HEC 1
Selected Bibliography of Hydraulic and Hydrologic Subjects
Coastal Engineering Publications
Author | Publication Year | Document Title | Technical Subcategory |
Publication Information | Available Website Link (If Applicable) |
---|---|---|---|---|---|
Douglass, S.L., and Webb, B.M. | 2020 | Highways in the Coastal Environment, Hydraulic Engineering Circular 25, Third Edition | Coastal Engineering | Federal Highway Administration, Washington, DC 20590 | |
Webb, B. | 2017 | A Primer on Modeling in the Coastal Environment | Coastal Engineering | Federal Highway Administration, Washington, DC 20590 | |
Webb, B., Dix, B., Douglass, S., Asam, S., Cherry, C., and Buhring, B. | 2019 | Nature-Based Solutions for Coastal Highway Resilience: An Implementation Guide | Coastal Engineering | Federal Highway Administration, Washington, DC 20590 | |
U.S. Army Corps of Engineers | 2002 | Coastal Engineering Manual, Engineer Manual 1110–2–1100 | Coastal Engineering | U.S. Army Corps of Engineers, Washington, DC | |
American Association of State Highway and Transportation Officials (AASHTO) | 2008 | Guide Specifications for Bridges Vulnerable to Coastal Storms | Coastal Engineering | AASHTO, 55 pp. | |
Almodovar, L., Gravens, M.B., and Curtis, W.R. | 2008 | Economics as an Engineering Tool: Life Cycle Risk Analysis of Coastal Projects | Coastal Engineering | COPEDEC VII, Paper 198, Dubai, UAE | |
Anarde, K.A., Kameshwar, S., Irza, J.N., Nittrouer, J.A., Lorenzo–Trueba, J., Padgett, J.E., et al. | 2018 | Impacts of Hurricane Storm Surge on Infrastructure Vulnerability for an Evolving Coastal Landscape | Coastal Engineering | Natural Hazards Review, Vol. 19, No. 1 | |
Andersen, T.L., Moghim, M.N., and Burcharth, H.F | 2014 | Revised Recession of Reshaping Berm Breakwaters | Coastal Engineering | Proceedings of the 34 International Conference on Coastal Engineering, 15 pp. | |
American Shore and Beach Preservation Association (ASBPA) | 2018 | A Snapshot of US Coastal Science and Engineering: Training the Next Generation of US Coastal Scientists and Engineers | Coastal Engineering | White paper by the American Shore and Beach Preservation Science and Technology Committee | |
Ataei, N., Stearns, M., and Padgett, J.E. | 2010 | Response Sensitivity for Probabilistic Damage Assessment of Coastal Bridges Under Surge and Wave Loading | Coastal Engineering | Transportation Research Record, No. 2202, p. 93–101 | |
Ataei, N., and Padgett, J.E. | 2013 | Fragility Assessment of Coastal Bridges Under Hurricane Events Using Enhanced Probabilistic Capacity Models | Coastal Engineering | 2012 ATC and SEI Conference on Advances in Hurricane Engineering: Learning from Our Past, Miami, FL, p. 691–702 | |
Ataei, N., and Padgett, J.E. | 2013 | Limit State Capacities for Global Performance Assessment of Bridges Exposed to Hurricane Surge and Wave | Coastal Engineering | Structural Safety, 41, p. 73–81 | |
Ataei, N., and Padgett, J.E. | 2013 | Probabilistic Modeling of Bridge Deck Unseating During Hurricane Events | Coastal Engineering | Journal of Bridge Engineering, Vol. 18, No. 4, p. 275–286 | |
Ataei, N., and Padgett, J.E. | 2015 | Fragility Surrogate Models for Coastal Bridges in Hurricane Prone Zones | Coastal Engineering | Engineering Structures, Vol. 103, p. 203–213 | |
