SEARCH

SEARCH BY CITATION

References

  • Allen, Y. C., G. C.Constant, and B. R.Couvillion (2008), Preliminary classification of water areas within the Atchafalaya Basin floodway system by using Landsat imagery, U.S. Geol. Surv., Open-File Rep., 2008-1320.
  • Alsdorf, D., P.Bates, J.Melack, M.Wilson, and T.Dunne (2007), Spatial and temporal complexity of the Amazon flood measured from space, Geophys. Res. Lett., 34, L08402, doi:10.1029/2007GL029447.
  • Alsdorf, D. E. (2003), Water storage of the central Amazon floodplain measured with GIS and remote sensing imagery, Ann. Assoc. Amer. Geographers, 93, 5566.
  • Alsdorf, D. E., J. M.Melack, T.Dunne, L. A. K.Mertes, L. L.Hess, and L. C.Smith (2000), Interferometric radar measurements of water level changes on the Amazon floodplain, Nature, 404, 174177.
  • Alsdorf, D. E., T.Dunne, J. M.Melack, L. C.Smith, and L. L.Hess (2005), Diffusion modeling of recessional flow on central Amazonian floodplains, Geophys. Res. Lett., 32, L21405, doi:10.1029/2005GL024412.
  • Bates, P. D., and A. P. J.De Roo (2000), A simple raster-based model for floodplain inundation, J. Hydrol., 236, 5477.
  • Bates, P. D., M. G.Anderson, L.Baird, D. E.Walling, and D.Simm (1992), Modelling floodplain flow with a two-dimensional finite element scheme, Earth Surf. Processes Landforms, 17, 575588.
  • Bates, P. D., R. J.Dawson, J. W.Hall, M. S.Horritt, R. J.Nicholls, J.Wicks, and M. A. A. M.Hassan (2005), Simplified two-dimensional numerical modelling of coastal flooding and example applications, Coast. Eng., 52, 793810.
  • Bates, P. D., M. S.Horritt, and T. J.Fewtrell (2010), A simple inertial formulation of the shallow water equations for efficient two-dimensional flood inundation modelling, J. Hydrol., 387, 3345.
  • Bradbrook, K. F., S. N.Lane, S. G.Waller, and P. D.Bates (2004), Two-dimensional diffusion wave modelling of flood inundation using a simplified channel representation, Int. J. River Basin Manage., 3, 211223.
  • Chow, V. T. (1959), Open Channel Hydraulics, 483 pp., McGraw-Hill, N. Y.
  • Couvillion, B. R., J. A.Barras, G. D.Steyer, W.Sleavin, M.Fischer, H.Beck, N.Trahan, B.Griffin, and D.Heckman (2011), Land area change in coastal Louisiana from 1932 to 2010, U.S. Geol. Surv. Scientific Investigations Map3164, scale 1:265,000, 12 pp.t
  • DHI Water and Environment (2001), MIKE11 Hydrodynamic Reference Manual, 516 pp., DHI Software, Horshølm, Denmark.
  • Di Baldassarre, G., and A.Montanari (2009), Uncertainty in river discharge observations: A quantitative analysis, Hydrol. Earth Syst. Sci. Discuss., 6, 3961.
  • Di Baldassarre, G., G.Schumann, and P. D.Bates (2009), A technique for the calibration of hydraulic models using uncertain satellite observations of flood extent, J. Hydrol., 367, 276282.
  • Donnell, B. P., and J. V.Letter (1992), The Atchafalaya River Delta Rep. 12: Two-dimensional modeling of alternative plans and impacts on the Atchafalaya bay and Terrebonne marshes, Rep. AD-A246-089, U.S. Army Engineer District, New Orleans, La.
  • Donnell, B. P., J. V.Letter, and A. M.Tetter (1991), The Atchafalaya River Delta Rep. 11: Two-dimensional modeling, Rep. AD-A237-369, U.S. Army Engineer District, New Orleans, La.
  • Ervine, D. A., and A. B.MacCleod (1999), Modelling a river channel with distant floodbanks, Proc. Inst. Civil Eng., 136, 2133.
  • Falconer, R. A. (1986), A water quality simulation study of a natural harbor, American Society of Civil Engineers, J. Waterw. Port Coast. Ocean Eng., 112, 1, 15–34.
  • Farr, T. G., et al. (2007), The Shuttle Radar Topography Mission, Rev. Geophys., 45, RG2004, doi:10.1029/2005RG000183.
  • Fewtrell, T. J., J. C.Neal, P. D.Bates, and P. J.Harrison (2011), Geometric and structural model complexity and the prediction of urban inundation, Hydrol. Processes, 25, 31733186.
  • Fread, D. L. (1985), Channel routing, in Hydrological Forecasting, edited by M. G.Anderson and P.Burt, chapt. 14, pp. 437503, John Wiley, Chichester, U. K.
  • Fry, J., G.Xian, S.Jin, J.Dewitz, C.Homer, L.Yang, C.Barnes, N.Herold, and J.Wickham (2011), Completion of the 2006 National Land Cover Database for the Conterminous United States, Photogramm. Eng. Remote Sens., 77, 858864.
