TY - JOUR
T1 - Middle-range theories of land system change
AU - Meyfroidt, P.
AU - Roy Chowdhury, R.
AU - de Bremond, A.
AU - Ellis, E. C.
AU - Erb, K. H.
AU - Filatova, T.
AU - Garrett, R. D.
AU - Grove, J. M.
AU - Heinimann, A.
AU - Kuemmerle, T.
AU - Kull, C. A.
AU - Lambin, E. F.
AU - Landon, Y.
AU - le Polain de Waroux, Y.
AU - Messerli, P.
AU - Müller, D.
AU - Nielsen, J.
AU - Peterson, G. D.
AU - Rodriguez García, V.
AU - Schlüter, M.
AU - Turner, B. L.
AU - Verburg, P. H.
N1 - Funding Information:
This work has received support from the International Geosphere-Biosphere Program (IGBP) ; the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (Grant agreement No 677140 MIDLAND https://erc-midland.earth ; 311819 GLOLAND ; 682472 MUSES ; 758014 SCALAR ); the Marie Skłodowska-Curie (MSCA) Innovative Training Network (ITN) actions under the European Union’s Horizon 2020 research and innovation programme (Grant agreement No 765408 COUPLED ); The US National Science Foundation (NSF) through Grant CNS 115210 GLOBE . Many thanks to Marie-Hélène Grégoire (misenpage studio) for support on the figures. Thanks to Xavier Seron and Claudine Meuris for the hospitality in Tuscany. This study contributes to the Global Land Programme https://glp.earth .
Publisher Copyright:
© 2018 Elsevier Ltd
PY - 2018/11
Y1 - 2018/11
N2 - Changes in land systems generate many sustainability challenges. Identifying more sustainable land-use alternatives requires solid theoretical foundations on the causes of land-use/cover changes. Land system science is a maturing field that has produced a wealth of methodological innovations and empirical observations on land-cover and land-use change, from patterns and processes to causes. We take stock of this knowledge by reviewing and synthesizing the theories that explain the causal mechanisms of land-use change, including systemic linkages between distant land-use changes, with a focus on agriculture and forestry processes. We first review theories explaining changes in land-use extent, such as agricultural expansion, deforestation, frontier development, and land abandonment, and changes in land-use intensity, such as agricultural intensification and disintensification. We then synthesize theories of higher-level land system change processes, focusing on: (i) land-use spillovers, including land sparing and rebound effects with intensification, leakage, indirect land-use change, and land-use displacement, and (ii) land-use transitions, defined as structural non-linear changes in land systems, including forest transitions. Theories focusing on the causes of land system changes span theoretically and epistemologically disparate knowledge domains and build from deductive, abductive, and inductive approaches. A grand, integrated theory of land system change remains elusive. Yet, we show that middle-range theories – defined here as contextual generalizations that describe chains of causal mechanisms explaining a well-bounded range of phenomena, as well as the conditions that trigger, enable, or prevent these causal chains –, provide a path towards generalized knowledge of land systems. This knowledge can support progress towards sustainable social-ecological systems.
AB - Changes in land systems generate many sustainability challenges. Identifying more sustainable land-use alternatives requires solid theoretical foundations on the causes of land-use/cover changes. Land system science is a maturing field that has produced a wealth of methodological innovations and empirical observations on land-cover and land-use change, from patterns and processes to causes. We take stock of this knowledge by reviewing and synthesizing the theories that explain the causal mechanisms of land-use change, including systemic linkages between distant land-use changes, with a focus on agriculture and forestry processes. We first review theories explaining changes in land-use extent, such as agricultural expansion, deforestation, frontier development, and land abandonment, and changes in land-use intensity, such as agricultural intensification and disintensification. We then synthesize theories of higher-level land system change processes, focusing on: (i) land-use spillovers, including land sparing and rebound effects with intensification, leakage, indirect land-use change, and land-use displacement, and (ii) land-use transitions, defined as structural non-linear changes in land systems, including forest transitions. Theories focusing on the causes of land system changes span theoretically and epistemologically disparate knowledge domains and build from deductive, abductive, and inductive approaches. A grand, integrated theory of land system change remains elusive. Yet, we show that middle-range theories – defined here as contextual generalizations that describe chains of causal mechanisms explaining a well-bounded range of phenomena, as well as the conditions that trigger, enable, or prevent these causal chains –, provide a path towards generalized knowledge of land systems. This knowledge can support progress towards sustainable social-ecological systems.
KW - Box and arrow framework
KW - Deforestation
KW - Human-environment systems
KW - Indirect land-use change
KW - Land-use intensification
KW - Land-use spillover
KW - Urban dynamics
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U2 - 10.1016/j.gloenvcha.2018.08.006
DO - 10.1016/j.gloenvcha.2018.08.006
M3 - Article
AN - SCOPUS:85053189401
SN - 0959-3780
VL - 53
SP - 52
EP - 67
JO - Global Environmental Change
JF - Global Environmental Change
ER -