Baird, W.F., and Hall, K.R. | 1984 | The Design of Breakwaters Using Quarried Stones | Coastal Engineering | Coastal Engineering Proceedings, Vol. 19, No. 173, p. 2580–2591. | |
Bea, R.G.,Xu, T., Stear, J., and Ramos, R. | 1999 | Wave Forces on Decks of Offshore Platforms | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering. American Society of Civil Engineers, Vol 125, No. 3, p. 136–144 | |
Bosma, K., Douglas, E., Kirshen, P., Miller, S., McArthur, K., and Watson, C. | 2015 | MassDOT–FHWA Pilot Project Report: Climate Change and Extreme Weather Vulnerability and Adaptation Options for the Central Artery/Tunnel System in Boston, Massachusetts | Coastal Engineering | Presentation to First International Conference on Surface Transportation System Resilience to Climate Change and Extreme Events | |
Bradner, C., Schumacher, T., Cox, D., and Higgins, C. | 2011 | Experimental Setup for a Large-Scale Bridge Superstructure Model Subjected to Waves | Coastal Engineering | Journal of Waterway, Port, Coastal and Ocean Engineering, Vol. 137, No. 1, p. 3–11 | |
Bricker, J.D., Francis, M., and Nakayama, A. | 2015 | Scour Depths Near Coastal Structures Due to the 2011 Tohoku Tsunami | Coastal Engineering | Journal of Hydraulic Research Vol. 50, No. 6, p. 637–641 | |
Bruun, P. | 1966 | Tidal Inlets and Littoral Drift, Vol. 2, Stability of Coastal Inlets | Coastal Engineering | University Book Company. Oslo, Norway, 193 pp. | |
Buttolph, A.M., Reed, C.W., Kraus, N.C., Ono, N., Larson, M., Camenen, B. et al. | 2006 | Two–Dimensional Depth-Averaged Circulation Model CMS–M2D: Version 3.0, Report 2, Sediment Transport and Morphology Change | Coastal Engineering | Technical Report ERDC/CHL–TR–06–9, Engineer Research and Development Center, Vicksburg, MS | |
Carstens, T. | 1976 | Seabed Scour by Currents Near Platforms | Coastal Engineering | Proceedings of the Third International Conference on Port and Ocean Engineering Uder Arctic Conditions, pp. 991–1006 | |
Chen, C., Beardsley, R.C., and Cowles, G. | 2006 | An Unstructured Grid, Finite-Volume Coastal Ocean Model (FVCOM) System; Special Issue: 'Advance in Computational Oceanography' | Coastal Engineering | Oceanography, Vol. 19, No. 1, p. 78–89 | |
Chen, Y.H., and Anderson, B.A. | 1987 | Development of a Methodology for Estimating Embankment Damage Due to Flood Overtopping | Coastal Engineering | Report No. FHWA-RD-86-126, Li Simons and Associates, Federal Highway Administration, 219 pp. | |
Choate, A., Jaglom, W., Miller, R., Rodehorst, B., Schultz, P., and Snow, C. | 2012 | Impacts of Climate Change and Variability on Transportation Systems and Infrastructure: The Gulf Coast Study, Phase 2: Climate Variability and Change in Mobile, Alabama: Final Report, Task 2 | Coastal Engineering | Report No. FHWA-HEP-12-053, 228 pp. | http://www.fhwa.dot.gov/environment/climate_change/adaptation/ongoing_and_current_research/gulf_coast_study/phase2_task2/mobile_variability/ |
Chorzepa, M.G., Saeidpour, A., Christian, J.K., and Durham, S.A. | 2016 | Hurricane Vulnerability of Coastal Bridges Using Multiple Environmental Parameters | Coastal Engineering | International Journal of Safety and Security Engineering, Vol. 6, No. 1, p. 10–18 | |
Church, J.A., Gregory, V., Huybrechts, P., Kuhn, M., Lambeck, K., Nhuan, M.T., and Woodworth, P.L. | 2001 | 11. Changes in Sea Level | Coastal Engineering | Third Assessment Report, Climate Change 2001: The Scientific Basis, Intergovernmental Panel on Climate Change | |
