Bibliography
Published online by Cambridge University Press: 15 December 2022
Summary
A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
- Type
- Chapter
- Information
- The Climate CrisisScience, Impacts, Policy, Psychology, Justice, Social Movements, pp. 332 - 349Publisher: Cambridge University PressPrint publication year: 2022
References
Abdulla, Ahmed, Hanna, Ryan, Schell, Kristen R, Babacan, Oytun, and Victor, David G. “Explaining Successful and Failed Investments in US Carbon Capture and Storage Using Empirical and Expert Assessments.” Environmental Research Letters 16, no. 1 (2020): 014036.Google Scholar
Aguilar, Stephen J, Polikoff, Morgan S, and Sinatra, Gale M. “Refutation Texts: A New Approach to Changing Public Misconceptions about Education Policy.” Educational Researcher 48, no. 5 (2019): 263–72.Google Scholar
Albert, Simon, Leon, Javier X, Grinham, Alistair R, Church, John A, Gibbes, Badin R, and Woodroffe, Colin D. “Interactions between Sea-Level Rise and Wave Exposure on Reef Island Dynamics in the Solomon Islands.” Environmental Research Letters 11, no. 5 (2016): 054011.CrossRefGoogle Scholar
Alinsky, Saul David. Rules for Radicals: A Practical Primer for Realistic Radicals. Vintage, 1989.Google Scholar
Andersson, Julius J. “Carbon Taxes and CO2 Emissions: Sweden as a Case Study.” American Economic Journal: Economic Policy 11, no. 4 (2019): 1–30.Google Scholar
Appel, Hannah. The Licit Life of Capitalism: US Oil in Equatorial Guinea. Duke University Press, 2019.Google Scholar
Arneth, Almut, Sitch, Stephen, Julia Pongratz, BD Stocker, Philippe Ciais, Poulter, Benjamin, Bayer, Anita D, et al. “Historical Carbon Dioxide Emissions Caused by Land-Use Changes Are Possibly Larger than Assumed.” Nature Geoscience 10, no. 2 (2017): 79–84.Google Scholar
Aron, AR, Ivry, RB, Jeffery, KJ, Poldrack, RA, Schmidt, R, Summerfield, C, and Urai, AE. “How Can Neuroscientists Respond to the Climate Emergency?” Neuron 106, no. 1 (2020): 17–20.CrossRefGoogle Scholar
Aronoff, Kate, Battistoni, Alyssa, Cohen, Daniel Aldana, and Riofrancos, Thea. A Planet to Win: Why We Need a Green New Deal. Verso, 2019.Google Scholar
Azadi, Mehdi, Northey, Stephen A, Ali, Saleem H, and Edraki, Mansour. “Transparency on Greenhouse Gas Emissions from Mining to Enable Climate Change Mitigation.” Nature Geoscience 13, no. 2 (2020): 100–4.CrossRefGoogle Scholar
Bain, Paul G, Milfont, Taciano L, Kashima, Yoshihisa, Bilewicz, Michał, Doron, Guy, Garðarsdóttir, Ragna B, Gouveia, Valdiney V, et al. “Co-benefits of Addressing Climate Change Can Motivate Action around the World.” Nature Climate Change 6, no. 2 (2016): 154–7.Google Scholar
Baker, Lucy. “Of Embodied Emissions and Inequality: Rethinking Energy Consumption.” Energy Research & Social Science 36 (2018): 52–60.Google Scholar
Bamberg, S, Rees, J, and Schulte, M. “Environmental Protection through Societal Change: What Psychology Knows about Collective Climate Action – and What It Needs to Find Out.” In Clayton, S and Manning, C (eds.), Psychology and Climate Change Human Perceptions, Impacts, and Responses. Academic Press, 2018.Google Scholar
Bamberg, S, Rees, J, and Seebauer, S. “Collective Climate Action: Determinants of Participation Intention in Community-Based Pro-environmental Initiatives.” Journal of Environmental Psychology 43 (2015): 155–65.Google Scholar
Bandura, Albert. “Exercise of Human Agency through Collective Efficacy.” Current Directions in Psychological Science 9, no. 3 (2000): 75–8.Google Scholar
Bell, Karen, and Bevan, Gnisha. “Beyond Inclusion? Perceptions of the Extent to Which Extinction Rebellion Speaks to, and for, Black, Asian and Minority Ethnic (BAME) and Working-Class Communities.” Local Environment 26, no. 10 (2021): 1–16.Google Scholar
Bendell, Jem, and Read, Rupert. Deep Adaptation: Navigating the Realities of Climate Chaos. John Wiley & Sons, 2021.Google Scholar
Benelli, Giovanni, Pombi, Marco, and Otranto, Domenico. “Malaria in Italy: Migrants Are Not the Cause.” Trends in Parasitology 34, no. 5 (2018): 351–4.CrossRefGoogle ScholarPubMed
Bhatia, Kieran T, Vecchi, Gabriel A, Knutson, Thomas R, Murakami, Hiroyuki, Kossin, James, Dixon, Keith W, and Whitlock, Carolyn E. “Recent Increases in Tropical Cyclone Intensification Rates.” Nature Communications 10, no. 1 (2019): 1–9.Google Scholar
Bleidorn, Wiebke, Hill, Patrick L, Back, Mitja D, Denissen, Jaap JA, Hennecke, Marie, Hopwood, Christopher J, Jokela, Markus, et al. “The Policy Relevance of Personality Traits.” American Psychologist 74, no. 9 (2019): 1056.Google Scholar
Bollier, David, and Helfrich, Silke. Free, Fair, and Alive: The Insurgent Power of the Commons. New Society Publishers, 2019.Google Scholar
Bolsen, Toby, Palm, Risa, and Kingsland, Justin T. “Counteracting Climate Science Politicization with effective Frames and Imagery.” Science Communication 41, no. 2 (2019): 147–71.Google Scholar
Boudet, Hilary, Giordono, Leanne, Zanocco, Chad, Satein, Hannah, and Whitley, Hannah. “Event Attribution and Partisanship Shape Local Discussion of Climate Change after Extreme Weather.” Nature Climate Change 10, no. 1 (2020): 69–76.Google Scholar
Bouman, Thijs, Steg, Linda, and Kiers, Henk AL. “Measuring Values in Environmental Research: A Test of an Environmental Portrait Value Questionnaire.” Frontiers in Psychology 9 (2018): 564.Google Scholar
Boyce, James K. “Carbon Pricing: Effectiveness and Equity.” Ecological Economics 150 (2018): 52–61.Google Scholar
Boykoff, Maxwell T, and Boykoff, Jules M. “Balance as Bias: Global Warming and the US Prestige Press.” Global Environmental Change 14, no. 2 (2004): 125–36.CrossRefGoogle Scholar
Brick, Cameron, and Lewis, Gary J. “Unearthing the ‘Green’ Personality: Core Traits Predict Environmentally Friendly Behavior.” Environment and Behavior 48, no. 5 (2016): 635–58.Google Scholar
Brockway, Paul E, Sorrell, Steve, Semieniuk, Gregor, Heun, Matthew Kuperus, and Court, Victor. “Energy Efficiency and Economy-Wide Rebound Effects: A Review of the Evidence and Its Implications.” Renewable and Sustainable Energy Reviews (2021): 110781.Google Scholar
Brouillette, Monique. “How Microbes in Permafrost Could Trigger a Massive Carbon Bomb.” Nature 591, no. 7850 (2021): 360–2.Google Scholar
Brown, Tom W, Tobias, Bischof-Niemz, Kornelis, Blok, Christian, Breyer, Henrik, Lund, and Vad Mathiesen, Brian. “Response to ‘Burden of Proof: A Comprehensive Review of the Feasibility of 100% Renewable-Electricity Systems’.” Renewable and Sustainable Energy Reviews 92 (2018): 834–47.Google Scholar
Bruckner, Benedikt, Hubacek, Klaus, Shan, Yuli, Zhong, Honglin, and Feng, Kuishuang. “Impacts of Poverty Alleviation on National and Global Carbon Emissions.” Nature Sustainability (2022): 1–10.Google Scholar
Brulle, Robert J. “Institutionalizing Delay: Foundation Funding and the Creation of US Climate Change Counter-Movement Organizations.” Climatic Change 122, no. 4 (2014): 681–94.CrossRefGoogle Scholar
Brysse, Keynyn, Oreskes, Naomi, O’Reilly, Jessica, and Oppenheimer, Michael. “Climate Change Prediction: Erring on the Side of Least Drama?” Global Environmental Change 23, no. 1 (2013): 327–37.Google Scholar
