Scott D. Peckham
Scott D. Peckham
Verified email at
Cited by
Cited by
The physical basis of glacier volume‐area scaling
DB Bahr, MF Meier, SD Peckham
Journal of Geophysical Research: Solid Earth 102 (B9), 20355-20362, 1997
Integrated environmental modeling: A vision and roadmap for the future
GF Laniak, G Olchin, JL Goodall, A Voinov, M Hill, P Glynn, G Whelan, ...
Predicting the terrestrial flux of sediment to the global ocean: a planetary perspective
JPM Syvitski, SD Peckham, R Hilberman, T Mulder
Sedimentary Geology 162 (1-2), 5-24, 2003
A Component-Based Approach to Integrated Modeling in the Geosciences: The Design of CSDMS
SD Peckham, E Hutton, B Norris
Computers and Geosciences, 2012
Modeling the temporal variability in the flux of sediment from ungauged river basins
MD Morehead, JP Syvitski, EWH Hutton, SD Peckham
Global and Planetary change 39 (1-2), 95-110, 2003
Land-surface parameters and objects in hydrology
S Gruber, S Peckham
Geomorphometry: Concepts, Software, Applications (Developments in Soil …, 2009
New results for self‐similar trees with applications to river networks
SD Peckham
Water Resources Research 31 (4), 1023-1029, 1995
Effective modeling for Integrated Water Resource Management: A guide to contextual practices by phases and steps and future opportunities
J Badham, S Elsawah, JHA Guillaume, SH Hamilton, RJ Hunt, ...
Environmental Modelling & Software 116, 40-56, 2019
A reformulation of Horton's laws for large river networks in terms of statistical self‐similarity
SD Peckham, VK Gupta
Water Resources Research 35 (9), 2763-2777, 1999
The influence of droplet size and biodegradation on the transport of subsurface oil droplets during the Deepwater Horizon spill: A model sensitivity study
EW North, EE Adams, AE Thessen, Z Schlag, R He, SA Socolofsky, ...
Environmental Research Letters 10 (2), 024016, 2015
Self-similarity in the three-dimensional geometry and dynamics of large river basins
SD Peckham
University of Colorado at Boulder, 1995
The earth system prediction suite: Toward a coordinated US modeling capability
G Theurich, C DeLuca, T Campbell, F Liu, K Saint, M Vertenstein, J Chen, ...
Bulletin of the American Meteorological Society 97 (7), 1229-1247, 2016
Predicting the flux of sediment to the coastal zone: application to the Lanyang watershed, Northern Taiwan
JPM Syvitski, AJ Kettner, SD Peckham, SJ Kao
Journal of Coastal Research 21 (3), 580-587, 2005
A service-oriented architecture for coupling web service models using the Basic Model Interface (BMI)
P Jiang, M Elag, P Kumar, SD Peckham, L Marini, L Rui
Environmental Modelling & Software 92, 107-118, 2017
Driving plug-and-play models with data from web services: A demonstration of interoperability between CSDMS and CUAHSI-HIS
SD Peckham, JL Goodall
Computers and Geosciences, 2012
A community approach to earth systems modeling
AA Voinov, C DeLuca, RR Hood, S Peckham, CR Sherwood, JPM Syvitski
Eos, Transactions American Geophysical Union 91 (13), 117-118, 2010
The CSDMS Standard Names: Cross-Domain Naming Conventions for Describing Process Models, Data Sets and Their Associated Variables
SD Peckham
7th International Conference on Environmental Modeling and Software, 2014
Profile, Plan and Streamline Curvature: A Simple Derivation and Applications
SD Peckham
Geomorphometry 2011, 27-30, 2011
Geomorphometry and spatial hydrologic modelling
SD Peckham
Geomorphometry: Concepts, Software, Applications (Developments in Soil …, 2009
Efficient Extraction of River Networks and Hydrologic Measurements from Digital Elevation Data
Stochastic Methods in Hydrology: Rain, Landforms, and Floods: CIMAT …, 1998
The system can't perform the operation now. Try again later.
Articles 1–20