References
Published online by Cambridge University Press: 24 July 2021
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
- Climate RationalityFrom Bias to Balance, pp. 588 - 620Publisher: Cambridge University PressPrint publication year: 2021
References
References
Massachusetts v. EPA, 549 US 497 (2007).
Union Electric Co. v. EPA, 427 US 246 (1976).
Coalition for Responsible Regulation v. EPA, 684 F.3d 102 (D.C. Cir. 2012).
Ethyl Corp. v. EPA, 541 F.2d 1 (D.C. Cir. 1976).
In Utility Air Regulatory Group v. EPA, No. 01–1074 (D.C. Cir. 2001).
American Farm Bureau Federation v. EPA, 559 F.3d 512 (D.C. Cir. 2009).
Michigan v. E.P.A., 213 F.3d 663 (D.C. Cir. 2000), Appalachian Power Co. v. E.P.A., 249F.3d 1032 (D.C. Cir. 2001).
North Carolina v. EPA, 531 F.3d 896 (D.C. Cir. 2008), Reconsidered at, 550 F.3d 1176 (2008).
New Jersey v. EPA, 517 F. 3d 574 (D.C. Cir. 2008).
Del. Riverkeeper Network v. FERC, 753 F.3d 1304 (D.C. Cir. 2014).
Allegheny Defense Project v. FERC, 932 F.3d 940 (D.C. Cir. 2019).
Nuclear Energy Inst., Inc. v. EPA, 373 F.3d 1251 (D.C. Cir. 2004).
Public Utilities Commission of Rhode Island v. Attleboro Steam & Electric Company, 273 US 83 (1926).
US v PG&E, No. CR 14–0175 WHA, Document No. 1186 (N.D. Cal, April 29, 2020).
New Creek Mountain Sportsman’s Club v. New Creek Wind, No.’s 2:18-cv-00111, 2:18-cv-00112, 2:18-cv-00113 (N.D. W.Va. 2018).
Shearwater v. Ashe, 2015 WL 4747881 (N.D Cal. 2015).
Attorney General ex rel Muskegon Booming Co. v. Evart Booming Co., 34 Mich. 462 (1876).
People v. Gold Run Ditch and Mining Co., 66 Cal. 138, 4 P. 1152, 56 Am.Rep. 80 (1884).
Wishart v. Newell et al., 4 Pa.C.C. 141 (1887).
People v. Gold Run Ditch and Mining Co., 66 Cal. 138, 153 (concurring opinion).
Pennsylvania v. Wheeling & B. Bridge Co., 13 How. 518, 14 L. Ed. 249 (1851).
International Paper v. Ouelette, 107 S.Ct. 805 (1987).
Missouri v. Illinois, 26 S.Ct 268, 200 US 496 (1906).
Georgia v. Tennessee Copper Co., 206 US 230 (1907).
New York v. New Jersey, 256 US 296 (1921).
City of Milwaukee v. Illinois and Michigan, 101 S.Ct. 1784, 1797 (1981).
Illinois v. Milwaukee, 731 F.2d 403 (7th Cir. 1984).
AEP v. Connecticut, 131 S.Ct. at 2540.
Native Village of Kivalina v. Exxonmobil Corp.,663 F. Supp.2d 863 (N.D.Cal.2009).
Native Village of Kivalina v. Exxonmobil Corp., 696 F.3d 849 (9th Cir. 2012).
Comer v. Murphy Oil USA, Inc., 839 F. Supp. 2d 849 (S.D. Miss. 2012).
City of New York v. BP PLC., 325 F. Supp.3d 466 (S.D.N.Y. 2018).
Kanuk v. State of Alaska Department of Natural Resources, 335 P.3d 1088 (Alaska 2014).
Juliana v. United States, 217 F.3d 1224 (D. Ore. 2016).
National Review, Inc. v. Michael E. Mann, Competitive Enterprise Institute et al. v. Michael E. Mann, 589 US __ (2019) (Justice Alito, dissenting).
Abendroth, Lori & Elmore, Roger (2010). Planting Date Trends, Iowa State University Extension and Outreach (text updated March 8, 2010), available at https://crops.extension.iastate.edu/corn/production/management/planting/earlier.html.Google Scholar
Abendroth, Lori J., Woli, Krishna P., Myers, Anthony J. W. & Elmore, Roger W. (2017). Yield-Based Corn Planting Date Recommendation Windows for Iowa, 3 Crop Forage Turfgrass Management, DOI 10.2134/cftm2017.02.0015.Google Scholar
Acquaotta, Fiorella & Frattiani, Simona (2014). The Importance of the Quality and Reliability of the Historical Time Series for the Study of Climate Change, 14(10) Revista Brasileira de Climatologia 20–38.Google Scholar
Abarbanel, Albert & McClusky, Thorp (1950, July 1). Is the World Getting Warmer?, Saturday Evening Post, 22–23.Google Scholar
Abatzoglou, John T. & Williams, A. Park (2016). Impact of Anthropogenic Climate Change on Wildfire across Western US Forests, 113 (42) Proceedings of the National Academy of Sciences 11,770–11,775.CrossRefGoogle ScholarPubMed
Abendroth, Lori J., Woli, Krishna P., Myers, Anthony J. W. & Elmore, Roger W. (2017). Yield-Based Corn Planting Date Recommendation Windows for Iowa, 3 Crop Forage Turfgrass Management 1, DOI 10.2134/cftm2017.02.0015.CrossRefGoogle Scholar
Ablain, M., Legeais, J. F., Prandi, P., Marcos, M., Fengolio-Marc, L., Dieng, H. B., Benveniste, J. & Cazenave, A. (2017). Satellite Altimetry-Based Sea Level at Global and Regional Scales, 38 Surveys of Geophysics 7–31.CrossRefGoogle Scholar
Adler, Jonathan H. (2007). Massachusetts v. EPA Heats up Climate Policy No Less than Administrative Law: A Comment on Professors Watts and Wildermuth, 102 Northwest Law Review Colloquy 32–43.Google Scholar
Aimé, Carla, Laval, Guillaume, Patin, Etienne, Verdu, Paul, Ségurel, Laure, Chaix, Raphaëlle, Hegay, Tatyana, Quintana-Murci, Lluis, Heyer, Evelyne & Austerlitz, Frédéric (2017). Human Genetic Data Reveal Contrasting Demographic Patterns between Sedentary and Nomadic Populations That Predate the Emergence of Farming, 30(12) Molecular Biology and Evolution 2629–2644.Google Scholar
Anagnostopoulos, G. G., Koutsoyiannis, D., Christofides, A., Efstratiadis, A. & Mamassis, N. (2010) A Comparison of Local and Aggregated Climate Model Outputs with Observed Data, 55 (7) Hydrological Science Journal 1094–1110, DOI 10.1080/02626667.2010.513518.Google Scholar
Agrawala, Shardul (1998). Context and Early Origins of the IPCC, 39 Climate Change 605–620.CrossRefGoogle Scholar
Agrawala, Shardul (1998). Structural and Process History of the Intergovernmental Panel of Climatic Change, 39 Climate Change 621–642.Google Scholar
Ahn, Jinhho & Brook, Edward J. (2008). Atmospheric CO2 and Climate on Millennial Time Scales during the Last Glacial Period, 322 Science 83–85.CrossRefGoogle ScholarPubMed
Aldrin, Magne, Holden, Marit, Guttorp, Peter, Skeie, Ragnhild Bieltvedt, Myhre, Gunnar & Berntsen, Terje Koren (2012). Bayesian Estimation of Climate Sensitivity Based on a Simple Climate Model Fitted to Observations of Hemispheric Temperatures and Global Ocean Heat Content, 23 Environmetrics 253–271.Google Scholar
Aldy, Joseph E. (2012, January). A Preliminary Review of the American Recovery and Reinvestment Act’s Clean Energy Package 12, Resources for the Future Discussion Paper 12–03, DOI 10.2139/ssrn.1986948.Google Scholar
Allen, Myles (2018, March 23). Understanding How Carbon Dioxide Emissions from Human Activity Contribute to Global Climate Change, City of Oakland v. BP PLC, No. 3:17-cv- 06012-WHA, Exhibit 5, Document 157–5 (N.D. Cal.).Google Scholar
Allen, Myles & Frame, David (2007). Call off the Quest, 318 Science 582–583, DOI 10.1126/science.1149988.Google Scholar
Allen, Myles, Pall, Pardeep, Stone, Daithi, Stott, Peter, Frame, David, Min, Seung-Ki, Nozawa, Toru & Yukimoto, Seiji (2007). Scientific Challenges in the Attribution of harm to Human Influence on Climate, 155 (6) University of Pennsylvania Law Review 1353–1400.Google Scholar
Amelang, Sören & Wettengel, Julian (2018, November 15). Polls Reveal Citizens’ Support for Energiewende, Clean Energy Wire.Google Scholar
American Rivers, Friends of the Earth & Trout Unlimited (1999). Dam Removal Success Stories xiii, Final Report.Google Scholar
Anderson, G. Brooke & Bell, Michelle L. (2012). Lights Out: Impact of the August 2003 Power Outage on Mortality in New York, NY, 23 (2) Epidemiology 189–193.CrossRefGoogle ScholarPubMed
Anderson, Patrick L. & Geckil, Ilhan K. (2003, August). Northeast Blackout Likely to Reduce US Earnings by $64 billion, AEG Working Paper 2003–2.Google Scholar
Anderson, Soren & Newell, Richard (2004). Prospects for Carbon Capture and Storage Technologies, 29 Annual Review of Environment and Resources. 109–142, DOI 0.1146/annurev.energy.29.082703.145619.Google Scholar
Andrade, Juan & Baldick, Ross (2016). Estimation of Transmission Costs for New Generation 5–6, White Paper UTEI/2016-09-1.Google Scholar
Andresen, Steinar & Agrawala, Shardul (2002). Leaders, Pushers, and Laggards in the Marking of the Climate Regime, 12 Global Climatic Change 41–51, DOI 10.1016/S0959-3780(01)00023-1.Google Scholar
Annan, Francis & Schlenker, Wolfram (2014, December). Federal Crop Insurance and the Disincentives to Adapt to Extreme Heat, Working Paper, Columbia University.Google Scholar
Annan, Francis & Schlenker, Wolfram (2015). Federal Crop Insurance and the Disincentive to Adapt to Extreme Heat, 105 (5) American Economics Review Papers & Proceedings 262–266, DOI 10.1257/aer.p20151031.Google Scholar
Applegate, John S. (2000). The Precautionary Preference: An American Perspective on the Precautionary Principle, 6 (3) Human & Ecological Risk Assessment 413–443, DOI 10.1080/10807030091124554.CrossRefGoogle Scholar
Archer, David, Eby, Michael, Brovkin, Victor, et al. (2009). Atmospheric Lifetime of Fossil Fuel Carbon Dioxide, 37 Annual Review of Earth and Planetary Sciences 117–134, DOI 10.1146/annurev.earth.031208.100206.Google Scholar
Armour, K. C. & Roe, G. H. (2011). Climate Commitment in an Uncertain World, 38 Geophysical Research Letters L01707, DOI 10.1029/2010GL045850.Google Scholar
Arnett, Edward B., Baerwald, Erin F., Mathews, Fiona, Rodrigues, Luisa, Rodríguez-Durán, Armando, Rydell, Jens, Villegas-Patraca, Rafael & Voigt, Christian C. (2016). Impacts of Wind Energy Development on Bats: A Global Perspective. In Bats in the Anthropocene: Conservation of Bats in a Changing World, 295–323 (Voigt, C. C. & Kingston, T., eds.; Berlin: Springer).Google Scholar
Arrhenius, Svante (1896, April). On the Influence of Carbonic Acid in the Air upon the Temperature of the Ground, 5 (41) Philosophical Magazine and Journal of Science Series 237–276.CrossRefGoogle Scholar
Takashi, Asaeda, Ca, Vu Thanh & Wake, Akio (1996). Heat Storage of Pavement and Its Effect on the Lower Atmosphere. 30(3) Atmospheric Environment 413–427, CUTEST ’92: Conference on the Urban Thermal Environmental Studies in Tohwa, Fukuoka, 30 JAPAN (07/09/1992), DOI 10.1016/1352-2310(94)00140-5.Google Scholar
Bailey, Christopher J. (1998). Congress and Air Pollution (Manchester, UK: Manchester University Press).Google Scholar
Baker, Marcia B. & Roe, Gerald H. (2009). The Shape of Things to Come: Why Is Climate Change So Predictable?, 22 (17) Journal of Climate 4574–4589, DOI 10.1175/2009JCLI2647.1.Google Scholar
Balch, Jennifer K., Bradley, Bethany A., Abatzoglou, John T., Nagy, R. Chelsea, Fusco, Emily J. & Mahood, Adam L. (2017). Human-Started Wildfires Expand the Fire Niche across the United States, 114 (11) Proceedings of the National Academy of Sciences 2946–2951, DOI 10.1073/pnas.1617394114.Google Scholar
Barclay, R. M., Baerwald, E. F. & Gruver, J. C. (2007). Variation in Bat and Bird Fatalities at Wind Energy Facilities: Assessing the Effects of Rotor Size and Tower Height, 85 (3) Canadian Journal of Zoology 381–387, DOI 10.1139/Z07-011.Google Scholar
Barreca, Alan, Clay, Karen, Deschenes, Olivier, Greenstone, Michael & Shapiro, Joseph S. (2016). Adapting to Climate Change: The Remarkable Decline in the US Temperature-Mortality Relationship over the Twentieth Century, 124 (1) Journal of Political Economy 105–159.Google Scholar
Barringer, Felicity (2008, February 27). Flooded Village Files Suit, Citing Corporate Link to Climate Change, New York Times.Google Scholar
Barton, Charmian (1998). The Status of the Precautionary Principle in Australia: Its Emergence in Legislation and as a Common Law Doctrine, 22 Harvard Environmental Law Review 509–558.Google Scholar
Batterbury, Simon & Warren, Andrew (2001). The African Sahel 25 Years after the Great Drought: Assessing Progress and Moving towards New Agendas and Approaches, 11 (1) Global Environmental Change 1–8, DOI 10.1016/S0959-3780(00)00040-6.Google Scholar
Beckley, B. D., Callahan, P. S., Hancock, D. W., III, Mitchum, G. T. & Ray, R. D. (2017). On the “Cal-Mode” Correction to TOPEX Satellite Alimetry and Its Effect on the Global Mean Sea Level Time Series, 122 (11) Journal of Geophysical Research: Oceans 8371–8384, DOI 10.1002/2017JC013090.CrossRefGoogle Scholar
Beddow, Jason M. (2012). A Bio-Economic Assessment of the Spatial Dynamics of US Corn Production and Yields. (Doctoral Dissertation, University of Minnesota).Google Scholar
Beddow, Jason M. (2014, June). Reassessing the Effects of Weather on Agricultural Production 17, Draft Paper.Google Scholar
Beddow, Jason M. & Pardey, Philip G. (2015). Moving Matters: The Effect of Location on Crop Production, 75 (1) Journal of Economics History 219–249, DOI 10.1017/S002205071500008X.Google Scholar
Béguin, Andreas, Hales, Simon, Rocklöv, Joacim, Åström, Christofer, Louis, Valérie R. & Sauerborn, Ranier (2011). The Opposing Effects of Climate Change and Socio-Economic Development on the Global Distribution of Malaria, 21 (4) Global Environmental Change 1209–1214, DOI 10.1016/j.gloenvcha.2011.06.001.Google Scholar
Ben-Shahar, Omri & Logue, Kyle D. (2016). The Perverse Effects of Subsidized Weather Insurance, 68 Stanford Law Review 571–626.Google Scholar
Bengtsson, Lennart & Hodges, Kevin I. (2009). On the Evaluation of Temperature Trends in the Tropical Troposphere, 36 Climate Dynamics 419–430, DOI 10.1007/s00382-009-0680-y.Google Scholar
Bengtsson, Lennart, Semenov, Vladimir A. & Johannessen, Ola M. (2004). The Early Twentieth-Century Warming in the Arctic – A Possible Mechanism, 17 (20) Journal of Climate 4045–4057, DOI 10.1175/1520-0442(2004)017<4045:TETWIT>2.0.CO;2.Google Scholar
Benson, Sally & Majumdar, Arun (2016, July 12). On the Path to Deep Decarbonization: Avoiding the Solar Wall, Stanford University.Google Scholar
Biello, David (2007, June 8). Impure as the Driven Snow: Smut Is a Bigger Problem than Greenhouse Gases in Polar Meltdown, Scientific American.Google Scholar
Binder, Sarah (2014). The Dysfunctional Congress, 18 Annual Review of Political Science 85–101, DOI 10.1146/annurev-polisci-110813–032156.Google Scholar
Bliuc, Ana-Maria, McGarty, Craig, Thomas, Emma F., Lala, Girish, Berndsen, Mariette & Misajon, RoseAnne (2015, March). Public Division about Climate Change Rooted in Conflicting Socio-political Identities, 5 Nature Climate Change 226–229, DOI 10.1038/nclimate2507.Google Scholar
Blom, T. J., Straver, W. A., Ingratta, F. J., Khosla, Shalin & Brown, Wayne (2002, December, revised 2009, August) Carbon Dioxide in Greenhouses, Ontario Ministry of Agriculture, Food and Rural Affairs, available at http://www.omafra.gov.on.ca/english/crops/facts/00–077.htm.Google Scholar
Blunt, Katherine & Gold, Russell (2019, July 15). PG&E Makes Thousands of Repairs after Inspections. Wall Street Journal.Google Scholar
Blunt, Katherine & Gold, Russell (2019, July 11). PG&E Knew Aging Grid Was Fire Risk. Wall Street Journal.Google Scholar
Bobb, Jennifer F., Peng, Roger D., Bell, Michelle L. & Dominici, Francesca (2014). Heat- Related Mortality and Adaptation to Heat in the United States, 122(8) Environmental Health Perspectives 811–816, DOI 10.1289/ehp.1307392.Google Scholar
