People living in remote Australia are likely to be more severely affected by climate change than other sectors of the national population.
A new study, released today, by the CRC for Remote Economic Development (CRC-REP) and Ninti One warns that communities and outlying settlements on Cape York, in Central Australia and the Kimberley face greater risks to their wellbeing as the climate warms than people in other parts of Australia.
The study by the CRC-REP and CSIRO investigates the likely relationship between climate change and liveability (or state of wellbeing) of remote Australians.
“Globally, climate change is expected to bring a number of downsides for people generally – the spread of tropical diseases, mental health issues, allergy and lung problems, water quality and availability issues, impacts on agriculture and social cohesion,” Principal Research Leader, Dr Digby Race says.
“However the three areas we focussed on in remote Australia all have large populations of people with poor health, infrastructure and socioeconomic status, and many children.
“All these areas are predicted to get hotter under climate change, although the outlook for rainfall is still not clear.
“In general, urban centres like Broome, Kununurra and Alice Springs are less sensitive to the impacts of climate change due to their relatively high socio-economic status. Outside these urban areas, however, there are scattered small populations who may be more sensitive to these impacts than those in other parts of Australia.
“These are areas where socio-economic disadvantage is already high, there is a low tax base and poor service provision, and where most households are likely to have poor capacity to adapt to climate change – they will need help to make them more resilient.”
Dr Race says resilience to climate change means a community is capable of absorbing and coping with the disturbances caused by the climate, and is able to reorganise itself while undergoing change so as to retain its identity and the way it functions.
Read more at: Phys.org