Bührle, Hannah, and Kimmerle, Joachim. “Psychological Determinants of Collective Action for Climate Justice: Insights from Semi-structured Interviews and Content Analysis.” Frontiers in Psychology 12 (2021): 3217.CrossRefGoogle ScholarPubMed
Burke, Kevin D, Williams, John W, Chandler, Mark A, Haywood, Alan M, Lunt, Daniel J, and Otto-Bliesner, Bette L. “Pliocene and Eocene Provide Best Analogs for near-Future Climates.” Proceedings of the National Academy of Sciences 115, no. 52 (2018): 13288–93.CrossRefGoogle ScholarPubMed
Burrows, Kate, and Kinney, Patrick L. “Exploring the Climate Change, Migration and Conflict Nexus.” International Journal of Environmental Research and Public Health 13, no. 4 (2016): 443.Google Scholar
Caesar, Levke, McCarthy, GD, Thornalley, DJR, Cahill, N, and Rahmstorf, Stefan. “Current Atlantic Meridional Overturning Circulation Weakest in Last Millennium.” Nature Geoscience 14, no. 3 (2021): 118–20.CrossRefGoogle Scholar
Capstick, Stuart Bryce, and Pidgeon, Nicholas Frank. “What Is Climate Change Scepticism? Examination of the Concept Using a Mixed Methods Study of the UK Public.” Global Environmental Change 24 (2014): 389–401.CrossRefGoogle Scholar
Carlson, Colin J, Albery, Gregory F, Merow, Cory, Trisos, Christopher H, Zipfel, Casey M, Eskew, Evan A, Olival, Kevin J, Ross, Noam, and Bansal, Shweta. “Climate Change Increases Cross-Species Viral Transmission Risk.” Nature (2022). https://doi.org/10.1038/s41586-022-04788-w.CrossRefGoogle Scholar
Caspi, Avshalom, Roberts, Brent W, and Shiner, Rebecca L. “Personality Development: Stability and Change.” Annual Review of Psychology 56 (2005): 453–84.Google Scholar
Castiglione, A, Brick, C, Holden, S, Miles-Urdan, E, and Aron, AR. “Discovering the Psychological Building Blocks Underlying Climate Action: A Longitudinal Study of Real-World Activism.” Royal Society Open Science 9 (2022): 210006. https://doi.org/10.1098/rsos.210006.Google Scholar
Ceballos, Gerardo, Ehrlich, Paul R, and Dirzo, Rodolfo. “Biological Annihilation via the Ongoing Sixth Mass Extinction Signaled by Vertebrate Population Losses and Declines.” Proceedings of the National Academy of Sciences 114, no. 30 (2017): E6089–E6096.Google Scholar
Chadburn, SE, Burke, EJ, Cox, PM, Friedlingstein, P, Hugelius, G, and Westermann, S. “An Observation-Based Constraint on Permafrost Loss as a Function of Global Warming.” Nature Climate Change 7, no. 5 (2017): 340–4.Google Scholar
Chapman, Daniel A, Lickel, Brian, and Markowitz, Ezra M. “Reassessing Emotion in Climate Change Communication.” Nature Climate Change 7, no. 12 (2017): 850–2.CrossRefGoogle Scholar
Cheng, Lijing, Abraham, John, Zhu, Jiang, Trenberth, Kevin E, Fasullo, John, Boyer, Tim, Locarnini, Ricardo, et al. “Record-Setting Ocean Warmth Continued in 2019.” Advances in Atmospheric Sciences 37 (2020): 137–42.Google Scholar
Chomsky, Noam, Pollin, Robert, and Polychroniou, CJ. Climate Crisis and the Global Green New Deal: The Political Economy of Saving the Planet. Verso, 2020.Google Scholar
Coady, David, Parry, Ian, Sears, Louis, and Shang, Baoping. “How Large Are Global Fossil Fuel Subsidies?” World Development 91 (2017): 11–27.Google Scholar
Collaborators, GBD Risk Factors. “Global, Regional, and National Comparative Risk Assessment of 79 Behavioural, Environmental and Occupational, and Metabolic Risks or Clusters of Risks in 188 Countries, 1990–2013: A Systematic Analysis for the Global Burden of Disease Study 2013.” Lancet 386, no. 10010 (2015): 2287–323.Google Scholar
Conca, Ken. “The WTO and the Undermining of Global Environmental Governance.” Review of International Political Economy 7, no. 3 (2000): 484–94.Google Scholar
Cook, Benjamin I, Anchukaitis, Kevin J, Touchan, Ramzi, Meko, David M, and Cook, Edward R. “Spatiotemporal Drought Variability in the Mediterranean over the Last 900 Years.” Journal of Geophysical Research: Atmospheres 121, no. 5 (2016): 2060–74.Google Scholar
Cook, John, Oreskes, Naomi, Doran, Peter T, Anderegg, William RL, Verheggen, Bart, Maibach, Ed W, Carlton, J Stuart, et al. “Consensus on Consensus: A Synthesis of Consensus Estimates on Human-Caused Global Warming.” Environmental Research Letters 11, no. 4 (2016): 048002.Google Scholar
Cox, Stan. The Green New Deal and beyond: Ending the Climate Emergency While We Still Can. City Lights Books, 2020.Google Scholar
Cox, Stan. The Path to a Livable Future: A New Politics to Fight Climate Change, Racism, and the next Pandemic. City Lights Books, 2021.Google Scholar
Creutzig, Felix, Roy, Joyashree, Lamb, William F, Azevedo, Inês ML, Bruine De Bruin, Wändi, Dalkmann, Holger, Edelenbosch, Oreane Y, et al. “Towards Demand-Side Solutions for Mitigating Climate Change.” Nature Climate Change 8, no. 4 (2018): 260–3.Google Scholar
Cullenward, Danny, Inman, Mason, and Mastrandrea, Michael D. “Tracking Banking in the Western Climate Initiative Cap-and-Trade Program.” Environmental Research Letters 14, no. 12 (2019): 124037.Google Scholar
D’Aspremont, Alexandre, Lauvaux, Thomas, Giron, Clément, Mazzolini, Matthieu, Duren, Riley, Cusworth, Dan, Shindell, Drew, and Ciais, Philippe. “Global Assessment of Oil and Gas Methane Ultra-Emitters.” Science 375, no. 6580 (2021): 557–61.Google Scholar
Deemer, Bridget R, Harrison, John A, Li, Siyue, Beaulieu, Jake J, DelSontro, Tonya, Barros, Nathan, Bezerra-Neto, José F, et al. “Greenhouse Gas Emissions from Reservoir Water Surfaces: A New Global Synthesis.” BioScience 66, no. 11 (2016): 949–64.Google Scholar
DeShazo, Jessica L, Pandey, Chandra Lal, and Smith, Zachary A. Why REDD Will Fail. Routledge, 2016.Google Scholar
Dessler, Andrew. Introduction to Modern Climate Change. Cambridge University Press, 2015.Google Scholar
Díaz, Sandra, Pascual, Unai, Stenseke, Marie, Martín-López, Berta, Watson, Robert T, Molnár, Zsolt, Hill, Rosemary, et al. “Assessing Nature’s Contributions to People.” Science 359, no. 6373 (2018): 270–2.Google Scholar
Diesendorf, Mark, and Elliston, Ben. “The Feasibility of 100% Renewable Electricity Systems: A Response to Critics.” Renewable and Sustainable Energy Reviews 93 (2018): 318–30.CrossRefGoogle Scholar
Diffenbaugh, Noah S, Swain, Daniel L, and Touma, Danielle. “Anthropogenic Warming Has Increased Drought Risk in California.” Proceedings of the National Academy of Sciences 112, no. 13 (2015): 3931–36.Google Scholar
Douglas, Karen M, and Sutton, Robbie M. “Climate Change: Why the Conspiracy Theories Are Dangerous.” Bulletin of the Atomic Scientists 71, no. 2 (2015): 98–106.Google Scholar
Douglas, Mary, and Wildavsky, Aaron. Risk and Culture. University of California Press, 1983.Google Scholar
Draxl, Caroline, Clifton, Andrew, Hodge, Bri-Mathias, and McCaa, Jim. “The Wind Integration National Dataset (Wind) Toolkit.” Applied Energy 151 (2015): 355–66.Google Scholar
Drury, John, and Reicher, Steve. “Collective Psychological Empowerment as a Model of Social Change: Researching Crowds and Power.” Journal of Social Issues 65, no. 4 (2009): 707–25.Google Scholar
Dumitru, Oana A, Jacqueline, Austermann, Polyak, Victor J, Fornós, Joan J, Asmerom, Yemane, Ginés, Joaquín, Ginés, Angel, and Onac, Bogdan P. “Constraints on Global Mean Sea Level during Pliocene Warmth.” Nature 574, no. 7777 (2019): 233–6.CrossRefGoogle ScholarPubMed
