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Climate change, health and mosquito borne disease. Professor Pat Dale Griffith School of Environment & Centre for Innovative Conservation Strategies Griffith University Australia. Outline. Climate change: research amount since 1984 Outline of climate change scenarios
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Climate change, health and mosquito borne disease Professor Pat Dale Griffith School of Environment & Centre for Innovative Conservation Strategies Griffith University Australia
Outline Climate change: research amount since 1984 Outline of climate change scenarios Health impacts: global view Health impacts: some Australian issues What can be done? Capacity building to combat climate change health impacts
Climate change scenarios In 2007 the Intergovernmental Panel on Climate Change (IPCC) released the 4th assessment report, concluding that: • There is definite warming of the climate system • It is very likely that changes will continue well into the future, and that they will be larger than those seen in the recent past. • The changes have the potential to have a major impact on human health and natural systems throughout the world.
Summary scenarios Temperaturechanges Rainfallchanges Sea level changes Extreme events increase
There have already been temperature changes Caused by humans? At a global scale:Observed: average near-surface temperatures (black).Modelled : 58 simulations driven by both natural and human-caused factors (yellow). The average of all these simulations (red line). Randall & Chan (2007)
Wet? Dry? Extreme events? Cyclones? Drought?
Health impacts Health impacts are many, including: • Effects of food shortages? (drought, flood) • Effects of heat stress? • And changes to disease distribution…….
e.g.,Dengue Diarrhea Health impacts
Predictions from the literature for vector-borne diseases (based on the review by Githeko et al. 2000) Githeko, A.K., Lindasay, S.W., Confalonieri, U.E. and Patz, J.A, 2000. Climate change and vector-borne diseases: a regional analysis. Bulletin of the World Health Organisation, 78(9): 1136-1147.
Climate change and mosquito borne disease? • Warmer: more rapid development of mosquitoes and disease transmission • Drier: more water storage -> potential risk of more mosquitoes • Wetter: more water and potentially more mosquito and other water borne disease habitats • Increased variability (extreme events): variability has been shown to be related to Ross River virus. (Inter-university research Tong, Naish, Hu, Nicholls, Dale, Wolff, McMichael, Lindsay, Mackenzie, 2004)
Climate change and mosquito-borne disease Climate is one of many variables that affect mosquito-borne disease incidence
Australian government view 2006Mosquito-borne disease At the local level ….. “climate change may affect … the local Region…. perhaps causing the southward spread of pests and diseases previously limited to tropical areas.” http://www.greenhouse.gov.au/impacts/publications/risk-management.html
Rates/100,000 2006 NT 132 QLD 66 WA 39 NSW 18 SA 20 Tas 3 VIC 4 AUS TOTAL 26 An Australian mosquito borne disease:Ross River virus Tropical/ subtropical Each Ross River virus case costs over $2000 (Griffith University research)
Effect of mosquito control strategies Tomerini et al. (under review) Public health benefits of mosquito control: the case of Ross River virus disease in Queensland, Australia.
Other diseases that are less common in Australia • Dengue - will it move south? • Encephalitis - will it spread? Will there be local transmission of other diseases that are absent - we have the mosquito vectors? • Filariasis • Japanese encephalitis • Malaria
There may also be changes in habitats that may affect ecosystem health … ecosystem health underlies the health of all life
?? Sea level rising For example: sea level rise? Mosquito egg laying sites • Sea level rise: will change salt marsh and mangrove patterns or both (and mosquito habitats) (Griffith University and QIMR research, Dale, Knight, Kay, Chapman, Brown, 2007)
What can we do? • We cannot prevent climate change. • We should avoid actions that make it worse e.g, by careful constructed wetland design, water tanks. • We can have an adaptive plan and resources to deal with expanding diseases . • Our existing infrastructure needs to be prepared to deal with emerging diseases…..
The bigger picture • Disease may increase, BUT ALSO • The poorest people will suffer the most (as they have limited resources) So: • we need to adjust to climate change--> capacity building
Capacity building Key Objectives are to: • Identify baseline information • Identify information gaps = priority research needs • Assess major factors affecting vulnerability to climate change • Identify adaptation strategies • Evaluate policy implications and make recommendations • Implement recommendations
Professor Ian O’Connor Vice Chancellor, Griffith University “The Griffith University Climate Change Response Program will use Griffith’s famed interdisciplinary approach and long-standing environmental record to research and develop practical tools to respond to the multiple impacts of climate change.
Globe Nov 2007 Indonesia has a major role
Summary Climate change research since 1984: recent large increase. Outline of climate change scenarios: temperature, rain and exteme events. Health impacts - global view: malaria is likely to increase and emerge in new areas. Health impacts - Australian issues: will the health system mitigate any impacts? What can be done? Capacity building to combat climate change health impacts: need for strategy.