Bodansky, D. M. (1994). Prologue to the Climate Change Convention, in Negotiating Climate Change: The Inside Story of the Rio Convention 45–74, DOI 10.1017/CBO9780511558917.003.Google Scholar
Bodman, Roger W., Rayner, Peter J. & Karoly, David J. (2013). Uncertainty in Temperature Projections Reduced Using Carbon Cycle and Climate Observations, 3 Nature Climate Change 725–729, DOI 10.1038/NCLIMATE1903.Google Scholar
Boehmer-Christiansen, Sonja (1994). The Precautionary Principle in Germany – Enabling Government, in Interpreting the Precautionary Principle (O’Riordan, Tim & Cameron, James, eds.; New York: Routledge).Google Scholar
Boehmer-Christiansen, Sonja (1994). Global Climate Protection Policy: The Limits of Scientific Advice: Part I, 4 (2) Global Environmental Change 140–159, DOI 10.1016/0959-3780(94)90049-3.Google Scholar
Boehmer-Christiansen, Sonja (1994). Global Climate Protection Policy: The Limits of Scientific Advice: Part 2, 4 (3) Global Environmental Change 185–200, DOI 10.1016/0959-3780(94)90002-7.Google Scholar
Boers, Niklas, Ghil, Michael & Rousseau, Denis-Didier (2018). Ocean Circulation, Ice Shelf, and Sea Ice Interactions Explain Dansgaard–Oeschger Cycles, 115 (47) Proceedings of the National Academy of Sciences E11005-E11014, DOI 10.1073/pnas.1802573115.Google Scholar
Boko, M. (2007). Africa, in Climate Change: Impacts, Adaptation and Vulnerability Contribution of Working Group 2 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change 433–469 (Martin Parry, Osvaldo Canziani, Jean Palutikof, Paul van der Linden & Claire Hanson, eds., Cambridge: Cambridge University Press).Google Scholar
Bond, T. C., Doherty, S. J., Fahey, D. W., et al. (2013). Bounding the Role of Black Carbon in the Climate System: A Scientific Assessment, 118 (11) Journal of Geophysical Research Atmospheres 5380–5552, DOI 10.1002/jgrd.50171.Google Scholar
Brandt, Martin, Mbow, Cheikh, Diouf, Abdoul A., Verger, Aleixandre & Fensholt, Rasmus (2015). Ground- and Satellite-Based Evidence of the Biophysical Mechanisms behind the Greening Sahel, 21 (4) Global Change Biology 1610–20, DOI 10.1111/gcb.12807.Google Scholar
Bratcher, Amy J. & Giese, Benjamin S. (2002). Tropical Pacific Decadal Variability and Global Warming, 29 Geophysical Research Letters 1–4, DOI 10.1029/2002GL015191.Google Scholar
Brazel, Anthony, Selover, Nancy, Vose, Russell & Heisler, Gordon (2000). The Tale of Two Climates – Baltimore and Phoenix Urban LTER Sites, 15 Climate Research 123–135, DOI 10.3354/cr015123.Google Scholar
Brennen, Timothy J., Palmer, Karen L., Kopp, Raymond J., Krupnick, Alan J., Stagliano, Vito & Burtraw, Dallas (1996). A Shock to the System: Restructuring America’s Electricity Industry 23–35 (Washington, DC: RFF Press)Google Scholar
Brickley, Peg (2019, June 10). PG&E Can Pull out of Green Power Deals, Wall Street Journal.Google Scholar
Brooks, C. E. P. (1950). Selective Annotated Bibliography on Climatic Changes, 1 Meteorological Abstracts and Bibliography, No. 1, 446–475.Google Scholar
Brough, Wayne T. & Kimenyi, Mwangi S. (1998). Property Rights and the Economic Development of the Sahel 163–179, in The Revolution in Development Economics (Dorn, James A. & Henke, Steve H., eds., Cato Institute).Google Scholar
Brunner, Ronald (2001). Science and the Climate Change Regime, 34 (1) Policy Sciences 1–33, DOI 10.1023/A:1010393101905.Google Scholar
Buhaug, Halvard (2010). Climate Not to Blame for African Civil Wars, 107 (38) Proceedings of the National Academy of Sciences 16,477–16,482, DOI 10.1073/pnas.1005739107.Google Scholar
Buhaug, Halvard (2010). Reply to Burke et al.: Bias and Climate War Research, 107 (51) Proceedings of the National Academy of Sciences E186-E187, DOI 10.1073/pnas.1015796108.Google Scholar
Burgess, David F. & Zerbe, Richard O. (2011). Appropriate Discounting for Benefit-Cost Analysis, 2 (2) Journal of Benefit-Cost Analysis 1–20, DOI 10.2202/2152-2812.1065.Google Scholar
Burgess, David F. & Zerbe, Richard O. (2013). The Most Appropriate Discount Rate, 4 (3) Journal of Benefit-Cost Analysis 391–400, DOI 10.2202/2152-2812.1065.Google Scholar
Burke, Marshall B., Miguel, Edward, Satyanath, Shanker, Dykema, John A. & Lobell, David B. (2009). Warming Increases the Risk of Civil War in Africa, 106 (49) Proceedings of the National Academy of Sciences 20,670–20,674, DOI 10.1073/pnas.0907998106.CrossRefGoogle ScholarPubMed
Burke, Marshall B., Miguel, Edward, Satyanath, Shanker, Dykema, John A. & Lobell, David B. (2010). Climate Robustly Linked to African Civil War, 107 (51) Proceedings of the National Academy of Sciences E185, DOI 10.1073/pnas.1014879107.Google Scholar
Butler, Ethan E. & Huybers, Peter (2013). Adaptation of US Maize to Temperature Variations, 3 Nature Climate Change 68–72, DOI 10.1038/NCLIMATE1585.Google Scholar
Butler, Ethan E. & Huybers, Peter (2015). Variations in the Sensitivity of US Maize Yield to Extreme Temperatures by Region and Growth Phase, 10 Environmental Research Letters 034009, DOI 10.1088/1748-9326/10/3/034009.Google Scholar
Butler, Ethan E., Mueller, Nathaniel D. & Huybers, Peter (2018). Peculiarly Pleasant Weather for US Maize, 115 (47) Proceedings of the National Academy of Sciences 11935–11940, DOI 10.1073/pnas.1808035115.Google Scholar
Caballero, Rodrigo (2008). Hadley Cell Bias in the Climate Models Linked to Tropical Eddy Stress, 35 (18) Geophysical Research Letters L18709, DOI 10.1029/2008GL035084.Google Scholar
Caldecott, Ben, Kruitwagen, Lucas & Kok, Irem (2016, May). Carbon Capture and Storage in the Thermal Value Chain, in COP21 and the Implications for Energy, 105 Oxford Energy Forum 50–55.Google Scholar
Calel, Raphael, Stainforth, David A. & Dietz, Simon (2015). Tall Tales and Fat Tails: The Science and Economics of Extreme Warming, 132 Climatic Change 127–141, DOI 10.1007/s10584-013-0911-4.Google Scholar
Campbell, J. E., Barry, J. A., Seibt, U., et al. (2017). Large Historical Growth in Global Terrestrial Gross Primary Production, 544 Nature 84–87, DOI 10.1038/nature22030.CrossRefGoogle ScholarPubMed
Canis, Bill & Yacobucci, Brent D. (2015, January 15). The Advanced Technology Vehicles Manufacturing (ATVM) Loan Program: Status and Issues, CRS Report R42064.Google Scholar
Catalano, Ralph, Goldman-Mellor, Sidra, Saxton, Katherine, Margerison-Zilko, Claire, Subbaraman, Meenakshi, LeWinn, Kaja & Anderson, Elizabeth (2011). The Health Effects of Economic Decline, 32 Annual Review of Public Health 431–450, DOI 10.1146/annurev-publhealth-031210-101146.Google Scholar
Carothers, Leslie (2015). Upholding EPA Regelation of Greenhouse Gases: The Precautionary Principle Redux, 41 Ecology Law Quarterly 683–750.Google Scholar
Chao, Yi, Ghil, Michael & McWilliams, James C. (2000). Pacific Interdecadal Variability in this Century’s Sea Surface Temperatures, 27 (15) Geophysical Research Letters 2261–2264, DOI 10.1029/1999GL011324.Google Scholar
Chameides, William L. & Bergin, Michael (2002). Soot Takes Center Stage, 297 (5590) Science 2214–2215, DOI 10.1126/science.1076866.CrossRefGoogle ScholarPubMed
Charney, Jule (1982). Carbon Dioxide and Climate: A Scientific Assessment, National Academy of Science.Google Scholar
Chen, Wei, Guodong, Li, Pei, Allen, et al. (2018). A Manganese-Hydrogen Battery with Potential for Grid-Scale Energy Storage, 3 Nature Energy 428–435, DOI 10.1038/s41560-018-0147-7.Google Scholar
Chin, Mian, Diehl, T., Tan, Q., et al. (2014). Multi-decadal Aerosol Variations from 1980 to 2009: A Perspective from Observations and a Global Model, 14 Atmospheric Chemistry and Physics 3657–3690, DOI 10.5194/acp-14-3657-2014.Google Scholar
Christiansen, Thomas K., Hounisen, Jens P., Clausager, Ib & Petersen, Ib K. (2004). Visual and Radar Observations of Birds in Relation to Collision Risk at the Horns Rey Offshore Wind Farm, Denmark,Environmental Research Institute.Google Scholar
Christy, John R., Norris, William B. & McNider, Richard T. (2009). Surface Temperature Variations in East Africa and Possible Causes, 22(12) Journal of Climate 3342–3356, DOI 10.1175/2008JCLI2726.1.CrossRefGoogle Scholar
Christy, John R. & McNider, Richard T. (2017). Satellite Bulk Tropospheric Temperatures as a Metric for Climate Sensitivity, 53 (4) Asia-Pacific Journal of Atmospheric Sciences 511–518, DOI 10.1007/s13143-017-0070-z.Google Scholar
Chylek, Petr, Dubey, M. K. & Lesins, G. (2006). Greenland Warming of 1920–1930 and 1995–2005, 33 (11) Geophysical Research Letters L11707, DOI 10.1029/2006GL026510.Google Scholar
Chylek, Petr, Dubey, Manvendra K., Lesins, Glen, Li, Jiangnan & Hengartner, Nicolas (2014). Imprint of the Atlantic Multi-decadal Oscillation and Pacific Decadal Oscillation on Southwestern US Climate: Past, Present and Future, 43 Climate Dynamics 119–129, DOI 10.1007/s00382-013-1933-3.Google Scholar
Clack, Christopher T. M., Qvist, Staffan A., Apt, Jay, et al. (2017). Evaluation of a Proposal for Reliable Low-Cost Grid Power with 100% Wind, Water and Solar, 114 (26) Proceedings of the National Academy of Sciences 6722–6727, DOI 10.1073/pnas.1610381114.Google Scholar
Cleaveland, N. K. & Duvick, D. N. (1992). Iowa Climate Reconstructed from Tree Rings, 1640–1982, 28 (10) Water Resources Research 2607–2615, DOI 10.1029/92WR01562.Google Scholar
Climate Accountability Institute and Union of Concerned Scientists (2012, October). Establishing Accountability for Climate Change Damages: Lessons from Tobacco Control, Report.Google Scholar
Cole, D. H. (1986). Reviving the Federal Power Act’s Comprehensive Plan Requirement: A History of Neglect and Prospects for the Future, 16 Environmental Law 639.Google Scholar
Conca, James (2019, January 16). US CO2 Emissions Rise as Nuclear Power Plants Close, Forbes.Google Scholar
Cook, Edward R., Seager, Richard, Cane, Mark A. & Stahle, David W. (2007). North American Drought: Reconstructions, Causes, and Consequences, 81 (1–2) Earth-Science Reviews 93–134, DOI 10.1016/j.earscirev.2006.12.002.Google Scholar
Cook, John, Nuccitelli, Dana, Green, Sarah A., Richardson, Markm Winkler, Bärbel, Painting, Rob, Way, Robert, Jacobs, Peter, & Skuce, Andrew. (2013). Quantifying the Consensus on Anthropogenic Global Warming in the Scientific Literature, 8 Environmental Research Letters 024024, DOI 10.1088/1748-9326/8/2/024024.Google Scholar
Cooper, Gail (1998). Air Conditioning America 30–35 (Baltimore, MD: Johns Hopkins University Press).Google Scholar
Cooper, Richard N., Eichengreen, Barry, Holtham, Gerald, Putnam, Robert D. & Henning, C. Randall (1989). Can Nations Agree? Issues in International Cooperation 180–181 (Brookings Institution Press).Google Scholar
Corwin, Jane L. & Miles, William T. (1978, July). Impact Assessment of the 1977 New York Blackout 14, SCI Final Report, tSC1 Project 5236–100, Department of Energy.Google Scholar
Cox, Craig (2013, April). Taxpayers, Crop Insurance and the Drought of 2012, Environmental Working Group.Google Scholar
Cragg, Michael I., Zhou, Yuyu, Gurney, Kevin & Kahn, Matthew E. (2012). Carbon Geography: The Political Economy of Congressional Support for Legislation Intended to Mitigate Greenhouse Gas Production, 51 (2) Econics Inquiry 1640–1650.Google Scholar
Cramton, Peter, Ockenfels, Axel & Stoft, Steven (2013). Capacity Market Fundamentals, 2 (2) Economics of Energy & Environmental Policy 27–46, DOI 10.5547/2160-5890.2.2.2.Google Scholar
Cravens, Gwyneth (2007). Power to Save the World: The Truth about Nuclear Power (New York, Vintage Books).Google Scholar
Cronin, Thomas M. (1999). Principles of Paleoclimatology (New York: Columbia University Press).Google Scholar
Crook, Julia A. & Forster, Piers M. (2011). A Balance between Radiative Forcing and Climate Feedback in the Modeled 20th Century Temperature Response, 116 Journal of Geophysical Research D17108, DOI 10.1029/2011JD015924.CrossRefGoogle Scholar
Crowder, Michael (1990). History of French West Africa until Independence, in Africa South of the Sahara 77 (London, Europa Publications).Google Scholar
Curry, Judith (2018, Nov. 25). Sea Level and Climate Change 12–13, Special Report Climate Forecast Applications Network.Google Scholar
Curtis, E. Mark (2014, December). Who Loses under Power Plant Cap-and-Trade Program?, NBER Working Paper No. 208–8, available at https://www.nber.org/papers/w20808.Google Scholar
Dahlman, LuAnn (2009). Climate Variability: North Atlantic Oscillation. Climate.gov, August 30, available at https://www.climate.gov/news-features/understanding-climate/climate-variability-north-atlantic-oscillation.Google Scholar
Dai, Kaoshan, Bergot, Anthony, Lian, Chao, Xiang, Wei-Ning & Huang, Zhenhua (2015). Environmental Issues Associated with Wind Energy – A Review. 75 Renewable Energy 911–921.Google Scholar
Danelski, David (2017, January 23). Ivanpah Solar Plant, Built to Limit Greenhouse Gases, Is Burning More Natural Gas, The Press-Enterprise.Google Scholar
Darwin, Roy (1999). A FARMer’s View of the Ricardian Approach to Measuring Agricultural Effects of Climate Change, 41 Climatic Change 371–411.Google Scholar
David, R. E., Knappenberger, Paul C., Michaels, Patrick J. & Novicoff, Wendy M. (2003). Changing Heat-Related Mortality in the United States, 111 Environmental Health Perspectives 1712–1718, DOI 10.1289/ehp.6336.Google Scholar
Davis, Lucas & Knittel, Christopher R. (2019). Are Fuel Economy Standards Regressive?, 6(sl) Association of Environmental and Resource Economists S97–S131.Google Scholar
Davis, R. E., Knappenberger, P. C., Michaels, P. J. & Novicoff, W. M. (2003). Changing Heat-Related Mortality in the United States, 111 Environmental Health Perspectives 1712–1718, DOI 10.1289/ehp.6336.Google Scholar
Davis, Steven J. & Von Wachter, Till M. (2011). Recessions and the Cost of Job Loss, 2 Brookings Papers on Economic Activity 1–55, DOI 10.1353/eca.2011.0016.Google Scholar
Dayaratna, Kevin, McKitrick, Ross & Kreutzer, David (2017). Empirically Constrained Climate Sensitivity and the Social Cost of Carbon, 8(2) Climate Change Economics 1–12.Google Scholar
Dayaratna, Kevin, McKitrick, Ross & Michaels, Patrick J. (2020). Climate Sensitivity, Agricultural Productivity and the Social Cost of Carbon, 22 Environmental Economics and Policy Studies 433–448, DOI 10.1007/s10018-020-00263-w.Google Scholar
De Rugy, Veronique (2012, July 18). A Guarantee of Failure: Government Lending under Section 1705, Testimony to the House Oversight Committee.Google Scholar
DeBare, Ilana (2008, August 15). PG&E Plans Big Investment in Solar Power Plants, San Francisco Chronicle.Google Scholar
DeGaetano, Arthur (2000). A Serially Complete Simulated Observation Time Metadata file for US Daily Historical Climatology Network Stations, 81 (1), Bulletin of the American Meteorological Society 49–67, DOI 10.1175/1520-0477(2000)081<0049:ASCSOT>2.3.CO;2.Google Scholar