Dunlap, REVL, Val Liere, K, Mertig, Angela, and Jones, Robert Emmet. “Measuring Endorsement of the New Ecological Paradigm: A Revised NEP Scale.” Journal of Social Issues 56, no. 3 (2000): 425–42.Google Scholar
Dunlap, Riley E, and Brulle, Robert J. “Sources and Amplifiers of Climate Change Denial.” In Holmes, David C and Richardson, Lucy M (eds.), Research Handbook on Communicating Climate Change. Edward Elgar, 2020.Google Scholar
Eaton, Emily M, and Day, Nick A. “Petro-Pedagogy: Fossil Fuel Interests and the Obstruction of Climate Justice in Public Education.” Environmental Education Research 26, no. 4 (2020): 457–73.Google Scholar
Ecker, Ullrich KH, Lewandowsky, Stephan, Cook, John, Schmid, Philipp, Fazio, Lisa K, Brashier, Nadia, Kendeou, Panayiota, Vraga, Emily K, and Amazeen, Michelle A. “The Psychological Drivers of Misinformation Belief and Its Resistance to Correction.” Nature Reviews Psychology 1, no. 1 (2022): 13–29.Google Scholar
Ereaut, Gill, and Segnit, Nat. Warm Words: How We Are Telling the Climate Story and Can We Tell It Better. IPPR, 2006.Google Scholar
Erickson, Timothy B, Brooks, Julia, Nilles, Eric J, Pham, Phuong N, and Vinck, Patrick. “Environmental Health Effects Attributed to Toxic and Infectious Agents following Hurricanes, Cyclones, Flash Floods and Major Hydrometeorological Events.” Journal of Toxicology and Environmental Health, Part B 22, no. 5–6 (2019): 157–71.Google Scholar
Esposito, Luigi, and Pérez, Fernando. “The Global Addiction and Human Rights: Insatiable Consumerism, Neoliberalism, and Harm Reduction.” Perspectives on Global Development and Technology 9, no. 1–2 (2010): 84–100.Google Scholar
Feng, Huihui, and Zhang, Mingyang. “Global Land Moisture Trends: Drier in Dry and Wetter in Wet over Land.” Scientific Reports 5, no. 1 (2015): 1–6.Google Scholar
Feygina, Irina, Jost, John T, and Goldsmith, Rachel E. “System Justification, the Denial of Global Warming, and the Possibility of ‘System-Sanctioned Change’.” Personality and Social Psychology Bulletin 36, no. 3 (2010): 326–38.Google Scholar
Fielding, Kelly S, Hornsey, Matthew J, Thai, Ha Anh, and Toh, Li Li. “Using Ingroup Messengers and Ingroup Values to Promote Climate Change Policy.” Climatic Change 158, no. 2 (2020): 181–99.Google Scholar
Fischer, Erich M, and Knutti, Reto. “Anthropogenic Contribution to Global Occurrence of Heavy-Precipitation and High-Temperature Extremes.” Nature Climate Change 5, no. 6 (2015): 560–4.Google Scholar
Fisher, Scott R. “Life Trajectories of Youth Committing to Climate Activism.” Environmental Education Research 22, no. 2 (2016): 229–47.Google Scholar
Franta, Benjamin. “Weaponizing Economics: Big Oil, Economic Consultants, and Climate Policy Delay.” Environmental Politics (2021): 1–21.Google Scholar
Gerth, Karl. Unending Capitalism: How Consumerism Negated China’s Communist Revolution. Cambridge University Press, 2020.Google Scholar
Gilbert, Daniel T, Pinel, Elizabeth C, Wilson, Timothy D, Blumberg, Stephen J, and Wheatley, Thalia P. “Immune Neglect: A Source of Durability Bias in Affective Forecasting.” Journal of Personality and Social Psychology 75, no. 3 (1998): 617.Google Scholar
Gleick, Peter H. “Water, Drought, Climate Change, and Conflict in Syria.” Weather, Climate, and Society 6, no. 3 (2014): 331–40.Google Scholar
Goldberg, Matthew H, van der Linden, Sander, Ballew, Matthew T, Rosenthal, Seth A, Gustafson, Abel, and Leiserowitz, Anthony. “The Experience of Consensus: Video as an Effective Medium to Communicate Scientific Agreement on Climate Change.” Science Communication 41, no. 5 (2019): 659–73.Google Scholar
Griffith, Saul. Electrify: An Optimist’s Playbook for Our Clean Energy Future. MIT Press, 2021.Google Scholar
Gulliver, Robyn, Wibisono, Susilo, Fielding, Kelly S, and Louis, Winnifred R. The Psychology of Effective Activism. Cambridge University Press, 2021.Google Scholar
Haberl, Helmut Dominik Wiedenhofer, Doris Virág, Gerald Kalt, Barbara Plank, Paul Brockway, Tomer Fishman, , et al. “A Systematic Review of the Evidence on Decoupling of GDP, Resource Use and GHG Emissions, Part II: Synthesizing the Insights.” Environmental Research Letters 15, no. 6 (2020): 065003.Google Scholar
Hansen, James, Sato, Makiko, Kharecha, Pushker, Schuckmann, Karina Von, Beerling, David J, Cao, Junji, Shaun, Marcott, et al. “Young People’s Burden: Requirement of Negative CO2 Emissions.” Earth System Dynamics 8, no. 3 (2017): 577–616.Google Scholar
Hansen, James, Sato, Makiko, Russell, Gary, and Kharecha, Pushker. “Climate Sensitivity, Sea Level and Atmospheric Carbon Dioxide.” Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 371, no. 2001 (2013): 20120294.Google Scholar
Harold, Jordan, Lorenzoni, Irene, Shipley, Thomas F, and Coventry, Kenny R. “Cognitive and Psychological Science Insights to Improve Climate Change Data Visualization.” Nature Climate Change 6, no. 12 (2016): 1080–89.Google Scholar
Heard, Benjamin P, Brook, Barry W, Wigley, Tom ML, and Bradshaw, Corey JA. “Burden of Proof: A Comprehensive Review of the Feasibility of 100% Renewable-Electricity Systems.” Renewable and Sustainable Energy Reviews 76 (2017): 1122–33.Google Scholar
Helm, Dieter. “Climate-Change Policy: Why Has So Little Been Achieved?” Oxford Review of Economic Policy 24, no. 2 (2008): 211–38.Google Scholar
Herman, Edward S, and Chomsky, Noam. Manufacturing Consent: The Political Economy of the Mass Media. Random House, 2010.Google Scholar
Herrando-Pérez, Salvador, Bradshaw, Corey JA, Lewandowsky, Stephan, and Vieites, David R. “Statistical Language Backs Conservatism in Climate-Change Assessments.” BioScience 69, no. 3 (2019): 209–19.Google Scholar
Hickel, Jason. “What Does Degrowth Mean? A Few Points of Clarification.” Globalizations (2020): 1–7.Google Scholar
Hickel, Jason, Brockway, Paul, Kallis, Giorgos, Keyßer, Lorenz, Lenzen, Manfred, Slameršak, Aljoša, Steinberger, Julia, and Ürge-Vorsatz, Diana. “Urgent Need for Post-growth Climate Mitigation Scenarios.” Nature Energy 6, no. 8 (2021): 766–8.Google Scholar
Hickman, Caroline, Marks, Elizabeth, Pihkala, Panu, Clayton, Susan, Lewandowski, Eric R, Mayall, Elouise E, Wray, Britt, Mellor, Catriona, and van Susteren, Lise. “Young People’s Voices on Climate Anxiety, Government Betrayal and Moral Injury: A Global Phenomenon.” Lancet 5, no. 12 (2022): e863–e873.Google Scholar
Holling, Crawford S. “The Resilience of Terrestrial Ecosystems: Local Surprise and Global Change.” Sustainable Development of the Biosphere 14 (1986): 292–317.Google Scholar
Hönisch, Bärbel, Gary Hemming, N, Archer, David, Siddall, Mark, and McManus, Jerry F. “Atmospheric Carbon Dioxide Concentration across the Mid-Pleistocene Transition.” Science 324, no. 5934 (2009): 1551–54.Google Scholar
Hornsey, Matthew J, and Fielding, Kelly S. “Attitude Roots and Jiu Jitsu Persuasion: Understanding and Overcoming the Motivated Rejection of Science.” American Psychologist 72, no. 5 (2017): 459–73.Google Scholar
Hornsey, Matthew J, and Fielding, Kelly S. “A Cautionary Note about Messages of Hope: Focusing on Progress in Reducing Carbon Emissions Weakens Mitigation Motivation.” Global Environmental Change 39 (2016): 26–34.Google Scholar
Hornsey, Matthew J, and Fielding, Kelly S. “Understanding (and Reducing) Inaction on Climate Change.” Social Issues and Policy Review 14, no. 1 (2020): 3–35.Google Scholar
