1. United Nations Framework Convention on Change Paris Agreement. United Nations , New York, NY View in Article Google Scholar

3. Kang Y

Khan S

Ma X Climate change impacts on crop yield, crop water productivity and food security—a review. Prog Nat Sci. 19 : 1665-1674 View in Article Scopus (166)

Crossref

Google Scholar

4. Lindgren E

Andersson Y

Suk JE

Sudre B

Semenza JC Monitoring EU emerging infectious disease risk due to climate change. Science. 336 : 418-419 View in Article Scopus (80)

PubMed

Crossref

Google Scholar

7. Connell J Last days in the Carteret Islands? Climate change, livelihoods and migration on coral atolls. Asia Pac View. 57 : 3-15 View in Article Scopus (15)

Crossref

Google Scholar

9. Bronen R

Chapin I Adaptive governance and institutional strategies for climate–induced community relocations in Alaska. Proc Natl Acad Sci USA. 110 : 9320-9325 View in Article Scopus (46)

PubMed

Crossref

Google Scholar

10. Shearer C The political ecology of climate adaptation assistance: Alaska Natives, displacement, and relocation. J Polit Ecol. 19 : 174-183 View in Article Google Scholar

11. United Nations Environment Programme The Emissions Gap Report. United Nations Environment Programme , Nairobi, Kenya View in Article Google Scholar

12. Intergovernmental Panel on Climate Change Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. World Meteorological Organization , Geneva View in Article Google Scholar

13. Smith KR

Woodward A

Campbell-Lendrum D

et al. Human health: impacts, adaptation, and co-benefits. in: Field CB Barros VR Dokken DJ Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel of Climate Change. Cambridge University Press , Cambridge : 709-754 View in Article Google Scholar

15. Reinmuth-Selzle K

Kampf CJ

Lucas K

et al. Air pollution and climate change effects on allergies in the anthropocene: abundance, interaction, and modification of allergens and adjuvants. Environ Sci Technol. 51 : 4119-4141 View in Article Scopus (9)

PubMed

Crossref

Google Scholar

16. Glaser J

Lemery J

Rajagopalan B

et al. Climate change and the emergent epidemic of CKD from heat stress in rural communities: the case for heat stress nephropathy. Clin J Am Soc Nephrol. 11 : 1472-1483 View in Article Scopus (117)

PubMed

Crossref

Google Scholar

18. Jacob D

Petersen J

Eggert B

et al. EURO–CORDEX: new high-resolution climate change projections for European impact research. Reg Environ Change. 14 : 563-578 View in Article Scopus (378)

Crossref

Google Scholar

20. Kjellstrom T

Briggs D

Freyberg C

Lemke B

Otto M

Hyatt O Heat, human performance, and occupational health: a key issue for the assessment of global climate change impacts. Annu Rev Public Health. 37 : 97-112 View in Article PubMed

Crossref

Google Scholar

21. Ijaz K

Kasowski E

Arthur RR

Angulo FJ

Dowell SF International health regulations—what gets measured gets done. Emerg Infect Dis. 18 : 1054-1057 View in Article Scopus (21)

PubMed

Crossref

Google Scholar

22. Intergovernmental Panel on Climate Change Climate Change 2014: synthesis report. in: Pachauri RK Meyer LA Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Intergovernmental Panel on Climate Change , Geneva, Switzerland ( ) View in Article Google Scholar

23. International Federation of Red Cross and Red Crescent Societies World disasters report 2014: focus on culture and risks. International Federation of Red Cross and Red Crescent Societies , Geneva View in Article Google Scholar

24. United Nations Office for Disaster Risk Reduction

Centre for Research on the Epidemiology of Disasters The human cost of weather-related disasters 1995–2015. Centre for Research on the Epidemiology of Disasters , Brussels View in Article Google Scholar