Delgado, J. A., Gross, C. M., Lal, H., Cover, H., Gagliardi, P., McKinney, S. P., Hesketh, E. & Shaffer, M. J. (2010). A New GIS Nitrogen Trading Tool Concept for Conservation and Reduction of Reactive Nitrogen Losses to the Environment, 105 Advances in Agronomy 117–171, DOI 10.1016/S0065-2113(10)05004-2.Google Scholar
Department of Energy (2019) 2018 Wind Technologies Market Report 25, Office of Energy Efficiency and Renewable Energy.Google Scholar
Deryugina, Tatyana (2017). The Fiscal Cost of Hurricanes: Disaster Air versus Social Insurance, 9 (3) American Economic Journal: Economic Policy, 168–198, DOI 10.1257/pol.20140296.Google Scholar
Deschenes, Olivier (2014). Climate Change, Human Health, and Adaptation: A Review of the Literature, 46 Energy Economics 606–619, DOI 10.1016/j.eneco.2013.10.013.Google Scholar
Deser, Clara, Phillips, Adam S. & Hurrell, James W. (2004). Pacific Interdecadal Climate Variability: Linkages between the Tropics and the North Pacific during Boreal Winter since 1900, 17 (16) Journal of Climate 3109–3124, DOI 10.1175/1520-0442(2004)017<3109:PICVLB>2.0.CO;2.2.0.CO;2>CrossRefGoogle Scholar
Dong, Bo & Dai, Aiguo (2015). The Influence of the Interdecadal Pacific Oscillation on Temperature and Precipitation over the Globe, 45 Climate Dynamics 2667–2681, DOI 10.1007/s00382-015-2500-x.Google Scholar
Dooley, David, Fielding, Jonathan & Levi, Lennart (1996). Health and Unemployment, 17 Annual Review of Public Health 449–465, DOI 10.1146/annurev.pu.17.050196.002313.Google Scholar
Douglas, Bruce C. (1991). Global Sea Level Rise, 96 (C4) Journal of Geophysical Research 6981–6992, DOI 10.1029/91JC00064.Google Scholar
Douglas, Bruce C. (1995). Global Sea Level Change: Determination and Interpretation, 33 (S2) Reviews of Geophysics, Supplement, 1425–1432, 1427, DOI 10.1029/95RG00355.Google Scholar
Douglas, David H., Pearson, Benjamin D. & Singer, S. Fred (2004). Altitude Dependence of Atmospheric Temperature Trends: Climate Models versus Observation, 31 Geophysical Research Letters L13208, DOI 10.1029/2004020103.Google Scholar
Douglas, David H., Christ, John R., Pearson, Benjamin D. & Singer, S. Fred (2008). A Comparison of Tropical Temperature Trends with Model Predictions, 28 (13) International Journal of Climatology 1693–1701, DOI 10.1002/joc.1651.Google Scholar
Dowd, Philp (2016, April). A Solar Power Plant vs. a Natural Gas Power Plant: Capital Cost – Apples to Apples, Watts up with That.Google Scholar
Drabick, James R. (2005). ‘Private’ Public Nuisance and Climate Change: Working within, and around, the Special Injury Rule, 16 Fordham Environmental Law Review 503–541.Google Scholar
Drax (2018, June 8). The Great Balancing Act: What It Takes to Keep the Power Grid Stable.Google Scholar
East, Edward M. & Jones, Donald F. (1919). Inbreeding and Outbreeding: Their Genetic and Sociological Significance 224 (Philadelphia, Lippincott).Google Scholar
Egenter, Sven (2019, June). Renewables Hit Record in Germany in H1 2019, Outlook Uncertain, Clean Energy Wire.Google Scholar
Ela, Erik, Milligan, Michael & Kirby, Brendan (2011, August). Operating Reserves and Variable Generation, NREL, Technical Report 5, NREL/TP-5500–51978.Google Scholar
Electricity Consumers Council (2004, February). The Economic Impacts of the August 2003 Blackout.Google Scholar
Eliason, M. & Storrie, D. (2009). Does Job Loss Shorten Life? 44 Journal of Human Resources 277–302, DOI 10.3368/jhr.44.2.277.Google Scholar
Epstein, Richard A. (2018). The Many Sins of NEPA, 6 Texas A&M Law Review 1–28, DOI 10.37419/LR.V6.I1.1.Google Scholar
Esselborn, Saskia, Rudenko, Sergei & Schöne, Tilo (2018). Orbit-Related Sea Level Errors for TOPEX Altimetry at Seasonal to Decadal Timescales, 14 Ocean Sciences 205–223, DOI 10.5194/os-14-205-2018.Google Scholar
Essex, Christopher & Tsonis, Anastasoios A. (2018). Model Falsifiability and Climate Slow Modes, 502 Physica A 554–562, DOI 10.1016/j.physa.2018.02.090.Google Scholar
Eubanks, William S., II (2015). Subverting Congress’ Intent: The Recent Misapplication of Section 10 of the Endangered Species Act and Its Consequent Impacts on Sensitive Wildlife and Habitat, 42 (2) Boston College Environmental Affairs Law Review 259–303.Google Scholar
Fall, Souleymane, Watts, Anthony, Nielsen-Gammon, John, Jones, Evan, Niyogi, Dev, Christy, John R. & Pielke, Roger A., Sr. (2011). Analysis of the Impacts of Station Exposure on the US Historical Climatology Network Temperatures and Temperature Trends, 116 (D14) Journal of Geophysical Research D14120, DOI 10.1029/2010JD015146.Google Scholar
Farber, Daniel A. (2015). Coping with Uncertainty: Cost-Benefit Analysis, the Precautionary Principle, and Climate Change, 90 Washington Law Review 1659–1725.Google Scholar
Farber, Henry (2004). Job Loss in the United States, 1981–2001, 23 Research in Labor Economics 69–117, DOI 10.1016/S0147-9121(04)23003-5.Google Scholar
Fell, Harrison & Kaffine, Daniel T. (2018). The Fall of Coal: Joint Impact of Fuel Prices and Renewables on Generation and Emissions, 10 (2) American Economic Journal: Economic Policy 90–116, DOI 10.1257/pol.20150321.Google Scholar
FERC Office of Hydropower Licensing (1987). PURPA Benefits at New Dams and Diversions, Final Staff Report Evaluating Environmental and Economic Effects 1–2, Docket No. EL87-9.Google Scholar
Ferris, Ann E. & McGartland, Al (2013). A Research Agenda for Improving the Treatment of Employment Impacts in Regulatory Impact Analysis, in Does Regulation Kill Jobs? 170–189 (Philadelphia: University of Pennsylvania Press).Google Scholar
Finch, H. J. S., Samuel, A. M. & Lane, G. P. F. (2014). Precision Farming, in Lockhart & Wiseman’s Crop Husbandry Including Grasslands (Woodhead Publishing, 9th Ed).Google Scholar
Fixler, Dennis J., Greenaway-McGrevy, Ryan & Grimm, Bruce T. (2014, August). The Revisions to GDP, GDI, and Their Major Components, US Bureau of Economic Analysis, available at https://www.bea.gov/news/2016/grosscomestic-product-4th-quarter-and-annual-2015-third-estimate-corporate-profits-4th.Google Scholar
Flanner, Mark G., Zender, Charlses S., Randerson, James T. & Rasch, Phillip J. (2007). Present-Day Climate Forcing and Response from Black Carbon in Snow, 112 Journal of Geophysical Research D11202, DOI 10.1029/2006JD008003.Google Scholar
Fleming, James Rodger (2005). Historical Perspectives on Climate Change 11 (New York: Oxford University Press, 5th Ed).Google Scholar
Flynn, Damian, Rather, Zakir, Årdal, Atle Rygg, et al. (2017). Technical Impacts of High Penetration Levels of Wind Power on Power System Stability, 6 (2) WIREs Energy and Environment 216, DOI 10.1002/wene.216.Google Scholar
Forster, Piers M., Andrews, Timothy, Good, Peter, Gregory, Jonathan M., Jackson, Lawrence S. & Zelinka, Mark (2013). Evaluating Adjusted Forcing and Model Spread for Historical and Future Scenarios in the CMIP5 Generation of Climate Models, 118 (3) Journal of Geophysical Research Atmospheres 1139–1150, DOI 10.1002/jgrd.50174.Google Scholar
Fountain, Henry (2019, October 28). How Climate Change Could Shift California’s Santa Ana Winds, Fueling Fires, The New York Times.Google Scholar
Franz, Wendy E. (1997, September). The Development of an Agenda for Climate Change: Connecting Science to Policy 11 (International Institute for Applied Systems Analysis, Interim Report IR-97–034).Google Scholar
Frederick, John E. (2008). Principles of Atmospheric Science 116–147 (Sudbury, MA, Jones and Bartlett Publishers).Google Scholar
Freeman, Jody (2011). The Obama Administration’s National Auto Policy: Lessons from the “Car Deal,” 35 Harvard Environmental Law Journal 344–385.Google Scholar
Freeman, Jody & Vermeule, Adrian (2007). Massachusetts v. EPA: From Politics to Expertise, 2007 Supreme Court Review 51–111, DOI 10.1086/655170.Google Scholar
Freeman, Jody & Spence, David B. (2014). Old Statues, New Problems, 163 (1) University of Pennsylvania Law Review 1–68.Google Scholar
Frick, , W. F., Baerwald, , E. F., Pollock, , J. F., Barclay, , R. M. R., Szymanski, , J. A., Weller, , T. J., Russell, , A. L., Loeb, , S. C., Medelin, , R. A. & McGuire, , L. P. (2017). Fatalities at Wind Turbines May Threaten Population Viability of a Migratory Bat, 209 Biological Conservation 172–177.Google Scholar
“Fuel Use Act Repealed” (1988) in Almanac, CQ 1987, 323–24, Washington, DC: Congressional Quarterly (43rd ed.)Google Scholar
Fujibe, Fumiaki (2011). Review: Urban Warming in Japanese Cities and Its Relation to Climate Change Monitoring, 31 (2) International Journal of Climatology 162–173, DOI 10.1002/joc.2142.Google Scholar
Fyfe, John C., Gillett, Nathan P. & Zwiers, Francis W. (2013). Overestimated Global Warming over the Past 20 Years, 3 Nature Climate Change 767–769, DOI 10.1038/nclimate1972.Google Scholar
Gaffney, Jeff, Schussler, Jeff, Loffler, Carlos, et al. (2015). Industry-Scale Evaluation of Maize Hybrids Selected for Increased Yield in Drought-Stress Conditions of the US Corn Belt, 55 Crop Science 1608, DOI 10.2135/cropsci2014.09.0654.Google Scholar
Gallo, Kevin & Xian, George (2016). Changes in satellite-derived impervious surface area at US historical climatology network stations, 120 ISPRS Journal of Photogrammetry and Remote Sensing 77–83, DOI 10.1016/j.isprsjprs.2016.08.006.Google Scholar
Gao, Jing, Nelson, Robert & Zhang, Lei. (2013). Substitution in the Electric Power Industry: An Interregional Comparison in the Eastern US, 40 Energy Economics 316–325, DOI 10.1016/j.eneco.2013.07.011.Google Scholar
Gately, Dermot (1986). Lessons from the 1986 Oil Price Collapse, 2 Brookings Papers on Economic Activity 237–284.Google Scholar
Gerster, Andreas (2016). Negative Price Spikes at Power Markets: The Role of Energy Policy, 50 Journal of Regulatory Economics 271–289, DOI 10.1007/s11149-016-9311-9.Google Scholar
Gething, Peter W., Smith, David L., Patil, Anand P., Tatem, Andrew J., Snow, Robert W. & Hay, Simon I. (2010). Climate Change and the Global Malaria Recession, 465 Nature 342–345.Google Scholar
Gibson, Katherine E. B., Yang, Haishun S., Franz, Trenton, et al. (2018). Assessing Explanatory Factors for Variation in On-Farm Irrigation in US Maize-Soybean Systems, 197 Agricultural Water Management 34–40, DOI 10.1016/j.agwat.2017.11.008.Google Scholar
Giese, Benjamin S., Urizar, S. Cristina & Fučkar, Neven S. (2002). Southern Hemisphere Origin of the 1976 Climate Shift, 29 (2) Geophysical Research Letters 1–3, DOI 10.1029/2001GL013268.Google Scholar
Gimeno-Gutiérrez, Marcos & Lacal-Arántegui, Roberto (2013). Assessment of the European Potential for Pumped Hydropower Energy Storage. Tech Rep JRC.Google Scholar
Glantz, Barnoya J. (2005). Cardiovascular Effects of Secondhand Smoke: Nearly as Large as Smoking, 111 (20) Circulation 2684–2698, DOI 10.1161/CIRCULATIONAHA.104.492215.Google Scholar
Goessling, Helge F. & Bathiany, Sebastian (2016). Why CO2 Cools the Middle Atmosphere – A Consolidating Model Perspective, 7 Earth System Dynamics 697–715, DOI 10.5194/esd-2016–8.Google Scholar
Golaz, Jean Christophe, Horowitz, Larry W. & Levy, Hiram, II (2013). Cloud Tuning in a Coupled Climate Model: Impact on 20th Century Warming, 40 (10) Geophysical Research Letters 2246–2251, DOI 10.1002/grl.50232.Google Scholar
Gonzales, Richard (2019, October 18). California Can Expect Blackouts for a Decade, Says PG&E CEO, NPR.Google Scholar
Gordon, Richard L. (1979). The Powerplant and Industrial Fuel Use Act of 1978 – An Economic Analysis, 19 (4) Natural Resources Journal 871–884.Google Scholar
Gorssman, Iris & Klotzbach, Philip J. (2009). A Review of North Atlantic Modes of Natural Variability and Their Driving Mechanisms, 114 Journal of Geophysical Research D24107, DOI 10.1029/2009JD012728.Google Scholar
Gowrisankaran, Gautam, Reynolds, Stanley S. & Samano, Mario (2016). Intermittency and the Value of Renewable Energy, 124 (4) Journal of Political Economy 1187–1234, DOI 10.1086/686733.Google Scholar
Grassini, Patricio, Yang, Haishun, Irmak, Suat, Thorburn, John, Burr, Charles & Cassman, Kenneth G. (2011). High-Yield Irrigated Maize in the Western US Corn Belt: II. Irrigation Management and Crop Water Productivity, 120 Field Crops Research 133–141, DOI 10.1016/j.fcr.2010.09.013.Google Scholar
Grassini, Patricio, Specht, James E., Tollenaar, Matthijs, Ciampitti, , Ignacio & Cassman, Kevin G. (2015). High-Yield Maize-Soybean Cropping Systems in the US Corn Belt, in Crop Physiology: Applications for Genetic Improvement and Agronomy 17–41 (Sadras, Victor O. & Calderini, Daniel E., eds., New York: Academic Press, 2nd ed.).Google Scholar
Greenstone, Michael (2002). The Impacts of Environmental Regulations on Industrial Activity: Evidence from the 1970 and 1977 Clean Air Act Amendments and the Census of Manufactures, 110 (6) Journal of Political Economy 1175–1219, DOI 10.1086/342808.Google Scholar
Greenstone, Michael & North, Ishan (2019, May). Do Renewable Portfolio Standards Deliver?, University of Chicago Energy Policy Institute, Working Paper No. 2019–62.Google Scholar
Greenstone, Michael, Kopits, Elizabeth & Wolverton, Ann (2011, April). Estimating the Social Cost of Carbon for Use in US Federal Rulemakings: A Summary and Interpretation, Working Paper 11-04, MIT Economics Department.Google Scholar
Griliches, Zvi (1957). Hybrid Corn: An Exploration in the Economics of Technological Change, 25(4) Econometrica 501–522, DOI 10.2307/1905380.Google Scholar
Grinsted, Aslak, Moore, John C. & Jevrejeva, Svetlana (2009). Reconstructing Sea Level from Paleo and Projected Temperatures, 200 to 2100AD, 34 Climate Dynamics 461–472, DOI 10.1007/s00382-008-0507-2.Google Scholar
Grossman, David A. (2003). Warming Up to a Not-So-Radical Idea: Tort-Based Climate Change Litigation, 28 Columbia Journal of Environmental Law 1.Google Scholar
Guzman-Morales, Janin, Gershunov, Alexander, Theiss, Jurgen, Haiqin, Li & Cayan, Daniel (2016). Santa Ana Winds of Southern California: Their Climatology, Extremes, and Behavior Spanning Six and a Half Decades, 43 Geophysical Research Letters 2827–2834, DOI 10.1002/2016GL067887.Google Scholar
Hallauer, Arnel R. (2011). Evolution of Plant Breeding Crop Breeding and Applied Biotechnology, 11 Brazilian Society of Plant Breeding 197–206.Google Scholar
Hamdy, M. K. & Noyes, O. R. (1975). Formation of Methyl Mercury by Bacteria, 30 (3) Applied Microbiology 424–432.Google Scholar
Hänke, Hendrick, Börjeson, Lowe, Hylander, Kristoffer & Enfors-Kautsky, Elin (2016). Drought Tolerant Species Dominate as Rainfall and Tree Cover Returns in the West African Sahel, 59 Land Use Policy 111–120.Google Scholar
Hansen, , J., Johnson, , D., Lacis, , A., Lebedeff, , S., Lee, , P., Rind, , D. & Russell, , G. (1981). Climate Impact of Increasing Atmospheric Carbon Dioxide, 213 (4511) Science 957–966.Google Scholar
Hansen, J., Ruedy, R., Sato, M. & Lo, K. (2010). Global Surface Temperature Change, 48 Review of Geophysics RG4004, DOI 10.1029/2010RG00034.Google Scholar
