Shinichiro, Humpenöder, Florian, Lotze-Campen, Hermann, van Meijl, Hans, and Wiebe, Keith

Published
2019

21. Environmental co-benefits and adverse side-effects of alternative power sector decarbonization strategies

Author

Environmental Sciences, Biobased Economy, Energy and Resources, Luderer, Gunnar, Pehl, Michaja, Arvesen, Anders, Gibon, Thomas, Bodirsky, Benjamin L, de Boer, Harmen Sytze, Fricko, Oliver, Hejazi, Mohamad, Humpenöder, Florian, Iyer, Gokul, Mima, Silvana, Mouratiadou, Ioanna, Pietzcker, Robert C, Popp, Alexander, van den Berg, Maarten, van Vuuren, Detlef, Hertwich, Edgar G, Environmental Sciences, Biobased Economy, Energy and Resources, Luderer, Gunnar, Pehl, Michaja, Arvesen, Anders, Gibon, Thomas, Bodirsky, Benjamin L, de Boer, Harmen Sytze, Fricko, Oliver, Hejazi, Mohamad, Humpenöder, Florian, Iyer, Gokul, Mima, Silvana, Mouratiadou, Ioanna, Pietzcker, Robert C, Popp, Alexander, van den Berg, Maarten, van Vuuren, Detlef, and Hertwich, Edgar G

Published
2019

22. Comparing impacts of climate change and mitigation on global agriculture by 2050

Author

van Meijl, Hans, Havlik, Petr, Lotze-Campen, Hermann, Stehfest, Elke, Witzke, Peter, Domínguez, Ignacio P., Bodirsky, Benjamin L., van Dijk, Michiel, Doelman, Jonathan, Fellmann, Thomas, Humpenöder, Florian, Koopman, Jason F.L., Müller, Christoph, Popp, Alexander, Tabeau, Andrzej, Valin, Hugo, van Zeist, Willem J., van Meijl, Hans, Havlik, Petr, Lotze-Campen, Hermann, Stehfest, Elke, Witzke, Peter, Domínguez, Ignacio P., Bodirsky, Benjamin L., van Dijk, Michiel, Doelman, Jonathan, Fellmann, Thomas, Humpenöder, Florian, Koopman, Jason F.L., Müller, Christoph, Popp, Alexander, Tabeau, Andrzej, Valin, Hugo, and van Zeist, Willem J.

Abstract

Systematic model inter-comparison helps to narrow discrepancies in the analysis of the future impact of climate change on agricultural production. This paper presents a set of alternative scenarios by five global climate and agro-economic models. Covering integrated assessment (IMAGE), partial equilibrium (CAPRI, GLOBIOM, MAgPIE) and computable general equilibrium (MAGNET) models ensures a good coverage of biophysical and economic agricultural features. These models are harmonized with respect to basic model drivers, to assess the range of potential impacts of climate change on the agricultural sector by 2050. Moreover, they quantify the economic consequences of stringent global emission mitigation efforts, such as non-CO2 emission taxes and land-based mitigation options, to stabilize global warming at 2 °C by the end of the century under different Shared Socioeconomic Pathways. A key contribution of the paper is a vis-à-vis comparison of climate change impacts relative to the impact of mitigation measures. In addition, our scenario design allows assessing the impact of the residual climate change on the mitigation challenge. From a global perspective, the impact of climate change on agricultural production by mid-century is negative but small. A larger negative effect on agricultural production, most pronounced for ruminant meat production, is observed when emission mitigation measures compliant with a 2 °C target are put in place. Our results indicate that a mitigation strategy that embeds residual climate change effects (RCP2.6) has a negative impact on global agricultural production relative to a no-mitigation strategy with stronger climate impacts (RCP6.0). However, this is partially due to the limited impact of the climate change scenarios by 2050. The magnitude of price changes is different amongst models due to methodological differences. Further research to achieve a better harmonization is needed, especially regarding endogenous food and feed demand, inclu

Published
2018

23. Decoupling Livestock from Land Use through Industrial Feed Production Pathways

Author

Pikaar, Ilje, primary, Matassa, Silvio, additional, Bodirsky, Benjamin L., additional, Weindl, Isabelle, additional, Humpenöder, Florian, additional, Rabaey, Korneel, additional, Boon, Nico, additional, Bruschi, Michele, additional, Yuan, Zhiguo, additional, van Zanten, Hannah, additional, Herrero, Mario, additional, Verstraete, Willy, additional, and Popp, Alexander, additional

Published
2018
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24. Large uncertainty in carbon uptake potential of land-based climate-change mitigation efforts

Author

Krause, Andreas, primary, Pugh, Thomas A. M., additional, Bayer, Anita D., additional, Li, Wei, additional, Leung, Felix, additional, Bondeau, Alberte, additional, Doelman, Jonathan C., additional, Humpenöder, Florian, additional, Anthoni, Peter, additional, Bodirsky, Benjamin L., additional, Ciais, Philippe, additional, Müller, Christoph, additional, Murray-Tortarolo, Guillermo, additional, Olin, Stefan, additional, Popp, Alexander, additional, Sitch, Stephen, additional, Stehfest, Elke, additional, and Arneth, Almut, additional

Published
2018
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25. Australia at the crossroads

Author

Bodirsky, Benjamin L. and Popp, Alexander

Subjects
Environmental policy -- Management, Company business management, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

A modelling study argues that comprehensive policy change could limit Australia's environmental pollution while maintaining a materials-intensive path to economic growth. But other paths are worth considering. See article p.49 [...]