25. Liyanage P

Tissera H

Sewe M

et al. A spatial hierarchical analysis of the temporal influences of the El Nino-southern oscillation and weather on dengue in Kalutara District, Sri Lanka. Int J Environ Res Public Health. 13 : 1087 View in Article Scopus (2)

Crossref

Google Scholar

27. Mitchell D

Heaviside C

Vardoulakis S

et al. Attributing human mortality during extreme heat waves to anthropogenic climate change. Environ Res Lett. 11 : 074006 View in Article Scopus (82)

Crossref

Google Scholar

30. Shi L

Kloog I

Zanobetti A

Liu P

Schwartz JD Impacts of temperature and its variability on mortality in New England. Nat Clim Chang. 5 : 988-991 View in Article Scopus (30)

PubMed

Crossref

Google Scholar

32. Wang Y

Shi L

Zanobetti A

Schwartz JD Estimating and projecting the effect of cold waves on mortality in 209 US cities. Environ Int. 94 : 141-149 View in Article Scopus (10)

PubMed

Crossref

Google Scholar

34. Dye C After 2015: infectious diseases in a new era of health and development. Philos Trans R Soc Lond B Biol Sci. 369 : 20140055 View in Article Scopus (2)

PubMed

Crossref

Google Scholar

35. WHO Using climate to predict infectious disease epidemics. World Health Organization , Geneva View in Article Google Scholar

38. Krishnamurthy PK

Lewis K

Choularton RJ A methodological framework for rapidly assessing the impacts of climate risk on national–level food security through a vulnerability index. Glob Environ Chang. 24 : 121-132 View in Article Scopus (20)

Crossref

Google Scholar

39. Nelson GC

Rosegrant MW

Palazzo A

et al. Food security farming and climate change to 2050: scenarios, results, policy options. International Food Policy Research Institute , Washington, DC View in Article Google Scholar

41. Campbell-Lendrum D

Woodruff R Comparative risk assessment of the burden of disease from climate change. Environ Health Perspect. 114 : 1935-1941 View in Article PubMed

Crossref

Google Scholar

42. Campbell-Lendrum DH

Corvalán CF

Prüss-Ustün A How much disease could climate change cause? The World Health Organization , Geneva View in Article Google Scholar

44. Headey D

Fan S Reflections on the global food crisis. in: How did it happen? How has it hurt? And how can we prevent the next one? International Food Policy Research Institute , Washington, DC View in Article Google Scholar

45. Asseng S

Ewert F

Martre P

et al. Rising temperatures reduce global wheat production. Nat Clim Chang. 5 : 143-147 View in Article Scopus (280)

Crossref

Google Scholar

46. Peng S

Huang J

Sheehy JE

et al. Rice yields decline with higher night temperature from global warming. Proc Natl Acad Sci USA. 101 : 9971-9975 View in Article Scopus (965)

PubMed

Crossref

Google Scholar

47. Lobell DB

Burke MB

Tebaldi C

Mastrandrea MD

Falcon WP

Naylor RL Prioritizing climate change adaptation needs for food security in 2030. Science. 319 : 607-610 View in Article Scopus (1171)

Crossref

Google Scholar

49. Gornall J

Betts R

Burke E

et al. Implications of climate change for agricultural productivity in the early twenty-first century. Philos Trans R Soc Lond B Biol Sci. 365 : 2973-2989 View in Article Scopus (371)

PubMed

Crossref

Google Scholar

50. Jones PG

Thornton PK The potential impacts of climate change on maize production in Africa and Latin America in 2055. Glob Environ Change. 13 : 51-59 View in Article Scopus (390)

Crossref

Google Scholar

51. Lobell DB

Bänziger M

Magorokosho C

Vivek B Nonlinear heat effects on African maize as evidenced by historical yield trials. Nat Clim Chang. 1 : 42-45 View in Article Scopus (368)

Crossref

Google Scholar

52. High Level Panel of Experts on Food Security and Nutrition Extract from the report. Sustainable fisheries and aquaculture for food security and nutrition. Summary and recommendations. Committee on World Food Security, Food and Agriculture Organization of the United Nations , Rome View in Article Google Scholar