Hansen, James & Shellenberger, Michael (2019, April 4). The climate needs nuclear power, Wall Street Journal.Google Scholar
Harper, Benjamin P. (2006). Climate Change Litigation: The Federal Common Law of Interstate Nuisance and Federalism Concerns, 40 Georgia Law Review 661.Google Scholar
Hartly, Peter R., Medlock, Kenneth B., III & Rosthal, Jennifer (2014). Electricity Sector Demand for Natural Gas in the United States, Rice University Economics Department, Working Paper No. 14–026.Google Scholar
Hartly, Peter R., Medlock, Kenneth B., III & Jankovska, Olivera (2019). Electricity Reform and Retail Pricing in Texas, 80 Energy Economics 1–11.Google Scholar
Hatfield, J. L., Boote, K. J., Kimball, B. A., Ziska, L. H., Izaurralde, R. C., Ort, D., Thomson, A. M. & Wolfe, D. (2011). Climate Impacts on Agriculture: Implications for Corn Production, 103 (2) Agronomy Journal 351, DOI 10.2134/agronj2010.0303.Google Scholar
Hausfather, Zeke, Cowtan, Kevin, Menne, Matthew J. & Williams, Claude N., Jr. (2016). Evaluating the Impact of US Historical Climatology Network Homogenization Using the US Climate Reference Network, 43 (4) Geophysical Research Letters 1695–1701, DOI 10.1002/2015GL067640.Google Scholar
Hayek, F. A. (1945). The Use of Knowledge in Society, 35 (4) American Economics Review 519–530.Google Scholar
Heede, Richard (2014, January). Tracing Anthropogenic Carbon Dioxide and Methane Emissions to Fossil Fuel and Cement Producers, 1854–2010, 122 Climatic Change 229–241, DOI 10.1007/s10584-013-0986-y.Google Scholar
Heide, Dominik, Von Bremen, Lueder, Greiner, Martin, Hoffman, Clemens, Speckmann, Markus & Bofinger, Stefan (2010). Seasonal Optimal Mix of Wind and Solar Power in a Future, Highly Renewable, 35 (11) European Renewable Energy 2483–2489, DOI 10.1016/j.renene.2010.03.012.Google Scholar
Heinzerling, Lisa (2008). Climate Change and the Supreme Court, 38 Environmental Lawyer 1–18.Google Scholar
Heinzerling, Lisa (2008). Climate Change, Human Health, and the Post-Cautionary Principle, 96 Georgetown Law Journal 445.Google Scholar
Hegerl, Gabriele C., Crowley, Thomas J. & Pollack, Henry N., et al. (2007). Detection of Human Influence on a New, Validated 1500-Year Temperature Reconstruction, 20 Journal of Climate 650–666, DOI 10.7916/D8FN1GQ6.CrossRefGoogle Scholar
Hernandez, Kristian (2018, October 8). An Uncertain Future for America’s Wind Energy Capital, Public Integrity.Google Scholar
Hicks, D. R. & Thompson, P. R. (2004). Corn Management, in Corn: Origin, History, Technology and Production (Smith, C.W., Betrán, Javier & Runge, Edward C.A., eds., Hoboken, NJ: John Wiley and Sons).Google Scholar
Hiltzik, Michael (2017, November 21). A Stanford Professor Didn’t Just Debate His Scientific Critics – He Sued Them for $10 Million, Los Angeles Times.Google Scholar
Holland, Christina L., Scott, Robert B., Soon-Il, An & Taylor, Frederick W. (2007). Propagating Decadal Sea Surface Temperature Signal Identified in Modern Proxy Records of the Tropical Pacific, 28 Climate Dynamics 163–179, DOI 10.1007/s00382-006-0174-0.Google Scholar
Holt, Mark & Glover, Carol (2006, March 8). Energy Policy Act of 2005: Summary and Analysis of Enacted Provisions, CRS Report for Congress.Google Scholar
Hondula, David M., Balling, Robert C., Jr., Vanos, Jennifer K. & Georgescu, Matei (2015). Rising Temperatures, Human Health, and the Role of Adaptation, 1 Current Climate Change Reports 144–154, DOI 10.1007/s40641-015-0016-4.Google Scholar
Hongoltz-Hetling, Matt (2020, June 22). US Demand for Clean Energy Destroying Canada’s Environment, Indigenous Peoples Say, The Guardian.Google Scholar
Hornsey, Matthew J., Harris, Emily A., Bain, Paul G. & Fielding, Kelly S. (2016, February 22). Meta-analyses of the Determinants and Outcomes of Belief in Climate Change, 6 Nature Climate Change 622–626.Google Scholar
Hourdin, Frederic, Mauritsen, Thorsten, Gettelman, Andrew, et al. (2017). The Art and Science of Climate Model Tuning, 98 (3) Bulletin of the American Meteorological Society 589–602, DOI 10.1175/BAMS-D-15-00135.1.Google Scholar
Houston, James R. & Dean, Robert G. (2012). Comparisons at Tide-Gauge Locations of Glacial Isotstatic Adjustment Predictions with Global Positioning System Measurements, 28 (4) Journal of Coastal Research 739–744, DOI 10.2112/JCOASTRES-D-11-00227.1.Google Scholar
Howard, Peter H. & Sterner, Thomas (2014). Loaded DICE: Refining the Meta-analysis Approach to Calibrating Climate Damage Functions, 2014 Annual Meeting, July 27–29,2014, Minneapolis, MN 169952, Agricultural and Applied Economics Association, DOI 10.22004/ag.econ.169952.Google Scholar
Hu, Aixue, Levis, Samuel, Meehl, Gerald A., et al. (2016). Impact of Solar Panels on Global Climate, 6 Nature Climate Change 290–294.Google Scholar
Huldén, Lena, McKitrick, Ross & Huldén, Larry (2013). Average Household Size and the Eradication of Malaria, 177 (3) Journal of the Royal Statistical Society Series A, DOI 10.1111/rssa 12036.Google Scholar
Institute for Energy Research (2019, November 1). The Cost of Decommissioning Wind Turbines Is Huge.Google Scholar
Institute for Energy Research (2018, August 21) Germany’s Dependence on Fossil Fuels and Russian Gas.Google Scholar
Interagency Working Group on the Social Cost of Carbon, US Government (2010). Technical Support Document: Social Cost of Carbon for Regulatory Impact Analysis Under Executive Order 12866, available at https://www.epa.gov/sites/production/files/2016-12/documents/scc_tsd_2010.pdf.Google Scholar
IPCC Climate Change (2013). Climate Change 2014: Impacts, Adaptation and Vulnerability, Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (V.R. Barros et al. eds., Cambridge and New York: Cambridge University Press).Google Scholar
IPCC Climate Change (2013). The Physical Science Basis, Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change 216 (Thomas F. Stocker et al. eds., Cambridge and New York: Cambridge University Press).Google Scholar
IPCC Climate Change (2007). Climate Change 2007: Impacts, Adaptation and Vulnerability, Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (M.L. Perry et al. eds., Cambridge: Cambridge University Press).Google Scholar
IPCC Climate Change (2007). The Physical Science Basis, Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (S. Solomon et al. eds., Cambridge and New York: Cambridge University Press).Google Scholar
IPCC Climate Change (2001). The Scientific Bases 134 (Houghton, J.T et. al, ed.: New York: Cambridge University Press).Google Scholar
Jacobs, J. Roger (2014). The precautionary Principle as a Provisional Instrument in Environmental Policy: The Montreal Protocol Case Study, 37 Environmental Science and Policy 161–171, DOI 10.1016/j.envsci.2013.09.007.Google Scholar
Jacobson, Mark (2013). Evaluating US Fuel Economy Standards in a Model with Producer and Household Heterogeneity, 5 (2) American Economic Journal: Economic Policy 148–187, DOI 10.1257/pol.5.2.148.Google Scholar
Jacobson, Mark (2011). Fuel Economy, Car Class Mix and Safety, 101 (3) American Economic Review Papers & Proceedings 105–109, DOI 10.1257/aer.101.3.105.Google Scholar
Jacobson, Mark (2002). Control of Fossil-Fuel Particulate Black Carbon and Organic Matter, Possibly the Most Effective Method of Slowing Global Warming, 107 Journal of Geophysical Research D19, 4410, DOI 10.1029/2001JD001376.Google Scholar
Jacobson, Mark (1997). Development and Applications of a New Air Pollution Modeling System – Part III. Aerosol-Phase Simulations, 31 (4) Atmospheric Environment 587–608, DOI 10.1016/S1352-2310(96)00201-4.Google Scholar
Jacobson, Mark, Delucchi, Mark A., Cameron, Mary A. & Frew, Bethany A. (2015). Low-Cost Solution to the Grid Reliability Problem with 100% Penetration of Intermittent Wind, Water, and Solar for All Purposes, 112 (4) Proceedings of the National Academy of Sciences 15060–15065, DOI 10.1073/pnas.1510028112.Google Scholar
Jacobson, Mark, Delucchi, Mark A., Bazouin, Guillaume, et al. (2015). 100% Clean and Renewable Wind, Water, and Sunlight (WWS) All-Sector Energy Roadmaps for the 50 United States, 7 Energy & Environmental Science 2093–2117, DOI 10.1039/C5EE01283J.Google Scholar
Jarrell, Gregg A. (1978). The Demand for State Regulation of the Electric Utility Industry, 21 (2) Journal of Law and Economics 269–295.Google Scholar
Jones, P. D. (1994). Hemispheric Surface Air Temperature Variations: A Reanalysis and Update to 1993, 7 (11) Journal of Climate 1794–1802, DOI 10.1175/1520-0442(1994)007<1794:HSATVA>2.0.CO;2.Google Scholar
Jones, P. D., New, M., Parker, D. E., Martin, S. & Rigor, I. G. (1999). Surface Air Temperature and Its Changes over the Past 150 Years, 37 (2) Review of Geophysics 173–199, DOI 10.1029/1999RG900002.Google Scholar
Johansson, Daniel J. A., O’Neill, Brian C., Tebaldi, Claudia & Häggström, Olle (2015). Equilibrium Climate Sensitivity in Light of Observations over the Warming Hiatus, 5 Nature Climate Change 449–453, DOI 10.1038/NCLIMATE2573.Google Scholar
Johnson, Cameron (2018, August). Understanding the 6 Types of Response Bias (With Examples), Nextiva blog at https://www.nextiva.com/blog/response-bias.html.Google Scholar
Johnston, Jason Scott (2014). A Positive Political Economic Theory of Environmental Federalization, 64 (4) Case Western Reserve Law Review 1549–1617.Google Scholar
Johnston, Jason Scott (2012). Disasters and Decentralization, 37 The Geneva Papers on Risk and Insurance 228–256.Google Scholar
Johnston, Jason Scott (1998). The Cost of Cartelization: The IPCC Process and the Crisis of Credibility in Climate Science, in Institutions and Incentives in Regulatory Science (Lanham, MD, Lexington Books).Google Scholar
Johnston, Jason Scott & Klick, Jonathan (2012). Fire Suppression Policy, Weather, and Western Wildland Fire Trends: An Empirical Analysis, in Wildfire Policy: Law and Economics Perspectives 158–177 (Bradshaw, Karen M. & Lueck, Dean eds., Washington, D.C.: RFF Press).Google Scholar
Joskow, Paul L. (2011). Comparing the Costs of Intermittent and Dispatchable Electricity Generating Technologies, 100 (3) American Economic Review: Papers and Proceedings 238–241, DOI 10.1257/aer.101.3.238.Google Scholar
Joskow, Paul L. (2008). Capacity Payments in Imperfect Electricity Markets: Need and Design, 16 (3) Utilities Policy 159–170, DOI 10.1016/j.jup.2007.10.003.Google Scholar
Joskow, Paul L. & Tirole, Jean (2005). Merchant Transmission Investment, 53 (2) Journal of Industrial Economics 233–264.Google Scholar
Kahan, Dan (2012, August 16). Why We Are Poles Apart on Climate Change, 488 Nature 255, DOI 10.1038/488255a.Google Scholar
Kahan, Dan M., Peters, Ellen, Wittlin, Maggie, Slovic, Paul, Ouellette, Lisa Larrimore, Braman, Donald & Mandel, Gregory (2012). The Polarizing Impact of Science Literacy and Numeracy on Perceived Climate Change Risks, 2 Nature Climate Change 732–735.Google Scholar
Kala, Manrata (2017, December). Learning, Adaptation, and Climate Uncertainty: Evidence from Indian Agriculture, MIT Center for Energy and Environmental Policy Research, CEEPR Working Paper 2017–023.Google Scholar
Kalil, Ariel & Wrightman, Patrick (2011). Parental Job Loss and Children’s Educational Attainment in Black and Middle-Class Families, 92 (1) Social Science Quarterly 57–78, DOI 10.1111/j.1540-6237.2011.00757.x.CrossRefGoogle ScholarPubMed
Kalkstein, Laurence S., Greene, Scott, Mills, David M. & Samenow, Jason (2011). An Evaluation of Progress in Reducing Heat-Related Human Mortality in Major US Cities, 56 Natural Hazards 113–129, DOI 10.1007/s11069-010-9552-3.CrossRefGoogle Scholar
Kalnay, Eugenia & Cai, Ming (2003). Impact of Urbanization and Land-Use Change on Climate, 423 Nature 528–531, DOI 10.1038/nature01675.Google Scholar
Kaptué, Amerl T., Prihodko, Lara & Hanan, Niall P., et al. (2015). On Regreening and Degradation in Sahelian Watersheds, 112 (39) Proceedings of the National Academy of Sciences 12133–12138, DOI 10.1073/pnas.1509645112.Google Scholar
Karl, Thomas R., Williams, Claude N., Jr., Young, Pamela J. & Wendland, Wayne M. (1986). A Model to Estimate the Time of Observation Bias Associated with Monthly Mean Maximum, Minimum and Mean Temperatures for the United States, 25 Journal of Climate and Applied Meteorology 145–160, DOI 10.1175/1520-0450(1986)025<0145:AMTETT>2.0.CO;2.Google Scholar
Kaufmann, Robert K. & Snell, Seth E. (1997). A Biophysical Model of Corn Yield: Integrating Climate and Social Determinants, 79 (1) American Journal of Agricultural Economics 178–190, DOI 10.2307/1243952.Google Scholar
Keall, Michael D. & Newstead, Stuart (2008). Are SUVs Dangerous Vehicles? 40 (3) Accident Analysis and Prevention 954–963, DOI 10.1016/j.aap.2007.11.001.Google Scholar
Keeling, Charles D. & Bacastow, Robert B. (1977). Impact of Industrial Gases on Climate, 72–73 Energy and Climate 81–82.Google Scholar
Kellogg, W. W. (1977). Effects of Human Activities on Global Climate, Geneva, WMO Technical Report Note No. 156, P. 49.Google Scholar
Kellogg, W. W., Coakley, J. A. & Grams, G. W. (1975). Effect of Anthropogenic Aerosols on the Global Climate, in Proc. WMO/IMAP Symposium on Long-Term Climatic Fluctuations 323–330.Google Scholar
Kennedy, Brian (2016, February 25). Public Support for Environmental Regulations Varies by State, Pew Research Center FactTank.Google Scholar
Kent, Chris, Pope, Edward, Thompson, Vikki, Kirsty, Lewis, Scaife, Adam A. & Dunstone, Nick (2017). Using Climate Model Simulations to Assess the Current Climate Risk to Maize Production, 12 Environmental Research Letters 054012.Google Scholar
Kiehl, Jeffrey T. (2007). Twentieth Century Climate Model Response and Climate Sensitivity, 34 Geophysical Research Letters L22710, DOI 10.1029/2007GL031383.Google Scholar
Kim, Maeang-Ki & Kim, Seonae (2011). Quantitative Estimates of Warming by Urbanization in South Korea over the Past 55 Years (1954–2008), 45 Atmospheric Environment 5778–5783, DOI 10.1016/j.atmosenv.2011.07.028.CrossRefGoogle Scholar
Kimball, Bruce A. (2016). Crop Responses to Elevated CO2 and Interactions with H2O, N and Temperature, 31 Current Opinion in Plant Biology 36–43, DOI 10.1016/j.pbi.2016.03.006.Google Scholar
King, Matt A., Keshin, Maxim, Whitehouse, Pippa L., Thomas, Ian D., Milne, Glenn & Riva, Riccardo E. M. (2012). Regional Biases in Absolute Sea-Level Estimates from Tide Gauge Data due to Residual Unmodeled Vertical Land Movement, 39 Geophysical Research Letters L14604, DOI 10.1029/2012GL052348.Google Scholar
Kirschen, S. & Strbac, Goran (2019). Fundamentals of Power System Economics 155–167 (Hoboken, NJ, Wiley Publishing, 2nd ed.).Google Scholar
Klier, Thomas & Linn, Joshua (2010). Corporate Average Fuel Economy Standards and the Market for New Vehicles, 3 (1) Annual Review of Resource Economics 445–462, DOI 10.1146/annurev-resource-083110–120023.Google Scholar
