TY - JOUR
T1 - Steering operational synergies in terrestrial observation networks
T2 - Opportunity for advancing Earth system dynamics modelling
AU - Baatz, Roland
AU - Sullivan, Pamela L.
AU - Li, Li
AU - Weintraub, Samantha R.
AU - Loescher, Henry W.
AU - Mirtl, Michael
AU - Groffman, Peter M.
AU - Wall, DIana H.
AU - Young, Michael
AU - White, Tim
AU - Wen, Hang
AU - Zacharias, Steffen
AU - Kühn, Ingolf
AU - Tang, Jianwu
AU - Gaillardet, Jérôme
AU - Braud, Isabelle
AU - Flores, Alejandro N.
AU - Kumar, Praveen
AU - Lin, Henry
AU - Ghezzehei, Teamrat
AU - Jones, Julia
AU - Gholz, Henry L.
AU - Vereecken, Harry
AU - Van Looy, Kris
N1 - Publisher Copyright:
© 2018 Author(s).
PY - 2018/5/23
Y1 - 2018/5/23
N2 - Advancing our understanding of Earth system dynamics (ESD) depends on the development of models and other analytical tools that apply physical, biological, and chemical data. This ambition to increase understanding and develop models of ESD based on site observations was the stimulus for creating the networks of Long-Term Ecological Research (LTER), Critical Zone Observatories (CZOs), and others. We organized a survey, the results of which identified pressing gaps in data availability from these networks, in particular for the future development and evaluation of models that represent ESD processes, and provide insights for improvement in both data collection and model integration. From this survey overview of data applications in the context of LTER and CZO research, we identified three challenges: (1) widen application of terrestrial observation network data in Earth system modelling, (2) develop integrated Earth system models that incorporate process representation and data of multiple disciplines, and (3) identify complementarity in measured variables and spatial extent, and promoting synergies in the existing observational networks. These challenges lead to perspectives and recommendations for an improved dialogue between the observation networks and the ESD modelling community, including co-location of sites in the existing networks and further formalizing these recommendations among these communities. Developing these synergies will enable cross-site and cross-network comparison and synthesis studies, which will help produce insights around organizing principles, classifications, and general rules of coupling processes with environmental conditions.
AB - Advancing our understanding of Earth system dynamics (ESD) depends on the development of models and other analytical tools that apply physical, biological, and chemical data. This ambition to increase understanding and develop models of ESD based on site observations was the stimulus for creating the networks of Long-Term Ecological Research (LTER), Critical Zone Observatories (CZOs), and others. We organized a survey, the results of which identified pressing gaps in data availability from these networks, in particular for the future development and evaluation of models that represent ESD processes, and provide insights for improvement in both data collection and model integration. From this survey overview of data applications in the context of LTER and CZO research, we identified three challenges: (1) widen application of terrestrial observation network data in Earth system modelling, (2) develop integrated Earth system models that incorporate process representation and data of multiple disciplines, and (3) identify complementarity in measured variables and spatial extent, and promoting synergies in the existing observational networks. These challenges lead to perspectives and recommendations for an improved dialogue between the observation networks and the ESD modelling community, including co-location of sites in the existing networks and further formalizing these recommendations among these communities. Developing these synergies will enable cross-site and cross-network comparison and synthesis studies, which will help produce insights around organizing principles, classifications, and general rules of coupling processes with environmental conditions.
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U2 - 10.5194/esd-9-593-2018
DO - 10.5194/esd-9-593-2018
M3 - Article
AN - SCOPUS:85047505810
SN - 2190-4979
VL - 9
SP - 593
EP - 609
JO - Earth System Dynamics
JF - Earth System Dynamics
IS - 2
ER -