53. WHO Availability and consumption of fish. Global and regional food consumption patterns and trends. http://www.who.int/nutrition/topics/3_foodconsumption/en/index5.html View in Article Google Scholar

55. Golden C

Allison EH

Cheung WWL Fall in fish catch threatens human health. Nature. 534 : 317-320 View in Article PubMed

Crossref

Google Scholar

56. Bushaw-Newton KL

Sellner KG Harmful algal blooms. in: NOAA's State of the Coast Report. National Oceanic and Atmospheric Administration , Silver Spring, MD View in Article Google Scholar

58. Brown O Migration and climate change. International Organization for Migration , Geneva View in Article Crossref

Google Scholar

60. Kelley CP

Mohtadib S

Canec MA

Seagerc R

Kushnirc Y Climate change in the Fertile Crescent and implications of the recent Syrian drought. Proc Natl Acad Sci USA. 112 : 3241-3246 View in Article Scopus (423)

PubMed

Crossref

Google Scholar

61. McMichael C

Barnett J

McMichael AJ An ill wind? Climate change, migration, and health. Environ Health Perspect. 120 : 646-654 View in Article PubMed

Crossref

Google Scholar

63. United Nations Office for the Coordination of Humanitarian Affairs Fiji: Building resilience in the face of climate change. http://www.unocha.org/story/fiji-building-resilience-face-climate-change Date: Sept 11, 2014 View in Article Google Scholar

64. EU–GIZ Adapting to Climate Change and Sustainable Energy Programme Planned relocation project. http://acsepacific.org/project/fiji-relocation/#70fb31ec-1a7d-6 Date: 2017 View in Article Google Scholar

65. Small C

Nicholls RJ A global analysis of human settlement in coastal zones. J Coastal Res. 19 : 584-599 View in Article Google Scholar

66. McGranahan G

Balk D

Anderson B The rising tide: assessing the risks of climate change and human settlements in low elevation coastal zones. Environ Urban. 19 : 17-37 View in Article Scopus (857)

Crossref

Google Scholar

67. Merkens JL

Reimann L

Hinkel J

Vafeidis AT Gridded population projections for the coastal zone under the Shared Socioeconomic Pathways. Glob Planet Change. 145 : 57-66 View in Article Scopus (10)

Crossref

Google Scholar

68. Church JA

Clark PU

Cazenave A

et al. Sea level change. in: Stocker TF Qin D Plattner G-K Climate change 2013: the physical science basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change 2013. Cambridge University Press , Cambridge View in Article Google Scholar

69. Collins PY

Patel V

Joestl SS

et al. Grand challenges in global mental health. A consortium of researchers, advocates and clinicians announces here research priorities for improving the lives of people with mental illness around the world, and calls for urgent action and investment. Nature. 475 : 27-30 View in Article Scopus (780)

PubMed

Crossref

Google Scholar

70. Intergovernmental Panel on Climate Change Climate change 2007. Synthesis report. Contribution of Working Groups I, II and III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Intergovernmental Panel on Climate Change , Geneva View in Article Google Scholar

72. United Nations Framework Convention on Change National adaptation plans. http://unfccc.int/adaptation/workstreams/national_adaptation_plans/items/6057.php View in Article Google Scholar

73. WHO WHO guidance to protect health from climate change through health adaptation planning. World Health Organization , Geneva View in Article Google Scholar

74. WHO Operational framework for building climate resilient health systems. World Health Organization , Geneva View in Article Google Scholar

75. United Nations The world's cities in 2016. United Nations , New York, NY View in Article Crossref

Google Scholar

76. Doherty M

Klima K

Hellmann JJ Climate change in the urban environment: advancing, measuring and achieving resiliency. Environ Sci Policy. 66 : 310-313 View in Article Scopus (4)

