Akima, H., 1978. "A method of bivariate interpolation and smooth
surface fitting for irregularly distributed data points,"
ACM Transactions on Mathematical Software, vol. 4, no. 2,
pp. 148-159.
Anderson, E.A., 1976. A point energy and mass balance model
of a snow cover. NWS Technical Report 19, National
Oceanic and Atmospheric Administration, Washington, DC, 150 pp.
Bristow, K.L., and G.S. Campbell, 1984.
On the relationship between incoming solar radiation and
daily maximum and minimum temperature,
Agricultural and Forest Meteorology, vol. 31, pp. 159-166.
Cogley, A.C., D.K. Pandey, and R.W. Bergstrom, 1980.
A fast, exact code for scattered thermal radiation compared with
a two-stream approximation,
Icarus,
vol. 43, no. 1, pp. 96-101.
Davis, R.E., 1980.
Simulation of a alpine soil thermal regime beneath
a snowpack. MA Thesis, Department of Geography,
University of California, Santa Barbara, CA, 60pp.
Davis, R.E., 1986.
Snow property measurements correlative to microwave emission at 35 GHz.
PhD Thesis, Department of Geography,
University of California, Santa Barbara, CA, 94pp.
Dodson, R., and D. Marks, 1997.
Daily air temperature interpolation at high spatial resolution over a
large mountainous region, Climate Research,
vol. 8, pp. 1-20.
J. Dolph, 1990.
An analysis of the distribution of precipitation and runoff from the
historical record for the continental United States.
MA Thesis, Department of Geoscience, Oregon State University,
Corvallis, OR, 51pp.
Dolph, J., and D. Marks, 1992.
Characterizing the distribution of precipitation over the continental
United States using historical data.
Climatic Change, vol. 22, no. 2, pp 99-121.
Dolph, J., D. Marks, G.A. King, 1992.
Sensitivity of the regional water balance in the Columbia River basin to
climate variability:
Application of a spatially distributed water balance model.
In New Perspectives for Watershed Management: Balancing Long-Term
Sustainability with Cumulative Environmental Change,
R.J. Naiman and J.R. Sedell, eds.,
Springer-Verlag, pp. 233-265.
Dozier, J., and J. Frew, 1981.
Atmospheric corrections to satellite radiometric data over
rugged terrain.
Remote Sensing of Environment,
vol. 11, pp. 191-205.
Dozier, J., and J. Frew, 1990. Rapid calculation of terrain
parameters for radiation modeling from digital elevation
data. IEEE Transactions on Geoscience and Remote Sensing,
vol. 28, no. 5, pp 963-969.
Dubayah, R., J. Dozier, and F. Davis, 1990. Topographic distribution
of clear-sky radiation over the Konza Prairie, Kansas.
Water Resources Research, vol. 26, no. 4, pp 679-691.
Dubayah, R., and V. Van Katwijk, 1992.
The topographic distribution of annual incoming solar radiation
in the Rio Grande basin.
Geophysical Research Letters,
vol. 19, pp. 2231-2234.
Environmental Systems Research Institute, Inc., 1990.
Understanding GIS: The ARC/INFO Method.
Environmental Systems Research Institute, Inc.,
Redlands, CA.
Frew, J., and J. Dozier, 1984.
The QDIPS image processing system, CSL Technical Report,
Computer Systems Laboratory, University of California, Santa Barbara.
Fung, I., C.J. Tucker, and K. Prentice, 1987. Application of advanced
very high resolution radiometer vegetation index to study
atmosphere-biosphere exchange of CO2. Journal of Geophysical
Research, vol. 92, no. D3, pp. 2999-3015.
Garen, D.C., and D. Marks, 1996. Spatially distributed snow
modelling in mountainous regions: Boise River application.
In: HydroGIS `96: Application of Geographic
Information Systems in Hydrology and Water Resources
Management, IAHS Publication No. 235, pp. 421-428.
Haston, L., 1986.
Mapping zones of similar terrain for improved estimation of
snow volume in an alpine watershed.
MA Thesis, Department of Geography,
University of California, Santa Barbara, CA, 50pp.
Hanson, C. L., D. Marks, and S. S. Van Vactor, 2001.
Long-term climate database, Reynolds Creek Experimental
Watershed, Idaho, USA,
Water Resources Research,
vol. 37, no. 11, pp. 2839-2841.
Karl, T.R., C.N. Williams, Jr., F.T. Quinlan, and T.A. Boden, 1990.
United States Historical Climatology Network (HCN) Serial
Temperature and Precipitation Data, Environmental Science
Division, Publication No. 3404, Carbon Dioxide Information and
Analysis Center, Oak Ridge National Laboratory, Oak Ridge, TN,
389 pp.
