Publication 2021: A cross-scale framework for integrating multi-source data in Earth system sciences
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Section 1: Publication
Authorship
Markonis, Y., Pappas, C., Hanel, M., & Papalexiou, S. M.
Title
A cross-scale framework for integrating multi-source data in Earth system sciences
Year
2021
Publication Outlet
Environmental Modelling & Software, 139, 104997.
DOI
Citation
Markonis, Y., Pappas, C., Hanel, M., & Papalexiou, S. M. (2021). A cross-scale framework for integrating multi-source data in Earth system sciences. Environmental Modelling & Software, 139, 104997.
https://doi.org/10.1016/j.envsoft.2021.104997
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Paradigm Shift
Section 2: Abstract
Abstract
Integration of Earth system data from various sources is a challenging task. Except for their qualitative heterogeneity, different data records exist for describing similar Earth system processes at different spatiotemporal scales. Data inter-comparison and validation are usually performed at a single spatial or temporal scale, which could hamper the identification of potential discrepancies in other scales. Here, we propose a simple, yet efficient, graphical method for synthesizing and comparing observed and modelled data across a range of spatiotemporal scales. Instead of focusing at specific scales, such as annual means or original grid resolution, we examine how their statistical properties change across spatiotemporal continuum. The proposed cross-scale framework for integrating multi-source data in Earth system sciences is already developed as a stand-alone R package that is freely available to download.
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Section 4: Computed Information
AZLine
MARKONIS-Y-PAPPAS-C-HANEL-M-PAPALEXIOU-S-M-2021-A-CROSS-SCALE-FRAMEWORK-FOR-INTEGRATING-MULTI-SOURCE-DATA-IN-EARTH-SYSTEM-SCIENCES-ENVIRONMENTAL-MODELLING-SOFTWARE-139-104997-HTTPSDOIORG101016JENVSOFT2021104997
AZHash
0bc3265e80ad63e9e698eebfc92fcf0f