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Protecting our Health from Climate Change: a Training Course for Public Health Professionals

Protecting our Health from Climate Change: a Training Course for Public Health Professionals. Chapter 4: Overview of the Health Impacts of Climate Change. Overview: This Module.

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Protecting our Health from Climate Change: a Training Course for Public Health Professionals

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  1. Protecting our Health from Climate Change: a Training Course for Public Health Professionals Chapter 4: Overview of the Health Impacts of Climate Change

  2. Overview: This Module • Reviews the major health impacts of climate change, including increases in the frequency and intensity of extreme weather events (heatwaves, floods, windstorms, droughts); alterations in the transmission dynamics of food-, water-, and vectorborne diseases; and changes in the concentrations of air pollutants (including aeroallergens)

  3. Health Impacts of Climate Change McMichael et al. 2003a

  4. Direction and Magnitude of Change of Selected Health Impacts of Climate Change (IPCC, 2007a)

  5. Pathways for Weather to Affect Health: Example = Diarrheal Disease Distal Causes Proximal Causes Infection Hazards Health Outcome Survival/ replication of pathogens in the environment Temperature Humidity Precipitation Consumption of contaminated water Incidence of mortality and morbidity attributable to diarrhea Contamination of water sources Consumption of contaminated food Living conditions (water supply and sanitation) Contact with infected persons Contamination of food sources Food sources and hygiene practices Vulnerability (e.g., age and nutrition) Rate of person to person contact

  6. Multiple Factors Affect Climate-Sensitive Health Outcomes Biophysical factors Baseline climate Elevation Natural resources (e.g., water bodies, soil moisture) Biological sensitivity Concomitant diseases Acquired immunity Genetic factors Socioeconomic status

  7. Intergovernmental Panel on Climate Change 4th Assessment Health impacts due to climate change are occurring Impacts unevenly distributed Impacts will increase with increasing climate change All regions will be affected Mitigation and adaptation needed now Inertia in the climate system means change will continue for decades after successful control of greenhouse emissions Extent of health impacts over next few decades will depend on the design and implementation of effective adaptation measures

  8. IPCC AR4 Health Impacts of Climate Change • Emerging evidence of climate change impacts: • Altered distribution of some vectors • Altered seasonal distribution of some pollen species • Increased risk of heatwave deaths

  9. Annual Consequences of Diarrheal Diseases, Malaria, and Malnutrition in Children in Developing Countries Diarrheal diseases cause nearly 2 million deaths, most attributable to contaminated water and inadequate sanitation and hygiene Malaria causes about 300500 million infections, leading to approximately 13 million deaths Malnutrition is an underlying cause of approximately 50% of the 10.5 million deaths in children under the age of 5

  10. Infant Mortality 1–4 Years Worldmapper 2008f

  11. World Population 1960 Worldmapper 2008e

  12. World Population 2050 Worldmapper 2008b

  13. Total CO2 Emissions UNEP 2009

  14. Health Burden of Climate Change Impacts Deaths from malaria and dengue fever, diarrhoea, malnutrition, flooding, and (in OECD countries) heatwaves

  15. Greenhouse Gases and Air Pollutants • Most sources of greenhouse gas emissions also emit “conventional” air pollutants (PM, SO2, NOx, VOC), which have negative impacts on human health. • Many — but not all — GHG mitigation measures reduce also these air pollutants. • Positive (side-)impacts on • Human health through reduced air pollution, • Air pollution emission control costs. • Some measures have important trade-offs.

  16. Findings of IPCC AR4 Health benefits make up between 50% and 400% of carbon mitigation costs Benefits range from 7 $/t C (USA) to several 100 $/t C (China) Economic Co-Benefits of GHG Mitigation on Health

  17. Climate Change Is about Children

  18. And Other Vulnerable Groups

  19. Sum of Years of Life Lost and Years of Life Lived with Disability Pitcher et al. 2008

  20. Impacts Will Depend on the Local Context Philip Wijmans, LWF/ACT Mozambique, March 2000

  21. Possible Impact Scenarios Single large-scale disasters Repeated smaller disasters Continuous temperature increase producing gradual, linear increase in climate-sensitive health outcomes Any combination of the above Adverse health impacts of mitigation and adaptation measures

  22. Climate Change Is Adding More Energy to the Atmosphere http://earthobservatory.nasa.gov

  23. Heatwave: August 2003 35,000 extra deaths over a two-week period http://earthobservatory.nasa.gov

  24. Emission Pathways, Climate Change, and Impacts on California Hayhoe et al. 2004

  25. Floods in Europe • 1992: 1,346 killed in Tajikistan • 1993: 125 died in Yekaterinburg, Russia • 1996: 86 died in the Biescas campsite, Spain • 1998: 147 died in Sarno, Italy • 2002: 120 died in Central Europe "EM-DAT: The OFDA/CRED International Disaster Database, www.em-dat.net – Université Catholique de Louvain – Brussels – Belgium." Created on: May-23-2005. Data version: v05.05

  26. Trends in Disasters over Time

  27. Projected Changes in Ozone and Related Deaths, New York Metro Area 1990 2020s 2050s 2080s 2050s Kinney et al. 2006

  28. Climate Change Will Affect Flora and Fauna

  29. Temperature and Enteric Disease RR of Salmonellaincreased by 1.2% per degree above - 10˚C RR of Campylobacter increased by 2.2% (4.5% in Newfoundland) per degree above - 10˚C RR of E. coli increased by 6.0% per degree above - 10˚C Fleury et al. 2006

  30. Distribution of Lyme Disease, 1991–2000 and 2020 Tick abundance at model equilibrium 0 1-46 160-266 434-694 47-90 91-159 267-433 1739-2145 695-1101 1102-1738 Ogden et al., 2005, 2006a, 2006b

  31. Spread of Lyme Disease with Climate Change Modeled geographic limits projected for the establishment of I. scapularis ticks, in degree-days above 0ºC. Present modeled limits in blue or red (considering Great Lakes cooling effect). Triangles indicate endemic tick populations. Red dotted lines indicated projected change in the modeled geographic limits in three future time periods according to climate change scenarios (Ogden et al., 2005).

  32. Malaria in India 1980 to 2000 2050’s Bhattacharya et al. 2006

  33. IPCC AR4 Health Impacts of Climate Change • Health co-benefits from reduced air pollution as a result of actions to reduce greenhouse gas emissions can be substantial and may offset a substantial fraction of mitigation costs • Actions to reduce methane will decrease global concentrations of surface ozone

  34. IPCC AR4 Health Impacts of Climate Change (cont.) Adaptive capacity needs to be improved everywhere Even high-income countries not prepared for extreme weather events Adverse impacts will be greatest in low-income countries Those at greatest risk include the urban poor, the elderly and children, traditional societies, subsistence farmers, and coastal populations Economic development is important, but is insufficient to protect the world’s population against the health impacts of climate change Critical factors include the manner in which growth occurs, the distribution of benefits, public health infrastructure, and other factors that determine population health

  35. Epidemiologic Research Tasks Exposure-response relationships between background climate variation and health outcomes Estimate the current health burden (e.g., annual deaths) attributable to climate change Develop scenario-based modeling to project health risks Assess health harms and benefits of proposed mitigation and adaptation policy options

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