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projects > tides and inflows in the mangrove ecotone (TIME) model development (vegetative resistance to flow)
Tides and Inflows in the Mangrove Ecotone (TIME) Model Development (Vegetative Resistance to Flow)
Summary
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This project it trying to identify the most appropriate parameter for representing resistance due to vegetation types typically found in the Everglades. |
Surface-water flow models are needed to evaluate restoration and management alternatives for the south Florida ecosystem. Model results are sensitive to expressions used to represent flow resistance due to vegetation. The project seeks to develop methods for representing flow resistance due to vegetation types typically found in the Everglades. The project also seeks an understanding of the effect of vegetation on surface-water flow and improved techniques for measuring flow velocities and water-surface slopes in wetlands.
Restoration and management decisions about the south Florida ecosystem are based in part on the results of numerical surface-water models. Model results are sensitive to the expressions used for vegetative flow resistance and to the values of the coefficients that appear in these expressions. The objectives of the project are to identify the most appropriate parameters for representing resistance due to vegetation types typically found in the Everglades, develop empirical expressions for flow resistance, and evaluate the coefficients that appear in these expressions.
Proposals
Project Summaries
Data
Metadata
Publications
Abstracts:
- Determination of Resistance Coefficients for Flow through Submersed and Emergent Vegetation in the Florida Everglades (from the GEER Conference, December 2000)
- Field Measurement of Flow Resistance in the Florida Everglades (from the South Florida Restoration Science Forum, May 1999)
- A Pipe Manometer for the Determination of Very Small Water-Surface Slopes in the Florida Everglades (from the GEER Conference, December 2000)
- The Relation Between Vegetation and Water-Flow Velocity Profiles in a Sawgrass Marsh, Everglades National Park, Florida
- Thermally-Driven Vertical Mixing in the Everglades (from the GEER Conference, April 2003)
- Vegetative Characterization for Everglades Studies (from the South Florida Restoration Science Forum, May 1999)
- Vegetative Resistance to Flow
- Vegetative Resistance to Flow in the Florida Everglades
Fact Sheet:
- Vegetation Affects Water Movement in the Florida Everglades
Open File Reports:
- Biomass and Vegetative Characteristics of Sawgrass Grown in a Tilting Flume as Part of a Study of Vegetative Resistance to Flow (OFR 99-230)
- Sawgrass Density, Biomass, and Leaf Area Index: A Flume Study in Support of Research on Wind Sheltering Effects in the Florida Everglades (OFR 00-172)
- Vegetative Resistance to Flow in South Florida: Summary of Vegetation Sampling at Sites NESRS3 and P33, Shark River Slough, April, 1996 (OFR 99-187)
- Vegetative Resistance to Flow in South Florida: Summary of Vegetation Sampling at Sites NESRS3 and P33, Shark River Slough, November, 1996 (OFR 99-218)
- Vegetative Resistance to Flow in South Florida: Summary of Vegetation Sampling in Taylor Slough, Everglades National Park, September 1997 - July 1998 (OFR 01-102)
- Velocity and Stage Data Collected in a Laboratory Flume for Water-Surface Slope Determination Using a Pipe Manometer (OFR 00-393)
Papers:
- Classification of Vegetation for Surface-Water Flow Models in Taylor Slough, Everglades National Park (from the proceedings of the Third International Symposium on Ecohydraulics, July 1999)
- Determining Flow-Resistance Coefficients in the Florida Everglades (from the proceedings of the Third International Symposium on Ecohydraulics, July 1999)
Posters:
- Thermally-Driven Vertical Mixing in the Everglades (from the GEER Conference, April 2003)
- Velocity And Stage Data Collected In A Laboratory Flume For Water-Surface Slope Determination Using A Pipe Manometer (from the GEER Conference, December 2000)
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