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ORCIDEnvironmental Modelling and Software, Volume 108
Volume 108, October 2018
- Jana Glass
, Ramandeep Jain, Ralf Junghanns, Jana Sallwey, Thomas Fichtner, Catalin Stefan:
Web-based tool compilation of analytical equations for groundwater management applications. 1-7 - Mustafa S. Dogan, Max A. Fefer, Jonathan D. Herman, Quinn J. Hart, Justin R. Merz, Josué Medellín-Azuara, Jay R. Lund:
An open-source Python implementation of California's hydroeconomic optimization model. 8-13 - Yuxuan Liu, Hu Liu, Yaoming Zhou, Cong Sun:
Spread vector induced cellular automata model for real-time crown fire behavior simulation. 14-39 - Ryan Anderson, Deepak Keshwani, Ashu Guru, Haishun Yang, Suat Irmak, Jeyamkondan Subbiah:
An integrated modeling framework for crop and biofuel systems using the DSSAT and GREET models. 40-50 - Yusuf Sermet, Ibrahim Demir:
An intelligent system on knowledge generation and communication about flooding. 51-60 - Tomas Beuzen, Lucy A. Marshall, Kristen D. Splinter:
A comparison of methods for discretizing continuous variables in Bayesian Networks. 61-66 - Eugenio Molina-Navarro, Anders Nielsen, Dennis Trolle:
A QGIS plugin to tailor SWAT watershed delineations to lake and reservoir waterbodies. 67-71 - Ruirui Zhu, Hongxing Zheng, Enli Wang, Anthony J. Jakeman:
A hybrid process based-empirical approach to identify the association between wheat productivity and climate in the North China Plain during the past 50 years. 72-80 - Peter Verweij, Anouk Cormont, Kasper Kok, Michiel van Eupen, Sander Janssen, J. te Roller, Wim de Winter, Marta Pérez-Soba, I. G. Staritsky:
Improving the applicability and transparency of land use change modelling: The iCLUE model. 81-90 - Guoxian Huang, Roger A. Falconer, Binliang Lin:
Evaluation of E.coli losses in a tidal river network using a refined 1-D numerical model. 91-101 - Elizabeth Lewis, Stephen J. Birkinshaw, Chris G. Kilsby, Hayley J. Fowler:
Development of a system for automated setup of a physically-based, spatially-distributed hydrological model for catchments in Great Britain. 102-110 - Peter J. Mitchell, Anna-Leena Downie, Markus Diesing:
How good is my map? A tool for semi-automated thematic mapping and spatially explicit confidence assessment. 111-122 - David P. Callaghan, Tom E. Baldock, Behnam Shabani, Peter J. Mumby:
Communicating physics-based wave model predictions of coral reefs using Bayesian belief networks. 123-132 - Caleb A. Buahin, Jeffery S. Horsburgh:
Advancing the Open Modeling Interface (OpenMI) for integrated water resources modeling. 133-153 - Yong Tian, Yi Zheng, Feng Han, Chunmiao Zheng, Xin Li:
A comprehensive graphical modeling platform designed for integrated hydrological simulation. 154-173 - Andreas Paul Zischg, Guido Felder, Markus Mosimann, Veronika Röthlisberger, Rolf Weingartner:
Extending coupled hydrological-hydraulic model chains with a surrogate model for the estimation of flood losses. 174-185 - Miquel de Cáceres, Nicolas Martin-StPaul, Marco Turco, Antoine Cabon, Victor Granda:
Estimating daily meteorological data and downscaling climate models over landscapes. 186-196 - Francesca Pianosi, Thorsten Wagener:
Distribution-based sensitivity analysis from a generic input-output sample. 197-207 - Charles Peter Newland, Aaron C. Zecchin, Holger R. Maier, Jeffrey P. Newman, Hedwig van Delden:
Empirically derived method and software for semi-automatic calibration of Cellular Automata land-use models. 208-239 - Ali Tasdighi, Mazdak Arabi, R. Daren Harmel, Daniel Line:
A Bayesian total uncertainty analysis framework for assessment of management practices using watershed models. 240-252 - Nicola Masey, Scott Hamilton, Iain J. Beverland:
Development and evaluation of the RapidAir® dispersion model, including the use of geospatial surrogates to represent street canyon effects. 253-263
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