  • Heijden, S., and U.Haberlandt (2010), Influence of spatial interpolation methods for climate variables on the simulation of discharge and nitrate fate with SWAT, Adv. Geosci., 27, 9198.
  • Hess, L. L., J. M.Melack, S.Filoso, and Y.Wang (1995), Delineation of inundated area and vegetation along the Amazon floodplain with the SIR-C synthetic aperture radar, IEEE Trans. Geosci. Remote Sens., 33, 896904.
  • Horritt, M. S., and P. D.Bates (2001), Effects of spatial resolution on a raster based model of flood flow, J. Hydrol., 253, 239249.
  • Hunter, N. M., et al. (2008), Benchmarking 2D hydraulic models for urban flooding, Proc. Inst. Civil. Eng., 16, 1330.
  • ISIS FLOW (2001), User manual, vol. 1, Halcrow/HRWallingford, Oxfordshire, U. K. [available at http://www.halcrow.com/isis/isisfree.asp].
  • Jung, H. C., and D.Alsdorf (2010), Repeat-pass multi-temporal interferometric SAR coherence variations with Amazon floodplain and lake habitats, Int. J. Remote Sens., 31, 881901.
  • Jung, H. C., J.Hamski, M.Durand, D.Alsdorf, F.Hossain, H.Lee, A. K. M. A.Hossain, K.Hasan, A. S.Khan, and A. K. M. Z.Hoque (2010), Characterization of complex fluvial systems via remote sensing of spatial and temporal water level variations, Earth Surf. Processes Landforms, 35, 294304.
  • Kalyanapu, A., S. J.Burian, and T. N.McPherson (2009), Effect of land use-based surface roughness on hydrologic model output, J. Spat. Hydrol., 9, 5171.
  • Kim, J., Z.Lu, H.Lee, C. K.Shum, C. M.Swarzenski, T. W.Doyle, and S.Baek (2009), Integrated analysis of PALSAR/Radarsat-1 InSAR and ENVISAT altimeter data for mapping of absolute water level changes in Louisiana wetlands, Remote Sens. Environ., 113, 23562365.
  • Knabb, R. D., J. R.Rhome, and D. P.Brown (2006), Tropical cyclone report: Hurricane Katrina: 23–30 August 2005, National Hurricane Center, Miami, Fla., 42 pp.
  • Knabb, R. D., D. P.Brown, and J. R.Rhome (2007), Hurricane Rita, (available at http://www.nhc.noaa.gov/pdf/TCR-AL182005_Rita.pdf), National Hurricane Center, Miami, Fla.
  • Lake Pontchartrain Basin Foundation (LPBF) (2008), Comprehensive recommendations supporting the use of the multiple lines of defense strategy to sustain coastal Louisiana, rep., version 1, pp. 977, Lake Pontchartrain Basin Foundation, Metairie, La. [available at http://www.mlods.org/2008reportversion1.html].
  • Lake Pontchartrain Basin Foundation (LPBF) (2010), Hydrology and hydrodynamic modeling of the Mississippi River in southeast Louisiana, rep., part I, pp. 110, Lake Pontchartrain Basin Foundation, Metairie, La.
  • Lane, S. N. (2005), Roughness––time for a re-evaluation?, Earth Surf. Processes Landforms, 30, 251253.
  • Lee, H., C. K.Shum, Y.Yi, M.Ibaraki, J.Kim, A.Braun, C.Kuo, and Z.Lu (2009), Louisiana wetland water level monitoring using retracked TOPEX/POSEIDON altimetry, Mar. Geod., 32, 284302.
  • Li, F. K., and R. M.Goldstein (1990), Studies of multibaseline spaceborne interferometric synthetic aperture radars, IEEE Trans. Geosci. Remote Sens., 28, 8897.
  • Louisiana Department of Natural Resources (LDNR) (2010), Atchafalaya Basin: FY 2010 annual plan, pp. 35, Atchafalaya Basin Program, Louisiana Department of Natural Resources, Baton Rouge, La.
  • Lu, Z., and O.Kwoun (2008), Radarsat-1 and ERS InSAR analysis over southeastern coastal Louisiana: Implications for mapping water-level changes beneath swamp forests, IEEE Trans. Geosci. Remote Sens., 46, 21672184.
  • Lu, Z., M.Crane, O.Kwoun, C.Wells, C.Swarzenski, and R.Rykhus (2005), C-band radar observes water level change in swamp forests. EOS, 86, 141144.
  • Lu, Z., J.Kim, H.Lee, C.Shum, J.Duan, M.Ibaraki, O.Akyilmaz, and C.Read (2009), Helmand River hydrologic studies using ALOS PALSAR InSAR and ENVISAT altimetry, Mar. Geod., 32, 320333.
  • Massonnet, D., and K. L.Feigl (1998), Radar interferometry and its application to changes in the Earth's surface, Rev. Geophys., 36, 441500.
  • Massonnet, D., M.Rossi, C.Carmona, F.Adragna, G.Peltzer, K.Feigl, and T.Rabaute (1993), The displacement field of the Landers earthquake mapped by radar interferometry, Nature, 364, 138142.
