OR&R NOAA Project Liaisons for Funded CRRC Projects
These individuals will be appointed based on interest, expertise, opportunity for staff development and availability as determined by OR&R management. Interactions between NOAA Project Liaisons and CRRC Project Principal Investigators are expected to improve the relevance of the funded work to OR&R needs and build partnerships within the research community. Project Liaisons will:
- Provide technical advice to the CRRC Co-Directors. This would include working directly with the CRRC Co-directors to: review project experimental design/quality assurance plans, read and comment on progress reports, and review documents and presentations along with the CRRC Science Advisory Panel and other entities, as appropriate.
- Visit project research sites, as appropriate to conduct reviews or observe experiments.
- Work with the Co-Directors, other OR&R staff, and the Project Principal Investigators to proactively translate the research to field application.
|Carl Childs||Worldwide Synthesis of the Toxicological Effects of Oil, Dispersants and Dispersed Oil on Aquatic Fauna||A. Bejarano|
|Nicolle Rutherford||Understanding Chronic Impacts of Chemical Dispersant and Chemically-Dispersed Oil on Behavior, Molting Success, and Hormone Status and of Blue Crab Larvae: Inputs for Recruitment and Population Models||E. Schott|
|Jordan Stout||Response Risk Communication Tools for Dispersants and Oil Spills||A. Walker|
|Steve Thur||Convergent Validity Test of the Parameter Updating Method||C. Poulos|
|Glen Watabayashi||Delivery and Quality Assurance of Short-Term Trajectory Forecasts from HF Radar Observations||N. Garfield|
|Chris Barker||Development of a Predictive Bayesian Data-Derived Multi-Modal Gaussian Maximum-Likelihood Model of Sunken Oil Mass||J. Englehardt|
|Chris Barker||Dispersion and submergence as extremes of a theoretical continuum: development of numerical algorithms to compute interaction of surface oil with breaking waves||M. Reed|
|John Rapp||Ecology and Economics for Restoration Scaling||C. Peterson|
|Gary Shigenaka||Effects of Dispersants on Oil-SPM Aggregation and Fate in U.S. Coastal Waters||A. Khelifa|
|CJ Beegle-Krause||Field Verification of Oil Spill Fate and Transport Modeling and Linking CODAR Observation System Data with SIMAP Predictions||J. Payne|
|Troy Baker||Guidance for Dispersant Decision-Making: Potential for Impacts on Aquatic Biota||D. French-McCay|
|Robert Haddad||Investigation of Physical and Chemical Causes of Heavy Oil Submergence||B. Hollebone|
|Bill Lehr||Measurements and Modeling of Size Distributions, Settling and Dispersions Rates of Oil Droplets in Turbulent Flows||J. Katz|
|Eric English||Monetary Values and Restoration Equivalents for Lost Recreational Services on the Gulf of Texas Due to Oil Spills an Other Environmental Disruptions||G. Parsons|
|Alan Mearns||Relationship Between Acute and Population Level Effects of Exposure to Dispersed Oil and the Influence of Exposure Conditions Using Multiple Life History Stages of an Estuarine Copepod, Eurytemora affinis, as a Model Planktonic Organism||D. Aurand|
|Ed Levine||Social disruption from oil spills and spill response: Characterizing effects, vulnerabilities, and the adequacy of existing data to inform decision-making||T. Webler|
|Jim Farr &
|Wave Tank Studies on Dispersant Effectiveness as a Function of Energy Dissipation Rate and Particle Size Distribution||K. Lee|