In seeking to understand how future societies will be affected by climate change we cannot simply assume they will be identical to those of today, because climate and societies are both dynamic. Here we propose that the concept of demographic metabolism and the associated methods of multi-dimensional population projections provide an effective analytical toolbox to forecast important aspects of societal change that affect adaptive capacity. We present an example of how the changing educational composition of future populations can influence societies' adaptive capacity. Multi-dimensional population projections form the human core of the Shared Socioeconomic Pathways scenarios, and knowledge and analytical tools from demography have great value in assessing the likely implications of climate change on future human well-being.

Lutz W, Muttarak R (2017). Forecasting societies' adaptive capacities through a demographic metabolism model. NATURE CLIMATE CHANGE, 7(3), 177-184 [10.1038/nclimate3222].

Forecasting societies' adaptive capacities through a demographic metabolism model

Muttarak R
Co-primo
2017

Abstract

In seeking to understand how future societies will be affected by climate change we cannot simply assume they will be identical to those of today, because climate and societies are both dynamic. Here we propose that the concept of demographic metabolism and the associated methods of multi-dimensional population projections provide an effective analytical toolbox to forecast important aspects of societal change that affect adaptive capacity. We present an example of how the changing educational composition of future populations can influence societies' adaptive capacity. Multi-dimensional population projections form the human core of the Shared Socioeconomic Pathways scenarios, and knowledge and analytical tools from demography have great value in assessing the likely implications of climate change on future human well-being.
2017
Lutz W, Muttarak R (2017). Forecasting societies' adaptive capacities through a demographic metabolism model. NATURE CLIMATE CHANGE, 7(3), 177-184 [10.1038/nclimate3222].
Lutz W; Muttarak R
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/874656
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