Klier, Thomas & Linn, Joshua (2012). New-Vehicle Characteristics and the Cost of the Corporate Average Fuel Economy Standard, 43 (1) RAND Journal of Economics 186–213, DOI 10.1111/j.1756-2171.2012.00162.x.Google Scholar
Kloppenburg, J. Ralph (1988). First the Seed: The Political Economy of Plant Biotechnology, 1492–2000 (Cambridge: Cambridge University Press).Google Scholar
Klotzbach, Philip J. & Landsea, Christopher W. (2015). Extremely Intense Hurricanes: Revisiting Webster et al. [2005] after 10 Years, 28 Journal of Climate 7621–7629, DOI 10.1175/JCLI-D-15-0188.1.CrossRefGoogle Scholar
Klotzbach, Philip J., Pielke, Roger A., Sr., Pielke, Roger A., Jr., Christy, John R. & McNider, Richard T. (2009). An Alternative Explanation for Differential Temperature Trends at the Surface and in the Lower Troposphere, 114 Journal of Geophysical Research D21102, DOI 10.1029/2009JD011841.Google Scholar
Knutti, Reto (2008). Why Are Climate Models Reproducing the Observed Global Surface Warming So Well? 35 Geophysical Research Letters L18704, DOI 10.1029/2008GL034932.CrossRefGoogle Scholar
Kober, Amy S. (2019, June 27). Twenty Years of Dam Removal Successes – and What’s Up Next: The lesson from the Kennebec after Twenty Years? Dam Removal Works., American Rivers.Google Scholar
Kolstad, Charles D. & Moore, Frances C. (2019, February). Estimating the Economic Impacts of Climate Change Using Weather Observations, NBER Working Paper No. 25537.Google Scholar
Kontokosta, Constantine E., Reina, Vincent J. & Bonczak, Bartosz (2020). Energy Cost Burdens for Low-Income and Minority Households, 86 (1) Journal of the American Planning Association 89–105, DOI 10.1080/01944363.2019.1647446.Google Scholar
Koonin, Steven (2017, April 20). A Red Team Exercise Would Strengthen Climate Science, Wall Street Journal.Google Scholar
Kosonen, R. & Tan, F. (2004). Assessment of Productivity Loss in Air-Conditioned Buildings Using PMV Index, 36 Energy and Buildings 987–993, DOI 10.1016/j.enbuild.2004.06.021.Google Scholar
Kramer, Bruce M. (1978). The 1977 Clean Air Act Amendments: A Tactical Retreat from the Technology-Forcing Strategy?, 15 Urban Law Annual 103–157.Google Scholar
Krekel, Christian & Zerrahn, Alexander (2017). Does the Presence of Wind Turbines Have Negative Externalities for People in Their Surroundings? Evidence from Well-Being Data, 82 Journal of Environmental Economics & Management 221–238, DOI 10.1016/j.jeem.2016.11.009.Google Scholar
Krier, James E. & Ursin, Edmund (1978). Pollution and Policy: A Case Essay on California and Federal Experience with Motor Vehicle Air Pollution, 1940–1975 (Berkeley, CA: University of California Press).Google Scholar
Kroposki, Benjamin (2017). Integrating High Levels of Variable Renewable Energy into Electric Power Systems, 5 (6) Journal of Modern Power Systems and Clean Energy 831–837, DOI 10.1007/s40565-017-0339-3.Google Scholar
Kukal, Meetpal S. & Irmak, Suat (2019). Irrigation-Limited Yield Gaps: Trends and Variability in the United States Post-1950, 1 Environmental Research Communications 061005, DOI 10.1088/2515-7620/ab2aee.Google Scholar
Kupperman, Karen Ordahl (1982). The Puzzle of the American Climate in the Early Colonial Period, 87 (5) American Historical Review 1262–1289.Google Scholar
Kysar, Douglas A. (2011). What Climate Change Can Do about Tort Law, 41 (1) Environmental Law 1–71.Google Scholar
Kysar, Douglas A. (2004). Climate Change, Cultural Transformation, and Comprehensive Rationality, 31 Boston College Environmental Affairs Law Review 555–567.Google Scholar
Lambert, David K. (2014). Historical Impacts of Precipitation and Temperature on Farm Production in Kansas, 46 Journal of Agricultural and Applied Economics 439–456, DOI 10.22004/ag.econ.189144.Google Scholar
Landsea, Christopher W., Vecchi, Gabriel A., Bengtsson, Lennart & Knutson, Thomas R. (2010). Impact of Duration Thresholds on Atlantic Tropical Cyclone Counts, 23 (10) Journal of Climate 2508–2519, DOI 10.1175/2009JCLI3034.1.Google Scholar
Landsea, Christopher W. & Gray, William M. (1992). The Strong Association between Western Sahelian Monsoonal Rainfall and Atlantic Hurricanes, 5 (5) Journal of Climate 435–453, DOI 10.1175/1520-0442(1992)005<0435:TSABWS>2.0.CO;2.Google Scholar
Landy, Marc K., Robert, Marc J. & Thomas, Stephen R. (1994). The Environmental Protection Agency: Asking the Wrong Questions Nixon to Clinton (New York and Oxford: Oxford University Press).Google Scholar
Leena, G. & Hook, M. (2015). Assessing Rare Metal Availability: Challenges for Solar Energy Technologies, 7 (9) Sustainability 11818–11837, DOI 10.3390/su70911818.Google Scholar
Leggett, Jane A., Bruner, Emily & Lattanzio, Richard K. (2013, September). Federal Climate Change Funding from FY 2008 to FY 2014, Congressional Research Service Report R43227.Google Scholar
Lehner, Flavio, Born, Andreas, Raible, Christoph C. & Stocker, Thomas F. (2013). Amplified Inception of European Little Ice Age by Sea Ice–Ocean–Atmosphere Feedbacks, 26 (19) Journal of Climate 7586–7602, DOI 10.1175/JCLI-D-12-00690.1.Google Scholar
Lenton, Timothy M. (2000). Land and Ocean Carbon Cycle Feedback Effects on Global Warming in a Simple Earth System Model, 52 (5) Tellus B: Chemical and Physical Meteorology 1159–1188, DOI 10.3402/tellusb.v52i5.17097.Google Scholar
Levinson, Arik (2016, December). Energy Efficiency Standards Are More Regressive than Energy Taxes, NBER Working Paper No. 22956, available at http://www.nber.org/papers/w22956.Google Scholar
Lewis, Nicholas & Crok, Marcel (2014). A Sensitive Matter: How the IPCC Buried Evidence Showing Good News about Global Warming, Global Warming Policy Foundation.Google Scholar
Lewis, Nicholas & Curry, Judith (2018). The Impact of Recent Forcing and Ocean Heat Uptake Data on Estimates of Climate Sensitivity, 31 (15)Journal of Climate 6051–6071, DOI 10.1175/JCLI-D-17–0667.1.Google Scholar
Lewis, Nicholas & Curry, Judith (2015). The Implications for Climate Sensitivity of AR5 Forcing and Heat Uptake Estimates, 45 Climate Dynamics 1009–1023, DOI 10.1007/s00382-014–2342-y.Google Scholar
Li, Peng, Peng, Changhui, Wang, Meng, Li, Weizhong, Zhao, Pengxiang, Wang, Kefeng, Yang, Yanzheng & Zhu, Qiuan (2017). Quantification of the Response of Global Terrestrial Net Primary Production to Multifactor Climate Change, 76 Ecological Indicators 245–255, DOI 10.1016/j.ecolind.2017.01.021.Google Scholar
Lindzen, Richard S. (2007). Taking Greenhouse Warming Seriously, 18 (7–8) Energy & Environment 937–950.CrossRefGoogle Scholar
Lindzen Richard, S., Chou, Ming-Dah & Hou, Arthur Y. (2001). Does the Earth Have an Adaptive Infrared Iris?, 82 (3) Bulletin of the American Meteorological Society 417–432.2.3.CO;2>CrossRefGoogle Scholar
Ling, Geoffrey & Bextine, Blake (2017, June 26). Precision Farming Increases Crop Yields, Scientific American.Google Scholar
Linton, J. (1991). Guest Editorial, The James Bay Hydroelectric Project: Issue of the Century, 44 (3) Artic Institute of North America iii–iv.Google Scholar
Lipton, Eric & Krauss, Clifford (2011, November 11). A Gold Rush of Subsidies in Clean Energy Research, New York Times.Google Scholar
Liu, Run, Liou, Kuo-Nan, Su, Hui, Gu, Yu, Zhao, Bin, Jiang, Jonathan H. & Liu, Shaw Chen (2017). High Cloud Variations with Surface Temperature from 2002 to 2015: Contributions to Atmospheric Radiative Cooling Rate and Precipitation Changes, 122 Journal of Geophysical Research Atmospheres 5457–5471, DOI 10.1002/2016JD026303.Google Scholar
Liu, Zhengyu (2012). Dynamics of Interdecadal Climate Variability: A Historical Perspective, 25 (6) Journal of Climate 1963–1995, DOI 10.1175/2011JCLI3980.1.Google Scholar
Liu, Zhengyu, Zhua, Jiang, Rosenthal, Yair, et al. (2014). The Holocene Temperature Conundrum, 111 (34) Proceedings of the National Academy of Sciences E3501–E3505, DOI 10.1073/pnas.1407229111.Google Scholar
Loss, Scott R., Will, Tom & Marra, Peter P. (2013). Estimates of Bird Collision Mortality at Wind Facilities in the Contiguous United States, 168 Biological Conservation 201–209, DOI 10.1016/j.biocon.2013.10.007.Google Scholar
Lourantou, Anna, Lavrič, Jošt V., Köhler, Peter, Barnola, Jean‐Marc, Paillard, Didier, Michel, Elisabeth, Raynaud, Dominique & Chappellaz, Jérôme (2010). Constraint of the CO2 Rise by New Atmospheric Isotopic Measurements during the Last Deglaciation, 24 Global Biogeochemistry Cycles GB2015, DOI 10.1029/2009GB003545.Google Scholar
Luo, Jing-Jia & Yamagata, Toshio (2001). Long-Term El Nino-Southern Oscillation (ENSO)-Like Variation with Special Emphasis on the South Pacific, 106 Journal of Geophysical Research 22211–22212, DOI 10.1029/2011JD016690.Google Scholar
Lyman, John M. & Johnson, Gregory C. (2014). Estimating Global Ocean Heat Content Changes in the Upper 1800 m since 1950 and the Influence of Climatology Choice, 27 Journal of Climate 1945–1957.Google Scholar
MacDonald, Robert & Siegel, Daniel (1986). The Value of Waiting to Invest, 101 (4) Quarterly Journal of Economics 707–727, DOI 10.2307/1884175.Google Scholar
Maguire, Karen & Munasib, Abdul (2016). The Disparate Influence of State Renewable Portfolio Standards on Renewable Electricity Generation Capacity, 92 (3) Land Economics 468–490, DOI 10.3368/le.92.3.468.Google Scholar
Mahaffey, James (2009). Atomic Awakening: A New Look at the History and Future of Nuclear Power. (New York, Pegasus Books).Google Scholar
Mahmood, Razaul, Pielke, Roger A., Sr., Hubbard, Kenneth G., et al. (2014). Review: Land Cover Changes and Their Biogeophysical Effects on Climate, 34 International Journal of Climatology 929–953, DOI 10.1002/joc.3736.Google Scholar
Manabe, D. & Wetherald, R. T. (1975). The Effects of Doubling the Carbon Dioxide Concentration on the Climate of a General Circulation Model, 32 Journal of Atmospheric Science 3–15, DOI 10.1175/1520-0469(1975)032<0003:TEODTC>2.0.CO;2.Google Scholar
Mao, Hude, Wang, Hongwei, Liu, Shengxue, Zhigang, Li, Yang, Xiaohong, Yan, Jianbing, Li, Jiansheng, Tran, Lam-Son Phan & Qin, Feng (2015). A Transposable Element in a NAC Gene Is Associated with Drought Tolerance in Maize Seedlings, 6 Nature Communications 8326, DOI 10.1038/ncomms9326.Google Scholar
Maranz, S. & Weisman, Z. (2003). Evidence for Indigenous Selection and Distribution of the Shea tree, Vitellaria paradoxa, and Its Potential Significance to Prevailing Parkland Savanna Tree Patterns in Sub-Saharan Africa North of the Equator, 30 (10) Agriculture 1505, DOI 10.1046/j.1365-2699.2003.00892.x.Google Scholar
Maraun, Douglas (2016). Bias Correcting Climate Change Simulations – a Critical Review, 2 Current Climate Change Reports 211–220, DOI 10.1007/s40641-016-0050-x.Google Scholar
Marcott, Shaun A., Shakun, Jeremy D., Clark, Peter U. & Mix, Alan C. (2013). A Reconstruction of Regional and Global Temperature for the Past 11,300 Years, 339 (6124) Science 1198–1201, DOI 10.1126/science.1228026.Google Scholar
Marcott, Shaun A., Bauska, Thomas K., Buizert, Christo, et al. (2014). Centennial-Scale Changes in the Global Carbon Cycle during the Last Deglaciation, 514 Nature 616–620, DOI 10.1038/nature13799.Google Scholar
Markham, Penn N., Liu, Yilu & Young, Marcus (2013, July). Environmental Regulation Impacts on Eastern Interconnection Performance, Oak Ridge National Laboratory, Energy and Transportation Sciences Division.CrossRefGoogle Scholar
Marsicek, Jeremiah, Shuman, Bryan N., Bartlein, Patrick J., Shafer, Sarah L. & Brewer, Simon (2018). Reconciling Divergent Trends and Millennial Variations in Holocene Temperatures, 554 Nature 92–96, DOI 10.1038/nature25464.Google Scholar
Marten, Alex L. (2011, October 28). Transient Temperature Response Modeling in IAM’s: The Effects of Over Simplification on the SCC, 5 Economics E-Journal 2011–2018, DOI 10.5018/economics-ejournal.ja.2011-18.Google Scholar
Mashaw, Jerry L. & Harfst, David L. (1987). Regulation and Legal Culture: The Case of Motor Vehicle Safety, 4 Yale Journal on Regulation 257–316.Google Scholar
Massetti, Emanuele, Brown, Marilyn A., Lapsa, Melissa, Sharma, Isha, Bradbury, James, Cunliff, Colin & Li, Yufei (2017). Environmental Quality and the US Power Sector: Air Quality, Water Quality, Land Use and Environmental Justice, Oak Ridge National Laboratory of the US Department of Energy, ORNL/SPR-2016/772.Google Scholar
Matthews, Samuel W. (1976). What’s Happening to Our Climate, 150 National Geographic 581.Google Scholar
Mauritsen, Thorsten, Stevens, Bjorn, Roeckner, Erich, et al. (2012). Tuning the Climate of a Global Model, 4 (3) Journal of Advances in Modeling Earth Systems MA00A01, DOI 10.1029/2012MS000154.Google Scholar
Mazor, Kathleen M., Clauser, Brian E., Field, Terry, Yood, Robert A. & Gurwitz, Jerry H. (2002). A Demonstration of the Impact of Response Bias on the Results of Patient Satisfaction Surveys, 37 (5) Health Services Research 1403–1417, DOI 10.1111/1475-6773.11194.Google Scholar
McGuire, Karen & Munasib, Abdul (2018). Electricity Price Increases in Texas: What Is the Role of RPS?, 69 Environmental & Resource Economics 293–316, DOI 10.1007/s10640-016-0079-2.Google Scholar
McIntyre, Stephen & McKitrick, Ross (2005). Hockey Sticks, Principal Components, and Spurious Significance, 32 (3) Geophysical Research Letters L03710, DOI 10.1029/2004GL021750.Google Scholar
McKitrick, Ross M. (2012). Adversarial versus Consensus Processes for Assessing Scientific Evidence, in Institutions and Incentives in Regulatory Science 55 (Lanham, MA, Lexington Books).Google Scholar
McKitrick, Ross M., McIntyre, Stephen & Herman, Chad (2010). Panel and Multivariate Methods for Tests of Trend Equivalence in Climate Data Series, 11 Atmospheric Science Letters 270–277, DOI 10.1002/asl.290.Google Scholar
McKitrick, Ross M. & Vogelsang, Timothy J. (2014). HAC Robust Trend Comparisons among Climate Series with Possible Level Shifts, 25 Environmetrics 528–547, DOI 10.1002/env.2294.Google Scholar
McKitrick, Ross M. & Christy, John (2018). A Test of the Tropical 200–300 hPa Warming Rate in Climate Models, 5 (9) Earth & Space Science 529–536, DOI 10.1029/2018EA000401.Google Scholar
McKitrick, Ross M. & Michaels, Patrick J. (2007). Quantifying the Influence of Anthropogenic Surface Processes and Inhomogeneities in Gridded Global Temperature Data, 112 Journal of Geophysical Research D24S09, DOI 10.1029/2007JD009465.Google Scholar
McKitrick, Ross M. & Neirenberg, Nicolas (2010). Socioeconomic Patterns in Climate Data, 35 Journal of Economic and Social Measurement 149–175, DOI 10.3233/JEM-2010-0336.Google Scholar
McLean, J. D., De Freitas, C. R. & Carter, R. M. (2009). Influence of the Southern Oscillation on Tropospheric Temperature, 114 Journal of Geophysical Research D14104, DOI 10.1029/2008JD011637.Google Scholar
McNider, R. T., Shi, Z., Friedman, M. & England, D. E. (1995), On the Predictability of the Stable Atmospheric Boundary Layer, 52 Journal of Atmospheric Sciences 1602–1614.Google Scholar