Crossref

Google Scholar

77. United Nations Sustainable Development Knowledge Platform. Sustainable development goal 3—ensure healthy lives and promote well-being for all at all ages. Progress of 2017. https://sustainabledevelopment.un.org/sdg3 View in Article Google Scholar

78. WHO International health regulations (2005). World Health Organization , Geneva View in Article Google Scholar

79. World Health Assembly Sixty-first World Health Assembly. Resolution WHA 61.2. http://apps.who.int/gb/ebwha/pdf_files/WHA61-REC1/A61_REC1-en.pdf Date: May, 2008 View in Article Google Scholar

80. International Health Regulations IHR Core Capacity Monitoring Framework: questionnaire for monitoring progress in the implementation of IHR core capacities in states parties. World Health Organization , Geneva View in Article Google Scholar

81. WHO IHR Core Capacity Monitoring Framework: questionnaire for monitoring progress in the implementation of IHR Core Capacities in States Parties. World Health Organization , Geneva View in Article Google Scholar

83. European Commission Europe, Latin America and the Caribbean: sharing experiences in regional development policies. European Commission , Brussels View in Article Google Scholar

84. Instituto Nacional de Estadistica e Informatica Principales indicatores. Población y vivienda. https://www.inei.gob.pe/estadisticas/indice-tematico/poblacion-y-vivienda/ View in Article Google Scholar

85. Fondo De Inclusion Social Energetico Memoria anual de gestion FISE 2015. Fondo De Inclusion Social Energetico , Lima View in Article Google Scholar

86. Fondo De Inclusion Social Energetico Memoria anual de gestion FISE 2014. Fondo De Inclusion Social Energetico , Lima View in Article Google Scholar

87. WHO Protecting health from climate change: vulnerability and adaptation assessment. World Health Organization , Geneva View in Article Google Scholar

88. Lim SS

Allen K

Bhutta ZA

et al. Measuring the health-related Sustainable Development Goals in 188 countries: a baseline analysis from the Global Burden of Disease Study 2015. Lancet. 16 : 31467-31472 View in Article Google Scholar

89. Finish Ministry of Economic Affairs and Employment National energy and climate strategy. Ministry of Economic Affairs and Employment , Helsinki View in Article Google Scholar

90. UK Department for Business Energy and Industrial Strategy Coal generation in Great Britain. The pathway to a low-carbon future: consultation document. Department for Business Energy and Industrial Strategy , London View in Article Google Scholar

91. Mason J In latest move, China halts over 100 coal power projects. http://www.reuters.com/article/us-china-coal/in-latest-move-china-halts-over-100-coal-power-projects-idUSKBN151090 Date: Jan 17, 2017 View in Article Google Scholar

92. UBS UBS evidence lab electric car teardown—disruption ahead?. http://www.advantagelithium.com/_resources/pdf/UBS-Article.pdf Date: May 18, 2017 View in Article Google Scholar

93. International Energy Agency Medium-term renewable energy market report 2016. International Energy Agency , Paris View in Article Crossref

Google Scholar

94. Dezem V Solar sold in Chile at lowest ever, half price of coal. https://www.bloomberg.com/news/articles/2016-08-19/solar-sells-in-chile-for-cheapest-ever-at-half-the-price-of-coal Date: Aug 19, 2016 View in Article Google Scholar

95. Le Quéré C

Andrew RM

Canadell JG

et al. Global carbon budget 2016. Earth System Science Data. 8 : 605-649 View in Article Scopus (251)

Crossref

Google Scholar

96. von Schirnding Y Health in sustainable development planning: the role of indicators. Framework for linkages between health, environment and development. World Health Organization , Geneva View in Article Google Scholar

97. Intergovernmental Panel on Climate Change Climate change 2014: Mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Intergovernmental Panel on Climate Change , Geneva View in Article Crossref

Google Scholar

98. International Energy Agency Energy and climate change. International Energy Agency , Paris View in Article Google Scholar

