Articles with public access mandates - Allen HuntLearn more
Available somewhere: 17
Flow, transport, and reaction in porous media: Percolation scaling, critical‐path analysis, and effective medium approximation
AG Hunt, M Sahimi
Reviews of Geophysics 55 (4), 993-1078, 2017
Mandates: US National Science Foundation, US Department of Energy
Percolation theory for solute transport in porous media: Geochemistry, geomorphology, and carbon cycling
AG Hunt, B Ghanbarian
Water Resources Research 52 (9), 7444-7459, 2016
Mandates: US National Science Foundation
Prediction of soil formation as a function of age using the percolation theory approach
M Egli, AG Hunt, D Dahms, G Raab, C Derungs, S Raimondi, F Yu
Frontiers in Environmental Science 6, 108, 2018
Mandates: Swiss National Science Foundation
Evolution of soil pores and their characteristics in a siliceous and calcareous proglacial area
A Musso, K Lamorski, C Sławiński, C Geitner, A Hunt, K Greinwald, M Egli
Catena 182, 104154, 2019
Mandates: Swiss National Science Foundation
A simple model of the variability of soil depths
F Yu, B Faybishenko, A Hunt, B Ghanbarian
Water 9 (7), 460, 2017
Mandates: US Department of Energy
Comparison and contrast in soil depth evolution for steady state and stochastic erosion processes: Possible implications for landslide prediction
F Yu, A Hunt, M Egli, G Raab
Geochemistry, Geophysics, Geosystems 20 (6), 2886-2906, 2019
Mandates: Swiss National Science Foundation
Spatio‐temporal scaling of vegetation growth and soil formation from percolation theory
AG Hunt
Vadose Zone Journal 15 (2), 1-15, 2016
Mandates: US National Science Foundation
Soil depth and soil production
AG Hunt
Complexity 21 (6), 42-49, 2016
Mandates: US National Science Foundation
A new phenomenological model to describe root-soil interactions based on percolation theory
AG Hunt, B Faybishenko, TL Powell
Ecological Modelling 433, 109205, 2020
Mandates: US Department of Energy
Predicting characteristics of the water cycle from scaling relationships
AG Hunt, B Faybishenko, B Ghanbarian
Water Resources Research 57 (9), e2021WR030808, 2021
Mandates: US Department of Energy
Predicting water cycle characteristics from percolation theory and observational data
A Hunt, B Faybishenko, B Ghanbarian, M Egli, F Yu
International journal of environmental research and public health 17 (3), 734, 2020
Mandates: US National Science Foundation, US Department of Energy
Nonlinear Hydrologic Organization
A Hunt, B Faybishenko, B Ghanbarian
Nonlinear Processes in Geophysics 28, 599-614, 2021
Mandates: US Department of Energy
Test of model of equivalence of tree height growth and transpiration rates in percolation-based phenomenology for root-soil interaction
AG Hunt, B Faybishenko, TL Powell
Ecological Modelling 465, 109853, 2022
Mandates: US Department of Energy
Preface to the special issue of Vadose Zone Journal on soil as complex systems
B Faybishenko, S Hubbard, E Brodie, P Nico, F Molz, A Hunt, ...
Vadose Zone Journal 15 (2), 1-3, 2016
Mandates: US Department of Energy
Application of Percolation Theory to Reaction and Flow in Geochemical Systems in Soil and Rock
AG Hunt, F Yu, B Ghanbarian
Complex Media and Percolation Theory, 289-321, 2021
Mandates: US National Science Foundation, US Department of Energy
A model of temporal and spatial river network evolution with climatic inputs
AG Hunt, B Ghanbarian, B Faybishenko
Frontiers in Water 5, 1174570, 2023
Mandates: US Department of Energy
HVSR, Passive Seismology & Novel Near-Surface Geophysical Methods
KA Krenz-Doe, R Gordon, B Tezkan, R Eroess, R Bergers, J Stoll, ...
Symposium on the Application of Geophysics to Engineering and Environmental …, 2015
Mandates: US Department of Energy
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