Simulation Management Systems Developed by the Northern Gulf Coastal Hazards Collaboratory (NG-CHC): An Overview of Cyberinfrastructure to Support the Coastal Modeling Community in the Gulf of Mexico

  • Robert R. Twilley
  • Steve Brandt
  • Darlene Breaux
  • John Cartwright
  • Jim Chen
  • Greg Easson
  • Patrick Fitzpatrick
  • Kenneth Fridley
  • Sara Graves
  • Sandra Harper
  • Carola Kaiser
  • Alexander Maestre
  • Manil Maskey
  • William H. McAnally
  • John McCorquodale
  • Ehab Meselhe
  • Tina Miller-Way
  • Kyeong Park
  • Joao Pereira
  • Thomas Richardson
  • Jian Tao
  • Amelia Ward
  • Jerry Wiggert
  • Derek Williamson
Chapter
First Online:
Part of the Coastal Research Library book series (COASTALRL, volume 9)

Abstract

Given the significance of natural and built assets of the Gulf of Mexico region, the three states of Alabama, Louisiana, and Mississippi, leveraged their unique partnerships, proximity, and significant prior investments in cyberinfrastructure (CI) to develop the Northern Gulf Coastal Hazards Collaboratory (NG-CHC). This collaboratory was established to catalyze collaborative research via enhanced CI to reduce the regions vulnerability to natural and human disasters by facilitating high performance modeling to test hypotheses focused on engineering design, coastal system response, and risk management of coastal hazards. The objective of the NG-CHC is to advance research and inspire collaboration through highly available innovation-enabling CI, with a particular focus on geosciences and engineering from the watershed to the coast. An integrated CI capable of simulating all relevant interacting processes is needed to implement a system that captures the dynamic nature of coastal surface processes. The NG-CHC has implemented CI to locate appropriate data and computational resources, create necessary workflows associated with different simulation demands, and provide visualization tools for analysis of results. Three simulation management systems, SIMULOCEAN, SULIS, and ASGS, were implemented, each with a defined suite of hypotheses and institutional participants to run collaborator experiments. The NG-CHC focused on developing suites of CI tools centered on handling the functional needs of each simulation management system in a collaborative environment. The NG-CHC also developed curriculum units, computer games and simulations to extend the knowledge of coastal hazards to students from middle school to college. Education and outreach activities were developed to increase public understanding and support for sustainable coastal practices. The elements of the CI tool box within NG-CHC describe generic tools needed to promote a ‘collaborative modeling environment’ in other coastal systems.

Keywords

Storm Surge Coastal Hazard Curriculum Unit Asymmetric Vortex National Marine Fishery Service 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in to check access.

Notes

Acknowledgements

This research was supported by NSF EPSCoR Program with cooperative agreements to the following institutions: EPS-1010640 to Louisiana Board of Regents; EPS-1010578 to Mississippi State University; and EPS-1010607 to The University of Alabama in Huntsville. We appreciate the leadership of Michael M. Khonsari (Louisiana Board of Regents), Sandra H. Harpole (Mississippi State University) and Sara J. Graves (The University of Alabama in Huntsville) for guidance through this collaborative research program.