Meinshausen, M., Meinshausen, N., Hare, W., Raper, S., Frieler, K., Frame, D. & Allen, M. (2009). Greenhouse-Gas Emission Targets for Limiting Global Warming to 2C, 458 Nature 1158–1162.Google Scholar
Meko, David M., Woodhouse, Connie A., Baisan, Christopher A., Knight, Troy, Lukas, Jeffrey J., Hughes, Malcom K. & Salzer, Matthew W. (2007). Medieval Drought in the Upper Colorado River Basin, 34 (10) Geophysical Research Letters L10705, DOI 10.1029/2007GLR029988.Google Scholar
Menne, Matthew J., Williams, Claude N., Jr. & Vose, Russell S. (2009). The US Historical Climatology Network Monthly Temperature Data, Version 2, 90 (7) Bulletin of the American Meteorological Society 993–1007, DOI 10.1175/2008BAMS2613.1.Google Scholar
Mendelsohn, Robert, Nordhaus, William & Shaw, David (1994). The Impact of Global Warming on Agriculture: A Ricardian Analysis, 84 American Economic Review 753–771.Google Scholar
Mensing, Scott, Smith, Jeremy, Norman, Kelly Burkle & Allan, Marie (2008). Extended Drought in the Great Basin of Western North America in the Last Two Millennia Reconstructed from Pollen Records, 188 Quaternary International 79–89, DOI 10.1016/j.quaint.2007.06.009.Google Scholar
Metcalf, Gilbert E. (2019). The Distributional Impacts of US Energy Policy, 129 Energy Policy 926–929, DOI 10.1016/j.enpol.2019.01.076.Google Scholar
Metcalf, Gilbert E. (2009). Investment in Energy Infrastructure and the Tax Code, National Bureau of Economic Research Working paper 15429.Google Scholar
Michaels, Patrick J. & Knappenburger, Paul C. (2015). Lukewarming: The New Climate Science That Changes Everything 97–124 (Cato Institute).Google Scholar
Millar, Richard J., Fuglestvedt, Friedlingstein, Pierre, Rogelj, et al. (2017). Emission Budgets and Pathways Consistent with Limiting Warming to 1.5 C, 10 Nature Geoscience 740–748, DOI 10.1038/ngeo3031.Google Scholar
Miller, James A. (2011). Urban and Regional Temperature Trends in Las Vegas and Southern Nevada, 43 (1) Journal of the Arizona-Nevada Academy of Science 27–39, DOI 10.2181/036.043.0105.Google Scholar
Miller, Jonathan (2011). Double Absurdity: Regulating Greenhouse Gas under the Clean Air Act, 47 Houston Law Review 1389–1420.Google Scholar
Miller, Gifford H., Geirsdóttir, Áslaug, Zhong, Yafang, et al. (2012). Abrupt Onset of the Little Ice Age Triggered by Volcanism and Sustained by Sea‐Ice/Ocean Feedbacks, 39 (2) Geophysical Research Letters L02708, DOI 10.1029/2011GL050168.Google Scholar
Minobe, Shoshiro (1997). A 50–70 Year Oscillation over the North Pacific and North America, 24 (6) Geophysical Research Letters 683–686, DOI 10.1029/97GL00504.Google Scholar
Minobe, Shoshiro (1999). Resonance in Bidecadal and Pentadecadal Climate Oscillations Over the North Pacific: Role in Regime Shifts, 26 Geophysical Research Letters 855–858, DOI 10.1029/1999GL900119.Google Scholar
Mitchell, J. Murray Jr. (1977). The Changing Climate, in National Research Council, Energy and Climate: Studies in Geophysics 51–58.Google Scholar
Moffa-Sanchez, Poala & Hall, Ian R. (2017). North Atlantic Variability and Its Links to European Climate over the Last 3000 Years, 8 Nature Communications 1726, DOI 10.1038/s41467-017-01884-8.Google Scholar
Mohan, Manju & Kandya, Anurag (2015). Impact of Urbanization and Land-Use/Land-Cover Change on Diurnal Temperature Range: A Case Study of Tropical Urban Airshed of India Using Remote Sensing Data, 506–507 Science of the Total Environment 453–465, DOI 10.1016/j.scitotenv.2014.11.006.Google Scholar
Moore, Mark A., Boardman, Anthony E. & Vining, Aidan R. (2012). More Appropriate Discounting: The Rate of Social Time Preference and the Value of the Social Discount Rate, 4 (1) Journal of Benefit-Cost Analysis 1–16, DOI 10.1515/jbca-2012-0008.Google Scholar
Morales, Janin Guzman (2018). Santa Ana Winds of Southern California: Historical Variability and Future Climate Projections. PhD Dissertation, UC San Diego. ProQuest ID: GuzmanMorales_ucsd_0033D_17854. Merritt ID: ark:/13030/m5fj7dph, retrieved from https://escholarship.org/uc/item/6hm499nj.Google Scholar
Mortimore, Michael (2010). Adapting to Drought in the Sahel: Lessons for Climate Change, 1 WIREs Climate Change 134, DOI 10.1002/wcc.25.Google Scholar
Mortimore, Michael & Adams, William (2001). Farmer Adaptation, Change and ‘Crisis’ in the Sahel, 11 Global Environmental Change 49–57, DOI 10.1016/S0959-3780(00)00044-3.Google Scholar
Murray, William (2018, January 17). New Englanders Have Only Themselves to Blame for Energy Price Spikes, Real Clear Energy.Google Scholar
Myhre, Gunnar, Highwood, Eleanor J., Shine, Keith P. & Stordal, Frode (1998). New Estimates of Radiative Forcing due to Well Mixed Greenhouse Gases, 25(14) Geophysical Research Letters 2715–2718.Google Scholar
Nagle, John C. (2013). Green Harms of Green Projects, 27 Notre Dame Journal of Law, Ethics and Public Policy 59–102.Google Scholar
Nagy, R. Chelsea, Fusco, Emily, Bradley, Bethany, Abatzoglou, John T. & Balch, Jennifer (2018). Human-Related Ignitions Increase the Number of Large Wildfires across US Ecoregions, 1 Fire 4, DOI 103390/fire1010004.Google Scholar
National Research Council (1977). Energy and Climate: Studies in Geophysics (Washington, DC: The National Academies Press), DOI 10.17226/12024.Google Scholar
National Research Council (2006). Surface Temperature Reconstructions for the Last 2,000 Years (Washington, DC: The National Academies Press), DOI 10.17226/11676.Google Scholar
Nemani, Ramakrishna R., Keeling, Charles D. & Hashimoto, Hirofumi (2003). Climate-Driven Increases in Global Terrestrial Net Primary Production from 1982 to 1999, 300 Science 1560–1563.Google Scholar
NERC (2014, November 14) Potential Reliability Impacts of EPA’s Proposed Clean Power Plan: Initial Reliability Review 18Google Scholar
Newman, Matthew, Alexander, Michael A., Ault, Toby R., et al. (2016). The Pacific Decadal Oscillation Revisited, 29 (12) Journal of Climate 4399–4427, DOI 10.1175/JCLI-D-15-0508.1.Google Scholar
Nevius, David (2020). History of the North American Electric Reliability Corporation 1–6, NERC.Google Scholar
Nicholson, S. E., Funk, Chris & Fink, Andreas H. (2018). Rainfall over the African Continent from the 19th through the 21st Century, 165 Global and Planetary Change 114–127, DOI 10.1016/j.gloplacha.2017.12.014.Google Scholar
Nordhaus, William (2008). A Question of Balanced: Weighing the Options on Global Warming Policies 144 (Yale University Press) .Google Scholar
Nordhaus, William (2014). Estimates of the Social Cost of Carbon: Concepts and Results from the DICE-2013R Model and Alternative Approaches, 1 Journal of the Association of Environmental and Resource Economists 273–312, DOI 10.1086/676035.Google Scholar
Nordhaus, William & Boyer, Joseph (2000). Warming the World: Economic Models of Global Warming 69–98 (MIT Press).Google Scholar
Novak, William J. (1996). The People’s Welfare 61 (Chapel Hill and London: University of North Carolina Press, 3rd Ed.).Google Scholar
Olmstead, Alan L. & Rhode, Paul W. (2008). Creating Abundance: Biological Innovation and American Agricultural Development (Cambridge University Press).Google Scholar
Oreskes, Naomi (2004) (corrected 2005, January Erratum). The Scientific Consensus on Climate Change, 306 Science 1686, DOI 10.1126/science.1103618.Google Scholar
O’Riordan, R. & Jager, J., eds. (1996). Politics of Climate Change: A European Perspective 346 (London and New York, Routledge).Google Scholar
Pacific Gas & Electric Company (2011) Smart Grid Deployment Plan 2011–2020, California Public Utilities Commission, Appendix A: PG&E’s Smart Grid Deployment Plan 2Google Scholar
Pacific Gas & Electric Company (2015) Smart Grid Annual Report, California Public Utilities Commission.Google Scholar
Pacific Gas & Electric Company (2017) Smart Grid Annual Report, California Public Utilities Commission.Google Scholar
Pacific Gas & Electric Company (2018). PG&E Clean Energy Deliveries Already Meet Future Goals.Google Scholar
Palmer, M. D., Roberts, C.D., Balmaseda, M., et al. (2017). Ocean Heat Content Variability and Change in an Ensemble of Ocean Reanalyse, 49 Climate Dynamics 909–930, DOI 10.1007/s00382-015-2801-0.Google Scholar
Palmer, Karen, Burtraw, Dallas, Bharvirkar, Ranjit & Paul, Anthony (2010). Restructuring and Cost of Reducing NOx Emissions in Electricity Generation, RFF Discussion Paper 01/10.Google Scholar
Paregoi, Ian M. (1998). Shocking Revelations at Hydro-Quebec: The Environmental and Legal Consequences of the Quebec–New York Power Line, 7 Penn State International Law Review 155–174.Google Scholar
Park, Jisung (2017, May). Will We Adapt? Labor Productivity and Adaptation to Climate Change, Harvard Environmental Economics Program, Discussion Paper 17–73.Google Scholar
Parrenin, F., Masson-Delmotte, V., Köhler, P., Raynaud, D., Paillard, D., Schwander, J., Barbante, C., Landais, A., Wegner, A. & Jouzel, J. (2013). Synchronous Change of Atmospheric CO2 and Antarctic Temperature during the Last Deglacial Warming, 339 Science 1060–1063, DOI 10.1126/science.1226368.Google Scholar
Past Interglacials Working Group of PAGES (2016). Interglacials of the Last 800,000 Years, 54 Reviews of Geophysics 162–219, DOI 10.1002/2015RG000482.Google Scholar
Pawa, Matthew F. (2005). Global Warming as a Public Nuisance: Connecticut v. American Electric Power, 16 Fordham Environmental Law Review 407–473.Google Scholar
Penn, Ivan & Eavis, Peter (2019, January 17). PG&E Bankruptcy Could Deal Blow to Its Solar-Power Suppliers’ Finances, New York Times.Google Scholar
Percival, Robert V. (2006). Who’s Afraid of the Precautionary Principle?, 23 Pace Environmental Law Review 21–47.Google Scholar
Pierce, Richard J., Jr. (1982). Natural Gas Regulation, Deregulation, and Contracts, 68 (1) Virginia Law Review 63–115, DOI 10.2307/1072705.Google Scholar
Pielke, Roger, Jr. (2007). The Honest Broker: Making Sense of Science in Policy and Politics, 2–7 (Cambridge University Press).Google Scholar
Pielke, Roger, Jr. (2000). Policy History of the US Global Change Research Program: Part I. Administrative Development, 10 (1) Global Environmental Change 9–25, DOI 10.1016/S0959-3780(00)00006-6.Google Scholar
Pielke, Roger, Jr. (1995). Usable Information for Policy: An Appraisal of the US Global Change Research Program, 28 (1) Policy Sciences 39–77, DOI 10.1007/BF01000820.Google Scholar
Pielke, Roger A., Sr., Davey, Christopher A., Niyogi, Dev, et al. (2007). Unresolved Issues with the Assessment of Multidecadal Global Land Surface Temperature Trends, 112 Journal of Geophysical Research D24S08, DOI 10.1029/2006JD008229.Google Scholar
Pielke, Roger, Sr. & Wilby, Robert L. (2012). Regional Climate Downscaling: What’s the Point, 93 (5) Eos 52–53, DOI 10.1029/2012EO050008.Google Scholar
Pindyck, Robert S. (1991). Irreversibility, Uncertainty, and Investment, 26 (3) Journal of Economic Literature 1110–1148.Google Scholar
Pindyck, Robert S. (2011). Fat Tails, Thin Tails, and Climate Change Policy, 5 (2) Review of Environmental Economics and Policy 258–274, DOI 10.1093/reep/rer005.Google Scholar
Pindyck, Robert S. (2013). Climate Change Policy: What Do the Models Tell Us?, 51 Journal of Economic Literature 860–872, DOI 10.1257/jel.51.3.860.Google Scholar
Plastina, Alejandro & Hart, Chad (2014, Fall). Crop Insurance in Iowa, CARD Agricultural Policy Review, Iowa State University.Google Scholar
Polgreen, Lydia (2007, February 11). In Niger, Trees and Crops Turn Back the Desert, New York Times.Google Scholar
Pringle, Peter (2008). The Murder of Nikolai Vavilov: The Story of Stalin’s Persecution of One of the Great Scientists of the Twentieth Century, New York, London (Sydney, Simon and Shuster).Google Scholar
Proett, Michael A. (1987). Cumulative Impacts of Hydroelectric Development: Beyond the Cluster Impact Procedure, 11 Harvard Environmental Law Review 77–146.Google Scholar
Pylant, , Cortney L., Nelson, , David M., Fitzpatrick, , Matthew C., Gates, , J. Edward & Keller, , Stephen R. (2016). Geographic Origins and Population Genetics of Bats Killed at Wind‐Energy Facilities, 26(5) Ecological Applications 1381–1395.Google Scholar
Quayle, Robert G., Easterline, David R., Karl, Thomas R. & Hughes, Pamela Y. (1991). Effects of Recent Thermometer Changes in the Cooperative Station Network, 72 (11) Bulletin of the American Meteorological Society 1718–1723, DOI 10.1175/1520-0477(1991)072<1718:EORTCI>2.0.CO;2.Google Scholar
Radeloff, Volker C., Helmers, David P., Kramer, H. Anu, et al. (2018). Rapid Growth of the US Wildland–Urban Interface Raises Wildfire Risk, 115 (13) Proceedings of the National Academy of Sciences 3314–3319, DOI 10.1073/pnas.1718850115.Google Scholar
Ramanathan, V. & Carmichael, G. (2008). Global and Regional Climate Changes due to Black Carbon, 1 Nature Geoscience 221, 222, DOI 10.1038/ngeo156.Google Scholar
Rand, Joseph T., Kramer, Louisa A., Garrity, Christopher P., Hoen, Ben D., Diffendorfer, Jay E., Hunt, Hannah E. & Spears, Michael (2020). A Continuously Updated, Geospatially Rectified Database of Utility-Scale Wind Turbines in the United States, 7 Nature Scientific Data 15, DOI 10.1038/s41597-020-0353-6.Google Scholar
Reich, P. F., Numbem, S. T., Almaraz, R. A. & Eswaran, H. (2014). Land Resource Stresses and Desertification in Africa, in Responses to Land Degradation. Proc. 2nd. International Conference on Land Degradation and Desertification, Khon Kaen, Thailand (E.M. Bridges et al., eds., New Delhi, India: Oxford Press)Google Scholar
Reifsnyder, S. D. (1992). The Policy of the USA on the Climate Change Convention, Seoul Symposium on UNCED and Prospects of the Environmental Regime in the 21st Century.Google Scholar
Ren, Guo-Yu (2015). Urbanization as a Major Driver of Urban Climate Change, 6 Scipedia 1–6.Google Scholar
Renewables Now (2020, January). Wind Meets Record 47% of Denmark’s Power Demand in 2019.Google Scholar
Ring, Michael J., Lindner, Daniela, Cross, Emily F. & Schlesinger, Michael E. (2012). Causes of the Global Warming Observed since the 19th Century, 2 (4) Atmospheric and Climate Science 401–415, DOI 10.4236/acs.2012.24035.Google Scholar
Roberts, Michael J. & Schlenker, Wolfram (2011). The Evolution of Heat Tolerance of Corn: Implications for Climate Change, The Economics of Climate Change: Adaptations Past and Present 225, 239, 241 (Gary D. Libecap & Richard H. Steckel, eds.).Google Scholar
Roberts, Michael J. & Schlenker, Wolfram (2012). Is Agricultural Production Becoming More or Less Sensitive to Extreme Heat? Evidence from U.S Corn and Soybean Yields, in The Design and Implementation of US Climate Policy 271 (Don Fullerton & Catherine Wolfram, eds.).Google Scholar
Rochester, H., Jr., Lloyd, Thomas & Farr, Martha (1984). Physical Impacts of Small-Scale Hydroelectric Facilities and Their Effects on Fish and Wildlife, FWS/OBS-84/19.Google Scholar
Roe, Gerald H. (2007, September). Feedbacks, Timescales, and Seeing Red 15–18, Draft Paper.Google Scholar