Kern, J., 1995.
Evaluation of soil water retention models based on basic soil physical
properties, Soil Science Society of America Journal,
vol. 59, pp. 1134-1141.
Kimball, J., 1994.
Data Accuracy, Cover Type, and Climate Effects on Surface Energy and Mass
Exchange Calculations.
PhD Thesis, Department of Bioresource Engineering, Oregon State University,
Corvallis, OR, 254 pp.
Kimball, J.S., S.W. Running and R.R. Nemani, 1997.
An improved method for estimating surface humidity from daily
minimum temperature, Agricultural and Forest Meteorology, in press.
Link, T., and D. Marks, 1999.
Distributed simulation of snowcover mass- and energy balance in a boreal forest.
Hydrological Processes,
vol. 13, no. 13-14, pp. 2439-2452.
Longley, K., and D. Marks, 1991.
Supplement to the Image Processing Workbench (IPW), Volume 1.0:
Modifications, Procedures, and Software Additions November,
1989 to October, 1991.
Technical Report, EPA-COR, U.S. EPA Environmental Research Laboratory,
Corvallis, OR
Longley, K., D. Jacobsen, and D. Marks, 1992.
Supplement to the Image Processing Workbench (IPW):
Modifications, Procedures, and Software Additions November,
1989 to June, 1992 (Revision 2.0).
Technical Report, EPA-COR, U.S. EPA Environmental Research Laboratory,
Corvallis, OR
Mahrt, L., and M. Ek, 1984. The influence of atmospheric stability
on potential evaporation. Journal of Climate and Applied
Meteorology, vol 23, pp. 222-234.
Marks, D., and J. Dozier, and R.E. Davis, 1979.
A clear-sky longwave radiation model for remote alpine areas.
Archiv fur Meteorologie, Geophysik und Bioklimatologie, Series B,
vol. 27, no. 23, pp. 159-187.
Marks, D., R. Kattelmann, J. Dozier, and R.E. Davis, 1986.
Monitoring snowcover properties and processes in a small alpine watershed.
Proceedings of the Sixth International Northern Research
Basins Symposium/Workshopi,
H.S. Santeford, ed.,
Houghton, MI, pp. 259-275.
Marks, D., 1988. Climate, Energy Exchange, and Snowmelt in
Emerald Lake Watershed, Sierra Nevada. PhD Thesis,
Departments of Geography and Mechanical Engineering,
University of California Santa Barbara, CA, 158 pp.
Marks, D., B. McGurk, N. Berg, D. Dawson, 1988.
Snow volume comparisons for atmospheric deposition monitoring,
Proceedings of the 1988 Western Snow Conference,
Vol. 56, pp. 124-136.
Marks, D., 1990.
A Continental-Scale Simulation of Potential Evapotranspiration for
Historical and Projected Doubled-@ roman CO2 Climate Conditions.
In Biospheric Feedbacks to Climate Change: The Sensitivity of Regional
Trace Gas Emissions, Evapotranspiration, and Energy Balance to
Vegetation Redistribution,
H. Gucinski, D. Marks, and D.P. Turner, eds.,
Technical Report EPA/600/3-90/078,
U.S. EPA, Environmental Research Laboratory,
Corvallis, OR.
Marks, D., R. Dubayah, and K. Longley, 1991. Modeling the
topographic and spectral variability of clear-sky solar
radiation at regional to continental scales. Proceedings
1991 IGARSS Symposium, Remote Sensing: Global Monitoringr
for Earth Management, Espoo, Finland, vol. 3, pp 1711.
Marks, D., J. Dozier, and R.E. Davis, 1992. Climate and
energy exchange at the snow surface in the alpine
region of the Sierra Nevada: 1. Meteorological measurements
and monitoring. Water Resources Research, vol.
28, no. 11, pp. 3029-3042.
Marks, D., and J. Dozier, 1992. Climate and energy exchange
at the snow surface in the alpine region of the Sierra
Nevada: 2. Snow cover energy balance. Water Resources
Research, vol. 28, no. 11, pp. 3043-3054.
Marks, D., G. King, and J. Dolph, 1993.
The implications of climate change on the water balance of the Columbia
River Basin.
Climate Research, vol. 2, no. 3, pp. 203-213.
Marks, D., J. Kimball, D. Tingey, and T. Link, 1997. The sensitivity
of snowmelt processes to climate conditions and forest
cover during rain-on-snow: A case study of the 1996 Pacific
Northwest flood.
Hydrological Processes, vol. 12, no. 10-11, pp. 1569-1587.
Marks, D., J. Domingo, D. Susong, T. Link, and D. Garen, 1999.