References

  1. Adger WN, Hughes TP, Folke C, Carpenter SR, Rockstrom J (2005) Social-economical resilience to coastal disasters. Science 309:1036–1039CrossRefGoogle Scholar
  2. Alarcon V, McAnally W, DiazRamirez J, Martin J, Cartwright J (2009) A hydrological model of the mobile river watershed, southeastern USA. AIP Conf Proc 1148:64. doi: 10.1063/1.3225392 Google Scholar
  3. Caress DW, Chayes DN (1996) Improved processing of Hydrosweep DS multibeam data on the R/V Maurice Ewing. Mar Geophys Res 18:631–650. doi: 10.1007/bf00313878
  4. Chen Q, Wang L, Zhao H, Douglass SL (2007) Predictions of storm surges and wind waves on coastal highways in hurricane-prone areas. J Coast Res 23:1304–1317CrossRefGoogle Scholar
  5. Chen Q, Wang L, Tawes R (2008) Hydrodynamic response of northeastern Gulf of Mexico to hurricanes. Estuar Coasts 31(6):1098–1116. doi: 10.1007/s12237-008-9089-9 CrossRefGoogle Scholar
  6. Crossett KM (2004) Population trends along the coastal United States: 1980–2008/ Kristen M, Crossett T, Culliton P, Wiley T, Goodspeed (2004) NOAA. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, National Ocean Service, Management and Budget Office, Special Project, Silver SpringGoogle Scholar
  7. Crowell M, Westcott J, Phelps S, Mahoney T, Coulton K, Bellomo D (2013) Estimating the United States population at risk from coastal flood-related hazards. In: Coastal hazards. Springer, Dordrecht, pp 151–183Google Scholar
  8. Cruz AM, Krausmann E (2008) Damage to offshore oil and gas facilities following hurricanes Katrina and Rita: an overview. J Loss Prev Process Ind 2(6):620–626CrossRefGoogle Scholar
  9. Cutter SL, Barnes L, Berry M, Burton C, Evans E, Tate E, Webb J (2008) A place-based model for understanding community resilience to natural disasters. Glob Environ Chang 18:598–606CrossRefGoogle Scholar
  10. Day JW Jr, Boesch DF, Clairain EJ, Kemp GP, Laska SB, Mitsch WJ, Orth K, Mashriqui H, Reed DR, Shabman L, Simenstad CA, Streever BJ, Twilley RR, Watson CC, Wells JT, Whigham DF (2007) Restoration of the Mississippi delta: lessons from hurricanes Katrina and Rita. Science 315:1679–1684CrossRefGoogle Scholar
  11. Day JW, Christian RR, Boesch DM, Yáñez-Arancibia A, Morris J, Twilley RR, Naylor L, Schaffner L, Stevenson C (2008) Consequences of climate change on the ecogeomorphology of coastal wetlands. Estuar Coasts 31:477–491CrossRefGoogle Scholar
  12. Dietrich JC, Bunya S, Westerink JJ, Ebersole BA, Smith JM, Atkinson JH, Jensen R, Resio DT, Luettich RA, Dawson C, Cardone VJ, Cox AT, Powell MD, Westerink HJ, Roberts HJ (2010) A high-resolution coupled riverine flow, tide, wind, wind wave and storm surge model for southern Louisiana and Mississippi: part ii – synoptic description and analysis of hurricanes Katrina and Rita. Mon Weather Rev 138(2):378CrossRefGoogle Scholar
  13. Dietrich JC, Trahan CJ, Howard MT, Fleming JG, Weaver RJ, Tanaka S, Yu L, Luettich RA Jr, Dawson CN, Westerink JJ, Wells G, Luf A, Vega K, Kubach A, Dresback RL, Kolar KM, Kaiser C, Twilley RR, (2012) Surface trajectories of oil transport along the Northern Coastline of the Gulf of Mexico. Cont Shelf Res. http://dx.doi.org/10.1016/j.csr.2012.03.015
  14. Fischetti M (2001) Drowning New Orleans. Sci Am, October, 77–85Google Scholar
  15. Galloway G, Boesch D, Twilley RR (2009) Restoring and protecting coastal Louisiana. Issues Sci Technol Winter 2009:29–38Google Scholar
  16. Hallegatte S, Green C, Nicholls RJ, Corfee MJ (2013) Future flood losses in major coastal cities. Nat Clim Chang 3:802–806. doi: 10.1038/NCLIMATE1979 CrossRefGoogle Scholar
  17. Hirsch RM, Moyer DL, Archfield SA (2010) Weighted Regressions on Time, Discharge, and Season (WRTDS), with an application to Chesapeake Bay river inputs. JAWRA J Am Water Resour Assoc 46:857–880. doi: 10.1111/j.17521688.2010.00482.x CrossRefGoogle Scholar
  18. Jordan SJ, Lewis MA, Harwell LM, Goodman LR (2010) Summer fish communities in northern Gulf estuaries: indices of ecological condition. Ecol Indic 10(2):504–515. doi: 10.1016/j.ecolind.2009.09.003 CrossRefGoogle Scholar
  19. Kim C, Park K (2012) A modeling study of water and salt exchange for a micro-tidal, stratified northern Gulf of Mexico estuary. J Mar Syst 96–97:103–115. doi: 10.1016/j.jmarsys.2012.02.008 CrossRefGoogle Scholar
  20. Laska S, Woodell G, Hagelman R, Gramling R, Teets Farris M (2005) At risk: the human, community and infrastructure resources of coastal Louisiana. J Coast Res 44:90–111Google Scholar