Roe, Gerald H. & Baker, Marcia B. (2007). Why Is Climate Sensitivity So Unpredictable?, 318 (5850) Science 629–632, DOI 10.1126/science.1144735.Google Scholar
Roe, Gerald H. & Bauman, Yoram (2013). Climate Sensitivity: Should the Climate Tail Wag the Policy Dog?, 117 Climatic Change 647–662, DOI 10.1007/s10584-012-0582-6.Google Scholar
Rosenzweig, Mark & Udry, Christopher R. (2013, August). Forecasting Profitability, NBER Working Paper No 19334.Google Scholar
Rosewater, David & Williams, Adam (2015). Analyzing System Safety in Lithium-Ion Grid Storage, 300 Journal of Power Sources 460–471, DOI 10.1016/j.jpowsour.2015.09.068.Google Scholar
Rothman, Daniel (2002). Atmospheric Carbon Dioxide Levels for the Last 500 Million Years, 99 (7) Proceedings of the National Academy of Sciences 4167–4171, DOI 10.1073/pnas.022055499.Google Scholar
Rotstayn, Leon D., Collier, Mark A., Shindell, Drew T. & Boucher, Olivier (2015). Why Does Aerosol Forcing Control Historical Global-Mean Surface Temperature Change in CMIP5 Models?, 28 Journal of Climate 6608–6625.Google Scholar
Rubin, E. S., Davison, John E. & Herzog, Howard J. (2015). The Cost of CO2 Capture and Storage, 40 International Journal of Greenhouse Gas Control 378–400, DOI 10.1016/j.ijggc.2015.05.018.Google Scholar
Rugh, David W. (2003). Clearer, but Still Toxic Skies: A Comparison of the Clear Skies Act, Congressional Bills, and the Proposed Rule to Control Mercury Emissions from Coal-Fired Power Plants, 28 Vermont Law Review 201–235.Google Scholar
Rule, Troy A. (2014). Solar, Wind and Land: Conflicts in Renewable Energy Development (London and New York, Routledge).Google Scholar
Sachs, Noah (2011). Rescuing the Strong Precautionary Principle from Its Critics. 2011 University of Illinois Law Review 1285–1338.Google Scholar
Sahagun, Louis (2016, September 2). This Mojave Desert Solar Plant Kills 6,000 Birds a Year. Here’s Why That Won’t Change Any Time Soon, Los Angeles Times.Google Scholar
Saikku, Reetta, Stott, Lowell & Thunell, Robert (2009). A Bi-polar Signal Recorded in the Western Tropical Pacific: Northern and Southern Hemisphere Climate Records from the Pacific Warm Pool during the Last Ice Age, 28 Quarternary Science Review 2374.Google Scholar
Sanderson, Michael G., Economou, Theo, Salmon, Kate H. & Jones, Sarah E. O. (2017). Historical Trends and Variability in Heat Waves in the United Kingdom, 8 (10) Atmosphere 191, DOI 10.3390/atmos8100191.Google Scholar
Santer, Benjamin D., Wigley, T. M. L., Mears, C., et al. (2005). Amplification of Surface Temperature Trends and Variability in the Tropical Atmosphere, 309 Science 1551–1556, DOI 10.1126/science.1114867.Google Scholar
Santer, Benjamin D., Thorne, P. W., Haimberger, L., et al. (2008). Consistency of Modelled and Observed Temperature Trends in the Tropical Troposphere, 28 International Journal of Climatology 1703–1722, DOI 10.1002/joc.Google Scholar
Santamaría-Gómeza, Alvaro, Gravelle, Médéric, Dangendorf, Sönke, Marcos, Marta, Spada, Giorgio & Wöppelmanna, Guy (2017). Uncertainty of the 20th Century Sea-Level Rise due to Vertical Land Motion Errors, 473 Earth & Planetary Science Letters 24–32, DOI 10.1016/j.epsl.2017.05.038.Google Scholar
Schimmelpfennig, David & Ebel, Robert (2016). Sequential Adoption and Cost Savings from Precision Agriculture, 41 (1) Journal of Agricultural and Resource Economics 97–115, DOI 10.22004/ag.econ.230776.Google Scholar
Schlenker, Wolfram, Hanemann, W. Michael & Fisher, Anthony C. (2005). Will US Agriculture Really Benefit from Global Warming? Accounting for Irrigation in the Hedonic Approach, 95 American Economic Review 395–406, DOI 10.1257/0002828053828455.Google Scholar
Schlenker, Wolfram & Roberts, Michael J. (2009). Nonlinear Temperature Effects Indicate Severe Damages to US Crop Yields under Climate Change, 106 Proceedings of the National Academy of Sciences 15594–15598, DOI 10.1073/pnas.0906865106.Google Scholar
Schmalensee, Richard & Stavins, Robert N. (2017). Lessons Learned from Three Decades of Experience with Cap and Trade, 11 (1) Review of Environmental Economics and Policy 59–79, DOI 10.1093/reep/rew017.Google Scholar
Schmidt, Gavin, Bader, David, Donner, Leo J., et al. (2017). Practice and Philosophy of Climate Model Tuning across Six US Modeling Centers, 10 Geoscientific Model Development 3207–3223, DOI 10.5194/gmd-10-3207-2017.Google Scholar
Schneider, Tapio (2006). The General Circulation of the Atmosphere, 34 Annual Review of Earth and Planetary Sciences 655–688, DOI 10.1146/annurev.earth.34.031405.125144.Google Scholar
Schnitkey, Gary (2016, August 2). Corn and Soybean Revenue Projections for 2016 and 2017, Weekly Farm Economics, 6 Farmdoc Daily 145.Google Scholar
Schober, Make (2011, July 11). Yield Enhancer or Farmland Destroyer?, Farm Journal Ag Web.Google Scholar
Schoengold, Karina, Ding, Ya & Headlee, Russell (2014). The Impact of Ad Hoc Disaster and Crop Insurance Programs on the Use of Risk-Reducing Conservation Tillage Practices, 97 American Journal of Agricultural Economics 897–919, DOI 10.1093/ajae/aau073.Google Scholar
Schwartz, John (2019, September 3). How Has Climate Change Affected Hurricane Dorian?, The New York Times.Google Scholar
Schwartz, Stephen E., Charlson, Robert J. & Rodhe, Henning (2007). Quantifying Climate Change, Quantifying Climate Change: Too Rosy a Picture?, 2 Nature Climate Change 23–24, DOI 10.1038/climate.2007.22.Google Scholar
Schwartz, Stephen E. (2008). Uncertainty in Climate Sensitivity: Causes, Consequences, Challenges, 1 Energy & Environmental Science 430–453, DOI 10.1039/B810350J.Google Scholar
Scott, Michael & Lindsey, Rebecca (2016. June 15). Which Emits More Carbon Dioxide: Volcanoes or Human Activities?, NOAA.Google Scholar
Seidel, Stephen & Keyes, Dale (1983, September). Can We Delay a Greenhouse Warming? The Effectiveness and Feasibility of Options to Slow a Build-up of Carbon Dioxide in the Atmosphere, Office of Policy and Resource Management.Google Scholar
Seigneur, , Christian, Vijayaraghavan, , Krish, Lohman, , Kristen, Karamchandani, , Prakash & Scott, , Courtney (2004). Global Source Attribution for Mercury Deposition in the United States, 8 Environmental Science and Technology 555–569.Google Scholar
Seppänen, Olli, Fisk, William J. & Lei-Gomez, Quanhong (2006, July). Room Temperature and Productivity in Office Work, LBNL- 60952.Google Scholar
Seneviratne, Shinthaka & Ozansoy, C. (2016). Frequency Response due to a Large Generator Loss with the Increasing Penetration of Wind/PV Generation – A Literature Review, 57 Renewable Energy and Sustainable energy Reviews 659–668, DOI 10.1016/j.rser.2015.12.051.Google Scholar
Service, Robert F. (2008). Study Fingers Soot as a Major Player in Global Warming, 319 (5871) Science 1745, DOI 10.1126/science.319.5871.1745.Google Scholar
Shakun, Jeremy D., Clark, Peter U., He, Feng, Marcott, Shaun A., Mix, Alan C., Liu, Zhengyu, Otto-Bliesner, Bette, Schmittner, Andreas & Bard, Edouard (2012). Global Warming Preceded by Increasing Carbon Dioxide Concentrations during the Last Deglaciation, 484 (7392) Nature 49–54, DOI 10.1038/nature10915.Google Scholar
Shapiro, Carl R., Starke, Genevieve M., Meneveau, Charles & Gayme, Dennice F. (2019). A Wake Modeling Paradigm for Wind Farm Design and Control, 12 (15) Energies 2956, DOI 10.3390/en12152956.Google Scholar
Sheffield, Justin, Wood, Eric F. & Roderick, Michael L. (2012). Little Change in Drought over the Past 60 Years, 491 Nature 435–438.Google Scholar
Shellenberger, Michael (2018, May 23). If Solar Panels Are So Clean, Why Do They Produce So Much Toxic Waste, Forbes.Google Scholar
Sheridan, Scott & Dixon, P. Grady (2017). Spatiotemporal Trends in Human Vulnerability and Adaptation to Heat across the United States, 20 Anthropocene 61–73, DOI 10.1016/j.ancene.2016.10.001.Google Scholar
Sheridan, Scott C., Kalkstein, Adam J. & Kalkstein, Laurence S. (2009). Trends in Heat-Related Mortality in the United States, 1975–2004, 50 Natural Hazards 145–160.Google Scholar
Sherwood, Steven C. & Huber, Matthew (2010). An Adaptability Limit to Climate Change due to Heat Stress, 107 (21) Proceedings of the National Academy of Sciences 9552–9555, DOI 10.1073/pnas.0913352107.Google Scholar
Shi, Xingzhong, McNider, Richard T., Singh, M. P., England, David E., Friedman, Mark J., Lapenta, William M. & Norris, William B. (2005). On the Behavior of the Stable Boundary Layer and Role of Initial Conditions, 162 Pure Applied Geophysics 1811–1829, DOI 10.1007/s00024-005-2694-7.Google Scholar
Shiau, Ching-Shin Norman, Michalek, Jeremy J. & Hendrickson, Chris T. (2009). A Structural Analysis of Vehicle Design Responses to Corporate Average Fuel Economy Policy, 43 (9–10) A Transportation Research Part 814–828, DOI 10.1016/j.tra.2009.08.002.Google Scholar
Shindell, Drew & Faluvegi, Greg (2009). Climate Response to Regional Radiative Forcing during the Twentieth Century, 2 (4) Nature Geoscience 294–300, DOI 10.1038/ngeo473.Google Scholar
Skeie, R. B., Bernsten, T., Aldrin, M., Holden, M. & Myhre, G. (2014). A Lower and More Constrained Estimate of Climate Sensitivity Using Updated Observations and Detailed Radiative Forcing Time Series, 5 Earth System Dynamics 139–175.Google Scholar
Smagorinsky, Joseph (1977). Modeling and Predictability in Energy and Climate, 133–139 (Washington, DC: National Academy Press).Google Scholar
Smagorinsky, Joseph (1982). Carbon Dioxide and the Climate: A Second Assessment (Washington, DC: National Academy Press).Google Scholar
Smith, Irene (1978, April). Carbon Dioxide and the “Greenhouse Effect” – An Unresolved Problem, IEA Coal Research, Report Number ICTIS/ER 01.Google Scholar
Smith, Joshua Emerson (2019, January 31) Climate Change Should Tamp Down California’s Wildfire-Fanning Santa Ana Winds, Study Finds, Los Angeles Times.Google Scholar
Smith, R. A. (1980), Golden Gate Tidal Measurements 1854–1978, Journal of the Waterways, Port Coastal and Ocean Division, Proceedings of the American Society of Civil Engineers 407–410.Google Scholar
Smith, Roger K., Montgomery, Michael T. & Vogl, Stefanie (2008). A Critique of Manuel’s Hurricane Model and Potential Intensity Theory, 134 Quarterly Journal of the Royal Meteorological Society 551–561.Google Scholar
Smith, S. J., vanAardenne, J., Klimont, Z., Andres, R. J., Volke, A. & Delgado Arias, S. (2011). Anthropogenic Sulfur Dioxide Emissions, 1850–2005, 11 Atmospheric Chemistry and Physics 1101–1116, DOI 10.5194/acp-11-1101-2011.Google Scholar
Smith, Thomas M. & Reynolds, Richard W. (2004). Improved Extended Reconstruction of SST (1854–1997), 17 Journal of Climate 2466–2477, DOI 10.1175/1520-0442(2004)017<2466:IEROS>2.0.CO;2.Google Scholar
Spencer, Jack (2015, January 31). One Lawsuit Settled, but No Truce in Wind Energy Debate, Michigan Capitol Confidential.Google Scholar
Spencer, Roy W. (2010). Climate Confusion: How Global Warming Hysteria Leads to Bad Science, Pandering Politicians and Misguided Policies That Hurt the Poor (New York: Encounter Books).Google Scholar
Spurgeon, Anne (2006). Premnatal Methylmercury Exposure and Developmental Outcomes: Review of Evidence and Discussion of Future Directions, 14(2) Environmental Health Perspectives 307–312.Google Scholar
Stacy, Thomas F. & Taylor, George F. (2019). The Levelized Cost of Electricity from Existing Generation Resources, Institute for Energy Research.Google Scholar
Stebbing, E. P. (1935). The Encroaching Sahara: The Threat to the West African Colonies, 85 (6) Geographical Journal 506–519.Google Scholar
Steckel, Richard H. (1983). The Economic Foundations of East-West Migration during the 19th Century, 20 Explorations in Economic History 14–36, DOI 10.1016/0014-4983(83)90040-2.Google Scholar
Steelman, J. D., Jr. (1986, June 1). Deregulation of the Natural Gas Industry, Foundation for Economic Education.Google Scholar
Stella, Christina (2019, September 10) Unfurling the Waste Problem Caused by Wind Energy, NPR.Google Scholar
Stephens, Graeme L. (2005). Cloud Feedbacks in the Climate System: A Critical Review, 18 Journal of Climate 237–273, DOI 10.1175/JCLI-3243.1.Google Scholar
Stevens, Landon (2017, June). The Footprint of Energy: Land Use of US Electricity Production, Strata.Google Scholar
Stickler, Mercedes (2002, August). Rights to Trees and Livelihoods in Niger, Focus on Land in Africa.Google Scholar
Stickler, Mercedes (2012). Rights to Trees and Livelihoods in Niger, Focus on Land in Africa, August, available at https://allafrica.com/download/resource/main/main/idatcs/00091087:4d2765c88e422343f911288bee9dae81.pdf.Google Scholar
Stott, Peter A., Stone, D. A. & Allen, M. R. (2004). Human Contribution to the European Heatwave of 2003, 432 Nature 610–614, DOI 10.1038/nature03089.Google Scholar
Stammer, Detlef & Cazenave, Anny, eds. (2017). Satellite Altimetry over Oceans and Land Surfaces. CRC Press.Google Scholar
Stenhouse, Neil, Maibach, Edward, Cobb, Sara, Ban, Ray, Bleistein, Andrea, Croft, Paul, Bierly, Eugene, Seitter, Keith, Rasmussen, Gary & Leiserowitz, Anthony (2014, July). Meteorologists’ Views about Global Warming: A Survey of American Meteorological Society Professional Members, 95 (7) Bulletin of the American Meteorological Society 1029–1040, DOI 10.1175/BAMS-D-13-00091.1.Google Scholar
Stephens, S. L. (2005). Forest Fire Causes and Extent on United States Forest Service Lands, 14 (3) International Journal of Wildland Fire 213–222, DOI 10.1071/WF04006.Google Scholar
Stephens, S. L. & Ruth, L. W. (2005). Federal Forest-Fire Policy in the United States, 15 (2) Ecological Applications 532–542, DOI 10.1890/04-0545.Google Scholar
Stott, Lowell, Timmermann, Axel & Thunell, Robert (2007). Southern Hemisphere and Deep-Sea Warming Led Deglacial Atmospheric CO2 Rise and Tropical Warming, 318 (5849) Science 435–438, DOI 10.1126/science.1143791.Google Scholar
Sugimoto, Kota (2019). Does Transmission Unbundling Increase Wind Power Generation in the United States?, 125 Energy Policy 307–316, DOI 10.1016/j.enpol.2018.10.032.Google Scholar
Sullivan, Daniel & Von Wachter, Till (2009). Job Displacement and Mortality: An Analysis Using Administrative Data, 124 (3) Quarterly Journal of Economics 1265–1306, DOI 10.1162/qjec.2009.124.3.1265.Google Scholar
Sullivan, Daniel & Von Wachter, Till (2009). Average Earnings and Long-Term Mortality: Evidence from Administrative Data, 99 (2) American Economic Review: Papers and Proceedings 133–138, DOI 10.1257/aer.99.2.133.Google Scholar
Sutch, Richard (2011). The Impact of the 1936 Corn Belt Drought on American Farmers’ Adoption of Hybrid Corn in the Economics of Climate Change: Adaptations Past and Future 195 (Libecap, Gary & Steckel, Richard H., eds., NBER).Google Scholar
Sweet, Cassandra (2015, June 12). High Tech Solar Projects Fail to Deliver, Wall Street Journal.Google Scholar