Church, J.A., and White, N.J. | 2006 | 20th Century Acceleration in Global Sea–Level Rise | Coastal Engineering | Geophysical Research Letters, Vol. 33 | |
Church, J.A., and White, N.J | 2011 | Sea-Level Rise From the Late 19th to the Early 21st Century | Coastal Engineering | Surveys in Geophysics, Vol. 32, p. 585–602 | |
Church, J.A., Clark, P.U., Cazenave, A., Gregory, J.M., Jevrejeva, S., Levermann, A., et al. | 2013 | Sea Level Change | Coastal Engineering | In T.F. Stocker, D. Qin, G.–K. Plattner, M. Tignor, S.K. Allen, J. Boschung, et al. (Eds.), Climate Change: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, NY | |
Cleary, J.C., Webb, B.M., Douglass, S.L., Buhring, T., and Steward, E. | 2018 | Assessment of Engineering Adaptations to Extreme Events and Climate Change for a Simply Supported Interstate Bridge Over a Shallow Estuary: Case Study | Coastal Engineering | Journal of Bridge Engineering, 23 pp. | |
Crowell, M., Leatherman, S.P., and Buckley, M.K. | 1991 | Historical Shoreline Change: Error Analysis and Mapping Accuracy | Coastal Engineering | Journal of Coastal Research, Vol 7, No. 3, p. 839–852 | |
Crowell, M., Douglas, B.C., and Leatherman, S.P. | 1997 | On Forecasting Future US Shoreline Positions: A Test of Algorithms | Coastal Engineering | Journal of Coastal Research. Vol 13, No. 4, p. 1245–1255 | |
Cruz-Castro, O., Edge, B.L., and Douglass, S.L. | 2006 | Hurricane Forces Measurements on Bridge Decks | Coastal Engineering | Proceedings of CoastLab 2006, 9 pp. | |
Cuomo, G., Tirindelli, M., and Allsop, W. | 2007 | Wave-in-Deck Loads on Exposed Jetties | Coastal Engineering | Coastal Engineering, Vol. 54, p. 657–679 | |
Dean, R.G. | 1973 | Evaluation and Development of Water Wave Theories for Engineering Application | Coastal Engineering | Special Report No. 1, Coastal Engineering Research Center, Waterways Experiment Station, U.S. Army Corps of Engineers | |
Dean, R.G. | 1974 | Compatibility of Borrow Material for Beach Fills | Coastal Engineering | Proceedings from the 14th Coastal Engineering Conference, New York. American Society of Civil Engineers | |
Dean, R.G., and Dalrymple, R.A. | 1991 | Water Wave Mechanics for Engineers and Scientists | Coastal Engineering | World Scientific Press, Singapore, 353 pp. | |
Dean, R.G., and Dalrymple, R.A. | 2002 | Coastal Processes with Engineering Applications. | Coastal Engineering | Cambridge University Press, Cambridge, UK | |
Dean, R.G., and Walton, T.L. | 2018 | “Wave Setup,” Chapter 2 of Handbook of Coastal and Ocean Engineering | Coastal Engineering | Y. Kim (ed.), World Scientific Publishing Co., Singapore, pp. 21–43 | |
DeConto, R.M., and Pollard, D. | 2016 | Contribution of Antarctica to Past and Future Sea–Level Rise | Coastal Engineering | Nature, 531(7596), p. 591–597 | |
Denson, K.H. | 1981 | Pressures on Coastal Bridges Due to Normal Incidence Waves | Coastal Engineering | Publication No. FHWA-MS-81-076, 1981, NTIS No. PB 204164, Mississippi State University. Available from NTIS, 5285 Port Royal Road, Springfield, VA 22161 | |
Denson, K.H. | 1980 | Wave Forces on Causeway-Type Coastal Bridges: Effects of Angle of Wave Incidence and Cross Section Shape | Coastal Engineering | Publication No. FHWA-MS-80-U70, NTIS No. PB 82 131657, Mississippi State University, Mississippi State, MS 39762 | |