  21. Lin N, Emanuel K, Oppenheimer M, Vanmarcke E (2012) Hurricane surge and global warming: a physically-based risk assessment. Nat Clim Chang 2:462CrossRefGoogle Scholar
  22. Loucks DP (2012) Water resource management modeling in 2050. Toward a sustainable water future visions for 2050. American Society of Civil EngineersGoogle Scholar
  23. Maestre A, Williamson D, Ward A (2012) Nutrient fluxes in rivers of the mobile – Alabama River system using WRTDS. 2012 Alabama water resources conference. Orange Beach, AlabamaGoogle Scholar
  24. Mattocks C, Forbes C (2008) A real-time, event-triggered storm surge forecasting system for the state of North Carolina. Ocean Model 25:95–119CrossRefGoogle Scholar
  25. Meselhe EA, Georgiou I, Allison MA, McCorquodale JA (2012) Numerical modeling of hydrodynamics and sediment transport in lower Mississippi at a proposed delta building diversion. J Hydrol 472–473:340–354CrossRefGoogle Scholar
  26. National Research Council (2006) Drawing Louisiana’s new map: addressing land loss in Coastal Louisiana Committee on the restoration and protection of coastal Louisiana. National Academy Press, Washington, DCGoogle Scholar
  27. National Science Foundation (2009) The GeoVision report, NSF Advisory Committee for Geosciences, 44 ppGoogle Scholar
  28. Nicolson CR, Starfield AM, Kofinas GP, Kruse JA (2002) Ten heuristics for interdisciplinary modeling projects. Ecosystems 5(4):376–384Google Scholar
  29. Nicholls RJ, Woodroffe CD, Burkett V, Hay J, Wong PP, Nurse L (2011) 12.14 – Scenarios for coastal vulnerability assessment, reference module in earth systems and environmental sciences. In: Wolanski E, McLusky D (Editors-in-Chief) Treatise on estuarine and coastal science. Waltham, pp 289–303. doi: 10.1016/B978-0-12-374711-2.01217-1
  30. Norris FH, Stevens SP, Pfefferbaum B, Wyche KF, Pfefferbaum RL (2008) Community resilience as a metaphor, theory, set of capacities, and strategy for disaster readiness. Am J Community Psychol 41:127–150CrossRefGoogle Scholar
  31. Opperman JJ, Galloway GE, Fargione J, Mount JF, Richter BD, Secchi S (2009) Sustainable floodplains through large-scale reconnection to rivers. Science 326:1487–1488CrossRefGoogle Scholar
  32. Paola C, Twilley RR, Edmonds DA, Kim W, Mohrig D, Parker G, Viparelli E, Voller VR (2011) Natural processes in delta restoration: application to the Mississippi Delta. Ann Rev Mar Sci 3(1):67–91CrossRefGoogle Scholar
  33. Pinter N (2005) One step forward, two steps back on U.S. floodplains. Science 308:207–208CrossRefGoogle Scholar
  34. Rabalais NN, Turner RE, Scavia D (2002) Beyond science into policy: Gulf of Mexico hypoxia and the Mississippi River. Bio-Science 52:129–147Google Scholar
  35. Sherrieb K, Norris F, Galea S (2010) Measuring capacities for community resilience. Soc Indic Res 99(2):227–247CrossRefGoogle Scholar
  36. Syvitski J, Saito Y (2007) Morphodynamics of deltas under the influence of humans. Glob Planet Chang 57:261–282CrossRefGoogle Scholar
  37. Twilley RR (2007) Comprehensive systems analysis and planning to secure water and coastal resources: lessons learned from hurricanes Katrina and Rita. Natl Wetl Newsl 29:33–35, Environmental Law Institute. Washington D.C., USAGoogle Scholar
  38. Twilley RR, Couvillion BR, Hossain I, Kaiser C, Owens AB, Steyer GD, Visser JM (2008) Coastal Louisiana ecosystem assessment and restoration (CLEAR) program: the role of ecosystem forecasting in evaluating restoration planning in the Mississippi River deltaic plain. In: McLaughlin KD (ed) Mitigating impacts of natural hazards on fishery ecosystems. American Fisheries Society, symposium 64, Bethesda, Maryland, pp 29–46Google Scholar
  39. USACE (2013) eCoastal enterprise GIS for coastal engineering and science, U.S. Army Corps of Engineers. http://ecoastal.sam.usace.army.mil/. Accessed Dec 2013
  40. Vörösmarty CJ, Syvitski J et al (2009) Battling to save the world’s river deltas. Bull At Sci 65(2):31CrossRefGoogle Scholar
  41. Wessel P, Smith WHF (1998) New, improved version of generic mapping tools released. EOS Trans Am Geophys Union 79:579CrossRefGoogle Scholar
  42. Westerink JJ Jr, Luettich RA, Feyen JC, Atkinson JH, Dawson C, Powell MD, Dunion JP, Roberts HJ, Kubatko EJ, Pourtaheri H (2008) A basin-to channel-scale unstructured grid hurricane storm surge model as implemented for southern Louisiana. Mon Weather Rev 136:833CrossRefGoogle Scholar
  43. Zhao H, Chen Q (2008) Characteristics of extreme meteorological forcing and water levels in Mobile Bay, Alabama. Estuar Coasts 31(4):704–718. doi: 10.1007/s12237-008-9062-7 CrossRefGoogle Scholar