Published
2015

29. Options to overcome the barriers to pricing European agricultural emissions.

Author

Grosjean, Godefroy, Fuss, Sabine, Koch, Nicolas, Bodirsky, Benjamin L., De Cara, Stéphane, and Acworth, William

Subjects
AGRICULTURE & the environment, AGRICULTURE, AGRICULTURAL policy, TRANSACTION costs, COST effectiveness
Abstract

Although agriculture could contribute substantially to European emission reductions, its mitigation potential lies untapped and dormant. Market-based instruments could be pivotal in incentivizing cost-effective abatement. However, sector specificities in transaction costs, leakage risks and distributional impacts impede its implementation. The significance of such barriers critically hinges on the dimensions of policy design. This article synthesizes the work on emissions pricing in agriculture together with the literature on the design of market-based instruments. To structure the discussion, an options space is suggested to map policy options, focusing on three key dimensions of policy design. More specifically, it examines the role of policy coverage, instruments and transfers to farmers in overcoming the barriers. First, the results show that a significant proportion of agricultural emissions and mitigation potential could be covered by a policy targeting large farms and few emission sources, thereby reducing transaction costs. Second, whether an instrument is voluntary or mandatory influences distributional outcomes and leakage. Voluntary instruments can mitigate distributional concerns and leakage risks but can lead to subsidy lock-in and carbon price distortion. Third, the impact on transfers resulting from the interaction of the Common Agricultural Policy (CAP) with emissions pricing will play a key role in shaping political feasibility and has so far been underappreciated. POLICY RELEVANCE Following the 2015 Paris Agreement, European climate policy is at a crossroads. Achieving cost-effectively the 2030 and 2050 European targets requires all sectors to reduce their emissions. Yet, the cornerstone of European climate policy, the European Union Emissions Trading System (EU ETS), covers only about half of European emissions. Major sectors have been so far largely exempted from carbon pricing, in particular transport and agriculture. While transport has been increasingly under the spotlight as a possible candidate for an EU ETS sectoral expansion, policy discussions on pricing agricultural emissions have been virtually absent. This article attempts to fill this gap by investigating options for market-based instruments to reduce agricultural emissions while taking barriers to implementation into account. [ABSTRACT FROM AUTHOR]

Published
2018
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32. Global consequences of afforestation and bioenergy cultivation on ecosystem service indicators

Author

Krause, Andreas, Pugh, Thomas A. M., Bayer, Anita D., Doelman, Jonathan C., Humpenöder, Florian, Anthoni, Peter, Olin, Stefan, Bodirsky, Benjamin L., Popp, Alexander, Stehfest, Elke, and Arneth, Almut

Subjects
2. Zero hunger, 13. Climate action, 15. Life on land
Abstract

Land management for carbon storage is discussed as being indispensable for climate change mitigation because of its large potential to remove carbon dioxide from the atmosphere, and to avoid further emissions from deforestation. However, the acceptance and feasibility of land-based mitigation projects depends on potential side effects on other important ecosystem functions and their services. Here, we use projections of future land use and land cover for different land-based mitigation options from two land-use models (IMAGE and MAgPIE) and evaluate their effects with a global dynamic vegetation model (LPJ-GUESS). In the land-use models, carbon removal was achieved either via growth of bioenergy crops combined with carbon capture and storage, via avoided deforestation and afforestation, or via a combination of both. We compare these scenarios to a reference scenario without land-based mitigation and analyse the LPJ-GUESS simulations with the aim of assessing synergies and trade-offs across a range of ecosystem service indicators: carbon storage, surface albedo, evapotranspiration, water runoff, crop production, nitrogen loss, and emissions of biogenic volatile organic compounds. In our mitigation simulations cumulative carbon storage by year 2099 ranged between 55 and 89 GtC. Other ecosystem service indicators were influenced heterogeneously both positively and negatively, with large variability across regions and land-use scenarios. Avoided deforestation and afforestation led to an increase in evapotranspiration and enhanced emissions of biogenic volatile organic compounds, and to a decrease in albedo, runoff, and nitrogen loss. Crop production could also decrease in the afforestation scenarios as a result of reduced crop area, especially for MAgPIE land-use patterns, if assumed increases in crop yields cannot be realized. Bioenergy-based climate change mitigation was projected to affect less area globally than in the forest expansion scenarios, and resulted in less pronounced changes in most ecosystem service indicators than forest-based mitigation, but included a possible decrease in nitrogen loss, crop production, and biogenic volatile organic compounds emissions.

