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Difference between revisions of "Population and the Environment: Analytical Demography and Applied Population Ethics/Co-evolution of population and environment - environment, food supply & demography"

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{{Agenda item
 
{{Agenda item
|Start time=October 13, 2018 03:30:00 PM
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|Start time=October 16, 2018 01:45:00 PM
|End time=October 13, 2018 03:45:00 PM
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|End time=October 16, 2018 02:30:00 PM
 
|Presenter=CharlotteLee
 
|Presenter=CharlotteLee
 
|Pre-meeting notes=Due to tight coupling between human population dynamics and their local environments, preindustrial societies—particularly ones on islands--are useful for studying population-environment interaction.  In Hawai’i, rapid human population growth and sophisticated social stratification took place before European contact, in the context of sometimes extreme environmental variability.  These phenomena define questions, inform the structure of quantitative models, and guide the development of further hypotheses regarding how environment and population interact. I describe how agroecological and environment-dependent demographic models can be developed and integrated to probe the environment-population dynamics of a dryland field system, and to investigate the consequences and possible causes of social complexity. Results suggest that dynamic incorporation of social change could be an important component of studying population-environment interactions.    
 
|Pre-meeting notes=Due to tight coupling between human population dynamics and their local environments, preindustrial societies—particularly ones on islands--are useful for studying population-environment interaction.  In Hawai’i, rapid human population growth and sophisticated social stratification took place before European contact, in the context of sometimes extreme environmental variability.  These phenomena define questions, inform the structure of quantitative models, and guide the development of further hypotheses regarding how environment and population interact. I describe how agroecological and environment-dependent demographic models can be developed and integrated to probe the environment-population dynamics of a dryland field system, and to investigate the consequences and possible causes of social complexity. Results suggest that dynamic incorporation of social change could be an important component of studying population-environment interactions.    

Revision as of 07:25, October 15, 2018

October 16, 2018
1:45 pm - 2:30 pm

Presenter

Charlotte Lee (Duke Univ.)

Abstract

Due to tight coupling between human population dynamics and their local environments, preindustrial societies—particularly ones on islands--are useful for studying population-environment interaction.  In Hawai’i, rapid human population growth and sophisticated social stratification took place before European contact, in the context of sometimes extreme environmental variability.  These phenomena define questions, inform the structure of quantitative models, and guide the development of further hypotheses regarding how environment and population interact. I describe how agroecological and environment-dependent demographic models can be developed and integrated to probe the environment-population dynamics of a dryland field system, and to investigate the consequences and possible causes of social complexity. Results suggest that dynamic incorporation of social change could be an important component of studying population-environment interactions.    

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