Gerald Flerchinger
Gerald Flerchinger
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Simultaneous heat and water model of a freezing snow-residue-soil system I. Theory and development
GN Flerchinger, KE Saxton
Trans. Asae 32 (2), 565-571, 1989
Effect of precipitation change on water balance and WUE of the winter wheat–summer maize rotation in the North China Plain
H Sun, Y Shen, Q Yu, GN Flerchinger, Y Zhang, C Liu, X Zhang
Agricultural Water Management 97 (8), 1139-1145, 2010
Intercode comparisons for simulating water balance of surficial sediments in semiarid regions
BR Scanlon, M Christman, RC Reedy, I Porro, J Simunek, GN Flerchinger
Water Resources Research 38 (12), 59-1-59-16, 2002
Modeling evapotranspiration and surface energy budgets across a watershed
GN Flerchinger, CL Hanson, JR Wight
Water Resources Research 32 (8), 2539-2548, 1996
A unified approach for process‐based hydrologic modeling: 2. Model implementation and case studies
MP Clark, B Nijssen, JD Lundquist, D Kavetski, DE Rupp, RA Woods, ...
Water resources research 51 (4), 2515-2542, 2015
Modeling plant canopy effects on variability of soil temperature and water
GN Flerchinger, FB Pierson
Agricultural and Forest Meteorology 53 (3), 227-246, 1991
Past and projected future changes in snowpack and soil frost at the Hubbard Brook Experimental Forest, New Hampshire, USA
JL Campbell, SV Ollinger, GN Flerchinger, H Wicklein, K Hayhoe, ...
Hydrological Processes 24 (17), 2465-2480, 2010
Comparison of algorithms for incoming atmospheric long‐wave radiation
GN Flerchinger, W Xaio, D Marks, TJ Sauer, Q Yu
Water resources research 45 (3), 2009
A ten-year water balance of a mountainous semi-arid watershed
GN Flerchinger, KR Cooley
Journal of Hydrology 237 (1-2), 86-99, 2000
Simultaneous heat and water model of a freezing snow-residue-soil system II. Field verification
GN Flerchinger, KE Saxton
Transactions of the ASAE 32 (2), 573-0576, 1989
The simultaneous heat and water (SHAW) model: Technical documentation
GN Flerchinger
Northwest Watershed Research Center USDA Agricultural Research Service …, 2000
Effects of crop residue cover and architecture on heat and water transfer at the soil surface
GN Flerchinger, TJ Sauer, RA Aiken
Geoderma 116 (1-2), 217-233, 2003
Simulating surface energy fluxes and radiometric surface temperatures for two arid vegetation communities using the SHAW model
GN Flerchinger, WP Kustas, MA Weltz
Journal of Applied Meteorology and Climatology 37 (5), 449-460, 1998
A protocol for parameterization and calibration of RZWQM2 in field research
L Ma, LR Ahuja, SA Saseendran, RW Malone, TR Green, BT Nolan, ...
Methods of introducing system models into agricultural research 2, 1-64, 2011
Modeling a wheat–maize double cropping system in China using two plant growth modules in RZWQM
Q Yu, SA Saseendran, L Ma, GN Flerchinger, TR Green, LR Ahuja
Agricultural systems 89 (2-3), 457-477, 2006
Thirty‐five years of research data collection at the Reynolds Creek Experimental Watershed, Idaho, United States
CW Slaughter, D Marks, GN Flerchinger, SS Van Vactor, M Burgess
Water Resources Research 37 (11), 2819-2823, 2001
Using soil freezing characteristics to model multi‐season soil water dynamics
GN Flerchinger, MS Seyfried, SP Hardegree
Vadose Zone Journal 5 (4), 1143-1153, 2006
Comparing simulated and measured sensible and latent heat fluxes over snow under a pine canopy to improve an energy balance snowmelt model
D Marks, A Winstral, G Flerchinger, M Reba, J Pomeroy, T Link, K Elder
Journal of Hydrometeorology 9 (6), 1506-1522, 2008
Hydrothermal germination response and the development of probabilistic germination profiles
SP Hardegree, GN Flerchinger, SS Van Vactor
Ecological Modelling 167 (3), 305-322, 2003
Simulation of freezing and thawing soils in inner Mongolia Hetao Irrigation District, China
R Li, H Shi, GN Flerchinger, T Akae, C Wang
Geoderma 173, 28-33, 2012
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