Masaki Hayashi
Masaki Hayashi
Verified email at
Cited by
Cited by
Temperature-electrical conductivity relation of water for environmental monitoring and geophysical data inversion
M Hayashi
Environmental monitoring and assessment 96, 119-128, 2004
Effects of ground water exchange on the hydrology and ecology of surface water
M Hayashi, DO Rosenberry
Groundwater 40 (3), 309-316, 2002
Groundwater-wetland ecosystem interaction in the semiarid glaciated plains of North America
G Van der Kamp, M Hayashi
Hydrogeology Journal 17 (1), 203, 2009
Comparing the hydrology of grassed and cultivated catchments in the semi‐arid Canadian prairies
G Van der Kamp, M Hayashi, D Gallen
Hydrological Processes 17 (3), 559-575, 2003
Focused infiltration of snowmelt water in partially frozen soil under small depressions
M Hayashi, G van der Kamp, R Schmidt
Journal of Hydrology 270 (3-4), 214-229, 2003
Water and solute transfer between a prairie wetland and adjacent uplands, 1. Water balance
M Hayashi, G van der Kamp, DL Rudolph
Journal of Hydrology 207 (1-2), 42-55, 1998
Depth-area-volume and hydroperiod relationships of ephemeral (vernal) forest pools in southern New England
RT Brooks, M Hayashi
Wetlands 22 (2), 247-255, 2002
Simple equations to represent the volume–area–depth relations of shallow wetlands in small topographic depressions
M Hayashi, G Van der Kamp
Journal of hydrology 237 (1-2), 74-85, 2000
Hydrology of prairie wetlands: understanding the integrated surface-water and groundwater processes
M Hayashi, G van der Kamp, DO Rosenberry
Wetlands 36, 237-254, 2016
Permafrost‐thaw‐induced land‐cover change in the Canadian subarctic: Implications for water resources
WL Quinton, M Hayashi, LE Chasmer
Hydrological processes 25 (1), 152-158, 2011
Spatial and temporal variations in active layer thawing and their implication on runoff generation in peat‐covered permafrost terrain
N Wright, M Hayashi, WL Quinton
Water Resources Research 45 (5), 2009
The groundwater recharge function of small wetlands in the semi-arid northern prairies
G Van der Kamp, M Hayashi
Great Plains Research, 39-56, 1998
Changing hydrologic connectivity due to permafrost thaw in the lower Liard River valley, NWT, Canada
RF Connon, WL Quinton, JR Craig, M Hayashi
Hydrological Processes 28 (14), 4163-4178, 2014
Peat hydraulic conductivity in cold regions and its relation to pore size and geometry
WL Quinton, M Hayashi, SK Carey
Hydrological Processes: An International Journal 22 (15), 2829-2837, 2008
Effects of snow cover on soil freezing, water movement, and snowmelt infiltration: A paired plot experiment
Y Iwata, M Hayashi, S Suzuki, T Hirota, S Hasegawa
Water resources research 46 (9), 2010
Connectivity and storage functions of channel fens and flat bogs in northern basins
WL Quinton, M Hayashi, A Pietroniro
Hydrological Processes 17 (18), 3665-3684, 2003
Hydrologic functions of wetlands in a discontinuous permafrost basin indicated by isotopic and chemical signatures
M Hayashi, WL Quinton, A Pietroniro, JJ Gibson
Journal of Hydrology 296 (1-4), 81-97, 2004
Flood processes in Canada: Regional and special aspects
JM Buttle, DM Allen, D Caissie, B Davison, M Hayashi, DL Peters, ...
Canadian Water Resources Journal/Revue canadienne des ressources hydriques …, 2016
Water and solute transfer between a prairie wetland and adjacent uplands, 2. Chloride cycle
M Hayashi, G van der Kamp, DL Rudolph
Journal of Hydrology 207 (1-2), 56-67, 1998
The cold vadose zone: Hydrological and ecological significance of frozen-soil processes
M Hayashi
Vadose Zone Journal 12 (4), vzj2013. 03.0064, 2013
The system can't perform the operation now. Try again later.
Articles 1–20