Gaming and simulation to explore resilience of contested agricultural landscapes

Research output: Thesisinternal PhD, WU

Abstract

Keywords:

Complex systems, resilience thinking theory, communal decision-making, agent-based modeling, serious games

 

Over the past decades, smallholder farming communities have become increasingly affected by an ever larger number of (unexpected) non-local economic and institutional drivers. At the same time, also environmental consequences of past and current agricultural activities have become more apparent. Consequently, farmer’s decision-making is now part of a complex social-ecological system in which stakeholders from various scales and levels exert power to influence smallholders’ decision-making. The capacity of rural communities to adapt to this fast-changing environment is key in securing the continuation of  livelihoods in rural parts of the world. Improving the adaptive capacity of rural communities has been proposed as the largest challenge of the century, especially in contested areas were the interests of non-local stakeholders often strongly conflict with those of local communities. Although the attributes that underpin adaptive capacity are widely agreed upon in literature, (i) empirical evidence on how rural communities can construct trajectories of change based on adaptation, and (ii) tools that can facilitate the development of adaptive capacity are still lacking. This PhD thesis addressed both these issues. This research was based on extensive fieldwork in a usufruct community in the buffer zone of a Biosphere Reserve in Chiapas, Mexico, where  objectives to conserve nature and produce food make completing claims on land and on a series of gaming and simulation workshops including a variety of stakeholders. Data showed that communities can strengthen their resilience to the sometimes strong negative effects of changes in legislation and markets. Improved local organization, diversification of land use and cooperation among farmers proved essential in this process. Four gaming and simulation tools were developed and applied with various stakeholders within this thesis. Results showed that the understanding of difficult concepts and processes among participants improved as a result of the gaming and simulation tools and that the workshops provided an opportunity to share ideas.

Original languageEnglish
QualificationDoctor of Philosophy
Awarding Institution
  • Wageningen University
Supervisors/Advisors
  • Tittonell, Pablo, Promotor
  • Groot, Jeroen, Co-promotor
  • Garcia-Barrios, L.E., Co-promotor, External person
Award date14 May 2014
Place of PublicationWageningen
Publisher
Print ISBNs9789461739049
Publication statusPublished - 2014

Fingerprint

stakeholder
agricultural land
decision making
smallholder
simulation
buffer zone
fieldwork
legislation
trajectory
land use
market
food
economics
modeling
thesis

Keywords

  • farming systems
  • gaming simulation
  • computer simulation
  • land use
  • landscape

Cite this

@phdthesis{36171d65f96645599efa0a188a7f38f4,
title = "Gaming and simulation to explore resilience of contested agricultural landscapes",
abstract = "Keywords: Complex systems, resilience thinking theory, communal decision-making, agent-based modeling, serious games   Over the past decades, smallholder farming communities have become increasingly affected by an ever larger number of (unexpected) non-local economic and institutional drivers. At the same time, also environmental consequences of past and current agricultural activities have become more apparent. Consequently, farmer’s decision-making is now part of a complex social-ecological system in which stakeholders from various scales and levels exert power to influence smallholders’ decision-making. The capacity of rural communities to adapt to this fast-changing environment is key in securing the continuation of  livelihoods in rural parts of the world. Improving the adaptive capacity of rural communities has been proposed as the largest challenge of the century, especially in contested areas were the interests of non-local stakeholders often strongly conflict with those of local communities. Although the attributes that underpin adaptive capacity are widely agreed upon in literature, (i) empirical evidence on how rural communities can construct trajectories of change based on adaptation, and (ii) tools that can facilitate the development of adaptive capacity are still lacking. This PhD thesis addressed both these issues. This research was based on extensive fieldwork in a usufruct community in the buffer zone of a Biosphere Reserve in Chiapas, Mexico, where  objectives to conserve nature and produce food make completing claims on land and on a series of gaming and simulation workshops including a variety of stakeholders. Data showed that communities can strengthen their resilience to the sometimes strong negative effects of changes in legislation and markets. Improved local organization, diversification of land use and cooperation among farmers proved essential in this process. Four gaming and simulation tools were developed and applied with various stakeholders within this thesis. Results showed that the understanding of difficult concepts and processes among participants improved as a result of the gaming and simulation tools and that the workshops provided an opportunity to share ideas.",
keywords = "bedrijfssystemen, spelsimulatie, computersimulatie, landgebruik, landschap, farming systems, gaming simulation, computer simulation, land use, landscape",
author = "E.N. Speelman",
note = "WU thesis 5735",
year = "2014",
language = "English",
isbn = "9789461739049",
publisher = "Wageningen University",
school = "Wageningen University",

}

Speelman, EN 2014, 'Gaming and simulation to explore resilience of contested agricultural landscapes', Doctor of Philosophy, Wageningen University, Wageningen.