99. Rogelj J

Schaeffer M

Meinshausen M

et al. Zero emission targets as long-term global goals for climate protection. Environmental Research Letters. 10 : 105007 View in Article Scopus (37)

Crossref

Google Scholar

100. Pye S

Li FGN

Price J

Fais B Achieving net-zero emissions through the reframing of UK national targets in the post-Paris Agreement era. Nat Energy. 2 : 17024 View in Article Scopus (44)

Crossref

Google Scholar

101. Rockström J

Gaffney O

Rogelj J

Meinshausen M

Nakicenovic N

Schellnhuber HJ A roadmap for rapid decarbonization. Science. 80 : 1269-1271 View in Article Scopus (82)

Crossref

Google Scholar

102. International Energy Agency. World energy outlook. Paris, France, 2016. View in Article Google Scholar

103. International Energy Agency Energy and air pollution: world energy outlook special report. International Energy Agency , Paris View in Article Google Scholar

105. Shearer C

Ghio N

Myllyvirta L

Yu A

Nace T Boom and bust 2017. Tracking the global coal plant pipeline. https://endcoal.org/wp-content/uploads/2017/03/BoomBust2017-English-Final.pdf Date: March, 2017 View in Article Google Scholar

106. International Energy Agency Conference on the establishment of the International Renewable Energy Agency. International Energy Agency , Paris View in Article Google Scholar

107. WHO The European health report 2015: targets and beyond—reaching new frontiers in evidence. World Health Organization , Geneva View in Article Google Scholar

108. WHO Proportion of population with primary reliance on clean fuels and technology. World Health Organization , Geneva View in Article Google Scholar

109. International Energy Agency

World Bank Sustainable energy for all 2017—progress toward sustainable energy. World Bank , Washington, DC View in Article Google Scholar

110. WHO Household fuel combustion: WHO guidelines for indoor air quality. World Health Organization , Geneva View in Article Google Scholar

111. Bonjour S

Adair-Rohani H

Wolf J

et al. Solid fuel use for household cooking: country and regional estimates for 1980–2010. Environ Health Perspect. 121 : 784-790 View in Article Scopus (377)

PubMed

Crossref

Google Scholar

112. West JJ

Smith SJ

Silva RA

et al. Co-benefits of global greenhouse gas mitigation for future air quality and human health. Nat Clim Chang. 3 : 885-889 View in Article Scopus (257)

PubMed

Crossref

Google Scholar

113. Institute for Health Metrics and Global Burden of Disease State of global air—2017: a special report on global exposure to air pollution and its disease burden. Institute for Health Metrics and Global Burden of Disease , Washington, DC View in Article Google Scholar

114. WHO WHO's urban ambient air pollution database. Update 2016. World Health Organization , Geneva View in Article Google Scholar

115. Milner J

Taylor J

Barreto ML

et al. Environmental risks of cities in the European region: analyses of the Sustainable Healthy Urban Environments (SHUE) database. Public Health Panorama. 3 : 300-309 View in Article Google Scholar

116. WHO Air pollution levels rising in many of the world's poorest cities. World Health Organization , Geneva View in Article Google Scholar

117. European Commission Directive 2001/80/EC of the European Parliament and of the Council of 23 October 2001 on the limitation of emissions of certain pollutants into the air from large combustion plants. EUR-Lex 309/1. http://eur-lex.europa.eu/legal-content/EN/TXT/?uri=LEGISSUM:l28028 Date: 2001 View in Article Google Scholar

118. European Union Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated pollution prevention and control). EUR-Lex 334/17. http://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex%3A32010L0075 Date: 2010 View in Article Google Scholar

119. Pope 3rd, CA

Burnett RT

Thun MJ

et al. Lung cancer, cardiopulmonary mortality and long–term exposure to fine particulate air pollution. JAMA. 287 : 1132-1141 View in Article PubMed