33. Harmonization of global land use change and management for the period 850–2100 (LUH2) for CMIP6

Author

Hurtt, George C., Chini, Louise, Sahajpal, Ritvik, Frolking, Steve, Bodirsky, Benjamin L., Calvin, Katherine, Doelman, Jonathan C., Fisk, Justin, Fujimori, Shinichiro, Klein Goldewijk, Kees, Hasegawa, Tomoko, Havlik, Peter, Heinimann, Andreas, Humpenöder, Florian, Jungclaus, Johan, Kaplan, Jed O., Kennedy, Jennifer, Krisztin, Tamás, Lawrence, David, Lawrence, Peter, Ma, Lei, Mertz, Ole, Pongratz, Julia, Popp, Alexander, Poulter, Benjamin, Riahi, Keywan, Shevliakova, Elena, Stehfest, Elke, Thornton, Peter, Tubiello, Francesco N., van Vuuren, Detlef P., and Zhang, Xin

Subjects
2. Zero hunger, 13. Climate action, 910 Geography & travel, 15. Life on land
Abstract

Human land use activities have resulted in large changes to the biogeochemical and biophysical properties of the Earth’s surface, with consequences for climate and other ecosystem services. In the future, land use activities are likely to expand and/or intensify further to meet growing demands for food, fiber, and energy. As part of the World Climate Research Program Coupled Model Intercomparison Project (CMIP6), the international community has developed the next generation of advanced Earth system models (ESMs) to estimate the combined effects of human activities (e.g., land use and fossil fuel emissions) on the carbon-climate system. A new set of historical data based on the History of the Global Environment database (HYDE), and multiple alternative scenarios of the future (2015-2100) from Integrated Assessment Model (IAM) teams, is required as input for these models. With most ESM simulations forCMIP6 now completed, it is important to document the land use patterns used by those simulations. Here we present results from the Land-Use Harmonization 2 (LUH2) project, which smoothly connects updated historical reconstructions of land use with eight new future projections in the format required for ESMs. The harmonization strategy estimates the fractional land use patterns, underlying land use transitions, key agricultural management information, and resulting secondary lands annually, while minimizing the differences between the end of the historical reconstruction and IAM initial conditions and preserving changes depicted by the IAMs in the future. The new approach builds on a similar effort from CMIP5 and is now provided at higher resolution (0.25◦×0.25◦) over a longer time domain (850–2100, with extensions to 2300) with more detail (including multiple crop and pasture types and associated management practices) using more input datasets (including Landsat remote sensing data) and updated algorithms (wood harvest and shifting cultivation); it is assessed via a new diagnostic package. The new LUH2 products contain > 50 times the information content of the datasets used in CMIP5 and are designed to enable new and improved estimates of the combined effects of land use on the global carbon-climate system.

34. Nitrogen futures in the shared socioeconomic pathways 4.

Author

Kanter DR, Winiwarter W, Bodirsky BL, Bouwman L, Boyer E, Buckle S, Compton JE, Dalgaard T, de Vries W, Leclere D, Leip A, Müller C, Popp A, Raghuram N, Rao S, Sutton MA, Tian H, Westhoek H, Zhang X, and Zurek M

Abstract

Humanity's transformation of the nitrogen cycle has major consequences for ecosystems, climate and human health, making it one of the key environmental issues of our time. Understanding how trends could evolve over the course of the 21 st century is crucial for scientists and decision-makers from local to global scales. Scenario analysis is the primary tool for doing so, and has been applied across all major environmental issues, including nitrogen pollution. However, to date most scenario efforts addressing nitrogen flows have either taken a narrow approach, focusing on a singular impact or sector, or have not been integrated within a broader scenario framework - a missed opportunity given the multiple environmental and socio-economic impacts that nitrogen pollution exacerbates. Capitalizing on our expanding knowledge of nitrogen flows, this study introduces a framework for new nitrogen-focused narratives based on the widely used Shared Socioeconomic Pathways that include all the major nitrogen-polluting sectors (agriculture, industry, transport and wastewater). These new narratives are the first to integrate the influence of climate and other environmental pollution control policies, while also incorporating explicit nitrogen-control measures. The next step is for them to be used as model inputs to evaluate the impact of different nitrogen production, consumption and loss trajectories, and thus advance understanding of how to address environmental impacts while simultaneously meeting key development goals. This effort is an important step in assessing how humanity can return to the planetary boundary of this essential element over the coming century.

Published
2020
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