TY - JOUR
T1 - A framework to assess the resilience of farming systems
AU - Meuwissen, Miranda P. M.
AU - Feindt, Peter H.
AU - Spiegel, Alisa
AU - Termeer, Catrien J. A. M.
AU - Mathijs, Erik
AU - Mey, Yann de
AU - Finger, Robert
AU - Balmann, Alfons
AU - Wauters, Erwin
AU - Urquhart, Julie
AU - Vigani, Mauro
AU - Zawalińska, Katarzyna
AU - Herrera, Hugo
AU - Nicholas-Davies, Pip
AU - Hansson, Helena
AU - Paas, Wim
AU - Slijper, Thomas
AU - Coopmans, Isabeau
AU - Vroege, Willemijn
AU - Ciechomska, Anna
AU - Accatino, Francesco
AU - Kopainsky, Birgit
AU - Pootvliet, P,. Marijn
AU - Candel, Jeroen J. L.
AU - Maye, Damian
AU - Severini, Simone
AU - Senni, Saverio
AU - Soriano, Bárbara
AU - Lagerkvist, Carl-Johan
AU - Peneva, Mariya
AU - Gavrilescu, Camelia
AU - Reidsma, Pytrik
N1 - Funding Information:
This work was supported by the European Commission (Horizon 2020, grant 727520). The funding source had no influence on contents or submission of the article. The authors are thankful to the whole SURE-Farm consortium, the steering committee and the scientific advisors – Ika Darnhofer, Katharina Helming, and Ada Wossink – for comments on earlier versions of the framework and its methodology
Publisher Copyright:
© 2019 The Authors
PY - 2019/11/1
Y1 - 2019/11/1
N2 - Agricultural systems in Europe face accumulating economic, ecological and societal challenges, raising concerns about their resilience to shocks and stresses. These resilience issues need to be addressed with a focus on the regional context in which farming systems operate because farms, farmers' organizations, service suppliers and supply chain actors are embedded in local environments and functions of agriculture. We define resilience of a farming system as its ability to ensure the provision of the system functions in the face of increasingly complex and accumulating economic, social, environmental and institutional shocks and stresses, through capacities of robustness, adaptability and transformability. We (i) develop a framework to assess the resilience of farming systems, and (ii) present a methodology to operationalize the framework with a view to Europe's diverse farming systems. The framework is designed to assess resilience to specific challenges (specified resilience) as well as a farming system's capacity to deal with the unknown, uncertainty and surprise (general resilience). The framework provides a heuristic to analyze system properties, challenges (shocks, long-term stresses), indicators to measure the performance of system functions, resilience capacities and resilience-enhancing attributes. Capacities and attributes refer to adaptive cycle processes of agricultural practices, farm demographics, governance and risk management. The novelty of the framework pertains to the focal scale of analysis, i.e. the farming system level, the consideration of accumulating challenges and various agricultural processes, and the consideration that farming systems provide multiple functions that can change over time. Furthermore, the distinction between three resilience capacities (robustness, adaptability, transformability) ensures that the framework goes beyond narrow definitions that limit resilience to robustness. The methodology deploys a mixed-methods approach: quantitative methods, such as statistics, econometrics and modelling, are used to identify underlying patterns, causal explanations and likely contributing factors; while qualitative methods, such as interviews, participatory approaches and stakeholder workshops, access experiential and contextual knowledge and provide more nuanced insights. More specifically, analysis along the framework explores multiple nested levels of farming systems (e.g. farm, farm household, supply chain, farming system) over a time horizon of 1–2 generations, thereby enabling reflection on potential temporal and scalar trade-offs across resilience attributes. The richness of the framework is illustrated for the arable farming system in Veenkoloniën, the Netherlands. The analysis reveals a relatively low capacity of this farming system to transform and farmers feeling distressed about transformation, while other members of their households have experienced many examples of transformation.
AB - Agricultural systems in Europe face accumulating economic, ecological and societal challenges, raising concerns about their resilience to shocks and stresses. These resilience issues need to be addressed with a focus on the regional context in which farming systems operate because farms, farmers' organizations, service suppliers and supply chain actors are embedded in local environments and functions of agriculture. We define resilience of a farming system as its ability to ensure the provision of the system functions in the face of increasingly complex and accumulating economic, social, environmental and institutional shocks and stresses, through capacities of robustness, adaptability and transformability. We (i) develop a framework to assess the resilience of farming systems, and (ii) present a methodology to operationalize the framework with a view to Europe's diverse farming systems. The framework is designed to assess resilience to specific challenges (specified resilience) as well as a farming system's capacity to deal with the unknown, uncertainty and surprise (general resilience). The framework provides a heuristic to analyze system properties, challenges (shocks, long-term stresses), indicators to measure the performance of system functions, resilience capacities and resilience-enhancing attributes. Capacities and attributes refer to adaptive cycle processes of agricultural practices, farm demographics, governance and risk management. The novelty of the framework pertains to the focal scale of analysis, i.e. the farming system level, the consideration of accumulating challenges and various agricultural processes, and the consideration that farming systems provide multiple functions that can change over time. Furthermore, the distinction between three resilience capacities (robustness, adaptability, transformability) ensures that the framework goes beyond narrow definitions that limit resilience to robustness. The methodology deploys a mixed-methods approach: quantitative methods, such as statistics, econometrics and modelling, are used to identify underlying patterns, causal explanations and likely contributing factors; while qualitative methods, such as interviews, participatory approaches and stakeholder workshops, access experiential and contextual knowledge and provide more nuanced insights. More specifically, analysis along the framework explores multiple nested levels of farming systems (e.g. farm, farm household, supply chain, farming system) over a time horizon of 1–2 generations, thereby enabling reflection on potential temporal and scalar trade-offs across resilience attributes. The richness of the framework is illustrated for the arable farming system in Veenkoloniën, the Netherlands. The analysis reveals a relatively low capacity of this farming system to transform and farmers feeling distressed about transformation, while other members of their households have experienced many examples of transformation.
KW - farming systems
KW - resilience capacities
KW - enabling environment
KW - shocks
KW - long-term stresses
KW - private and public goods
KW - Farming systems
KW - Private and public goods
KW - Enabling environment
KW - Long-term stresses
KW - Resilience capacities
KW - Shocks
UR - http://www.scopus.com/inward/record.url?scp=85070191585&partnerID=8YFLogxK
U2 - 10.1016/j.agsy.2019.102656
DO - 10.1016/j.agsy.2019.102656
M3 - Article
SN - 0308-521X
VL - 176
JO - Agricultural Systems
JF - Agricultural Systems
IS - N/A
M1 - 102656
ER -