Crossref

Google Scholar

122. WHO Ambient air pollution: a global assessment of exposure and burden of disease. WHO , Geneva View in Article Google Scholar

123. Amann M I

Bertok J

Borken-Kleefeld J

et al. Cost-effective control of air quality and greenhouse gases in europe: modeling and policy applications. Environ Model Softw. 26 : 1489-1501 View in Article Scopus (363)

Crossref

Google Scholar

124. International Energy Agency Energy technology perspectives. International Energy Agency , Paris View in Article Google Scholar

125. International Energy Agency

Electric Vehicle Initiative Global electric vehicle outlook 2016. Beyond one million electric cars. International Energy Agency , Paris View in Article Crossref

Google Scholar

126. International Energy Agency Global EV outlook 2017: two million and counting. International Energy Agency , Paris View in Article Crossref

Google Scholar

127. Land Transport Authority Passenger transport mode shares in world cities. Journeys. 12 : 54-64 View in Article Google Scholar

128. SECTRA Estudio Encuesta origen destino de viajes del Gran Santiago, 1991. Encuesta origen destino de viajes 1991, Santiago. http://www.sectra.gob.cl/biblioteca/detalle1.asp?mfn=341 View in Article Google Scholar

129. NSW Department of Transport Public transport travel patterns in the greater Sydney Metropolitan area 1981–1991. New South Wales Government , Sydney View in Article Google Scholar

130. NSW Department of Transport Household travel survey summary report 2002. New South Wales Government , Sydney View in Article Google Scholar

131. NSW Department of Transport Household travel survey summary report 2007. New South Wales Government , Sydney View in Article Google Scholar

132. NSW Department of Transport Key transport indicators. How do people travel. New South Wales Government , Sydney View in Article Google Scholar

133. Goletz M

Heinrichs D

Feige I Mobility trends in cutting-edge cities. Final report. Institute for Mobility Research , Munich View in Article Google Scholar

134. Transport for London Travel in London Report 9. http://content.tfl.gov.uk/travel-in-london-report-9.pdf Date: 2016 View in Article Google Scholar

135. Translink MetroVancouver regional trip diary survey. Briefing paper #1. An overview of regional demand and mode share. MetroVancouver , Vancouver, BC View in Article Google Scholar

136. Rode P

Hoffmann C

Kandt J

Smith D

Graff A Toward new urban. Mobility: the case of London and Berlin. London School of Economics and Political Science , London View in Article Google Scholar

137. City of Berlin Mobility in the city: Berlin traffic in figures. http://www.berlin.de/senuvk/verkehr/politik_planung/zahlen_fakten/download/Mobility_en_komplett.pdf Date: 2013 View in Article Google Scholar

139. Sims R

Schaeffer R

Creutzig F

et al. Transport. in: Edenhofer O Pichs-Madruga R Sokona Y Climate change 2014: mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Transport. Cambridge University Press , Cambridge View in Article Google Scholar

140. United Nations Environment Program Global outlook on walking and cycling. United Nations Environment , Nairobi View in Article Google Scholar

141. Vermeulen SJ

Campbell BM

Ingram JSI Climate change and food systems. Ann Rev Environ Resour. 37 : 195-222 View in Article Scopus (337)

Crossref

Google Scholar

143. Springmann M Analysis and valuation of the health and climate change cobenefits of dietary change. Proc Natl Acad Sci USA. 15 : 4146-4151 View in Article Scopus (98)

Crossref

Google Scholar

144. Hawkesworth S

Dangour AD

Johnston D

et al. Feeding the world healthily: the challenge of measuring the effects of agriculture on health. Philos Trans R Soc Lond B Biol Sci. 365 : 3083-3097 View in Article Scopus (65)

PubMed

Crossref

Google Scholar

145. Smith MR

Micha R

Golden C.D.

et al. Global Expanded Nutrient Supply (GENuS) model: a new method for estimating the global dietary supply of nutrients. PLoS One. 11 : e0146976 View in Article PubMed

