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Tracking rates of ecotone migration due to salt-water encroachment using fossil mollusks in coastal South Florida This paper has not been submitted elsewhere in identical or similar form, nor will it be during the first three months after its submission to Hydrobiologia.
2006
Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: current status and needs for inter-site comparisons (Citation/Reference) Troxler, T.G., E. Gaiser, J. Barr, J.D. Fuentes, R. Jaffé, D.L. Childers, L. Collado-Vides, V.H. Rivera-Monroy, E. Castañeda-Moya, W. Anderson, R. Chambers, M. Chen, C. Coronado-Molina, S.E. Davis, V. Engel, C. Fitz, J. Fourqurean, T. Frankovich, J. Kominoski, C. Madden, S.L. Malone, S.F. Oberbauer, P. Olivas, J. Richards, C. Saunders, J. Schedlbauer, L.J. Scinto, F. Sklar, T. Smith, J.M. Smoak, G. Starr, R.R. Twilley, and K. Whelan. 2013. Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: Current status and needs for inter-site comparisons. Oceanography 26(3):98–107, http://dx.doi.org/10.5670/oceanog.2013.51.
2013
Evaluation and application of the time model V 2.0; Restoration Alternatives and Sea Level Rise in Everglades National Park; HYDROLOGIC MODEL REPORT; SFNRC Technical Series 2013:1 This report summarizes the joint project between the U.S. Geological Survey and the South Florida Natural Resources Center of the National Park Service that uses the TIME model to develop ecosystem restoration and sea level rise simulations for ENP. Analysis of preliminary simulation results necessitated an investigation of TIME v2.0 model input datasets and an evaluation of model performance in order to provide context in interpretation of results. This report contains documentation of the input datasets used in the model simulation, an evaluation of TIME v2.0 calibration run results, and an analysis of results from simulations of water management alternatives and sea level rise scenarios. The final section in this report summarizes several performance issues with the TIME v2.0 model discovered during this project and, where possible, recommendations for improvement.; APPENDICES (Electronic copy only) A: MARINE SURFACE WATER BOUNDARY CONDITION INPUTS B: TIME V2.0 CALIBRATION RESULTS C: STAGE AND SALINITY RESULTS FOR ALT7R5E SEA LEVEL RISE RUNS D: ALT7R5E SENSITIVITY TO SALINITY BOUNDARY E: RESULTS FOR ALTERNATIVES WITH SEA LEVEL RISE F: KOHLER REPORT ON TIME DEVELOPMENT G: TIME V2.0 TECHNICAL CODE UPDATES
2013-01

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