References
References (abbreviated)
"Accuracy." Merriam-Webster Online Dictionary. 2007. http://www.m-w.com (4 Jan. 2008).
Coats, D. R., 1972. Quantitative geomorphology of small drainage basins in Southern Indiana. Tech. Rep. 10, Office of Naval Research, Department of Geography, Columbia University.
Colson, T. P. 2006. Stream Network Delineation from High Resolution Digital Elevation Models. Ph.D. Dissertation, Dept. of Forestry and Environmental Resources, NC State University, Raleigh, NC.
Dietrich, William E. and Thomas Dunne 1993. The Channel Head in Channel Network Hydrology. Eds. K. Beven, M.J. Kirby. John Wiley and Sons Ltd. 1993.
Dietrich, W., Reneau, S., Reneau, C., 1987. Overview: ’zero-order basins’ and problems of drainage density, sediment transport and hillslope morphology. In: Erosion and Sedimentation in the Pacific Rim. International Association of Hydrological Sciences, Corvallis, Or, pp. 27–37.
Firman, J. C., Jacobs, S. E., 2002. Comparison of stream reach lengths measured in the field and from maps. North American Journal of Fisheries Management 22 (4), 1325–1328.
Garbrecht, J., Ogden, F., DeBarry, P., Maidment, D., 2001. GIS and distributed watershed models. I: Data coverages and sources. Journal of Hydrologic Engineering 6 (6), 506–514.
Garg, P.K and Harrison,A.R. 1990. Quantitative Representation of Land Surface Morphology from Digital Elevation Models, Proc. 4th Int. Symp. on Spatial Data Handling (1990), pp. 273-284.
Griffith, G.E., J.M. Omernik, J.A. Comstock, M.P. Shafale, W.H. McNab, D.R. Lenat, J.B. Glover, and V.B. Shelburne. 2002. Ecoregions of North Carolina and South Carolina. (2 sided color poster with map, descriptive text, summary tables, and photographs). U.S. Geological Survey, Reston, VA. Scale 1:1,500,000.
Grimm, L.G. & Yarnold, P.R. eds. (1995). Reading and Understanding Multivariate Statistics.Washington D.C.: American Psychological Association.
Hansen, W. F., 2001. Identifying stream types and management implications. Forest Ecology and Management 143 (1-3), 39–46.
Heine, R. A., Lant, C. L., Sengupta, R. R., 2004. Development and comparison of approaches for 71 automated mapping of stream channel networks. Annals of the Association of American Geographers 94 (3), 477–490.
Kienzle, Stefan (2004). The Effect of DEM Raster Resolution on First Order, Second Order and Compound Terrain Derivatives. Transactions in GIS 8 (1), 83–111.
Kiffney, P. M., Richardson, J. S., Feller, M. C., 2000. Fluvial and epilithic organic matter dynamics in headwater streams of Southwestern British Columbia, Canada. Archiv Fur Hydrobiologie 149 (1), 109–129.
Lindsay, J. B., Creed, I. F., 2005. Removal of artifact depressions from digital elevation models: towards a minimum impact approach. Hydrological Processes 19 (16), 3113–3126.
Morisawa, M., 1957. Accuracy of determination of stream lengths from topographic maps. Transactions, American Geophysical Union 38, 86–88.
McGlynn, B. L., Seibert, J., 2002. Distributed assessment of contributing area and riparian buffering along stream networks. Water Resources Research 39 (4), 2(1)–2(7).
Montgomery, D. R., Dietrich, W. E., 1989. Source areas, drainage density, and channel initiation. Water Resources Research 25 (8), 1907–1918.
North Carolina Division of Water Quality(NCDWQ), 2005. Identification methods for the origins of intermittent and perennial streams, version 3.1 Raleigh, NC.
North Carolina Floodplain Mapping (NCFMP), 2003. LiDAR and digital elevation data[Online], N.C. Division of Emergency Management, Available at http://www.ncfloodmaps.com/pubdocs/lidar final jan03.pdf. Raleigh, NC.
Mitasova, H., and Hoerka, Jaroslav.,1993. Interpolation by Regularized Spline with Tension: II. Application to Terrain Modeling and Surface Geometry Analysis: Math. Geol., v. 25, p. 657-669.
Morisawa, M., 1957. Accuracy of determination of stream lengths from topographics maps. Transactions, American Geophysical Union 38, 86–88.
Paybins, K., 2002. Flow origin, drainage area, and hydrologic characteristics for headwater streams in the mountaintop coal-mining region of southwest Virginia, 2000-01. Water-Resources Investigations Report 02-4300, U.S. Geological Survey.
Peterson, B. J., Wollheim, W. M., Mulholland, P. J., Webster, J. R., Meyer, J. L., Tank, J. L., Marti, E., Bowden, W. B., Valett, H. M., Hershey, A. E., McDowell, W. H., Dodds, W. K., Hamilton, S. K., Gregory, S.,Morrall, D. D., 2001. Control of nitrogen export from watersheds by headwater streams. Science 292 (5514), 86–90.
Stanford, J., 1996. Landscapes and catchment basins. In: Hauer, F.R. and Lamberti., G.A. (Eds.) Methods in Stream Ecology. Academic Press, San Diego, pp. 3–22.
Tabachnick, B.G. and Fidell, L.S. (1996). Using Multivariate Statistics. NY: HarperCollins.
Tarboton, D. G., Bras, R. L., Rodriguez-Iturbe, I., 1992. A physical basis for drainage density. Geomorphology 5 (1-2), 59.
Vannote, R. L., Minshall, G.W., Cummins, K.W., Sedell, J. R., Cushing, C. E., 1980. River continuum concept. Canadian Journal Of Fisheries And Aquatic Sciences 37 (1), 130–137.
Tucker, G. E., Catani, F., Rinaldo, A., Bras, R. L., 2001. Statistical analysis of drainage density from digital terrain data. Geomorphology 36 (3-4), 187.
Vogt, J., Colombo, R., Bertolo, F., 2003. Deriving drainage networks and catchment boundaries:a new methodology combining digital elevation data and environmental characteristics. Geomorphology 53 (3), 281–298.
Weaver, Curtis J. 1998. Low Flow Characteristics and Discharge Profiles for Selected Streams in the Neuse River Basin, North Carolina. USGS Water Resources Investigation Report 98-4135.