Google Scholar

146. Gobbo LCD

Khatibzadeh S

Imamura F

et al. Assessing global dietary habits: a comparison of national estimates from the FAO and the Global Dietary Database 1–4. Am J Clin Nutr. 101 : 1038-1046 View in Article Scopus (25)

PubMed

Crossref

Google Scholar

147. Herrero M

Henderson B

Havlík P

et al. Greenhouse gas mitigation potentials in the livestock sector. Nat Clim Chang. 6 : 452-461 View in Article Scopus (73)

Crossref

Google Scholar

148. O'Mara FP The significance of livestock as a contributor to global greenhouse gas emissions today and in the near future. Anim Feed Sci Technol. 166–167 : 7-15 View in Article Scopus (116)

Crossref

Google Scholar

149. Herrero M

Havlík P

Valin H

et al. Biomass use, production, feed efficiencies, and greenhouse gas emissions from global livestock systems. Proc Natl Acad Sci USA. 110 : 20888-20893 View in Article Scopus (384)

PubMed

Crossref

Google Scholar

152. Norat T, Lukanova A, Ferrari P, Riboli E. Meat consumption and colorectal cancer risk: dose-response meta-analysis of epidemiological studies. Int J Cancer; 98: 241–56. View in Article Google Scholar

154. World Bank Climate-smart healthcare: low-carbon and resilience strategies for the health sector. World Bank , Washington, DC View in Article Crossref

Google Scholar

155. Sustainable Development Unit Carbon Footprint update for NHS in England 2015. NHS England and Public Health England , London View in Article Google Scholar

156. Stern N Stern review on the economics of climate change. Blackwell Publishing , London : 5 View in Article Google Scholar

157. Weitzmann ML Fat-tailed uncertainty in the economics of catastrophic climate change. Rev Environmental Economics and Policy. 5 : 17 View in Article Scopus (116)

Crossref

Google Scholar

158. Stern N The structure of economic modeling of the potential impacts of climate change: grafting gross underestimation of risk onto already narrow science models. J Economic Literature. 51 : 21 View in Article Scopus (114)

Crossref

Google Scholar

159. International Energy Agency World energy investment 2016. International Energy Agency , Paris View in Article Crossref

Google Scholar

160. International Energy Agency World energy investment 2017. International Energy Agency , Paris View in Article Crossref

Google Scholar

161. International Energy Agency World energy outlook 2016. International Energy Agency , Paris View in Article Crossref

Google Scholar

162. International Energy Agency

International Renewable Energy Agency Perspectives for the energy transition: Investment needs for a low-carbon energy system. International Energy Agency, International Renewable Energy Agency , Paris and Abu Dhabi View in Article Google Scholar

163. Olivier JGJ

Janssens-Maenhout G

Muntean M

Peters JAHW Trends in global CO2 emissions: 2016 report. PBL Netherlands Environmental Assessment Agency , Hague View in Article Google Scholar

164. Ansar A

Caldecott B

Tilbury J Stranded assets and the fossil fuel divestment campaign: what does divestment mean for the valuation of fossil fuel assets? Smith School of Enterprise and the Environment , Oxford View in Article Google Scholar

166. Ming-Xiao W

Tao Z

Miao-Rong X

Bin Z

Ming-Qiu J Analysis of national coal-mining accident data in China, 2001–2008. Public Health Rep. 126 : 5 View in Article Google Scholar

167. Hendryx M

Ahern MM Relations between health indicators and residential proximity to coal mining in West Virginia. Am J Public Health. 98 : 2 View in Article Scopus (78)

Crossref

Google Scholar

168. Zullig KJ

Hendryx M A comparative analysis of health-related quality of life for residents of US counties with and without coal mining. Public Health Rep. 125 : 7 View in Article Crossref

Google Scholar

169. Hendryx M Mortality from heart, respiratory, and kidney disease in coal mining areas of Appalachia. Int Arch Occup Environ Health. 82 : 6 View in Article Scopus (82)