A spatially distributed energy balance snowmelt model
for application in mountain basins.
Hydrological Processes,
vol. 13, no. 13-14, pp. 1935-1959.
Marks, D., J. Domingo, and J. Frew, 1999.
Software tools for hydro-climatic modeling and analysis:
Image Processing Workbench, ARS - USGS Version 2,
ARS Technical Bulletin 99-1,
Northwest Watershed Research Center, USDA Agricultural Research Service,
Boise, Idaho,
Electronic Documenthttp://www.nwrc.ars.usda.gov/ipw.
Marks, D., K. R. Cooley, D. C. Robertson, and A. Winstral, 2001.
Long-term snow database, Reynolds Creek Experimental Watershed,
Idaho, USA,
Water Resources Research,
vol. 37, no. 11, pp 2835-2838.
Marks, D., T. Link, A. Winstral, and D. Garen, 2001.
Simulating snowmelt processes during rain-on-snow over a
semi-arid mountain basin,
Annals of Glaciology,
vol. 32, pp. 195-202.
Marks, D., and A. Winstral,
2001.
Comparison of snow deposition, the snowcover energy balance,
and snowmelt at two sites in a semi-arid mountain basin,
Journal of Hydrometeorology,
vol. 2, no. 3, pp. 213-227.
Marks, D., A. Winstral, S. Van Vactor, D. Robertson, and R. E. Davis,
2001.
Simulating snow deposition, energy balance,
and melt in a semi-arid watershed,
in Remote Sensing and Hydrology 2000,
M. Owe, K. Brubaker, J. Richie, and A. Rango, eds.,
International Association of Hydrological Sciences,
Wallingford, UK, IAHS Publication 267, pp. 129-135.
Marks, D., A. Winstral and M. Seyfried,
2002.
Simulation of terrain and forest shelter effects on patterns
of snow deposition, snowmelt and runoff over a
semi-arid mountain catchment,
Hydrological Processes,
vol. 16, no. 18, pp. 3605-3626.
Marshall, S.E., and S.G. Warren, 1987.
Parameterization of snow albedo for climate models,
in Large Scale Effects of Seasonal Snow Cover,
B.E. Goodison, R.G. Barry, and J. Dozier, eds.,
IAHS-AIHS Publication 166, International Association of
Hydrological Sciences, Wallingford, UK, pp. 43-50.
McGurk, B., N. Berg, D. Marks, J.M. Melack, and F. Setaro, 1989.
Monitoring pollutant loading in the California snow zone.
Atmospheric Deposition (Proceedings of the IAHS Third Scientific Assembly,
Baltimore, MD),
Wallingford, UK,
IAHS-AIHS Publication 179, pp. 71-79.
McNaughton, K.G., and T.A. Black, 1973.
A study of evapotranspiration from Douglas fir forest using using
the energy balance, Water Resources Research, vol. 9, pp. 1579-1590.
Meador, W. E., and W. R. Weaver, 1980. Two-stream approximations to
radiative transfer in planetary atmospheres: a unified
description of existing methods and a new improvement.
Journal of the Atmospheric Sciences, vol. 37, pp. 630-643.
Morris, E.M., 1982. Sensitivity of the European Hydrological
System snow models. Hydrological Aspects of Alpine
and High-Mountain Areas, J.W. Glen, ed., International
Association of Hydrological Sciences, Wallingford, UK,
IAHS-AIHS Publication 138, pp 221-231.
Nash, J. E., and J. V. Sutcliffe, 1970. River flow forecasting
through conceptual models, Part I -- A discussion of principals.
Journal of Hydrology, vol. 10, pp. 282-290.
Neilson, R.P., and D. Marks, 1993.
A global perspective of regional vegetation and hydrologic sensitivites
from climatic change.
Journal of Vegetation Science, vol. 5, pp. 715-730.
Newton, J.H., 1988. Timeslab: A Time Series Analysis Laboratory,
Wadworth and Brooks/Cole Statistics/Probablility Series,
Wadsworth, Inc., Belmont, CA, 62 pp.
Phillips, D.L., J. Dolph, and D. Marks, 1992.
A comparison of geostatistical procedures for spatial analysis of
precipitation in mountainous terrain.
Agricultural and Forest Meteorology,
vol. 58, pp. 119-141.
Phillips, D.L., and D. Marks, 1992.
Spatial uncertainty analysis: Propagation of interpolation errors in
spatially distributed models.
Ecological Modelling, vol. 91, pp. 213-229.
Priestley, C.H.B. and R.J. Taylor, 1972. On the assessment
of surface heat flux and evaporation using large-scale
parameters, Monthly Weather Review, vol. 100, no. 2, pp. 81-92.