  • Meade, R. H. (1995), Contaminants in the Mississippi River 1987-92, U.S. Geol. Surv. Circ., 1133, U.S. Geological Survey, Reston, Va.
  • Milbert, D. G. (1999), National Geodetic Survey (NGS) height conversion methodology, [available at http://www.ngs.noaa.gov/TOOLS/Vertcon/vert_method.html], National Geodetic Survey, NOAA, Silver Spring, MD.
  • Neal, J., G.Schumann, T.Fewtrell, M.Budimir, P.Bates, and D.Mason (2011), Evaluating a new LISFLOOD-FP formulation with data from the summer 2007 floods in Twekesbury, UK, J. Flood Risk Manag., 4, 8895.
  • Neal, J. C., T. J.Fewtrell, and M. A.Trigg (2009), Parallelisation of storage cell flood models using OpenMP, Environ. Modell. Software, 24, 872877.
  • Rodriguez, E., C. S.Morris, and J. E.Belz (2006), A global assessment of the SRTM performance, Photogramm. Eng. Remote Sens., 72, 249260.
  • Samuels, P. G. (1990), Cross section location in one-dimensional model, in International Conference on River Flood Hydraulics, edited by W. R.White, pp. 339350, John Wiley, Chichester, U. K.
  • Samuels, P. G., and M. P.Gray (1982), The FLUCOMP River Model Package: An Engineers Guide, Rep. EX 999 Series, HRWallingford, U. K.
  • Smith, L. C. (1997), Satellite remote sensing of river inundation area, stage, and discharge: A review, Hydrol. Processes, 11, 14271439.
  • Syme, W. J. (1991), Dynamically linked two-dimensional/one-dimensional hydrodynamic modelling program for rivers, estuaries and coastal water, M.Eng.Sc. thesis, Univ. of Queensland, Aust.
  • U.S. Army Corps of Engineers (USACE) (1982), Atchafalaya Basin floodway system feasibility study, main rep. and final environmental impact statement, New Orleans District, La.
  • U.S. Army Corps of Engineers (USACE) (2001), HEC-RAS River Analysis System, Hydraulic Ref. Manual, version 3.0, Hydrologic Engineering Center, Davis, Calif.
  • U.S. Army Corps of Engineers (USACE) (2006), Atchafalaya River System Hydrographic Survey Book, New Orleans District, La, 136 pp.
  • U.S. Army Corps of Engineers (USACE) (2011), Morganza floodway, [available at http://www.mvn.usace.army.mil/bcarre/morganza.asp], USACE, New Orleans, La.
  • U.S. Environmental Protection Agency (USEPA) (1987), Saving Louisiana's coastal wetlands: The need for a long-term plan of action, report of the Louisianan wetland protection panel, Rep. EPA-230-02-87-026, pp. 328, Louisiana Geological Survey, US Environmental Protection Agency, Washington, DC.
  • U.S. Geological Survey (USGS) (2011), 2010 LiDAR elevation map for the Atchafalaya basin, [available at http://abp.cr.usgs.gov/Library/Default.aspx?keyword=Lidar], Louisiana Department of Natural Resources, Atchafalaya Basin Program's Natural Resource Inventory & Assessment System (NRIAS), Baton Rouge, La.
  • Vaughn, D. M., D.Rickman, and H.Oscar (1996), Modeling spatial and volumetric changes in the Atchafalaya Delta, Louisiana, Geocarto Int., 11, 7180.
  • Villanueva, I., and N. G.Wright (2006), Linking Riemann and storage cell models for flood prediction, Proc. Inst. Civil. Eng., 159, 1, 2733.
  • Wang, F. C., V.Ransibrahmanakul, K. L.Tuen, M. L.Wang, and F.Zhang (1995), Hydrodynamics of a tidal inlet in Fourleague Bay/Atchafalaya Bay, Louisiana, J. Coastal Res., 11, 733743.
  • Wilson, M., P.Bates, D.Alsdorf, B.Forsberg, M.Horritt, J.Melack, F.Frappart, and J.Famiglietti (2007), Modeling large-scale inundation of Amazonian seasonally flooded wetlands, Geophys. Res. Lett., 34, L15404, doi:10.1029/2007GL030156.
  • Yu, D., and S. N.Lane (2011), Interactions between subgrid-scale resolution, feature representation and grid-scale resolution in flood inundation modelling, Hydrol. Processes, 25, 3653.
  • Zanobetti, D., H.Longeré, A.Preissmann, and J. A.Cunge (1970), Mekong delta mathematical model program construction, Proc. Amer. Soc. Civil Eng., 96, 181199.
  • Zebker, H. A., and J.Villasenor (1992), Decorrelation in interferometric radar echoes, IEEE Trans. Geosci. Remote Sens., 30, 950959.
  • Zhang, X., R.Srinivasan, K.Zhao, and M. V.Liew (2008), Evaluation of global optimization algorithms for parameter calibration of a computationally intensive hydrologic model, Hydrol. Processes, 23, 430441.