Copyright information

© Springer International Publishing Switzerland 2014

Authors and Affiliations

  • Robert R. Twilley
    • 1
  • Steve Brandt
    • 2
  • Darlene Breaux
    • 3
  • John Cartwright
    • 4
  • Jim Chen
    • 2
    • 5
  • Greg Easson
    • 6
  • Patrick Fitzpatrick
    • 7
  • Kenneth Fridley
    • 8
  • Sara Graves
    • 9
  • Sandra Harper
    • 9
  • Carola Kaiser
    • 1
    • 2
  • Alexander Maestre
    • 8
  • Manil Maskey
    • 9
  • William H. McAnally
    • 4
  • John McCorquodale
    • 10
  • Ehab Meselhe
    • 3
    • 11
  • Tina Miller-Way
    • 12
  • Kyeong Park
    • 12
  • Joao Pereira
    • 10
  • Thomas Richardson
    • 13
  • Jian Tao
    • 2
  • Amelia Ward
    • 14
  • Jerry Wiggert
    • 15
  • Derek Williamson
    • 8
  1. 1.Department of Oceanography and Coastal Sciences, School of the Coast and EnvironmentLouisiana State UniversityBaton RougeUSA
  2. 2.Center for Computation and TechnologyLouisiana State UniversityBaton RougeUSA
  3. 3.Department of Civil EngineeringUniversity of Louisiana at LafayetteLafayetteUSA
  4. 4.Geosystems Research InstituteMississippi State UniversityMississippi StateUSA
  5. 5.Department of Civil and Environmental EngineeringLouisiana State UniversityBaton RougeUSA
  6. 6.Department of Geology and Geological EngineeringUniversity of MississippiOxfordUSA
  7. 7.Northern Gulf InstituteMississippi State University Science and Technology Center, Stennis Space CenterMississippi StateUSA
  8. 8.Department of Civil, Construction and Environmental EngineeringUniversity of AlabamaTuscaloosaUSA
  9. 9.Information Technology and Systems CenterUniversity of Alabama in HuntsvilleHuntsvilleUSA
  10. 10.Department of Civil and Environmental Engineering, and Pontchartrain Institute for Environmental SciencesUniversity of New OrleansNew OrleansUSA
  11. 11.The Water Institute of the GulfBaton RougeUSA
  12. 12.Department of Marine SciencesUniversity of South Alabama, Dauphin Island Sea LabDauphin IslandUSA
  13. 13.Jackson State UniversityJacksonUSA
  14. 14.Center for Freshwater StudiesUniversity of AlabamaTuscaloosaUSA
  15. 15.Department of Marine SciencesUniversity of Southern Mississippi, Stennis Space CenterHattiesburgUSA

Personalised recommendations