Bibliography for Chapter 4: Climate Change

1. Werndl, C., On defining climate and climate change. The British Journal for the Philosophy of Science, 2020.

2. Hegerl, G.C., et al., Causes of climate change over the historical record. Environmental Research Letters, 2019. 14(12): p. 123006.

3. Zhou, T., New physical science behind climate change: What does IPCC AR6 tell us? The Innovation, 2021. 2(4).

4. Bray, D. and H. von Storch, “Prediction” or “projection”? The nomenclature of climate science. Science Communication, 2009. 30(4): p. 534-543.

5. Hermans, T.H., et al., Projecting global mean sea‐level change using CMIP6 models. Geophysical Research Letters, 2021. 48(5): p. e2020GL092064.

6. Grose, M.R., et al., Insights from CMIP6 for Australia’s future climate. Earth’s Future, 2020. 8(5): p. e2019EF001469.

7. Lemos, M.C. and R.B. Rood, Climate projections and their impact on policy and practice. Wiley interdisciplinary reviews: climate change, 2010. 1(5): p. 670-682.

8. Pan, B., et al., Learning to correct climate projection biases. Journal of Advances in Modeling Earth Systems, 2021. 13(10): p. e2021MS002509.

9. Jackson, C.S., et al., Error reduction and convergence in climate prediction. Journal of Climate, 2008. 21(24): p. 6698-6709.

10. Arias, P., et al., Climate Change 2021: The Physical Science Basis. Contribution of Working Group14 I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change; Technical Summary. 2021.

11. Marazziti, D., et al., Climate change, environment pollution, COVID-19 pandemic and mental health. Science of The Total Environment, 2021: p. 145182.

12. Xu, R., et al., Wildfires, global climate change, and human health. New England Journal of Medicine, 2020. 383(22): p. 2173-2181.

13. Oleson, K.W., et al., Interactions between urbanization, heat stress, and climate change. Climatic Change, 2015. 129(3): p. 525-541.

14. Walsh, J.E., et al., Extreme weather and climate events in northern areas: A review. Earth-Science Reviews, 2020. 209: p. 103324.

15. Román-Palacios, C. and J.J. Wiens, Recent responses to climate change reveal the drivers of species extinction and survival. Proceedings of the National Academy of Sciences, 2020. 117(8): p. 4211-4217.

16. Wong, C.H.H., et al., Modelling building energy use at urban scale: A review on their account for the urban environment. Building and Environment, 2021. 205: p. 108235.

17. Van Ruijven, B.J., E. De Cian, and I. Sue Wing, Amplification of future energy demand growth due to climate change. Nature communications, 2019. 10(1): p. 1-12.

18. Tong, D., et al., Committed emissions from existing energy infrastructure jeopardize 1.5 C climate target. Nature, 2019. 572(7769): p. 373-377.

19. Gielen, D., et al., The role of renewable energy in the global energy transformation. Energy Strategy Reviews, 2019. 24: p. 38-50.

20. Trenberth, K.E., Climate change caused by human activities is happening and it already has major consequences. Journal of Energy & Natural Resources Law, 2018. 36(4): p. 463-481.

21. Malhi, G.S., M. Kaur, and P. Kaushik, Impact of climate change on agriculture and its mitigation strategies: A review. Sustainability, 2021. 13(3): p. 1318.

22. Howden, S.M., et al., Adapting agriculture to climate change. Proceedings of the national academy of sciences, 2007. 104(50): p. 19691-19696.

23. Hassapoyannes, K. and D. Blandford, Agriculture and climate change: National and international policy response, in Global Challenges for Future Food and Agricultural Policies. 2019, World Scientific. p. 217-248.

24. Molotoks, A., P. Smith, and T.P. Dawson, Impacts of land use, population, and climate change on global food security. Food and Energy Security, 2021. 10(1): p. e261.

25. Wesche, S.D. and H.M. Chan, Adapting to the impacts of climate change on food security among Inuit in the Western Canadian Arctic. EcoHealth, 2010. 7(3): p. 361-373.

26. Arora, N.K., Impact of climate change on agriculture production and its sustainable solutions. 2019, Springer. p. 95-96.

27. Mylonas, I., et al., Better farming practices to combat climate change, in Climate change and food security with emphasis on wheat. 2020, Elsevier. p. 1-29.