Hornsey, Matthew J, Harris, Emily A, Bain, Paul G, and Fielding, Kelly S. “Meta-analyses of the Determinants and Outcomes of Belief in Climate Change.” Nature Climate Change 6, no. 6 (2016): 622–6.Google Scholar
Hornsey, Matthew J, Harris, Emily A, and Fielding, Kelly S. “Relationships among Conspiratorial Beliefs, Conservatism and Climate Scepticism across Nations.” Nature Climate Change 8, no. 7 (2018): 614–20.Google Scholar
Horwitz, Wendy A. “Developmental Origins of Environmental Ethics: The Life Experiences of Activists.” Ethics & Behavior 6, no. 1 (1996): 29–53.Google Scholar
Howe, Lauren C, MacInnis, Bo, Krosnick, Jon A, Markowitz, Ezra M, and Socolow, Robert. “Acknowledging Uncertainty Impacts Public Acceptance of Climate Scientists’ Predictions.” Nature Climate Change 9, no. 11 (2019): 863–7.Google Scholar
Howe, Peter D, Marlon, Jennifer R, Mildenberger, Matto, and Shield, Brittany S. “How Will Climate Change Shape Climate Opinion?” Environmental Research Letters 14, no. 11 (2019): 113001.Google Scholar
Howe, Peter D, Mildenberger, Matto, Marlon, Jennifer R, and Leiserowitz, Anthony. “Geographic Variation in Opinions on Climate Change at State and Local Scales in the USA.” Nature Climate Change 5, no. 6 (2015): 596–603.Google Scholar
Huber, Matthew T. “The Case for Socialist Modernism.” Political Geography (2021): 102352.Google Scholar
Huber, Matthew T. Climate Change as Class War: Building Socialism on a Warming Planet. Verso, 2022.Google Scholar
Hudson, Nathan W, Briley, Daniel A, Chopik, William J, and Derringer, Jaime. “You Have to Follow through: Attaining Behavioral Change Goals Predicts Volitional Personality Change.” Journal of Personality and Social Psychology 117, no. 4 (2019): 839.Google Scholar
Hulme, Mike. Why We Disagree about Climate Change: Understanding Controversy, Inaction and Opportunity. Cambridge University Press, 2009.Google Scholar
Immerzeel, Walter W, Lutz, AF, Andrade, M, Bahl, A, Biemans, H, Tobias Bolch, S Hyde, , et al. “Importance and Vulnerability of the World’s Water Towers.” Nature 577, no. 7790 (2020): 364–9.Google Scholar
Jackson, Robert B, Saunois, Marielle, Bousquet, Philippe, Canadell, Josep G, Poulter, Benjamin, Stavert, Ann R, Bergamaschi, Peter, et al. “Increasing Anthropogenic Methane Emissions Arise Equally from Agricultural and Fossil Fuel Sources.” Environmental Research Letters 15, no. 7 (2020): 071002.Google Scholar
Jackson, Roland. “Eunice Foote, John Tyndall and a Question of Priority.” Notes and Records 74, no. 1 (2020): 105–18.Google Scholar
Jacobson, Mark Z. 100% Clean, Renewable Energy and Storage for Everything. Cambridge University Press, 2020.Google Scholar
Jacobson, Mark Z, Delucchi, Mark A, Cameron, Mary A, Coughlin, Stephen J, Hay, Catherine A, Priya Manogaran, Indu, Shu, Yanbo, and von Krauland., Anna-Katharina “Impacts of Green New Deal Energy Plans on Grid Stability, Costs, Jobs, Health, and Climate in 143 Countries.” One Earth 1, no. 4 (2019): 449–63.Google Scholar
Jacobson, Mark Z, Delucchi, Mark A, Cameron, Mary A, and Frew, Bethany A. “Low-Cost Solution to the Grid Reliability Problem with 100% Penetration of Intermittent Wind, Water, and Solar for All Purposes.” Proceedings of the National Academy of Sciences 112, no. 49 (2015): 15060–5.Google Scholar
Jacobson, Mark Z, Delucchi, Mark A, Cameron, Mary A, and Frew, Bethany A. “The United States Can Keep the Grid Stable at Low Cost with 100% Clean, Renewable Energy in All Sectors Despite Inaccurate Claims.” Proceedings of the National Academy of Sciences 114, no. 26 (2017): E5021–E5023.Google Scholar
Jacobson, Mark Z, Delucchi, Mark A, Bazouin, Guillaume, Bauer, Zack AF, Heavey, Christa C, Fisher, Emma, Morris, Sean B, et al. “100% Clean and Renewable Wind, Water, and Sunlight (WWS) All-Sector Energy Roadmaps for the 50 United States.” Energy & Environmental Science 8, no. 7 (2015): 2093–117.Google Scholar
Jacobson, Mark Z, Delucchi, Mark A, Bauer, Zack AF, Goodman, Savannah C, Chapman, William E, Cameron, Mary A, Bozonnat, Cedric, et al. “100% Clean and Renewable Wind, Water, and Sunlight All-Sector Energy Roadmaps for 139 Countries of the World.” Joule 1, no. 1 (2017): 108–21.CrossRefGoogle Scholar
Joslyn, Susan, and Demnitz, Raoni. “Communicating Climate Change: Probabilistic Expressions and Concrete Events.” Weather, Climate, and Society 11, no. 3 (2019): 651–64.Google Scholar
Jowitt, Simon M, Werner, Timothy T, Weng, Zhehan, and Mudd, Gavin M. “Recycling of the Rare Earth Elements.” Current Opinion in Green and Sustainable Chemistry 13 (2018): 1–7.Google Scholar
Kahan, Dan M, Braman, Donald, Gastil, John, Slovic, Paul, and Mertz, CK. “Culture and Identity‐Protective Cognition: Explaining the White‐Male Effect in Risk Perception.” Journal of Empirical Legal Studies 4, no. 3 (2007): 465–505.CrossRefGoogle Scholar
Kahan, Dan M, and Carpenter, Katherine. “Out of the Lab and into the Field.” Nature Climate Change 7, no. 5 (2017): 309–11.Google Scholar
Kahan, Dan M, Jenkins‐Smith, Hank, and Braman, Donald. “Cultural Cognition of Scientific Consensus.” Journal of Risk Research 14, no. 2 (2011): 147–74.Google Scholar
Kahan, Dan M, Wittlin, Maggie, Peters, Ellen, Slovic, Paul, Ouellette, Lisa Larrimore, Braman, Donald, and Mandel, Gregory N. “The Tragedy of the Risk-Perception Commons: Culture Conflict, Rationality Conflict, and Climate Change.” Temple University Legal Studies Research Paper, no. 2011–26 (2011).Google Scholar
Kalmus, Peter. Fly Less to Convey Urgency. American Association for the Advancement of Science, 2019.Google Scholar
Karl, Thomas R, Melillo, Jerry M, Peterson, Thomas C, and Hassol, Susan J. Global Climate Change Impacts in the United States. Cambridge University Press, 2009.Google Scholar
Keeling, Charles D, Piper, Stephen C, Bacastow, Robert B, Wahlen, Martin, Whorf, Timothy P, Heimann, Martin, and Meijer, Harro A. “Exchanges of Atmospheric CO2 and 13CO2 with the Terrestrial Biosphere and Oceans from 1978 to 2000. I. Global Aspects.” In Baldwin, IT, Caldwell, MM, Heldmaier, G, Jackson, RB, Lange, OL, Mooney, HA, Schulze, E-D, et al. (eds.), A History of Atmospheric CO2 and Its Effects on Plants, Animals, and Ecosystems. Ecological Studies, vol. 177. Springer, 2001.Google Scholar
Keen, Steve. “The Appallingly Bad Neoclassical Economics of Climate Change.” Globalizations (2020): 1–29.Google Scholar
Keith, David W, Holmes, Geoffrey, Angelo, David St, and Heidel, Kenton. “A Process for Capturing CO2 from the Atmosphere.” Joule 2, no. 8 (2018): 1573–94.Google Scholar
Kelley, Colin P, Shahrzad, Mohtadi, Cane, Mark A, Seager, Richard, and Kushnir, Yochanan. “Climate Change in the Fertile Crescent and Implications of the Recent Syrian Drought.” Proceedings of the National Academy of Sciences 112, no. 11 (2015): 3241–6.Google Scholar
Klein, N. This Changes Everything: Capitalism vs. the Climate. Simon and Schuster, 2014.Google Scholar
Klöckner, Christian Andreas, and Sommer, Laura K. “Visual Art Inspired by Climate Change: An Analysis of Audience Reactions to 37 Artworks Presented during 21st UN Climate Summit in Paris.” PloS One 16, no. 2 (2021): e0247331.Google Scholar
