Passive information rarely enables coastal household adaptation | UniSC | University of the Sunshine Coast, Queensland, Australia

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Passive information rarely enables coastal household adaptation

Why did we undertake this study?

Coastal zones are at the forefront of the impacts of climate change and households play an important role in reducing vulnerability through individual and collective action. Governments provide information to households to facilitate their adaptation. However, there is limited evidence of the effectiveness of this strategy. This study examined the types of information guiding household response to climate risks.

How was it done?

Households in two peri-urban Australian coastal communities (Mandurah, Western Australia and Moreton Bay, Queensland) were surveyed (n=400) to gain their perspectives on the usefulness of climate information; and interviewed (n=17) to explore their response to climate hazards (severe storm, sea-level rise and heatwave). The information sources that informed household response were coded into one of three types: (i) passive information (hazard and preparedness education material); (ii) interactive information (derived through interactions with other people); or (iii) experiential information (from personal life experiences).

What did we find?

Implications

The importance of civil society’s engagement in adaptation will intensify as the impacts of climate change continue to be felt. Current emphasis by authorities on passive information provision is unlikely to facilitate adaptation. Decision makers need to consider novel and diverse information channels if households are to transition from coping to adaptation.

Learn more

The full paper is available from: https://www.mdpi.com/2071-1050/14/5/2904/pdf

Citation: Elrick-Barr, C.E.; Smith, T.F. (2022) Current Information Provision Rarely Helps Coastal Households Adapt to Climate Change. Sustainability, 14, 2904. https://doi.org/10.3390/su14052904

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Acknowledgements

This research was supported by the Australian Government through the Australian Research Council Discovery Projects Funding Scheme (Projects FT180100652 and DP1093583). This work contributes to Future Earth Coasts, a Global Research Project of Future Earth. The views expressed herein are those of the authors and are not necessarily those of the Australian Government, Australian Research Council or Future Earth Coasts.