Dey, S., Sumer, B.M., and Fredsoe, J. | 2006 | Control of Scour at Vertical Circular Piles Under Waves and Currents | Coastal Engineering | Journal of Hydraulic Engineering Vol. 132, No. 3, p. 270–279 | |
Dietrich, J.C., Zijlema, M., Westerink, J.J., Holthuijsen, L.H., Dawson, C., Luettich, R.A. Jr., and Stone, G.W. | 2011 | Modeling Hurricane Waves and Storm Surge Using Integrally-Coupled, Scalable Computations | Coastal Engineering | Coastal Engineering, Vol. 58, No. 1, p. 45–65 | |
Dompe, P. E., McBee, J.M., and Demir, H. | 2015 | Storm Surge and Wave Vulnerability Assessment of Coastal Bridges | Coastal Engineering | World Environmental and Water Resources Congress 2015: Floods, Droughts, and Ecosystems, Austin, TX, p. 1256–1263 | |
Douglass, S.L., Lindstrom, J., Richards, J.M., and Shaw, J. | 2005 | An Estimate of the Extent of US Coastal Highways | Coastal Engineering | Presentation to the AFB06 Committee of the Transportation Research Board | |
Douglass, S.L., Chen, Q., Olsen, J.M., Edge, B.L., and Brown, D. | 2006 | Wave Forces on Bridge Decks | Coastal Engineering | Report by the Coastal Transportation Engineering Research and Education Center of the University of South Alabama to Federal Highway Administration, Washington, DC, 74 pp. | |
Douglass, S.L., McNeill, L.P., and Edge, B. | 2007 | Wave Loads on US Highway Bridges | Coastal Engineering | Proceedings of the Coastal Structures 2007 International Conference, Venice, Italy, World Scientific Press | |
Eckert, J.W. | 1983 | Design of Toe Protection for Coastal Structures | Coastal Engineering | Proceedings of Coastal Structures 1983, ASCE, Reston, VA, p. 331–341 | |
Federal Highway Administration | 2017 | Sea Level Rise and Storm Surge Impacts on a Coastal Bridge: I-10 Bayway, Mobile Bay, Alabama | Coastal Engineering | Publication No. FHWA-HEP-17-014, Washington, DC | |
Federal Highway Administration | 2107 | Barrier Island Roadway Overwashing from Sea Level Rise and Storm Surge: US 98 on Okaloosa Island, Florida | Coastal Engineering | Publication No. FHWA-HEP-17-015, Washington, DC | |
Federal Highway Administration | 2017 | Living Shoreline Along Coastal Roadways Exposed to Sea Level Rise: Shore Road in Brookhaven, New York | Coastal Engineering | Publication No. FHWA-HEP-17-016, Washington, DC | |
Federal Highway Administration | 2017 | Vulnerability Assessment and Adaptation Framework, Third Edition | Coastal Engineering | Publication No. FHWA-HEP-18-020, Washington, DC | |
FitzGerald, D.M., Fenster, M.S., Argow, B.A., and Buynevitch, I.V. | 2008 | Coastal Impacts Due to Sea-Level Rise | Coastal Engineering | Annual Review of Earth and Planetary Sciences, Vol. 36, p. 601–647 | |
French, J.A. | 1970 | Wave Uplift Pressures on Horizontal Platforms | Coastal Engineering | Proceedings of the Civil Engineering in the Oceans Conference, American Society of Civil Engineers, p. 187–202 | |
Gidaris, I., Padgett, J.E., Barbosa, A.R., Chen, S., Cox, D., Webb, B., and Cerato A. | 2017 | Multiple-Hazard Fragility and Restoration Models of Highway Bridges for Regional Risk and Resilience Assessment in the United States: State-of-the-Art Review | Coastal Engineering | Journal of Structural Engineering, Vol. 143, No. 3 | |
Guo, A., Fang, Q., Bai, X., and Li, H. | 2015 | Hydrodynamic Experiment of the Wave Force Acting on the Superstructures of Coastal Bridges | Coastal Engineering | Journal of Bridge Engineering, ASCE, Vol. 20, No. 12, DOI: 10.1061/(ASCE)BE.1943–5592.0000758 | |