28. Steeg, J.v.d., et al., Livestock and climate change. Rural 21, 2009.

29. Lewis, S.L., Y. Malhi, and O.L. Phillips, Fingerprinting the impacts of global change on tropical forests. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 2004. 359(1443): p. 437-462.

30. Gatti, L.V., et al., Amazonia as a carbon source linked to deforestation and climate change. Nature, 2021. 595(7867): p. 388-393.

31. Zeppetello, L.R.V., et al., Large scale tropical deforestation drives extreme warming. Environmental Research Letters, 2020. 15(8): p. 084012.

32. James, P., et al., A Review of the Health Benefits of Greenness. Current Epidemiology Reports, 2015. 2(2): p. 131-142.

33. Wu, P., M. Wang, and X. Zhang, Relationship between vegetation greenness and urban heat island effect in Beijing. Journal of Beijing Forestry University, 2009. 31(5): p. 54-60.

34. Shah, A., Urban land use and the heat island effect. 2020, Indian Institute of Management Ahmedabad.

35. Selwood, K.E., M.A. McGeoch, and R. Mac Nally, The effects of climate change and land‐use change on demographic rates and population viability. Biological Reviews, 2015. 90(3): p. 837-853.

36. Law, B.E., et al., Land use strategies to mitigate climate change in carbon dense temperate forests. Proceedings of the National Academy of Sciences, 2018. 115(14): p. 3663-3668.

37. Stone Jr, B., Land use as climate change mitigation. 2009, ACS Publications.

38. Koh, L.P., et al., Carbon prospecting in tropical forests for climate change mitigation. Nature communications, 2021. 12(1): p. 1-9.

39. Ohunakin, O.S., et al., The effect of climate change on solar radiation in Nigeria. Solar Energy, 2015. 116: p. 272-286.

40. Asim, M., et al., Correcting solar radiation from reanalysis and analysis datasets with systematic and seasonal variations. Case Studies in Thermal Engineering, 2021. 25: p. 100933.

41. Trenberth, K.E. and J.T. Fasullo, Global warming due to increasing absorbed solar radiation. Geophysical Research Letters, 2009. 36(7).

42. Lean, J. and D. Rind, Climate forcing by changing solar radiation. Journal of Climate, 1998. 11(12): p. 3069-3094.

43. Noureen, A., et al., The Impact of Climate Change on Waterborne Diseases in Pakistan. Sustainability and Climate Change, 2022. 15(2): p. 138-152.

44. El Baz, S. and K. Kahime, Waterborne diseases arising from climate change: An overview on the possible link. Research Anthology on Environmental and Societal Impacts of Climate Change, 2022: p. 64-87.

45. Cianconi, P., S. Betrò, and L. Janiri, The impact of climate change on mental health: a systematic descriptive review. Frontiers in psychiatry, 2020: p. 74.

46. Campbell, S., et al., Heatwave and health impact research: A global review. Health & place, 2018. 53: p. 210-218.

47. Steffen, W., L. Hughes, and S. Perkins, Heatwaves: hotter, longer, more often. 2014.

48. Brown, S.J., Future changes in heatwave severity, duration and frequency due to climate change for the most populous cities. Weather and Climate Extremes, 2020. 30: p. 100278.

49. Kravchenko, J., et al., Minimization of heatwave morbidity and mortality. American journal of preventive medicine, 2013. 44(3): p. 274-282.

50. Royé, D., et al., Heat wave intensity and daily mortality in four of the largest cities of Spain. Environmental research, 2020. 182: p. 109027.

51. Kundzewicz, Z.W., et al., Flood risk and climate change: global and regional perspectives. Hydrological Sciences Journal, 2014. 59(1): p. 1-28.

52. Depietri, Y., F.G. Renaud, and G. Kallis, Heat waves and floods in urban areas: a policy-oriented review of ecosystem services. Sustainability science, 2012. 7(1): p. 95-107.

53. Thistlethwaite, J., et al., Application of re/insurance models to estimate increases in flood risk due to climate change. Geoenvironmental Disasters, 2018. 5(1): p. 1-13.

54. Ji, Y., et al., Increase in flood and drought disasters during 1500–2000 in Southwest China. Natural Hazards, 2015. 77(3): p. 1853-1861.

55. Jongman, B., P.J. Ward, and J.C. Aerts, Global exposure to river and coastal flooding: Long term trends and changes. Global Environmental Change, 2012. 22(4): p. 823-835.

