TY - JOUR
T1 - Socio-technical scales in socio-environmental modeling
T2 - Managing a system-of-systems modeling approach
AU - Iwanaga, Takuya
AU - Wang, Hsiao Hsuan
AU - Hamilton, Serena H.
AU - Grimm, Volker
AU - Koralewski, Tomasz E.
AU - Salado, Alejandro
AU - Elsawah, Sondoss
AU - Razavi, Saman
AU - Yang, Jing
AU - Glynn, Pierre
AU - Badham, Jennifer
AU - Voinov, Alexey
AU - Chen, Min
AU - Grant, William E.
AU - Peterson, Tarla Rai
AU - Frank, Karin
AU - Shenk, Gary
AU - Barton, C. Michael
AU - Jakeman, Anthony J.
AU - Little, John C.
N1 - Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2021/1
Y1 - 2021/1
N2 - System-of-systems approaches for integrated assessments have become prevalent in recent years. Such approaches integrate a variety of models from different disciplines and modeling paradigms to represent a socio-environmental (or social-ecological) system aiming to holistically inform policy and decision-making processes. Central to the system-of-systems approaches is the representation of systems in a multi-tier framework with nested scales. Current modeling paradigms, however, have disciplinary-specific lineage, leading to inconsistencies in the conceptualization and integration of socio-environmental systems. In this paper, a multidisciplinary team of researchers, from engineering, natural and social sciences, have come together to detail socio-technical practices and challenges that arise in the consideration of scale throughout the socio-environmental modeling process. We identify key paths forward, focused on explicit consideration of scale and uncertainty, strengthening interdisciplinary communication, and improvement of the documentation process. We call for a grand vision (and commensurate funding) for holistic system-of-systems research that engages researchers, stakeholders, and policy makers in a multi-tiered process for the co-creation of knowledge and solutions to major socio-environmental problems.
AB - System-of-systems approaches for integrated assessments have become prevalent in recent years. Such approaches integrate a variety of models from different disciplines and modeling paradigms to represent a socio-environmental (or social-ecological) system aiming to holistically inform policy and decision-making processes. Central to the system-of-systems approaches is the representation of systems in a multi-tier framework with nested scales. Current modeling paradigms, however, have disciplinary-specific lineage, leading to inconsistencies in the conceptualization and integration of socio-environmental systems. In this paper, a multidisciplinary team of researchers, from engineering, natural and social sciences, have come together to detail socio-technical practices and challenges that arise in the consideration of scale throughout the socio-environmental modeling process. We identify key paths forward, focused on explicit consideration of scale and uncertainty, strengthening interdisciplinary communication, and improvement of the documentation process. We call for a grand vision (and commensurate funding) for holistic system-of-systems research that engages researchers, stakeholders, and policy makers in a multi-tiered process for the co-creation of knowledge and solutions to major socio-environmental problems.
KW - Integrated modeling
KW - Interdisciplinary modeling
KW - Scale issues
KW - Social-ecological modeling
KW - System-of-systems approach
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U2 - 10.1016/j.envsoft.2020.104885
DO - 10.1016/j.envsoft.2020.104885
M3 - Article
AN - SCOPUS:85093068074
SN - 1364-8152
VL - 135
JO - Environmental Modelling and Software
JF - Environmental Modelling and Software
M1 - 104885
ER -