Hallermeier, R.J., and Rhodes, P.E. | 1988 | Generic Treatment of Dune Erosion for a 100-Year Event | Coastal Engineering | Proceedings of the 21st International Conference on Coastal Engineering. American Society of Civil Engineers, p. 1197–1211 | |
Hasselmann, D.E., Dunckel, M., and Ewing, J.A. | 1980 | Directional Wave Spectra Observed During Jonswap 1973 | Coastal Engineering | Journal of Physical Oceanography. Vol. 10, p. 1264–1280 | |
Hayatdavoodi, M., Seiffert, B., and Ertekin, R.C. | 2015 | Experiments and Calculations of Cnoidal Wave Loads on a Flat Plate in Shallow-Water | Coastal Engineering | Journal of Ocean Engineering and Marine Energy Vol. 1, No. 1, p. 77–99 | https://doi.org/10.1007/s40722-014-0007-x |
Hayatdavoodi, M., and Ertekin, R.C. | 2016 | Review of Wave Loads on Coastal Bridge Decks | Coastal Engineering | Applied Mechanics Review, ASME, May 2016, Vol. 68 | |
Hayatdavoodi, M., Treichel, K., and Ertekin, R. | 2019 | Parametric Study of Nonlinear Wave Loads on Submerged Decks in Shallow Water | Coastal Engineering | Journal of Fluids and Structures, Vol. 86, p. 266–289 | |
Herbich, J.B. | 2000 | Handbook of Coastal Engineering | Coastal Engineering | McGraw-Hill Handbook, New York, 1152 pp. | |
Houston, J.R., and Dean, R.G. | 2011 | Sea-Level Acceleration Based on U.S. Tide Gauges and Extensions of Previous Global-Gauge Analyses | Coastal Engineering | Journal of Coastal Research, Vol. 27, No. 3, p. 409–417 | https://www.jcronline.org/doi/abs/10.2112/JCOASTRES-D-10-00157.1 |
Houston, J.R. | 2013 | Global Sea Level Projections to 2100 Using Methodology of the Intergovernmental Panel on Climate Change | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering, Vol. 139, No. 2, p. 82–87 | |
Hughes, S.A., and Fowler, J.E. | 1991 | Wave-Induced Scour Prediction at Vertical Walls | Coastal Engineering | Proceedings of Coastal Sediments 1991, ASCE, Reston, VA, p. 1186–1900 | |
Jacobs, J.M, Cattaneo, L., Sweet, W., and Mansfield, T. | 2018 | Recent and Future Outlooks for Nuisance Flooding Impacts on Roadways on the US East Coast | Coastal Engineering | Transportation Research Record 2018, Vol. 2672, No. 2, p. 1–10 | |
Jacobs, J.M., Culp, M., Cattaneo, L., Chinowsky, P., Choate, A., DesRoches, S., et al. | 2018 | “Transportation,” Chapter 12, in Impacts, Risks, and Adaptation in the United States: Fourth National Climate Assessment, Vol. II | Coastal Engineering | ||
Jelesnianski, C.P., Chen, J., and Shaffer, W.A. | 1992 | SLOSH–Sea, Lake and Overland Surges from Hurricanes | Coastal Engineering | U.S. Department of Commerce, NOAA Technical Report NWS 48, 71 pp. | |
Johnson, B.D., Gravens, M.B., and Kobayashi, N. | 2012 | Cross-Shore Numerical Model, CSHORE, for Waves, Currents, Sediment Transport and Beach Profile Evolution | Coastal Engineering | U.S. Army Engineer Research and Development Center, Coastal and Hydraulics Laboratory, Vicksburg, MS | |
Khalfin, I.S. | 2007 | Modeling and Calculation of Bed Scour Around Large-Diameter Vertical Cylinder Under Wave Action | Coastal Engineering | Water Resources, Vol. 34, No. 1, p. 49–59 | |
Kilgore, R., Thomas, W., Douglass, S., Webb, B., Hayhoe, K., Stoner, A., et al. | 2019 | Applying Climate Change Information to Hydrologic and Coastal Design of Transportation Infrastructure, Final Report | Coastal Engineering | NCHRP 15–61, submitted to The National Cooperative Highway Research Program, 384 pp. | |