56. Jongman, B., Effective adaptation to rising flood risk. Nature communications, 2018. 9(1): p. 1-3.

57. Chen, W., et al., The capacity of grey infrastructure in urban flood management: A comprehensive analysis of grey infrastructure and the green-grey approach. International Journal of Disaster Risk Reduction, 2021: p. 102045.

58. Huang, Y., et al., Nature‐based solutions for urban pluvial flood risk management. Wiley Interdisciplinary Reviews: Water, 2020. 7(3): p. e1421.

59. Li, L., P. Uyttenhove, and V. Van Eetvelde, Planning green infrastructure to mitigate urban surface water flooding risk–A methodology to identify priority areas applied in the city of Ghent. Landscape and Urban Planning, 2020. 194: p. 103703.

60. Mal, S., et al., Introducing linkages between climate change, extreme events, and disaster risk reduction, in Climate change, extreme events and disaster risk reduction. 2018, Springer. p. 1-14.

61. Cooney, C.M., Managing the risks of extreme weather: IPCC Special Report. 2012, National Institute of Environmental Health Sciences.

62. Lieber, M., et al., A systematic review and meta-analysis assessing the impact of droughts, flooding, and climate variability on malnutrition. Global Public Health, 2022. 17(1): p. 68-82.

63. Ray, B. and R. Shaw, Urban Drought : Emerging Water Challenges in Asia, in Disaster Risk Reduction, Methods, Approaches and Practices,. 2019, Springer Singapore : Imprint: Springer,: Singapore. p. 1 online resource (XVI, 427 pages 111 illustrations, 92 illustrations in color.

64. Khoury, S. and D.A. Coomes, Resilience of Spanish forests to recent droughts and climate change. Global Change Biology, 2020. 26(12): p. 7079-7098.

65. Cook, B.I., J.S. Mankin, and K.J. Anchukaitis, Climate change and drought: From past to future. Current Climate Change Reports, 2018. 4(2): p. 164-179.

66. Dai, A., T. Zhao, and J. Chen, Climate change and drought: a precipitation and evaporation perspective. Current Climate Change Reports, 2018. 4(3): p. 301-312.

67. Pokhrel, Y., et al., Global terrestrial water storage and drought severity under climate change. Nature Climate Change, 2021. 11(3): p. 226-233.

68. Fang, X. and J.W. Pomeroy, Snowmelt runoff sensitivity analysis to drought on the Canadian prairies. Hydrological Processes: An International Journal, 2007. 21(19): p. 2594-2609.

69. Atlas, W.I., et al., Thermal sensitivity and flow-mediated migratory delays drive climate risk for coastal sockeye salmon. Facets, 2021. 6(1): p. 71-89.

70. Dahe, Q., L. Shiyin, and L. Peiji, Snow cover distribution, variability, and response to climate change in western China. Journal of climate, 2006. 19(9): p. 1820-1833.

71. Li, Y., et al., Excessive rainfall leads to maize yield loss of a comparable magnitude to extreme drought in the United States. Global change biology, 2019. 25(7): p. 2325-2337.

72. Mansoor, S., et al., Elevation in wildfire frequencies with respect to the climate change. Journal of environmental management, 2022. 301: p. 113769.

73. Davis, K.T., et al., Wildfires and climate change push low-elevation forests across a critical climate threshold for tree regeneration. Proceedings of the National Academy of Sciences, 2019. 116(13): p. 6193-6198.

74. Jones, M.W., et al., Climate change increases the risk of wildfires. ScienceBrief Review, 2020. 116: p. 117.

75. Pausas, J.G. and J.E. Keeley, Wildfires and global change. Frontiers in Ecology and the Environment, 2021. 19(7): p. 387-395.

76. Borchers Arriagada, N., et al., Climate change, wildfires, heatwaves and health impacts in Australia, in Extreme weather events and human health. 2020, Springer. p. 99-116.

77. Gillen, A., The Mountain Pine Beetle, Climate Change and Sustainable Forestry in the Northern Rocky Mountain. 2022.

78. Toimil, A., et al., Managing coastal erosion under climate change at the regional scale. Coastal Engineering, 2017. 128: p. 106-122.

79. Prasad, D.H. and N.D. Kumar, Coastal erosion studies—a review. International Journal of Geosciences, 2014. 2014.

80. Masselink, G. and P. Russell, Impacts of climate change on coastal erosion. MCCIP Science Review, 2013. 2013: p. 71-86.

