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Development and Adaptation Days at COP-11 Health and Climate Change December 3, 2005

Development and Adaptation Days at COP-11 Health and Climate Change December 3, 2005. The Socio-Economic Benefits of Climatological Services to the Health Sector. AR Moreno, K Ebi, A Githeko & R Pulwarty.

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Development and Adaptation Days at COP-11 Health and Climate Change December 3, 2005

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  1. Development and Adaptation Days at COP-11Health and Climate ChangeDecember 3, 2005 The Socio-Economic Benefits of Climatological Services to the Health Sector AR Moreno, K Ebi, A Githeko & R Pulwarty

  2. Health is the basis for job productivity, the capacity to learn in school, and the capability to grow intellectually, physically, and emotionally. More than half of Africa’s growth shortfall relative to the high-growth countries of East Asia could be explained statistically by disease burden, demography, and geography. Good population health is a critical input into poverty reduction and economic growth.

  3. Better understanding of climate health and health effects in human population will require: • new analytical tools, including GISs to organize localized disease, • climate and demographic data, • and remote sensing satellite technology that provides valuable data on land use patterns, habit characteristics and marine ecosystems.

  4. Climatological information can be a major tool in the reduction of disease, injury and death and the improvement of health and health care: • Better personal protective measures in adverse environments • Reduction of some intestinal, respiratory and infectious diseases • Better control of living conditions for disease susceptible people • Enabling of studies of causal relationships

  5. Health sector needs for climate information and products • Incorporating advances in climate forecasting with a better understanding of vulnerable sub-populations can be the basis of effective public health interventions to reduce the burden of climate-sensitive diseases. • Climate information can play an integral role in early warning systems (EWSs) for heat waves, floods, droughts, vector-borne diseases, air pollution-related diseases, and other diseases. • Users of climate information include individuals, communities, nations, regions, and international organizations.

  6. Malaria is a climate sensitive disease, causing economic and social burden: • malaria-endemic countries are not only poorer than non-malarious countries; • they also have lower rates of economic growth; • malaria affects almost every aspect of social and economic endeavour, including fertility, savings and investment rates, crop choices, schooling and migration decisions.

  7. For example: • Between 1965 and 1990, countries in which a large proportion of the population lived in regions with Plasmodium falciparum malaria experienced an average growth in per-capita GDP of 0.4% per year, whereas average growth in other countries was 2.3% per year. Source: Gallup and Sachs 2001 • In Sudan, the mean expenditure on diagnosis and treatment of an episode of malaria has been US$5.12 for home-treated cases and US$17.2 for a hospitalized case, representing a significant economic burden to family income. Source: Abdel-Hameed et al. 2001

  8. Forecasting Malaria Epidemics • The greatest challenge in containing malaria epidemics has been the inability to predict when and where they will occur. As a result interventions are undertaken when the epidemic is well underway and the damage has been done. • A model based on climate data was developed to East Africa and Ethiopia.

  9. Forecasting Malaria Epidemics (Cont.) • The epidemics could be predicted with a lead-time of 2-3 months thus providing ample time and opportunity to prepare for the event Source: Githeko and Ndegwa, 2001

  10. Forecasting Malaria Epidemics (Cont.) New knowledge indicates that malaria transmission can be partially modelled using climate data and furthermore epidemics can be predicted Drugs, and other medical supplies can be delivered where the outbreak is expected The communities would also be informed of the pending outbreak so that they can acquire bed-nets or spray their houses and seek early and effective treatment Expect to have a substantial reduction in the number of malaria cases translating into savings from expensive hospitalization

  11. Hot weather/watch warning systems • Can predict specific air masses up to two days in advance. • Once an air mass is classified as oppressive with the likelihood of high mortality, a “health warning” is issued to the public health authorities, which prepare a public health response. • Prevent deaths in urban centres that are particularly likely to experience the adverse effects of heat.

  12. Heat Health Warning Systems Save Lives • The Philadelphia Hot Weather-Health Watch/Warning System (PWWS) was developed in 1995 to alert the city’s population when weather conditions pose risks to health • Based of synoptic air masses a heat-related warming is issued • Once a heat-related warning is issued, the Philadelphia Department of Health implements emergency precautions and mitigation procedures to reduce mortality risk Source: Kalkstein et al. 1996

  13. Heat Health Warning Systems Save Lives (Cont.) • When a warning was issued, 2.6 lives were saved, on average, for each warning day and for three days after the warning ended. • Given the number of warnings issued over the three-year period, the system saved an estimated 117 lives. • Estimated dollar costs for running the system were small compared with estimates of the value of a life. Source: Ebi et al. 2004

  14. EWSs should be understood as credible and accessible information systems designed to facilitate decision making in the context of disaster management agencies in a way that empowers vulnerable sectors and social groups to mitigate potential losses and damages from impending hazard events

  15. Final Comments • The World Bank estimates that economic losses worldwide from natural hazards in the 1990s could have been reduced by $280 billion if $40 billion had been invested in preparedness, mitigation and prevention strategies. • There are opportunities to reduce the burden of climate sensitive diseases through investment in the development of EWSs, which can be facilitated by collaboration between WMO, WHO, and other relevant agencies.

  16. Final Comments (Cont.) Meteorological and hydrological agencies must become or be allowed to become involved with other governmental organizations, local and national officials, emergency managers, local decision makers, the media, voluntary organizations, and weather-sensitive business. Create effective preparedness plans, warning systems, mitigation strategies and public education programs

  17. Thank you

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