Kopnina, Helen. “Environmental Justice and Biospheric Egalitarianism: Reflecting on a Normative-Philosophical View of Human–Nature Relationship.” Earth Perspectives 1, no. 1 (2014): 1–11.Google Scholar
Kossin, James P, Knapp, Kenneth R, Olander, Timothy L, and Velden, Christopher S. “Global Increase in Major Tropical Cyclone Exceedance Probability over the Past Four Decades.” Proceedings of the National Academy of Sciences 117, no. 22 (2020): 11975–80.Google Scholar
Kukal, Meetpal S, and Irmak, Suat. “Us Agro-Climate in 20th Century: Growing Degree Days, First and Last Frost, Growing Season Length, and Impacts on Crop Yields.” Scientific Reports 8, no. 1 (2018): 1–14.Google Scholar
Ladd, Anthony E. “Priming the Well: ‘Frackademia’ and the Corporate Pipeline of Oil and Gas Funding into Higher Education.” Humanity & Society 44, no. 2 (2020): 151–77.Google Scholar
Lambert, Julie L, and Bleicher, Robert E. “Argumentation as a Strategy for Increasing Preservice Teachers’ Understanding of Climate Change, a Key Global Socioscientific Issue.” International Journal of Education in Mathematics, Science and Technology 5, no. 2 (2017): 101–12.Google Scholar
Landrigan, Philip J, Fuller, Richard, Acosta, Nereus JR, Adeyi, Olusoji, Arnold, Robert, Bibi Baldé, Abdoulaye, Bertollini, Roberto, et al. “The Lancet Commission on Pollution and Health.” The Lancet 391, no. 10119 (2018): 462–512.Google Scholar
Lathem, Alexis. “Grassroots Megadam Resistance at Muskrat Falls, Labrador.” In Tokar, Brian and Gilbertson, Tamra (eds.), Climate Justice and Community Renewal: Resistance and Grassroots Solutions. Routledge, (2020): 26–38.CrossRefGoogle Scholar
Lawton, Graham. “I Have Eco-Anxiety but That’s Normal.” New Scientist 244, no. 3251 (2019): 22.Google Scholar
Le Quéré, Corinne, Korsbakken, Jan Ivar, Wilson, Charlie, Tosun, Jale, Andrew, Robbie, Andres, Robert J, Canadell, Josep G, et al. “Drivers of Declining CO2 Emissions in 18 Developed Economies.” Nature Climate Change 9, no. 3 (2019): 213–17.Google Scholar
Lear, Jonathan. Radical Hope: Ethics in the Face of Cultural Devastation. Harvard University Press, 2006.Google Scholar
Leiserowitz, Anthony. “Climate Change Risk Perception and Policy Preferences: The Role of Affect, Imagery, and Values.” Climatic Change 77, no. 1 (2006): 45–72.Google Scholar
Lenton, TM, Rockstrom, J, Gaffney, O, Rahmstorf, S, Richardson, K, Steffen, W, and Schellnhuber, HJ. “Climate Tipping Points: Too Risky to Bet against.” Nature 575, no. 7784 (2019): 592–5.Google Scholar
Lewandowsky, S, Oberauer, K, and Gignac, GE. “NASA Faked the Moon Landing – Therefore (Climate) Science Is a Hoax: An Anatomy of the Motivated Rejection of Science.” Psychological Science 24, no. 5 (May 2013): 622–33.Google Scholar
Lewandowsky, S. “Climate Change Disinformation and How to Combat It.” Annual Review of Public Health 42 (2021): 1–21.Google Scholar
Lieven, Anatol. Climate Change and the Nation State: The Case for Nationalism in a Warming World. Oxford University Press, 2020.Google Scholar
Lin, Boqiang, and Li, Xuehui. “The Effect of Carbon Tax on Per Capita CO2 Emissions.” Energy Policy 39, no. 9 (2011): 5137–46.Google Scholar
Lindstad, Haakon, Asbjørnslett, Bjørn E, and Strømman, Anders H. “The Importance of Economies of Scale for Reductions in Greenhouse Gas Emissions from Shipping.” Energy Policy 46 (2012): 386–98.Google Scholar
Loeb, Norman G, Johnson, Gregory C, Thorsen, Tyler J, Lyman, John M, Rose, Fred G, and Kato, Seiji. “Satellite and Ocean Data Reveal Marked Increase in Earth’s Heating Rate.” Geophysical Research Letters 48, no. 13 (2021): e2021GL093047.Google Scholar
Lombardi, Doug, Bickel, Elliot S, Brandt, Carol B, and Burg, Colin. “Categorising Students’ Evaluations of Evidence and Explanations about Climate Change.” International Journal of Global Warming 12, no. 3–4 (2017): 313–30.Google Scholar
Lord, Charles G, Ross, Lee, and Lepper, Mark R. “Biased Assimilation and Attitude Polarization: The Effects of Prior Theories on Subsequently Considered Evidence.” Journal of Personality and Social Psychology 37, no. 11 (1979): 2098.Google Scholar
Lovejoy, Thomas E, and Nobre, Carlos. “Amazon Tipping Point: Last Chance for Action.” American Association for the Advancement of Science, 2019.Google Scholar
MacDougall, Andrew H, Frölicher, Thomas L, Jones, Chris D, Joeri Rogelj, H Damon Matthews, Kirsten Zickfeld, Vivek K Arora, , et al. “Is there Warming in the Pipeline? A Multi-model Analysis of the Zero Emissions Commitment from CO2.” Biogeosciences 17, no. 11 (2020): 2987–3016.Google Scholar
Meure, Macfarling, Cecelia, David Etheridge, , Cathy Trudinger, P Steele, R Langenfelds, T Van Ommen, A Smith, , and Elkins, J. “Law Dome CO2, CH4 and N2O Ice Core Records Extended to 2000 Years BP.” Geophysical Research Letters 33, no. 14 (2006).Google Scholar
Madigan, Daniel J, Baumann, Zofia, and Fisher, Nicholas S. “Pacific Bluefin Tuna Transport Fukushima-Derived Radionuclides from Japan to California.” Proceedings of the National Academy of Sciences 109, no. 24 (2012): 9483–6.Google Scholar
Malm, Andreas. Fossil Capital: The Rise of Steam Power and the Roots of Global Warming. Verso Books, 2016.Google Scholar
Mann, Michael E. The New Climate War: The Fight to Take Back Our Planet. Hachette UK, 2021.Google Scholar
Marshall, George. Don’t Even Think about It: Why Our Brains Are Wired to Ignore Climate Change. Bloomsbury Publishing USA, 2015.Google Scholar
Martin, Christian, and Czellar, Sandor. “Where Do Biospheric Values Come From? A Connectedness to Nature Perspective.” Journal of Environmental Psychology 52 (2017): 56–68.Google Scholar
Mata, André, Sherman, Steven J, Ferreira, Mário B, and Mendonça, Cristina. “Strategic Numeracy: Self-Serving Reasoning about Health Statistics.” Basic and Applied Social Psychology 37, no. 3 (2015): 165–73.Google Scholar
Matthews, Gerald, Deary, Ian J, and Whiteman, Martha C. Personality Traits. Cambridge University Press, 2003.Google Scholar
Maurer, Josh M, Schaefer, JM, Rupper, S, and Corley, A. “Acceleration of Ice Loss across the Himalayas over the Past 40 Years.” Science Advances 5, no. 6 (2019): eaav7266.Google Scholar
Mauritsen, Thorsten, and Pincus, Robert. “Committed Warming Inferred from Observations.” Nature Climate Change 7, no. 9 (2017): 652–5.Google Scholar
Mazzucato, Mariana. “Financing the Green New Deal.” Nature Sustainability (2021): 1–2.Google Scholar
McAdam, D. “Social Movement Theory and the Prospects for Climate Change Activism in the United States.” Annual Review of Political Science (2017).Google Scholar
McAllister, Lucy, Daly, Meaghan, Chandler, Patrick, McNatt, Marisa, Benham, Andrew, and Boykoff, Maxwell. “Balance as Bias, Resolute on the Retreat? Updates and Analyses of Newspaper Coverage in the United States, United Kingdom, New Zealand, Australia and Canada over the Past 15 Years.” Environmental Research Letters 16, no. 9 (2021): 094008.Google Scholar
McKinnon, Catriona. “Climate Change: Against Despair.” Ethics & the Environment 19, no. 1 (2014): 31–48.Google Scholar
Mihaylov, Nikolay L, and Perkins, Douglas D. “Local Environmental Grassroots Activism: Contributions from Environmental Psychology, Sociology and Politics.” Behavioral Sciences 5, no. 1 (2015): 121–53.Google Scholar
Mildenberger, Matto. Carbon Captured: How Business and Labor Control Climate Politics. MIT Press, 2020.Google Scholar