Kim, K.-H., Yoo, H.-S., and Kobayashi, N. | 2011 | Mitigation of Beach Erosion After Coastal Road Construction | Coastal Engineering | Journal of Coastal Research, Vol. 27, No. 4, p. 645–651 | |
Kirby, J.T., and Dalrymple, R.A. | 1983 | A Parabolic Equation for the Combined Refraction-Diffraction of Stokes Waves by Mildly Varying Topography | Coastal Engineering | Journal of Fluid Mechanics. Vol. 136, p. 453–466 | |
Knott, J.F., Elshaer, M., Daniel, J.S., Jacobs, J.M., and Kirshen, P. | 2017 | Assessing the Effects of Rising Groundwater from Sea Level Rise on the Service life of Pavements in Coastal Road Infrastructure | Coastal Engineering | Transportation Research Record, 2639, p. 1–10 | |
Kopp, R.E., Horton, R.M., Little, C.M., Mitrovica, J.X., Oppenheimer, M., Rasmussen, D.J., et al. | 2014 | Probabilistic 21st and 22nd Century Sea-Level Projections at a Global Network of Tide-Gauge Sites | Coastal Engineering | Earth's Future, Vol. 2, No. 8, p. 383–406 | |
Kriebel, D.L., and Dean, R.G. | 1985 | Numerical Simulation of Time-Dependent Beach and Dune Erosion | Coastal Engineering | Coastal Engineering. Vol. 9, No. 3, p. 221–245 | |
Kriebel, D.L. | 1986 | Verification Study of a Dune Erosion Model | Coastal Engineering | Shore & Beach, Vol. 54, No. 3, p. 13–21 | |
Kriebel, D.L., Seelig, W., and Judge, C. | 2003 | A Unified Description of Ship-Generated Waves | Coastal Engineering | Proceedings of the PIANC Passing Vessel Workshop. Portland, OR | |
Kriebel, D.L., and Geiman, J.D. | 2014 | A Coastal Flood Stage to Define Existing and Future Sea-Level Hazards | Coastal Engineering | Journal of Coastal Research, Vol. 30, No. 5, p. 1017–1024 | |
Kriebel, D.L., Geiman, J.D., and Henderson, G.R. | 2015 | Future Flood Frequency Under Sea-Level Rise Scenarios | Coastal Engineering | Journal of Coastal Research, Vol. 31, No. 5, p. 1078–1083 | |
Kriebel, D.L., Lynett, P.J., Cox, D., Petroff, C.M., Robertson, I.N., and Chock, G. | 2017 | Energy Method for Approximating Overland Tsunami Flows | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering, Vol. 143, No. 5 | |
Kuswandi, T., Triatmadja, R., and Istiarto, M. | 2017 | Simulation of Scouring Around a Vertical Cylinder Due to Tsunami | Coastal Engineering | Journal of Tsunami Society International, Vol. 36, No. 2, p. 59–69 | |
Larson, M., and Kraus, N.C. | 1989 | SBEACH: Numerical Model for Simulating Storm-Induced Beach Change, Report 1: Empirical Foundation and Model Development | Coastal Engineering | Technical Report CERC–89–9. U.S Army Corps of Engineers Waterways Experiment Station, Vicksburg, MS, 256 pp. | |
Larson, M., Kraus, N.C., and Byrnes, M. | 1990 | SBEACH: Numerical Model for Simulating Storm–Induced Beach Change. Report 2: Numerical Formulation and Model Tests | Coastal Engineering | Technical Report CERC–89–9. U.S. Army Corps of Engineers Waterways Experiment Station, Vicksburg, MS, 120 pp. | |
Lehrman, J.B., Higgins, C., and Cox, D. | 2011 | Performance of Highway Bridge Girder Anchorages Under Simulated Hurricane Wave Induced Loads | Coastal Engineering | Journal of Bridge Engineering, Vol. 17, No. 2, p. 259–271 | |
