William Massman
William Massman
Rocky Mountain Research Station, US Forest Service
Verified email at
Cited by
Cited by
The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data
G Pastorello, C Trotta, E Canfora, H Chu, D Christianson, YW Cheah, ...
Scientific data 7 (1), 225, 2020
Eddy covariance flux corrections and uncertainties in long-term studies of carbon and energy exchanges
WJ Massman, X Lee
Agricultural and Forest Meteorology 113 (1-4), 121-144, 2002
Handbook of micrometeorology: a guide for surface flux measurement and analysis
X Lee, W Massman, B Law
Springer Science & Business Media, 2004
A review of the molecular diffusivities of H2O, CO2, CH4, CO, O3, SO2, NH3, N2O, NO, and NO2 in air, O2 and N2 near STP
WJ Massman
Atmospheric environment 32 (6), 1111-1127, 1998
A simple method for estimating frequency response corrections for eddy covariance systems
WJ Massman
Agricultural and Forest Meteorology 104 (3), 185-198, 2000
Reflections on the surface energy imbalance problem
R Leuning, E van Gorsel, WJ Massman, PR Isaac
Agricultural and Forest Meteorology 156, 65-74, 2012
An evaluation of two models for estimation of the roughness height for heat transfer between the land surface and the atmosphere
Z Su, T Schmugge, WP Kustas, WJ Massman
Journal of applied meteorology and climatology 40 (11), 1933-1951, 2001
A critical review and analysis of the use of exposure-and flux-based ozone indices for predicting vegetation effects
RC Musselman, AS Lefohn, WJ Massman, RL Heath
Atmospheric Environment 40 (10), 1869-1888, 2006
Climate control of terrestrial carbon exchange across biomes and continents
C Yi, D Ricciuto, R Li, J Wolbeck, X Xu, M Nilsson, L Aires, JD Albertson, ...
Environmental Research Letters 5 (3), 034007, 2010
An analytical one-dimensional second-order closure model of turbulence statistics and the Lagrangian time scale within and above plant canopies of arbitrary structure
WJ Massman, JC Weil
Boundary-Layer Meteorology 91, 81-107, 1999
Coupling biochemical and biophysical processes at the leaf level: an equilibrium photosynthesis model for leaves of C3 plants
NT Nikolov, WJ Massman, AW Schoettle
Ecological Modelling 80 (2-3), 205-235, 1995
An analytical one-dimensional model of momentum transfer by vegetation of arbitrary structure
WJ Massman
Boundary-Layer Meteorology 83, 407-421, 1997
Ozone flux to vegetation and its relationship to plant response and ambient air quality standards
RC Musselman, WJ Massman
Atmospheric Environment 33 (1), 65-73, 1998
A model investigation of turbulence‐driven pressure‐pumping effects on the rate of diffusion of CO2, N2O, and CH4 through layered snowpacks
WJ Massman, RA Sommerfeld, AR Mosier, KF Zeller, TJ Hehn, ...
Journal of Geophysical Research: Atmospheres 102 (D15), 18851-18863, 1997
Influence of high-frequency ambient pressure pumping on carbon dioxide efflux from soil
ES Takle, WJ Massman, JR Brandle, RA Schmidt, X Zhou, IV Litvina, ...
Agricultural and Forest Meteorology 124 (3-4), 193-206, 2004
Toward an ozone standard to protect vegetation based on effective dose: a review of deposition resistances and a possible metric
WJ Massman
Atmospheric Environment 38 (15), 2323-2337, 2004
The attenuation of concentration fluctuations in turbulent flow through a tube
WJ Massman
Journal of Geophysical Research: Atmospheres 96 (D8), 15269-15273, 1991
A model study of kBH− 1 for vegetated surfaces using ‘localized near-field’Lagrangian theory
WJ Massman
Journal of Hydrology 223 (1-2), 27-43, 1999
The derivation and validation of a new model for the interception of rainfall by forests
WJ Massman
Agricultural Meteorology 28 (3), 261-286, 1983
Diffusional flux of CO2 through snow: Spatial and temporal variability among alpine‐subalpine sites
RA Sommerfeld, WJ Massman, RC Musselman, AR Mosier
Global Biogeochemical Cycles 10 (3), 473-482, 1996
The system can't perform the operation now. Try again later.
Articles 1–20