Millward-Hopkins, Joel, Steinberger, Julia K, Rao, Narasimha D, and Oswald, Yannick. “Providing Decent Living with Minimum Energy: A Global Scenario.” Global Environmental Change 65 (2020): 102168.Google Scholar
Miralles, Diego G, Teuling, Adriaan J, Van Heerwaarden, Chiel C, and Vila-Guerau De Arellano, Jordi. “Mega-heatwave Temperatures Due to Combined Soil Desiccation and Atmospheric Heat Accumulation.” Nature Geoscience 7, no. 5 (2014): 345–9.Google Scholar
Monroe, Martha C, Plate, Richard R, Oxarart, Annie, Bowers, Alison, and Chaves, Willandia A. “Identifying Effective Climate Change Education Strategies: A Systematic Review of the Research.” Environmental Education Research 25, no. 6 (2019): 791–812.Google Scholar
Moore, Frances C, Obradovich, Nick, Lehner, Flavio, and Baylis, Patrick. “Rapidly Declining Remarkability of Temperature Anomalies May Obscure Public Perception of Climate Change.” Proceedings of the National Academy of Sciences 116, no. 11 (2019): 4905–10.Google Scholar
Moran, Emilio F, Claudia Lopez, Maria, Moore, Nathan, Müller, Norbert, and Hyndman, David W. “Sustainable Hydropower in the 21st Century.” Proceedings of the National Academy of Sciences 115, no. 47 (2018): 11891–8.Google Scholar
Morris, Brandi S, Chrysochou, Polymeros, Karg, Simon T, and Mitkidis, Panagiotis. “Optimistic vs. Pessimistic Endings in Climate Change Appeals.” Humanities and Social Sciences Communications 7, no. 1 (2020): 1–8.Google Scholar
Mueller, Brigitte, Hauser, Mathias, Iles, Carley, Haque Rimi, Ruksana, Zwiers, Francis W, and Wan, Hui. “Lengthening of the Growing Season in Wheat and Maize Producing Regions.” Weather and Climate Extremes 9 (2015): 47–56.Google Scholar
Niang, Isabelle, Ruppel, Oliver C, Abdrabo, Mohamed A, Essel, Ama, Lennard, Christopher, Padgham, Jonathan, and Urquhart, Penny. “Africa.” In Barros, VR, Field, CB, Dokken, DJ, Mastrandrea, MD, Mach, KJ, Bilir, TE, Chatterjee, M, et al. (eds.), Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part B: Regional Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, 2014.Google Scholar
Ocko, Ilissa B, and Hamburg, Steven P. “Climate Impacts of Hydropower: Enormous Differences among Facilities and over Time.” Environmental Science & Technology 53, no. 23 (2019): 14070–82.Google Scholar
Oreskes, Naomi, and Conway, Erik M. Merchants of Doubt: How a Handful of Scientists Obscured the Truth on Issues from Tobacco Smoke to Global Warming. Bloomsbury Publishing USA, 2011.Google Scholar
Orr, David W. “Love It or Lose It: The Coming Biophilia Revolution.” Kellert, In R and Wilson, EO (eds.), The Biophilia Hypothesis. Island Press, 1993.Google Scholar
Panu, Pihkala. “Anxiety and the Ecological Crisis: An Analysis of Eco-Anxiety and Climate Anxiety.” Sustainability 12, no. 19 (2020): 7836.Google Scholar
Pattyn, Frank, and Morlighem, Mathieu. “The Uncertain Future of the Antarctic Ice Sheet.” Science 367, no. 6484 (2020): 1331–5.Google Scholar
Penn, Justin L, and Deutsch, Curtis. “Avoiding Ocean Mass Extinction from Climate Warming.” Science 376, no. 6592 (2022): 524–6.Google Scholar
Perez, Marc, Perez, Richard, Rábago, Karl R, and Putnam, Morgan. “Overbuilding and Curtailment: The Cost-Effective Enablers of Firm PV Generation.” Solar Energy 180 (2019): 412–22.Google Scholar
Piao, Shilong, Wang, Xuhui, Park, Taejin, Chen, Chi, Lian, XU, He, Yue, Bjerke, Jarle W, et al. “Characteristics, Drivers and Feedbacks of Global Greening.” Nature Reviews Earth & Environment 1, no. 1 (2020): 14–27.Google Scholar
Pierrehumbert, Raymond. “There Is No Plan B for Dealing with the Climate Crisis.” Bulletin of the Atomic Scientists 75, no. 5 (2019): 215–21.Google Scholar
Piggot, Georgia, Verkuijl, Cleo, van Asselt, Harro, and Lazarus, Michael. “Curbing Fossil Fuel Supply to Achieve Climate Goals.” Climate Policy 20, no. 8 (2020): 881–7.Google Scholar
Pimm, Stuart L, Jenkins, Clinton N, Abell, Robin, Brooks, Thomas M, Gittleman, John L, Joppa, Lucas N, Raven, Peter H, Roberts, Callum M, and Sexton, Joseph O. “The Biodiversity of Species and Their Rates of Extinction, Distribution, and Protection.” Science 344, no. 6187 (2014). https://doi.org/10.1126/science.1246752.Google Scholar
Piven, Frances Fox, and Cloward, Richard. Poor People’s Movements: Why They Succeed, How They Fail. Vintage, 2012.Google Scholar
Plutzer, Eric, Mark McCaffrey, A Lee Hannah, Joshua Rosenau, Minda Berbeco, , and Reid, Ann H. “Climate Confusion among US Teachers.” Science 351, no. 6274 (2016): 664–5.Google Scholar
Pollin, R. “An Industrial Policy Framework to Advance a Global Green New Deal.” In A Oqubay, C Cramer, H-J Chang, , and Kozul-Wright, R (eds.), The Oxford Handbook of Industrial Policy. Oxford: Oxford University Press, 394–428.Google Scholar
Pun, Iam‐Fei, Lin, I‐I, and Lo, Min‐Hui. “Recent Increase in High Tropical Cyclone Heat Potential Area in the Western North Pacific Ocean.” Geophysical Research Letters 40, no. 17 (2013): 4680–4.Google Scholar
Ramanathan, Veerabhadran, Max Auffhammer, Roger Aines, Barth, Matt, Cole, Jonathan, Forman, Fonna, Han, Hahrie, et al. Bending the Curve: Climate Change Solutions. Regents of the University of California, 2019.Google Scholar
Ranney, Michael Andrew, and Clark, Dav. “Climate Change Conceptual Change: Scientific Information Can Transform Attitudes.” Topics in Cognitive Science 8, no. 1 (2016): 49–75.CrossRefGoogle ScholarPubMed
Raupach, Michael R, Marland, Gregg, Ciais, Philippe, Le Quéré, Corinne, Canadell, Josep G, Klepper, Gernot, and Field, Christopher B. “Global and Regional Drivers of Accelerating CO2 Emissions.” Proceedings of the National Academy of Sciences 104, no. 24 (2007): 10288–93.Google Scholar
Raworth, Kate. Doughnut Economics: Seven Ways to Think like a 21st-Century Economist. Chelsea Green Publishing, 2017.Google Scholar
Read, Rupert J. Extinction Rebellion: Insights from the Inside. Simplicity Institute, 2020.Google Scholar
Rignot, Eric, Mouginot, Jérémie, Scheuchl, Bernd, Van Den Broeke, Michiel, Van Wessem, Melchior J, and Morlighem, Mathieu. “Four Decades of Antarctic Ice Sheet Mass Balance from 1979–2017.” Proceedings of the National Academy of Sciences 116, no. 4 (2019): 1095–103.Google Scholar
Ripple, William, Wolf, Christopher, Newsome, Thomas, Barnard, Phoebe, Moomaw, William, and Grandcolas, Philippe. “World Scientists’ Warning of a Climate Emergency.” BioScience 71, no. 9 (2021): 894–8.Google Scholar
Roberts, Brent W, Luo, Jing, Briley, Daniel A, Chow, Philip I, Rong, Su, and Hill, Patrick L. “A Systematic Review of Personality Trait Change through Intervention.” Psychological Bulletin 143, no. 2 (2017): 117.Google Scholar
Robine, Jean-Marie, Cheung, Siu Lan K, Le Roy, Sophie, Van Oyen, Herman, Griffiths, Clare, Michel, Jean-Pierre, and Richard Herrmann, François. “Death Toll Exceeded 70,000 in Europe during the Summer of 2003.” Comptes Rendus Biologies 331, no. 2 (2008): 171–8.Google Scholar
Robock, Alan. “20 Reasons Why Geoengineering May Be a Bad Idea.” Bulletin of the Atomic Scientists 64, no. 2 (2008): 14–18.Google Scholar
Romps, David M, and Retzinger, Jean P. “Climate News Articles Lack Basic Climate Science.” Environmental Research Communications 1, no. 8 (2019): 081002.Google Scholar