Gaming and simulation to explore resilience of contested agricultural landscapes. / Speelman, E.N.

Wageningen : Wageningen University, 2014. 221 p.

Research output: Thesisinternal PhD, WU

TY - THES

T1 - Gaming and simulation to explore resilience of contested agricultural landscapes

AU - Speelman, E.N.

N1 - WU thesis 5735

PY - 2014

Y1 - 2014

N2 - Keywords: Complex systems, resilience thinking theory, communal decision-making, agent-based modeling, serious games   Over the past decades, smallholder farming communities have become increasingly affected by an ever larger number of (unexpected) non-local economic and institutional drivers. At the same time, also environmental consequences of past and current agricultural activities have become more apparent. Consequently, farmer’s decision-making is now part of a complex social-ecological system in which stakeholders from various scales and levels exert power to influence smallholders’ decision-making. The capacity of rural communities to adapt to this fast-changing environment is key in securing the continuation of  livelihoods in rural parts of the world. Improving the adaptive capacity of rural communities has been proposed as the largest challenge of the century, especially in contested areas were the interests of non-local stakeholders often strongly conflict with those of local communities. Although the attributes that underpin adaptive capacity are widely agreed upon in literature, (i) empirical evidence on how rural communities can construct trajectories of change based on adaptation, and (ii) tools that can facilitate the development of adaptive capacity are still lacking. This PhD thesis addressed both these issues. This research was based on extensive fieldwork in a usufruct community in the buffer zone of a Biosphere Reserve in Chiapas, Mexico, where  objectives to conserve nature and produce food make completing claims on land and on a series of gaming and simulation workshops including a variety of stakeholders. Data showed that communities can strengthen their resilience to the sometimes strong negative effects of changes in legislation and markets. Improved local organization, diversification of land use and cooperation among farmers proved essential in this process. Four gaming and simulation tools were developed and applied with various stakeholders within this thesis. Results showed that the understanding of difficult concepts and processes among participants improved as a result of the gaming and simulation tools and that the workshops provided an opportunity to share ideas.

AB - Keywords: Complex systems, resilience thinking theory, communal decision-making, agent-based modeling, serious games   Over the past decades, smallholder farming communities have become increasingly affected by an ever larger number of (unexpected) non-local economic and institutional drivers. At the same time, also environmental consequences of past and current agricultural activities have become more apparent. Consequently, farmer’s decision-making is now part of a complex social-ecological system in which stakeholders from various scales and levels exert power to influence smallholders’ decision-making. The capacity of rural communities to adapt to this fast-changing environment is key in securing the continuation of  livelihoods in rural parts of the world. Improving the adaptive capacity of rural communities has been proposed as the largest challenge of the century, especially in contested areas were the interests of non-local stakeholders often strongly conflict with those of local communities. Although the attributes that underpin adaptive capacity are widely agreed upon in literature, (i) empirical evidence on how rural communities can construct trajectories of change based on adaptation, and (ii) tools that can facilitate the development of adaptive capacity are still lacking. This PhD thesis addressed both these issues. This research was based on extensive fieldwork in a usufruct community in the buffer zone of a Biosphere Reserve in Chiapas, Mexico, where  objectives to conserve nature and produce food make completing claims on land and on a series of gaming and simulation workshops including a variety of stakeholders. Data showed that communities can strengthen their resilience to the sometimes strong negative effects of changes in legislation and markets. Improved local organization, diversification of land use and cooperation among farmers proved essential in this process. Four gaming and simulation tools were developed and applied with various stakeholders within this thesis. Results showed that the understanding of difficult concepts and processes among participants improved as a result of the gaming and simulation tools and that the workshops provided an opportunity to share ideas.

KW - bedrijfssystemen

KW - spelsimulatie

KW - computersimulatie

KW - landgebruik

KW - landschap

KW - farming systems

KW - gaming simulation

KW - computer simulation

KW - land use

KW - landscape

M3 - internal PhD, WU

SN - 9789461739049

PB - Wageningen University

CY - Wageningen

ER -