Running, S.W., and J.C. Coughlan, 1988. A general model of forest
ecosystem processes for regional applications. I. hydrologic
balance, canopy gas exchange and primary production processes,
Ecological Modelling, vol. 41, pp. 125-154.
Running, S.W., R.R. Nemani, and R.D. Hungerford, 1987.
Extrapolation of synoptic meteorological data in mountainous terrain and its use
for simulating forest evapotranspiration and photosynthesis,
Canadian Journal of Forest Research, vol. 17, pp. 472-483.
Saxton, K., W. Rawls, J. Romberger, and R. Papendick, 1986.
Estimating generalized soil water characteristics from texture,
Soil Science Society of America Journal,
vol. 50, pp. 1031-1036.
Seyfried, M. S., R. Harris, , D. Marks, and B. Jacob, 2001.
Geographic database, Reynolds Creek Experimental Watershed, Idaho, USA,
Water Resources Research,
vol. 37, no. 11, pp. 2825-2829.
Shettle, E.P., and J.A. Weinman, 1970.
The transfer of solar irradiance through inhomogeneous
turbid atmospheres evaluated by Eddington's approximation,
Journal of the Atmospheric Sciences,
vol. 27, no. 10, pp. 1048-1055.
Slaughter, C. W., D. Marks, G. N. Flerchinger, S. S. Van Vactor,
and M. Burgess, 2001.
35 years of research data collection at the Reynolds Creek
Experimental Watershed, Idaho, USA,
Water Resources Research,
vol. 37, no. 11, pp. 2819-2823.
Stewart, J.B., 1984. Measurement and prediction of evaporation from
forested and agricultural catchments, Agricultural Water Management,
vol. 8, pp. 1-28.
Stonebraker, M., 1986. "Retrospection on a database system", in
The INGRES Papers: Anatomy of a Relational Database System,
ed. M. Stonebraker, pp 46-62,
Addison-Wesley, Reading, MA.
Susong, D., D. Marks, and D. Garen, 1999.
Methods for developing time-series climate surfaces to drive
topographically distributed energy and water balance models.
Hydrological Processes,
vol. 13, no. 13-14, pp. 2003-2021.
Tucker, C.J., I. Fung, C. Keeling, and R. Gammon, 1986. Relationship
between atmopspheric CO2 variations and satellite-derived
vegetation index. Nature, vol. 319, 195-199.
Turner, D.P., and D. Marks, 1996.
Application of topographically distributed models of energy, water, and
carbon balance over the Columbia River Basin:
A Framework for simulating potential climate change at the regional scale.
In: Regional Impacts of Global Climate Change: Assessing Change and Response
at the Scales that Matter,
S.J. Ghan, W.T. Pennell, K.L. Peterson, e. Rykiel, M.J. Scott, and
L.W. Vail, eds., Battelle Press, Richland, WA, pp. 215-234.
U.S. Army Corps of Engineers, 1988.
GRASS Users and Programmers Manual.
U.S. Army Corps of Engineers, Construction Engineering Research Laboratory,
Champagne, IL.
Van Heeswijk, M., J. Kimball, and D. Marks, 1996. Simulation
of water available for runoff in clearcut forest
openings during rain-on-snow events in the western Cascade
Range of Oregon and Washington. USGS Water-Resources
Investigations Report 95-4219, Tacoma, Washington, 67 pp.
Wilson, W. H., 1980. Solar ephemeris algorithm; Reference 80-13,
Scripps Institution of Oceanography, University of California
at San Diego, La Jolla, California, 70 pp.
Warren, S.G., and W.J. Wiscombe, 1980.
A model for the spectral albedo of snow.
II. Snow containing atmospheric aerosols,
Journal of the Atmospheric Sciences,
vol. 37, no. 12, pp. 2734-2745.
Winstral, A., K. Elder, and R. E. Davis,
2002.
Modeling the effects of wind induced snow redistribution with
terrain-based parameters to enhance spatial snow modeling,
Journal of Hydrometeorology,
vol. 3, no. 5, pp. 524-528.
Winstral, A., and D. Marks,
2002.
Simulating wind fields and snow redistribution using
terrain-based parameters to model snow accumulation and
melt over a semi-arid mountain catchment,
Hydrological Processes,
vol. 16, no. 18, pp. 3585-3603.
Wiscombe, W.J., 1977.
The Delta-Eddington approximation for a vertically inhomogeneous
atmosphere,
Technical Note 121,
National Center for Atmospheric Research,
Boulder, CO, 66p.
Wiscombe, W.J., and S.G. Warren, 1980.
A model for the spectral albedo of snow.
I. Pure snow, Journal of the Atmospheric Sciences,
vol. 37, no. 12, pp. 2712-2733.