Rooney-Varga, Juliette N, Kapmeier, Florian, Sterman, John D, Jones, Andrew P, Putko, Michele, and Rath, Kenneth. “The Climate Action Simulation.” Simulation & Gaming 51, no. 2 (2020): 114–40.Google Scholar
Roosen, Liselotte J, Klöckner, Christian A, and Swim, Janet K. “Visual Art as a Way to Communicate Climate Change: A Psychological Perspective on Climate Change–Related Art.” World Art 8, no. 1 (2018): 85–110.Google Scholar
Roser-Renouf, Connie, Maibach, Edward W, Leiserowitz, Anthony, and Zhao, Xiaoquan. “The Genesis of Climate Change Activism: From Key Beliefs to Political Action.” Climatic Change 125, no. 2 (2014): 163–78.Google Scholar
Rosnick, David, and Weisbrot, Mark. “Are Shorter Work Hours Good for the Environment? A Comparison of US and European Energy Consumption.” International Journal of Health Services 37, no. 3 (2007): 405–17.Google Scholar
Rothermich, Kathrin, Johnson, Erika Katherine, Griffith, Rachel Morgan, and Beingolea, Monica Marie. “The Influence of Personality Traits on Attitudes towards Climate Change: An Exploratory Study.” Personality and Individual Differences 168 (2021): 110304.Google Scholar
Rotz, C Alan, Asem-Hiablie, Senorpe, Place, Sara, and Thoma, Greg. “Environmental Footprints of Beef Cattle Production in the United States.” Agricultural Systems 169 (2019): 1–13.Google Scholar
Rubino, M, Etheridge, DM, Trudinger, CM, Allison, CE, Battle, MO, Langenfelds, RL, Steele, LP, et al. “A Revised 1000 Year Atmospheric Δ13C–CO2 Record from Law Dome and South Pole, Antarctica.” Journal of Geophysical Research: Atmospheres 118, no. 15 (2013): 8482–99.Google Scholar
Sebastián, San, Miguel, Ben Armstrong, Córdoba, Juan Antonio, and Stephens, Carolyn. “Exposures and Cancer Incidence near Oil Fields in the Amazon Basin of Ecuador.” Occupational and Environmental Medicine 58, no. 8 (2001): 517–22.Google Scholar
Saunois, Marielle, Bousquet, Philippe, Poulter, Ben, Peregon, Anna, Ciais, Philippe, Canadell, Josep G, Dlugokencky, Edward J, et al. “The Global Methane Budget 2000–2012.” Earth System Science Data 8, no. 2 (2016): 697–751.Google Scholar
Scherer, Laura, and Pfister, Stephan. “Hydropower’s Biogenic Carbon Footprint.” PloS One 11, no. 9 (2016): e0161947.Google Scholar
Schultz, P Wesley, Nolan, Jessica M, Cialdini, Robert B, Goldstein, Noah J, and Griskevicius, Vladas. “The Constructive, Destructive, and Reconstructive Power of Social Norms.” Psychological Science 18, no. 5 (2007): 429–34.Google Scholar
Schwalm, Christopher R, Glendon, Spencer, and Duffy, Philip B. “RCP8: 5 Tracks Cumulative CO2 Emissions.” Proceedings of the National Academy of Sciences 117, no. 33 (2020): 19656–7.Google Scholar
Sengupta, Manajit, Xie, Yu, Lopez, Anthony, Habte, Aron, Maclaurin, Galen, and Shelby, James. “The National Solar Radiation Data Base (NSRDB).” Renewable and Sustainable Energy Reviews 89 (2018): 51–60.Google Scholar
Sheehy-Skeffington, Jennifer, and Thomsen, Lotte. “Egalitarianism: Psychological and Socio-Ecological Foundations.” Current Opinion in Psychology 32 (2020): 146–52.Google Scholar
Shepherd, Andrew, Ivins, Erik, Rignot, Eric, Smith, Ben, Van Den Broeke, Michiel, Velicogna, Isabella, Whitehouse, Pippa, et al. “Mass Balance of the Greenland Ice Sheet from 1992 to 2018.” Nature 579, no. 7798 (2020): 233–9.Google Scholar
Sherwood, SC, Webb, Mark J, Annan, James D, Armour, KC, Forster, Piers M, Hargreaves, Julia C, Hegerl, Gabriele, et al. “An Assessment of Earth’s Climate Sensitivity Using Multiple Lines of Evidence.” Reviews of Geophysics 58, no. 4 (2020): e2019RG000678.Google Scholar
Siemoneit, Andreas. “An Offer You Can’t Refuse: Enhancing Personal Productivity through ‘Efficiency Consumption’.” Technology in Society 59 (2019): 101181.Google Scholar
Simon, Bernd, and Klandermans, Bert. “Politicized Collective Identity: A Social Psychological Analysis.” American Psychologist 56, no. 4 (2001): 319.Google Scholar
Sisco, MR, Bosetti, V, and Weber, E. U. “When Do Extreme Weather Events Generate Attention to Climate Change?” Climatic Change 143 (2017): 227–41.Google Scholar
Soga, Masashi, and Gaston, Kevin J. “Shifting Baseline Syndrome: Causes, Consequences, and Implications.” Frontiers in Ecology and the Environment 16, no. 4 (2018): 222–30.Google Scholar
Sterman, John D. “Risk Communication on Climate: Mental Models and Mass Balance.” Science 322, no. 5901 (2008): 532–3.Google Scholar
Sterman, John D, and Sweeney, Linda Booth. “Understanding Public Complacency about Climate Change: Adults’ Mental Models of Climate Change Violate Conservation of Matter.” Climatic Change 80, no. 3 (2007): 213–38.Google Scholar
Stilwell, Frank. Political Economy: The Contest of Economic Ideas. Oxford University Press, 2011.Google Scholar
Stokes, Leah Cardamore. Short Circuiting Policy: Interest Groups and the Battle over Clean Energy and Climate Policy in the American States. Oxford University Press, 2020.Google Scholar
Swain, Daniel L, Singh, Deepti, Touma, Danielle, and Diffenbaugh, Noah S. “Attributing Extreme Events to Climate Change: A New Frontier in a Warming World.” One Earth 2, no. 6 (2020): 522–7.Google Scholar
Tajfel, Henri. “Social Identity and Intergroup Behaviour.” Social Science Information 13, no. 2 (1974): 65–93.Google Scholar
Taube, Oliver, Ranney, Michael Andrew, Henn, Laura, and Kaiser, Florian G. “Increasing People’s Acceptance of Anthropogenic Climate Change with Scientific Facts: Is Mechanistic Information More Effective for Environmentalists?” Journal of Environmental Psychology 73 (2021): 101549.Google Scholar
Thier, Hadas. A People’s Guide to Capitalism: An Introduction to Marxist Economics. Haymarket Books, 2018.Google Scholar
Thomas, Emma F, McGarty, Craig, and Mavor, Kenneth I. “Transforming ‘Apathy into Movement’: The Role of Prosocial Emotions in Motivating Action for Social Change.” Personality and Social Psychology Review 13, no. 4 (2009): 310–33.Google Scholar
Tokar, Brian. Toward Climate Justice: Perspectives on the Climate Crisis and Social Change. New Compass Press, 2014.Google Scholar
Tol, Richard SJ. “The Economic Impacts of Climate Change.” Review of Environmental Economics and Policy (2020).Google Scholar
Tollefson, Jeff. “Covid Curbed Carbon Emissions in 2020 – but Not by Much.” Nature 589, no. 7842 (2021): 343.Google Scholar
Tollefson, Jeff. “How Hot Will Earth Get by 2100?” Nature 580, no. 7804 (2020): 443–6.Google Scholar
Tong, Dan, Farnham, David J, Duan, Lei, Zhang, Qiang, Lewis, Nathan S, Caldeira, Ken, and Davis, Steven J. “Geophysical Constraints on the Reliability of Solar and Wind Power Worldwide.” Nature Communications 12, no. 1 (2021): 1–12.Google Scholar
Tong, Dan, Zhang, Qiang, Zheng, Yixuan, Caldeira, Ken, Shearer, Christine, Hong, Chaopeng, Qin, Yue, and Davis, Steven J. “Committed Emissions from Existing Energy Infrastructure Jeopardize 1.5 C Climate Target.” Nature 572, no. 7769 (2019): 373–7.Google Scholar
Turetsky, Merritt R, Abbott, Benjamin W, Jones, Miriam C, Walter Anthony, Katey, Olefeldt, David, Schuur, Edward AG, Koven, Charles, et al. Permafrost Collapse Is Accelerating Carbon Release. Nature Publishing Group, 2019.Google Scholar