Crossref

Google Scholar

170. IBIS World Global coal mining: market research report. IBIS World , Los Angeles, CA View in Article Google Scholar

171. IBIS World Global oil & gas exploration & production: market research report. IBIS World , Los Angeles, CA View in Article Google Scholar

172. International Renewable Energy Agency Renewable energy and jobs: annual review 2017. International Renewable Energy Agency , Abu Dhabi View in Article Crossref

Google Scholar

173. International Energy Agency World Energy Outlook 2012. International Energy Agency , Paris View in Article Crossref

Google Scholar

174. Granado JA

Coady D

Gillingham R The unequal benefits of fuel subsidies: a review of evidence for developing countries. International Monetary Fund , Washington, DC View in Article Google Scholar

175. General Secretariat of the Council G7 Ise-Shima Leaders' Declaration. European Council. Council of the European Union , Brussels : 1 View in Article Google Scholar

176. World Bank, Ecofys. Carbon pricing watch 2017. Washington DC, USA, 2017. View in Article Google Scholar

177. Patuelli R

Nijkamp P

Pels E Environmental tax reform and the double dividend: a meta–analytical performance assessment. Ecol Econ. 55 : 564-583 View in Article Scopus (43)

Crossref

Google Scholar

178. Georgeson L

Maslin M

Poessinouw M Global disparity in the supply of commercial weather and climate information services. Sci Adv. 3 : e1602632 View in Article PubMed

Crossref

Google Scholar

179. Crompton T Common values: the case for working with our cultural values. World Wide Fund for Nature , Gland View in Article Google Scholar

181. Boykoff MT

Goodman MK

Curtis I Cultural politics of climate change: interactions in the spaces of everyday. Department of Geography, King's College London , London View in Article Google Scholar

182. Lee TM

Markowitz EM

Howe PD

et al. Predictors of public climate change awareness and risk perception around the world. Nat Clim Chang. 5 : 1014-1020 View in Article Scopus (91)

Crossref

Google Scholar

184. Steentjes K

Pidgeon N

Poortinga W

et al. European perceptions of climate change: topline findings of a survey conducted in four European countries in 2016. Cardiff University , Cardiff View in Article Google Scholar

186. Bhatta SNA Coverage of climate change issues in Indian newspapers and policy implications. Current Science. 108 : 1972-1973 View in Article Google Scholar

187. McNatt M

Nacu-Schmidt A

Oonk D

Boykoff M

Daly M

McAllister L World newspaper coverage of climate change or global warming, 2004–2017. Center for Science and Technology Policy Research, Cooperative Institute for Research in Environmental Sciences, University of Colorado , Boulder, CO View in Article Google Scholar

188. Schütte S

Depoux A

Vigil S

et al. The influence of health concerns in scientific and policy debates on climate change. Epidemiol Community Health. 71 : 747-749 View in Article Scopus (1)

Crossref

Google Scholar

189. Depoux A

Hémono M

Puig-Malet S

Pédron R

Flahault A Communicating climate change and health in the media. Public Health Rev. 38 : 7 View in Article PubMed

Crossref

Google Scholar

190. Hosking J

Campbell-Lendrum D How well does climate change and human health research match the demands of policymakers? A scoping review. Environ Health Perspect. 120 : 1076-1082 View in Article Scopus (34)

PubMed

Crossref

Google Scholar

193. Janssen MA

Schoon ML

Ke W

Börner K Scholarly networks on resilience, vulnerability and adaptation within the human dimensions of global environmental change. Glob Environ Change. 16 : 240-252 View in Article Scopus (224)

Crossref

Google Scholar

194. Herlihy N

Bar-Hen A

Verner G

et al. Climate change and human health: what are the research trends? A scoping review protocol. BMJ Open. 6 : e012022 View in Article Scopus (4)

PubMed

Crossref

Google Scholar