81. Sanò, M., et al., The role of coastal setbacks in the context of coastal erosion and climate change. Ocean & Coastal Management, 2011. 54(12): p. 943-950.

82. Griggs, G. and B.G. Reguero, Coastal adaptation to climate change and sea-level rise. Water, 2021. 13(16): p. 2151.

83. Rizal, A. and Z. Anna, Climate change and its possible food security implications toward Indonesian marine and fisheries. World News of Natural Sciences, 2019. 22: p. 119-128.

84. Łabuz, T.A., Environmental impacts—coastal erosion and coastline changes, in Second Assessment of Climate Change for the Baltic Sea Basin. 2015, Springer. p. 381-396.

85. Parry, M., C. Rosenzweig, and M. Livermore, Climate change, global food supply and risk of hunger. Philosophical Transactions of the Royal Society B: Biological Sciences, 2005. 360(1463): p. 2125-2138.

86. Kinay, P., et al., Direct and indirect health impacts of climate change on the vulnerable elderly population in East China. Environmental Reviews, 2019. 27(3): p. 295-303.

87. Daniels, L.D., et al., Direct and indirect impacts of climate change on forests: three case studies from British Columbia. Canadian Journal of Plant Pathology, 2011. 33(2): p. 108-116.

88. Boas, I., et al., Climate mobilities: Migration, im/mobilities and mobility regimes in a changing climate. Journal of Ethnic and Migration Studies, 2022: p. 1-15.

89. McLeman, R., Migration and displacement risks due to mean sea-level rise. Bulletin of the Atomic Scientists, 2018. 74(3): p. 148-154.

90. Brooks, H., Climate Migration in Canada: A Case Study of Lennox Island, PEI. 2018.

91. Raza, A., et al., Impact of climate change on crops adaptation and strategies to tackle its outcome: A review. Plants, 2019. 8(2): p. 34.

92. Reid, H., et al., Community-based adaptation to climate change: an overview. Participatory learning and action, 2009. 60(1): p. 11-33.

93. Fawzy, S., et al., Strategies for mitigation of climate change: a review. Environmental Chemistry Letters, 2020. 18(6): p. 2069-2094.

94. Franchini, M. and P.M. Mannucci, Mitigation of air pollution by greenness: A narrative review. European journal of internal medicine, 2018. 55: p. 1-5.

95. Ohsawa, T. and P. Duinker, Climate-change mitigation in Canadian environmental impact assessments. Impact Assessment and Project Appraisal, 2014. 32(3): p. 222-233.

96. VijayaVenkataRaman, S., S. Iniyan, and R. Goic, A review of climate change, mitigation and adaptation. Renewable and Sustainable Energy Reviews, 2012. 16(1): p. 878-897.

97. Hurlimann, A., S. Moosavi, and G.R. Browne, Urban planning policy must do more to integrate climate change adaptation and mitigation actions. Land Use Policy, 2021. 101: p. 105188.

98. Abbass, K., et al., A review of the global climate change impacts, adaptation, and sustainable mitigation measures. Environmental Science and Pollution Research, 2022: p. 1-21.

99. Bonn, A., et al., Nature-Based Solutions to Climate Change Adaptation in Urban Areas : Linkages between Science, Policy and Practice, in Theory and Practice of Urban Sustainability Transitions,. 2017, Springer International Publishing : Imprint: Springer,: Cham. p. 1 online resource (XI, 342 pages 60 illustrations, 42 illustrations in color.

100. Mi, Z., et al., Cities: The core of climate change mitigation. Journal of Cleaner Production, 2019. 207: p. 582-589.

101. Owusu, P.A. and S. Asumadu-Sarkodie, A review of renewable energy sources, sustainability issues and climate change mitigation. Cogent Engineering, 2016. 3(1): p. 1167990.

102. Elum, Z.a. and A. Momodu, Climate change mitigation and renewable energy for sustainable development in Nigeria: A discourse approach. Renewable and Sustainable Energy Reviews, 2017. 76: p. 72-80.

103. Bai, X., et al., Six research priorities for cities and climate change. 2018, Nature Publishing Group.

104. Creutzig, F., et al., Towards demand-side solutions for mitigating climate change. Nature Climate Change, 2018. 8(4): p. 260-263.

