|Ground water and climate change|
RG Taylor, B Scanlon, P Döll, M Rodell, R Van Beek, Y Wada, ...
Nature climate change 3 (4), 322-329, 2013
|Integrated surface–groundwater flow modeling: A free-surface overland flow boundary condition in a parallel groundwater flow model|
SJ Kollet, RM Maxwell
Advances in Water Resources 29 (7), 945-958, 2006
|Development of a coupled land surface and groundwater model|
RM Maxwell, NL Miller
Journal of Hydrometeorology 6 (3), 233-247, 2005
|Capturing the influence of groundwater dynamics on land surface processes using an integrated, distributed watershed model|
SJ Kollet, RM Maxwell
Water Resources Research 44 (2), 2008
|Multiphysics simulations: Challenges and opportunities|
DE Keyes, LC McInnes, C Woodward, W Gropp, E Myra, M Pernice, J Bell, ...
The International Journal of High Performance Computing Applications 27 (1 …, 2013
|Improving the representation of hydrologic processes in Earth System Models|
MP Clark, Y Fan, DM Lawrence, JC Adam, D Bolster, DJ Gochis, ...
Water Resources Research 51 (8), 5929-5956, 2015
|Connections between groundwater flow and transpiration partitioning|
RM Maxwell, LE Condon
Science 353 (6297), 377-380, 2016
|Interdependence of groundwater dynamics and land-energy feedbacks under climate change|
RM Maxwell, SJ Kollet
Nature Geoscience 1 (10), 665-669, 2008
|Hyper‐resolution global hydrological modelling: what is next? “Everywhere and locally relevant”|
MFP Bierkens, VA Bell, P Burek, N Chaney, LE Condon, CH David, ...
Hydrological processes 29 (2), 310-320, 2015
|The groundwater–land-surface–atmosphere connection: Soil moisture effects on the atmospheric boundary layer in fully-coupled simulations|
RM Maxwell, FK Chow, SJ Kollet
Advances in Water Resources 30 (12), 2447-2466, 2007
|Surface‐subsurface model intercomparison: A first set of benchmark results to diagnose integrated hydrology and feedbacks|
RM Maxwell, M Putti, S Meyerhoff, JO Delfs, IM Ferguson, V Ivanov, J Kim, ...
Water resources research 50 (2), 1531-1549, 2014
|A high-resolution simulation of groundwater and surface water over most of the continental US with the integrated hydrologic model ParFlow v3|
RM Maxwell, LE Condon, SJ Kollet
Geoscientific model development 8 (3), 923-937, 2015
|A terrain-following grid transform and preconditioner for parallel, large-scale, integrated hydrologic modeling|
Advances in Water Resources 53, 109-117, 2013
|Proof of concept of regional scale hydrologic simulations at hydrologic resolution utilizing massively parallel computer resources|
SJ Kollet, RM Maxwell, CS Woodward, S Smith, J Vanderborght, ...
Water resources research 46 (4), 2010
|Hydrological partitioning in the critical zone: Recent advances and opportunities for developing transferable understanding of water cycle dynamics|
PD Brooks, J Chorover, Y Fan, SE Godsey, RM Maxwell, JP McNamara, ...
Water Resources Research 51 (9), 6973-6987, 2015
|Regional differences in the influence of irrigation on climate|
D Lobell, G Bala, A Mirin, T Phillips, R Maxwell, D Rotman
Journal of Climate 22 (8), 2248-2255, 2009
|Engineered infiltration systems for urban stormwater reclamation|
JE Grebel, SK Mohanty, AA Torkelson, AB Boehm, CP Higgins, ...
Environmental Engineering Science 30 (8), 437-454, 2013
|Hydrological effects of forest transpiration loss in bark beetle-impacted watersheds|
LA Bearup, RM Maxwell, DW Clow, JE McCray
Nature Climate Change 4 (6), 481-486, 2014
|Evaluating the relationship between topography and groundwater using outputs from a continental‐scale integrated hydrology model|
LE Condon, RM Maxwell
Water Resources Research 51 (8), 6602-6621, 2015
|Bark beetle infestation impacts on nutrient cycling, water quality and interdependent hydrological effects|
KM Mikkelson, LA Bearup, RM Maxwell, JD Stednick, JE McCray, ...
Biogeochemistry 115, 1-21, 2013