Vaks, Anton, Gutareva, Oxana S, Breitenbach, Sebastian FM, Avirmed, Erdenedalai, Mason, Andrew J, Thomas, Alexander L, Osinzev, Alexander V, Kononov, Alexander M, and Henderson, Gideon M. “Speleothems Reveal 500,000-Year History of Siberian Permafrost.” Science 340, no. 6129 (2013): 183–6.Google Scholar
Valero, Alicia, Valero, Antonio, Calvo, Guiomar, and Ortego, Abel. “Material Bottlenecks in the Future Development of Green Technologies.” Renewable and Sustainable Energy Reviews 93 (2018): 178–200.Google Scholar
Van de Ven, Dirk-Jan, Capellan-Peréz, Iñigo, Arto, Iñaki, Cazcarro, Ignacio, de Castro, Carlos, Patel, Pralit, and Gonzalez-Eguino, Mikel. “The Potential Land Requirements and Related Land Use Change Emissions of Solar Energy.” Scientific Reports 11, no. 1 (2021): 1–12.Google Scholar
Van der Bles, Anne Marthe, Van Der Linden, Sander, Freeman, Alexandra LJ, Mitchell, James, Galvao, Ana B, Zaval, Lisa, and Spiegelhalter, David J. “Communicating Uncertainty about Facts, Numbers and Science.” Royal Society Open Science 6, no. 5 (2019): 181870.Google Scholar
Van der Linden, Sander. “The Social-Psychological Determinants of Climate Change Risk Perceptions: Towards a Comprehensive Model.” Journal of Environmental Psychology 41 (2015): 112–24.Google Scholar
Van der Linden, Sander, Leiserowitz, Anthony, Feinberg, Geoffrey, and Maibach, Edward. “The Scientific Consensus on Climate Change as a Gateway Belief: Experimental Evidence.” PloS One 10, no. 2 (2015): e0118489.Google Scholar
Van der Linden, Sander, Leiserowitz, Anthony, and Maibach, Edward. “The Gateway Belief Model: A Large-Scale Replication.” Journal of Environmental Psychology 62 (2019): 49–58.Google Scholar
Van der Linden, Sander, Leiserowitz, Anthony, and Maibach, Edward. “Perceptions of Scientific Consensus Predict Later Beliefs about the Reality of Climate Change Using Cross-Lagged Panel Analysis: A Response to Kerr and Wilson (2018).” Journal of Environmental Psychology 60 (2018): 110–11.Google Scholar
Van der Linden, Sander, Leiserowitz, Anthony, Rosenthal, Seth, and Maibach, Edward. “Inoculating the Public against Misinformation about Climate Change.” Global Challenges 1, no. 2 (2017): 1600008.Google Scholar
Van Der Linden, Sander, Edward Maibach, John Cook, Anthony Leiserowitz, Michael Ranney, Stephan Lewandowsky, Joseph Árvai, , and Weber, Elke U. “Culture versus Cognition Is a False Dilemma.” Nature Climate Change 7, no. 7 (2017): 457–7.Google Scholar
Van der Linden, Sander, Jon Roozenbeek, Rakoen Maertens, Melisa Basol, Ondřej Kácha, Steve Rathje, , and Steenbuch Traberg, Cecilie. “How Can Psychological Science Help Counter the Spread of Fake News?” The Spanish Journal of Psychology 24 (2021).Google Scholar
Van Stekelenburg, Jacquelien. “Collective Identity.” In Snow, David A, Della Porta, Donatella, Klandermans, Bert, and McAdam, Doug (eds.), The Wiley‐Blackwell Encyclopedia of social and Political Movements (Wiley‐Blackwell, 2013).Google Scholar
Van Zomeren, , Martijn, Tom Postmes, and Spears, Russell. “Toward an Integrative Social Identity Model of Collective Action: A Quantitative Research Synthesis of Three Socio-Psychological Perspectives.” Psychological Bulletin 134, no. 4 (2008): 504.Google Scholar
Velautham, Leela, Ranney, Michael Andrew, and Brow, Quinlan S. “Communicating Climate Change Oceanically: Sea Level Rise Information Increases Mitigation, Inundation, and Global Warming Acceptance.” Frontiers in Communication 4 (2019): 7.Google Scholar
Vivanco, David Font, Kemp, René, and van der Voet, Ester. “How to Deal with the Rebound Effect? A Policy-Oriented Approach.” Energy Policy 94 (2016): 114–25.Google Scholar
Vohra, Karn, Vodonos, Alina, Schwartz, Joel, Marais, Eloise A, Sulprizio, Melissa P, and Mickley, Loretta J. “Global Mortality from Outdoor Fine Particle Pollution Generated by Fossil Fuel Combustion: Results from Geos-Chem.” Environmental Research 195 (2021): 110754.Google Scholar
Wang, Daoping, Guan, Dabo, Zhu, Shupeng, MacKinnon, Michael, Geng, Guannan, Zhang, Qiang, Zheng, Heran, et al. “Economic Footprint of California Wildfires in 2018.” Nature Sustainability 4, no. 3 (2021): 252–60.Google Scholar
Watts, Nick, Amann, Markus, Arnell, Nigel, Ayeb-Karlsson, Sonja, Belesova, Kristine, Boykoff, Maxwell, Byass, Peter, et al. “The 2019 Report of the Lancet Countdown on Health and Climate Change: Ensuring that the Health of a Child Born Today Is Not Defined by a Changing Climate.” The Lancet 394, no. 10211 (2019): 1836–78.Google Scholar
Weber, Elke U. “Experience-Based and Description-Based Perceptions of Long-Term Risk: Why Global Warming Does Not Scare Us (Yet).” Climatic Change 77, no. 1 (2006): 103–20.Google Scholar
Weintrobe, Sally. Psychological Roots of the Climate Crisis: Neoliberal Exceptionalism and the Culture of Uncare. Bloomsbury Publishing USA, 2021.Google Scholar
Weisman, Kara, and Markman, Ellen M. “Theory-Based Explanation as Intervention.” Psychonomic Bulletin & Review 24, no. 5 (2017): 1555–62.Google Scholar
Wentz, Frank J, Ricciardulli, Lucrezia, Hilburn, Kyle, and Mears, Carl. “How Much More Rain Will Global Warming Bring?” Science 317, no. 5835 (2007): 233–5.Google Scholar
Wiedmann, Thomas, Lenzen, Manfred, Keyßer, Lorenz T, and Steinberger, Julia K. “Scientists’ Warning on Affluence.” Nature Communications 11, no. 1 (2020): 1–10.Google Scholar
Wolske, Kimberly S, Gillingham, Kenneth T, and Schultz, P Wesley. “Peer Influence on Household Energy Behaviours.” Nature Energy 5, no. 3 (2020): 202–12.Google Scholar
Wuebbles, Donald J, Fahey, David W, and Hibbard, Kathy A. Climate Science Special Report: Fourth National Climate Assessment, vol. 1. US Global Change Research Program, 2017.Google Scholar
Xifra, Jordi. “Climate Change Deniers and Advocacy: A Situational Theory of Publics Approach.” American Behavioral Scientist 60, no. 3 (2016): 276–87.Google Scholar
Chi, Xu, Kohler, Timothy A, Lenton, Timothy M, Svenning, Jens-Christian, and Scheffer, Marten. “Future of the Human Climate Niche.” Proceedings of the National Academy of Sciences 117, no. 21 (2020): 11350–5.Google Scholar
Xue, Wen, Hine, Donald W, Loi, Natasha M, Thorsteinsson, Einar B, and Phillips, Wendy J. “Cultural Worldviews and Environmental Risk Perceptions: A Meta-analysis.” Journal of Environmental Psychology 40 (2014): 249–58.Google Scholar
Yamano, Norihiko, and Guilhoto, Joaquim. “CO2 Emissions Embodied in International Trade and Domestic Final Demand: Methodology and Results Using the OECD Inter-country Input–Output Database.” OECD Science, Technology and Industry Working Papers, No. 2020/11, OECD Publishing, Paris (2020).Google Scholar
Yohannes, Okbazghi. The Biofuels Deception: Going Hungry on the Green Carbon Diet. NYU Press, 2018.Google Scholar
York, Richard, and Bell, Shannon Elizabeth. “Energy Transitions or Additions? Why a Transition from Fossil Fuels Requires More than the Growth of Renewable Energy.” Energy Research & Social Science 51 (2019): 40–3.Google Scholar
Yu, Hao, Wang, Bing, Zhang, Yue-Jun, Wang, Shouyang, and Wei, Yi-Ming. “Public Perception of Climate Change in China: Results from the Questionnaire Survey.” Natural Hazards 69, no. 1 (2013): 459–72.Google Scholar
Zhou, Chen, Zelinka, Mark D, Dessler, Andrew E, and Wang, Minghuai. “Greater Committed Warming after Accounting for the Pattern Effect.” Nature Climate Change 11, no. 2 (2021): 132–6.Google Scholar