105. Chowdhury, A.H., et al., Developing 3Rs (reduce, reuse and recycle) strategy for waste management in the urban areas of Bangladesh: Socioeconomic and climate adoption mitigation option. IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT), 2014. 8(5): p. 9-18.

106. Ambasta, A. and J.J. Buonocore, Carbon pricing: a win-win environmental and public health policy. Canadian Journal of Public Health, 2018. 109(5): p. 779-781.

107. Moser, S.C. and J.A. Ekstrom, A framework to diagnose barriers to climate change adaptation. Proceedings of the national academy of sciences, 2010. 107(51): p. 22026-22031.

108. Ayers, J. and D. Dodman, Climate change adaptation and development I: the state of the debate. Progress in Development studies, 2010. 10(2): p. 161-168.

109. Gill, S.E., et al., Adapting cities for climate change: the role of the green infrastructure. Built environment, 2007. 33(1): p. 115-133.

110. Cortinovis, C., et al., Scaling up nature-based solutions for climate-change adaptation: Potential and benefits in three European cities. Urban Forestry & Urban Greening, 2022. 67: p. 127450.

111. Frantzeskaki, N., et al., Nature-based solutions for urban climate change adaptation: linking science, policy, and practice communities for evidence-based decision-making. BioScience, 2019. 69(6): p. 455-466.

112. Lin, B.B., Resilience in agriculture through crop diversification: adaptive management for environmental change. BioScience, 2011. 61(3): p. 183-193.

113. Dubey, P.K., G.S. Singh, and P.C. Abhilash, Adaptive agricultural practices: Building resilience in a changing climate. 2020: Springer.

114. Banwell, N., et al., Towards improved linkage of disaster risk reduction and climate change adaptation in health: a review. International journal of environmental research and public health, 2018. 15(4): p. 793.

115. Mori, A.S., Advancing nature‐based approaches to address the biodiversity and climate emergency. Ecology letters, 2020. 23(12): p. 1729-1732.

116. Butler, C.D., et al., Climate Change and Human Health, in Sustainability and the New Economics. 2022, Springer. p. 51-68.

117. Agache, I., et al., Climate change and global health: a call to more research and more action. Allergy, 2022. 77(5): p. 1389-1407.

118. Fraser, S., Climate change is a health issue. Canadian Family Physician, 2021. 67(10): p. 719.

119. Patz, J.A., et al., Climate change: challenges and opportunities for global health. Jama, 2014. 312(15): p. 1565-1580.

120. Li, M., et al., Temperature, temperature extremes, and cause-specific respiratory mortality in China: a multi-city time series analysis. Air Quality, Atmosphere & Health, 2019. 12(5): p. 539-548.

121. Joshi, M., et al., Climate change and respiratory diseases: a 2020 perspective. Current Opinion in Pulmonary Medicine, 2020. 26(2): p. 119-127.

122. D’Amato, G., et al., Climate change and respiratory diseases. 2014, Eur Respiratory Soc.

123. D’amato, G. and L. Cecchi, Effects of climate change on environmental factors in respiratory allergic diseases. Clinical & Experimental Allergy, 2008. 38(8): p. 1264-1274.

124. Hiatt, R.A. and N. Beyeler, Cancer and climate change. The Lancet Oncology, 2020. 21(11): p. e519-e527.

125. Van der Leun, J.C. and F.R. de Gruijl, Climate change and skin cancer. Photochemical & Photobiological Sciences, 2002. 1(5): p. 324-326.

126. Eala, M.A.B., et al., Climate crisis and cancer: perspectives from the hardest hit. The Lancet Oncology, 2022. 23(3): p. e92.

127. Liu, X.-X., et al., Green space and cardiovascular disease: A systematic review with meta-analysis. Environmental Pollution, 2022: p. 118990.

128. Peters, A. and A. Schneider, Cardiovascular risks of climate change. Nature Reviews Cardiology, 2021. 18(1): p. 1-2.

129. Yang, J., et al., Projecting heat-related excess mortality under climate change scenarios in China. Nature communications, 2021. 12(1): p. 1-11.

130. Zhang, Y., et al., Global climate change: impact of heat waves under different definitions on daily mortality in Wuhan, China. Global health research and policy, 2017. 2(1): p. 1-9.