Lin, L., Demirbilek, Z., Mase, H., Zheng, J.H., and Yamada, F. | 2008 | CMS-Wave: A Nearshore Spectral Wave Processes Model for Coastal Inlets and Navigation Projects | Coastal Engineering | Technical Report ERDC/CHL TR–08–13. U.S. Army Corps of Engineers Research and Development Center, Vicksburg, MS | |
Longuet–Higgins, M.S. | 1952 | The Statistical Distribution of the Heights of Sea Waves | Coastal Engineering | Journal of Marine Research. Vol. 11, p. 245–266. | |
Luettich, R.A. Jr., Westerink, J.J., and Scheffner, N.W. | 1992 | ADCIRC: An Advanced Three-Dimensional Model for Shelves, Coasts, and Estuaries | Coastal Engineering | Report 1: Theory and Methodology of ADCIRC–2DDI and ADCIRC–3DL, U.S. Army Corps of Engineers, Washington, DC, 137 pp. | |
Lynett, P., Thio, H.K., Scott, M., Murphy, T., Shantz, T., and Shen, J.-D. | 2021 | Validation of Tsunami Design Guidelines for Coastal Bridges | Coastal Engineering | Oregon Department of Transportation Research Section, 555 13th Street NE, Suite 1, Salem OR 97301, and Federal Highway Administration, 1200 New Jersey Avenue SE, Washington, DC 20590 | |
Massey, T.C., Anderson, M.E., Smith, J.M., Gomez, J., and Jones, R. | 2011 | STWAVE: Steady-State Spectral Wave Model User’s Manual for STWAVE, Version 6.0 | Coastal Engineering | Coastal and Hydraulics Laboratory, U.S. Army Engineer Research and Development Center, 3909 Halls Ferry Road, Vicksburg, MS 39180 | |
Moftakhari, H.R., AghaKouchak, A., Sanders, B.F., Feldman, D. L., Sweet, W., Matthew, R. A., and Luke, A. | 2015 | Increased Nuisance Flooding Along the Coasts of the United States Due to Sea Level Rise: Past and Future | Coastal Engineering | Geophysical Research Letters, Vol. 42, No. 22, p. 9846–9852. DOI: 10.1002/2015GL066072 | |
Monserrat, S., Vilibic, I., and Rabinovich, A.B. | 2006 | Meteotsunamis: Atmospherically Induced Destructive Ocean Waves in the Tsunami Frequency Band | Coastal Engineering | Natural Hazards and Earth System Sciences, Vol. 6, p. 1035–1051 | |
Morris, J.T., Sundareshwar, P.V., Nietch, C.T., Kjerfve, B., and Cahoon, D.R. | 2002 | Responses of Coastal Wetlands to Rising Sea Level | Coastal Engineering | Ecology, Vol. 83, No. 10, p. 2869–2877 | |
Nielsen, P. | 1992 | Coastal Bottom Boundary Layers and Sediment Transport | Coastal Engineering | World Scientific. River Edge, NJ, 340 pp. | |
National Oceanic and Atmospheric Administration (NOAA) | 2012 | Global Sea level Rise Scenarios for the United States National Climate Assessment | Coastal Engineering | NOAA Technical Report OAR CPO–1, 33 pp. | |
Perlin, M., and Dean, R.G. | 1983 | A Numerical Model to Simulate Sediment Transport in the Vicinity of Coastal Structures | Coastal Engineering | Miscellaneous Report MR–83–10. U.S. Army Corps of Engineers, Coastal Engineering Research Center | |
Poate, T.G., McCall, R.T., and Masselink, G. | 2016 | A New Parameterisation for Runup on Gravel Beaches | Coastal Engineering | Coastal Engineering, Vol. 117 , p. 176–190 | https://doi.org/10.1016/j.coastaleng.2016.08.003 |
Pope, J., and Dean, J. | 1986 | Development of Design Criteria for Segmented Breakwaters | Coastal Engineering | Proceedings from the 20th International Coastal Engineering Conference. American Society of Civil Engineers, p. 2144–2158 | |
Roelvink D., Reniers, A., van Dongeren, A., van Thiel de Vries, J., McCall, R.,and Lescinski, J. | 2009 | Modelling Storm Impacts on Beaches, Dunes and Barrier Islands | Coastal Engineering | Coastal Engineering. Vol. 56, No. 11–12, p. 1133–1152 | |