Syphard, Alexandra D., Keeley, Jon E., Pfaff, Anne H. & Ferschweilera, Ken (2017). Human Presence Diminishes the Importance of Climate in Driving Fire Activity across the United States, 26(114) Proceedings of the National Academy of Sciences 3750–13755.Google Scholar
Thaxter, Chris B., Buchanan, Gaeme M., Carr, Jamie, Butchart, Stuart H. M., Newbold, Tim, Green, Rhys E., Tobias, Joseph A., Foden, Wendy B., O’Brien, Sue & Pearce- Higgins, James W. (2017). Bird and Bat Species’ Global Vulnerability to Collision Mortality at Wind Farms Revealed through a Trait-Based Assessment, 284 Proceedings of the Royal Society B 20170829, DOI 10.1098/rspb.2017.0829.Google Scholar
Theobald, Daivd M. & Romme, William H. (2007). Expansion of the US Wildland–Urban Interface, 83 (4) Landscape and Urban Planning 340–354, DOI 10.1016/j.landurbplan.2007.06.002.Google Scholar
Thompson, Louis M. (1963). Weather and Technology in the Production of Corn and Soybeans 1–6, CAED Report 17, Center for Agricultural and Economic Development, Iowa State University.Google Scholar
Tielens, Piter & Van Hertem, Dirk (2016). The Relevance of Inertia in Power Systems, 55 Renewable and Sustainable Energy Reviews 999–1009, DOI 10.1016/j.rser.2015.11.016.Google Scholar
Timmerman, Axel, Timm, Oliver, Stott, Lowell & Menviel, Laurie (2009). The Roles of CO2 and Orbital Forcing in Driving Southern Hemispheric Temperature Variations during the Last 21,000 Years, 22 Journal of Climate 1626–1640, DOI 10.1175/2008JCLI2161.1.Google Scholar
Tol, Richard S. J. (2002). Estimates of the Damage Costs of Climate Change: Part I: Benchmark Estimates, 21 Environmental and Resource Economics 47–73, DOI 10.1023/A:1014500930521.Google Scholar
Tol, Richard S. J. (2002). Estimates of the Damage Costs of Climate Change II: Dynamic Estimates, 21 Environmental and Resource Economics 135–160, DOI 10.1023/A:1014539414591.Google Scholar
Tol, Richard S. J. (2016). Comment on “Quantifying the Consensus on Anthropogenic Global Warming in the Scientific Literature,” 11 Environmental Research Letters 048001, DOI 10.1088/1748-9326/11/4/048001.Google Scholar
Tra, Constant I. (2016). Have Renewable Portfolio Standards Raised Electricity Rates? Evidence from US Electric Utilities, 34 (1) Contemporary Economic Policy 184–189, DOI 10.1111/coep.12110.Google Scholar
Tubb, Katie (2019, March 13). Making Nuclear Waste Disposal a Question of “How,” Not “Where,” The Washington Times.Google Scholar
Tung, Ka-Kit & Zhou, Jiansong (2013). Using Data to Attribute Episodes of Warming and Cooling in Instrumental Records, 110 Proceedings of the National Academy of Sciences 2058–2063, DOI 10.1073/pnas.1212471110.Google Scholar
Tushingham, A. M. & Peltier, W. R. (1991). Ice-3G: A New Global Model of Late Pleistocene Deglaciation Based upon Geophysical Predictions of Post Glacial Relative Sea Level Change, 96 (B3) Journal of Geophysical Research 4497–4523, DOI 10.1029/90JB01583.Google Scholar
Tyndall, John (1863, January 23). On Radiation through the Earth’s Atmosphere, 4 Professor of the Royal Institution of Great Britain 204–205.Google Scholar
UK National Grid Electrical Systems Operator (2019, September) Technical Report on the Events of 9 August 2019.Google Scholar
University of Texas Energy Institute, The Full Cost of Electricity, Federal Financial Support for Electricity Generation Technologies 4.Google Scholar
US Global Change Research Program (2014). Climate Change Impacts in the United States: The Third National Climate Assessment, 28, DOI 10.7930/J0Z31WJ2.Google Scholar
Van Ulden, A. P. & Van Oldenborgh, G. J. (2005). Large-Scale Atmospheric Circulation Biases and Changes in Global Climate Model Simulations and Their Importance for Regional Climate Scenarios: A Case Study for West-Central Europe, 5 (4) Atmospheric Chemistry and Physics Discussions, European Geosciences Union 7415–7455, DOI 10.5194/acp-6-863-2006.Google Scholar
Van de Wiel, B. J. H., Moene, A. F., Ronda, R. J., DeBruin, H. A. R. & Holtslag, A. A. M. (2002). Intermittent Turbulence and Oscillations in the Stable Boundary Layer over Land, Part II: A System Dynamics Approach, 59 Journal of Atmospheric Science 2567–2581, DOI 10.1175/1520-0469(2002)059<2567:itaoit>2.0.CO;2.Google Scholar
Van Haren, Nathalie, Fleiner, Renate, Liniger, Hanspeter & Harari, Nicole (2019). Contribution of Community-Based Initiatives to the Sustainable Development Goal of Land Degradation Neutrality, 94 Environmental Science and Policy 211–219.Google Scholar
Van Vuuren, Detlef P., Edmonds, Jae, Kainuma, Mikiko, et al. (2011). The Representative Concentration Pathways: An Overview, 109 Climatic Change 5–31, DOI 10.1007/s10584-011–0148-z.Google Scholar
Vassell, Gregory S. (1991, January). Northeast Blackout of 1965, 11 IEEE Power Engineering Review 4–8, DOI 10.1109/MPER.1991.88621.Google Scholar
Vesterby, Marlow, Heimlich, Ralph E. & Krupa, Kenneth S. (1994, March) Urbanization of Rural Land in the United States, Resources and Technology Division, Economic Research Service, US Department of Agriculture, Agricultural Economic Report No. 673.Google Scholar
Vithayasrichareron, Peerapat, Riesz, Jenny & MacGill, Iain (2017). Operational Flexibility of Future Generation Portfolios with High Renewables, 206 Applied Energy 32–41, DOI 10.1016/j.apenergy.2017.08.164.Google Scholar
Vogelsang, Timothy J. & Franses, Philip H. (2005). Testing for Common Deterministic Trend Slopes, 126 Journal of Econometrics 1–24, DOI 10.1016/j.jeconom.2004.02.004.Google Scholar
Vogelsang, Timothy J. & Nawaz, Nasreen (2017). Estimation and Interference of Linear Trend Slope Ratios with an Application to Global Temperature Data, 38 (5) Time Series Analysis 640–667, DOI 10.1111/jtsa.12209.Google Scholar
Voosen, Paul (2019, April 16). New Climate Models Predict a Warming Surge, Science Magazine.Google Scholar
Vose, Russell S., Arndt, Derek, Banzon, Viva F., et al. (2012, November). NOAA’s Merged Land-Ocean Surface Temperature Analysis, 93 (11) Bulletin of the American Meteorological Society 1677–1685, DOI 10.1175/BAMS-D-11-00241.1.Google Scholar
WAIS Divide Project Members (2013). Onset of Deglacial Warming in West Antarctica Driven by Local Orbital Forcing, 500 Nature 440–444, DOI 10.1038/nature12376.Google Scholar
Walker, W. Reed (2013). The Transitional Costs of Sectoral Reallocation: Evidence from the Clean Air Act and the Workforce, 128 (4) Quarterly Journal of Economics 1787–1835, DOI 10.1093/qje/qjt022.Google Scholar
Walters, Justin T., McNider, Richard T., Shi, Zinghong, Norris, William B. & Christy, John R. (2007). Positive Surface Temperature Feedback in the Stable Nocturnal Boundary Layer, 34(12) Geophysical Research Letters L12709, DOI 10.1029/2007GL029505.Google Scholar
Wang, Chien & Prinn, Ronald G. (2011). Potential Climate Impacts and Reliability of Large-Scale Offshore Wind Farms, 6 (2) Environmental Research Letters 025101, DOI 10.1088/1748-9326/6/2/025101.Google Scholar
Wang, Chien & Prinn, Ronald G. (2010). Potential Climatic Impacts and Reliability of a Very Large-Scale Wind Farm, 10 Atmospheric Chemistry & Physics 2053–2061, DOI 10.5194/acp-10-2053-2010.Google Scholar
Wang, Jianglin, Yang, Bao, Ljungqvistm, Fredrik Charpentier, Luterbacher, Jurg, Osborn, Timothy J., Briffa, Keith R. & Zorita, Eduardo (2017). Internal and External Forcing of Multidecadal Atlantic Climate Variability over the Past 1,200 Years, 10 Nature Geoscience 512–517, DOI 10.1038/ngeo2962.Google Scholar
Wang, Junhong, Dai, Aiguo & Mears, Carl (2016). Global Water Vapor Trend from 1988 to 2011 and Its Diurnal Asymmetry Based on GPS, Radiosonde, and Microwave Satellite Measurements, 29 (14) Journal of Climate 5205–5222, DOI 10.1175/JCLI-D-15-0485.1.Google Scholar
Wang, N. & Li, Z. (2013). Wireless Sensor Networks (WSNs) in the Agriculture and Food Industries, in Robotics and Automation in the Food Industry 171–199 (Woodhead Publishing), DOI 10.1533/9780857095763.1.171.Google Scholar
Wang, Xianglan, Wang, Hongwei, Liu, Shengxue, Ferjani, Ali, Li, Jiansheng, Yan, Jianbing, Yang, Xiaohong & Qin, Feng (2016). Genetic Variation in ZmVPP1 Contributes to Drought Tolerance in Maize Seedlings, 48 (10) Nature Genetics 1233–1241, DOI 10.1038/ng.3636.Google Scholar
Wang, Ye, Silva, Vera & Lopez-Botet-Zulueta, Miguel (2016). Impact of High Penetration of Variable Renewable Generation on Frequency Dynamics in the Continental Europe Interconnected System, 10 (1) IET Renewable Power Generation 10–16, DOI 10.1049/iet-rpg.2015.0141.Google Scholar
Washington, Warren M. & Parkinson, Claire L. (2005). An Introduction to Three-Dimensional Climate Modeling 49 (Sausalito, CA, University Science Books, 2nd ed).Google Scholar
Watson, Christopher S., White, Neil J., Church, John A., King, Matt A., Burgette, Reed J. & Legresy, Benoit (2015). Unabated Global Mean Sea-Level Rise over the Satellite Altimeter Era, 5 (6) Nature Climate Change 565–568, DOI 10.1038/nclimate2635.Google Scholar
Watt-Logic (2019, August). What Caused the UK’s Power Blackout and Will It Happen Again?Google Scholar
Watts, Anthony, Jones, Evan, McIntyre, Stephen & Christy, John R. (2012). An Area and Distance Weighted Analysis of the Impacts of Station Exposure on the U.S. Historical Climatology Network Temperatures and Temperature Trends, Preprint, available at https://wattsupwiththat.files.wordpress.com/2012/07/watts-et-al_2012_discussion_paper_webrelease.pdf.Google Scholar
Webster, Paul (2007, April 29). Is It Time to Hand Global Warming to the Lawyers?, The Toronto Star.Google Scholar
Wehrmann, Benjamin (2019, March 5). Capacity Market Debate Resurfaces as Germany May Need Gas to Replace Coal, Clean Energy Wire.Google Scholar
Weitzman, Martin (2009). On Modeling and Interpreting the Economics of Catastrophic Climate Change, 91 Review of Economics & Statistics 1–19, DOI 10.1162/rest.91.1.1.Google Scholar
Weiler, Conrad J. (2019, Summer). How “Commerce among the Several States” Became “Interstate Commerce,” and Why It Matters, 34 Constitutional Commentary 329–400.Google Scholar
Wettengel, Julian (2020, February 11). Gas Industry Calls for Capacity Market Debate as Germany Exists Nuclear and Coal, Clean Energy Wire.Google Scholar
Wettengel, Julian (2018, June 25). The Role of Gas in Germany’s Energy Transition: Industry Bets on Gas as Last Trump Card in Energiewende, Clean Energy Wire.Google Scholar
Westerling, A. L., Hidalgo, H. G., Cayan, D.R. & Swetnam, T.W. (2006). Warming and Earlier Spring Increase Western US Forest Wildfire Activity, 313 Science 940–943, DOI 10.1126/science.1128834.Google Scholar
Westervelt, Amy (2010, June 22). The Man Who Makes Greenhouse Polluters Face Their Victims in Court, Attorney Matt Pawa Has Applied Tort Law to Global Warming and Provoked Groundbreaking Rulings, InsideClimate News.Google Scholar
White, H. J. (1957). Fifty Years of Electrostatic Precipitation, 7 (3) Journal of the Air Pollution Control Association 166–177, DOI 10.1080/00966665.1957.10467797.Google Scholar
White, Sam (2015). Unpuzzling American Climate: New World Experience and the Foundations of a New Science, 106 (3) Isis 544–566, DOI 10.1086/683166.Google Scholar
Whitefoot, Kate S. & Skerlos, Steven J. (2012). Design Incentives to Increase Vehicle Size Created from the US Footprint-Based Fuel Economy Standards, 41 Energy Policy 402–411, DOI 10.1016/j.enpol.2011.10.062.Google Scholar
Wiener, Jonathan Baert (1999). On the Political Economy of Global Environmental Regulation, 87 Georgetown University Law Journal 749–792.Google Scholar
Wildavsky, Aaron (1997). But Is It True? A Citizen’s Guide to Environmental Health and Safety Issues. Revised ed., Cambridge: Harvard University Press.Google Scholar
Wisser, Ryan, Mai, Trieu, Millstein, Dev, Barbose, Galen, Bird, Lori, Heeter, Jenny, Keyser, David, Krishnan, Venkat & Macknick, Jordan (2017). Assessing the Costs and Benefits of US Renewable Portfolio Standards, 12 Environmental Research Letters 094023, DOI 10.1088/1748-9326/aa87bd.Google Scholar
WMO (1975, August). Proceedings of the WMO/IMAP Symposium on Long-Term Climatic Fluctuations, WMO No. 421, Norwich, 18–23.Google Scholar
WMO (1977). Report of the Scientific Workshop on Atmospheric Carbon Dioxide, WMO Report No. 474.Google Scholar
World Nuclear News (2018, April 17). Report Highlights Impact of US Nuclear Plant Closures.Google Scholar
Wu, , Ye, Wang, , Shuxiao, Streets, , David G., Hao, , Jiming, Chan, , Melissa & Jiang, , Jingkun (2006). Trends in Anthropogenic Mercury Emissions in China from 1995 to 2003, 40 Environmental Science and Technology 5312–5318.Google Scholar
Wunsch, Carl, Ponte, Rui M. & Heimbach, Patrick (2007). Decadal Trends in Sea Level Patterns: 1993–2004, 20 (24) Journal of Climate 5889–5911, DOI 10.1175/2007JCLI1840.1.Google Scholar
Wunsch, Carl (2016). Global Ocean Integrals and Means, with Trend Implications, 8 Annual Review Marine Science 1–33, DOI 10.1146/annurev-marine-122414-034040.Google Scholar
Xiao, Yingjie, Liu, Haijun, Wu, Liuji, Warburton, Marilyn & Yan, Jianbing (2017). Genome-wide Association Studies in Maize: Praise and Stargaze, 10 Molecular Plant 359–374, DOI 10.1016/j.molp.2016.12.008.Google Scholar
Yandle, Bruce (2019, November 6). Yes, Sen. Warren, the System Is Rigged – by Congress, The Hill.Google Scholar
Zander, Joakim (2010). The Application of the Precautionary Principle in Practice (New York: Cambridge University Press).Google Scholar
Zhang, Tianyi, Lin, Xiaomao & Sassenrath, Gretchen F. (2015). Current Irrigation Practices in the Central United States Reduce Drought and Extreme Heat Impacts for Maize and Soybean but Not for Wheat, 508 Science of the Total Environment 331–342, DOI 10.1016/j.scitotenv.2014.12.004.Google Scholar
Zhang, Xuehai, Warbuton, Marilyn L., Setter, Tim, Liu, Haijun, Yadong, Xue, Yang, Ning, Yan, Jianbing & Xiao, Yingjie (2016). Genome-wide Association Studies of Drought-Related Metabolic Changes in Maize Using an Enlarged SNP Panel. 129 Theoretical and Applied Genetics 1449–1463, DOI 10.1007/s00122-016-2716-0.Google Scholar
Zheng, Hong-Ziang, Yan, Shi, Qin, Zhen-Dong & Jin, Li (2012). MtDNA Analysis of Global Populations Support That Major Population Expansions Began before Neolithic Time, 2 Scientific Reports 745, DOI 10.1038/srep00745.Google Scholar
Zhou, Jianson & Tung, Ka-Kit (2013). Deducing Multidecadal Anthropogenic Global Warming Trends Using Multiple Regression Analysis, 70 Journal of Atmospheric Science 3–8, DOI 10.1175/JAS-D-12-0208.1.Google Scholar
Zhu, Jiang, Poulson, Christopher J. & Otto-Bliesner, Better L. (2020). High Climate Sensitivity in CMIP6 Model Not Supported by Paleoclimate, 10 Nature Climate Change 378–379, DOI 10.1038/s41558-020-0764-6.Google Scholar
Zivin, Joshua Graff & Neidell, Matthew (2014, January). Temperature and the Allocation of Time: Implications for Climate Change, 32 (1) Journal of Labor Economics 1–26.Google Scholar