131. Schnitter, R. and P. Berry, The climate change, food security and human health nexus in Canada: A framework to protect population health. International journal of environmental research and public health, 2019. 16(14): p. 2531.

132. Guyot, M., et al., Local observations of climate change and impacts on traditional food security in two northern Aboriginal communities. International journal of circumpolar health, 2006. 65(5): p. 403-415.

133. Cissé, G., Food-borne and water-borne diseases under climate change in low-and middle-income countries: Further efforts needed for reducing environmental health exposure risks. Acta tropica, 2019. 194: p. 181-188.

134. Aylward, B., et al., Climate change is impacting mental health in North America: A systematic scoping review of the hazards, exposures, vulnerabilities, risks and responses. International Review of Psychiatry, 2022: p. 1-17.

135. Cianconi, P., et al., Climate shift and mental health adjustment. CNS spectrums, 2021. 26(1): p. 5-6.

136. Clayton, S., Climate change and mental health. Current Environmental Health Reports, 2021. 8(1): p. 1-6.

137. Caminade, C., K.M. McIntyre, and A.E. Jones, Impact of recent and future climate change on vector‐borne diseases. Annals of the New York Academy of Sciences, 2019. 1436(1): p. 157-173.

138. Levy, K., S.M. Smith, and E.J. Carlton, Climate change impacts on waterborne diseases: moving toward designing interventions. Current environmental health reports, 2018. 5(2): p. 272-282.

139. Connolly, C., R. Day, and H. Goodall, THE EFFECT OF CLIMATE CHANGE ON RESPIRATORY DISEASE. Canadian Journal of Respiratory Therapy, 2021. 57.

140. Spickett, J.T., H. Brown, and K. Rumchev, Climate change and air quality: the potential impact on health. Asia Pacific Journal of Public Health, 2011. 23(2_suppl): p. 37S-45S.

141. Fang, Y., et al., Air pollution and associated human mortality: the role of air pollutant emissions, climate change and methane concentration increases from the preindustrial period to present. Atmospheric Chemistry and Physics, 2013. 13(3): p. 1377-1394.

142. Chang, A.Y., M. Barry, and R.A. Harrington, The need to expand the framework of environmental determinants of cardiovascular health from climate change to planetary health: Trial by wildfire. Circulation, 2021. 143(21): p. 2029-2031.

143. Gravel, H., et al., Cardiovascular control during heat stress in older adults: time for an update. American Journal of Physiology-Heart and Circulatory Physiology, 2021.

144. Revich, B. and D. Shaposhnikov, Climate change, heat waves, and cold spells as risk factors for increased mortality in some regions of Russia. Studies on Russian Economic Development, 2012. 23(2): p. 195-207.

145. Hayhoe, K., et al., Climate change, heat waves, and mortality projections for Chicago. Journal of Great Lakes Research, 2010. 36: p. 65-73.

146. Wang, L., et al., The impact of cold spells on mortality and effect modification by cold spell characteristics. Scientific reports, 2016. 6(1): p. 1-10.

147. Huynen, M.-M., et al., The impact of heat waves and cold spells on mortality rates in the Dutch population. Environmental health perspectives, 2001. 109(5): p. 463-470.

148. He, Y., et al., Public Health Adaptation to Heat Waves in Response to Climate Change in China, in Ambient Temperature and Health in China. 2019, Springer. p. 171-190.

149. Tan, J., et al., Heat wave impacts on mortality in Shanghai, 1998 and 2003. International journal of biometeorology, 2007. 51(3): p. 193-200.

150. Luber, G. and M. McGeehin, Climate change and extreme heat events. American journal of preventive medicine, 2008. 35(5): p. 429-435.

151. Kjellstrom, T., Climate change, direct heat exposure, health and well-being in low and middle-income countries. Global Health Action, 2009. 2.

152. Ortiz, A.P., et al., Strengthening resilience and adaptive capacity to disasters in cancer control plans: Lessons learned from Puerto Rico. Cancer Epidemiology, Biomarkers & Prevention, 2020. 29(7): p. 1290-1293.

153. Bikomeye, J.C., et al., Greenspace, Inflammation, Cardiovascular Health, and Cancer: A Review and Conceptual Framework for Greenspace in Cardio-Oncology Research. International Journal of Environmental Research and Public Health, 2022. 19(4): p. 2426.

