3 research outputs found
Eight grand challenges in socio-environmental systems modeling
Modeling is essential to characterize and explore complex societal and environmental issues in systematic and collaborative ways. Socio-environmental systems (SES) modeling integrates knowledge and perspectives into conceptual and computational tools that explicitly recognize how human decisions affect the environment. Depending on the modeling purpose, many SES modelers also realize that involvement of stakeholders and experts is fundamental to support social learning and decision-making processes for achieving improved environmental and social outcomes. The contribution of this paper lies in identifying and formulating grand challenges that need to be overcome to accelerate the development and adaptation of SES modeling. Eight challenges are delineated: bridging epistemologies across disciplines; multi-dimensional uncertainty assessment and management; scales and scaling issues; combining qualitative and quantitative methods and data; furthering the adoption and impacts of SES modeling on policy; capturing structural changes; representing human dimensions in SES; and leveraging new data types and sources. These challenges limit our ability to effectively use SES modeling to provide the knowledge and information essential for supporting decision making. Whereas some of these challenges are not unique to SES modeling and may be pervasive in other scientific fields, they still act as barriers as well as research opportunities for the SES modeling community. For each challenge, we outline basic steps that can be taken to surmount the underpinning barriers. Thus, the paper identifies priority research areas in SES modeling, chiefly related to progressing modeling products, processes and practices.</jats:p
Emergence and Evolution of Cooperation Under Resource Pressure
We study the influence that resource availability has on cooperation in the context of hunter-gatherer
societies. This paper proposes a model based on archaeological and ethnographic research on resource
stress episodes, which exposes three different cooperative regimes according to the relationship
between resource availability in the environment and population size. The most interesting regime
represents moderate survival stress in which individuals coordinate in an evolutionary way to increase
the probabilities of survival and reduce the risk of failing to meet the minimum needs for survival.
Populations self-organise in an indirect reciprocity system in which the norm that emerges is to share
the part of the resource that is not strictly necessary for survival, thereby collectively lowering the
chances of starving. Our findings shed further light on the emergence and evolution of cooperation in
hunter-gatherer societies.Spanish Ministry of Science and Innovation Project CSD2010-00034
(SimulPast CONSOLIDER-INGENIO 2010) and HAR2009-06996; from the Argentine National Scientific
and Technical Research Council (CONICET): Project PIP-0706; from the Wenner-Gren Foundation for
Anthropological Research: Project GR7846; and from the project H2020 FET OPEN RIA IBSEN/66272