Roelvink, D., Boutmy, A., and Stam, J. | 1998 | A Simple Method to Predict Long-Term Morphological Change | Coastal Engineering | Proceedings of the 26th International Conference on Coastal Engineering | |
Schwartz, M.L. | 2005 | Numerical Modeling | Coastal Engineering | Encyclopedia of Coastal Science | |
Seiffert, B., Ertekin, R.C., and Robertson, I.N. | 2016 | Effect of Entrapped Air on Solitary Wave Forces on a Coastal Bridge Deck with Girders | Coastal Engineering | Journal of Bridge Engineering. Vol. 21, No. 2, 14 pp., DOI: 10.1061/(ASCE)BE.1943-5592.0000799 | |
Sheng, Y.P., Paramygin, V.A., Alymov, V., and Davis, J.R. | 2006 | A Real-Time Forecasting System for Hurricane Induced Storm Surge and Coastal Flooding | Coastal Engineering | Estuarine and Coastal Modeling, American Society of Civil Engineers, p. 585–602 | |
Sheppard, D.M., and Miller, W. Jr. | 2003 | Design Storm Surge Hydrographs for the Florida Coast | Coastal Engineering | Final Report to Florida Department of Transportation, 140 pp. | |
Sheppard, D.M., and Marin, J. | 2009 | Final Report: Wave Loading on Bridge Decks | Coastal Engineering | Publication FDOT No. BD545–58, UF No. 00056675, Submitted to Florida Department of Transportation Research Office | |
Shilling, F.M., Vandever, J., May, K., Gerhard, I., and Bregoff, R. | 2016 | Adaptive Planning for Transportation Corridors Threatened by Sea Level Rise | Coastal Engineering | Transportation Research Record, 2599, p. 9–16 | |
Sorensen, R.M. | 1993 | Basic Wave Mechanics for Coastal and Ocean Engineers | Coastal Engineering | John Wiley & Sons, Inc., 284 pp. | |
Sorensen, R.M. | 2006 | Basic Coastal Engineering, Third Edition | Coastal Engineering | Springer Science, New York, 324 pp. | |
Stockdon, H.F., Holman, R.A., Howd, P.A., and Sallenger, A.H. Jr. | 2006 | Empirical Parameterization of Setup, Swash, and Runup | Coastal Engineering | Coastal Engineering, Vol. 53, No. 7 , p. 573–588 | https://doi.org/10.1016/j.coastaleng.2005.12.005 |
Sumer, B.M., and Fredsoe, J. | 2001 | Wave Scour Around a Large Vertical Circular Cylinder | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering Vol. 127, No. 3, p. 125–134 | |
Sumer, B.M., Fredsoe, J., and Christiansen, N. | 1992 | Scour Around Vertical Pile in Waves | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering Vol. 118, No. 1, p. 15–31 | |
Sumer, B.M., Hatipoglu, F., and Fredsoe, J. | 2007 | Wave Scour Around a Pile in Sand, Medium Dense, and Dense Silt | Coastal Engineering | Journal of Waterway, Port, Coastal, and Ocean Engineering Vol. 133, No. 1, p. 14–27 | |
Sweet, W.V., and Park, J. | 2014 | From the Extreme to the Mean: Acceleration and Tipping Points of Coastal Inundation from Sea Level Rise | Coastal Engineering | Earth's Future, Vol. 2, No. 12, p. 579–600 | |
Sweet, W., Park, J., Marra, J., Zervas, C., and Gill, S. | 2014 | Sea Level Rise and Nuisance Flood Frequency Changes Around the United States | Coastal Engineering | NOAA Technical Report NOS CO-OPS 073 | |
Sweet, W.V., Horton, R., Kopp, R.E., LeGrande, A.N., and Romanou, A. | 2017 | Sea Level Rise, in Climate Science Special Report: Fourth National Climate Assessment, Vol. I | Coastal Engineering | U.S. Global Change Research Program, Washington, DC, p. 333–363, DOI: 10.7930/J0VM49F2 | |
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Note: Bolded entries are FHWA documents.