154. Bharathy, R.S., Linkages of climatic change with Human Health: Exploring the Effects.

155. Dietz, W.H., Climate change and malnutrition: we need to act now. The Journal of Clinical Investigation, 2020. 130(2): p. 556-558.

156. Fanzo, J.C. and S.M. Downs, Climate change and nutrition-associated diseases. Nature Reviews Disease Primers, 2021. 7(1): p. 1-2.

157. Younis, K., S. Ahmad, and A. Badpa, Malnutrition: causes and strategies. J Food Process Technol, 2015. 6(434): p. 2.

158. Friel, S., A. Schram, and B. Townsend, The nexus between international trade, food systems, malnutrition and climate change. Nature Food, 2020. 1(1): p. 51-58.

159. Costello, A., et al., Managing the health effects of climate change: lancet and University College London Institute for Global Health Commission. The lancet, 2009. 373(9676): p. 1693-1733.

160. Vecchio, E.A., M. Dickson, and Y. Zhang, Indigenous mental health and climate change: A systematic literature review. The Journal of Climate Change and Health, 2022: p. 100121.

161. Charlson, F., et al., Climate change and mental health: a scoping review. International journal of environmental research and public health, 2021. 18(9): p. 4486.

162. Hrabok, M., A. Delorme, and V.I. Agyapong, Threats to mental health and well-being associated with climate change. Journal of Anxiety Disorders, 2020. 76: p. 102295.

163. Tong, S. and K. Ebi, Preventing and mitigating health risks of climate change. Environmental research, 2019. 174: p. 9-13.

164. Hayes, K., P. Berry, and K.L. Ebi, Factors influencing the mental health consequences of climate change in Canada. International journal of environmental research and public health, 2019. 16(9): p. 1583.

165. Berry, H.L., K. Bowen, and T. Kjellstrom, Climate change and mental health: a causal pathways framework. International journal of public health, 2010. 55(2): p. 123-132.

166. Githeko, A.K., et al., Climate change and vector-borne diseases: a regional analysis. Bulletin of the world health organization, 2000. 78(9): p. 1136-1147.

167. Patz, J.A. and W.K. Reisen, Immunology, climate change and vector-borne diseases. Trends in immunology, 2001. 22(4): p. 171-172.

168. Tozan, Y., O.L.H. Branch, and J. Rocklöv, Vector-borne diseases in a changing climate and world, in Climate Change and Global Public Health. 2021, Springer. p. 253-271.

169. Bouchard, C., et al., Climate change and infectious diseases: the challenges: N increased risk of tick-borne diseases with climate and environmental changes. Canada Communicable Disease Report, 2019. 45(4): p. 83.

170. Semenza, J.C., Cascading risks of waterborne diseases from climate change. Nature Immunology, 2020. 21(5): p. 484-487.

171. Charron, D.F., et al., Vulnerability of waterborne diseases to climate change in Canada: a review. Journal of Toxicology and Environmental Health, Part A, 2004. 67(20-22): p. 1667-1677.

172. Rose, J.B., et al., Climate and waterborne disease outbreaks. Journal‐American Water Works Association, 2000. 92(9): p. 77-87.

173. Ebi, K.L., et al., Extreme weather and climate change: population health and health system implications. Annual review of public health, 2021. 42: p. 293.

174. Hayes, K., et al., Climate change and mental health: Risks, impacts and priority actions. International journal of mental health systems, 2018. 12(1): p. 1-12.

175. Frumkin, H., Environmental health: from global to local. 2016: John Wiley & Sons.

176. Frumkin, H., et al., Climate change: the public health response. American journal of public health, 2008. 98(3): p. 435-445.

177. Frumkin, H., Environmental health : from global to local. 2005, San Francisco, CA: Jossey-Bass. liv, 1108 p.

178. Watts, N., et al., The 2020 report of The Lancet Countdown on health and climate change: responding to converging crises. The Lancet, 2020.

179. Watts, N., et al., The 2019 report of The Lancet Countdown on health and climate change: ensuring that the health of a child born today is not defined by a changing climate. The Lancet, 2019. 394(10211): p. 1836-1878.

180. Watts, N., et al., The 2018 report of the Lancet Countdown on health and climate change: shaping the health of nations for centuries to come. The Lancet, 2018. 392(10163): p. 2479-2514.

181. Watts, N., et al., Health and climate change: policy responses to protect public health. The Lancet, 2015. 386(10006): p. 1861-1914.

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