SOFIA Virtual Tour - Controlling the Waters (original) (raw)

virtual tour home Lake Okeechobee Jonathan Dickinson SP Blowing Rocks Fern Forest Controlling the Waters - EAA - STAs - WCAs - Control Structures Loxahatchee West Lake/Anne Kolb Alligator Alley Big Cypress Corkscrew Swamp Fakahatchee Biscayne NP Everglades NP Florida Bay/Keys 10,000 Islands/Rookery Bay Ecosystems Glossary Photo Gallery About this site SOFIA Home controlling the waters | EAA STAs WCAs Control Structures Everglades Agricultural Area map showing EAA, STA and WCA locations Map showing location of the Everglades Agricultural Area (EAA), Stormwater Treatment Areas (STAs), and Water Conservation Areas (WCA). In the 1850’s, the state of Florida was selling cheap land to anyone who could drain it. Drainage and dredging of the peat soils in the northern Everglades continued through the 1920’s. Hurricanes and flooding in 1926 and 1928 caused thousands of deaths and the implementation of the Central and Southern Florida (C&SF) water management project in 1948. As part of the C&SF Project, the U.S. Army Corp of Engineers (USACE) constructed about 1,000 miles of canals, levees, gates, dams and pump stations. These structures were designed to protect against flooding, to prevent saltwater intrusion, and to provide water for agricultural irrigation and drinking water supplies. The C&SF Project identified 800,000 acres of the northern Everglades as an area for agricultural development. The lands were drained and called the Everglades Agricultural Area (EAA). The EAA lies to the southeast of Lake Okeechobee. Crop production in the EAA includes sugarcane, winter vegetables (tomatoes, peppers, cucumbers, eggplant, Chinese vegetables), citrus, sod, sweet corn and rice. Canals are used throughout the EAA for water supply and flood control purposes. The four primary canals within the EAA are the Miami, North New River, Hillsboro and West Palm Beach Canals. The Everglades Agricultural Area impedes the historic flow of water to the Everglades and adversely affects water quality. Soil subsidence, and fertilizers, pesticides, and insecticides found in agricultural runoff all contribute to decreased water quality. To address phosphorus levels in "downstream" waters of the Everglades, the Everglades Forever Act (1994) mandated the construction of Stormwater Treatment Areas (man-made wetlands designed to remove excess nutrients from the water). The South Florida Water Management District (SFWMD) was directed to construct these STAs downstream from the primary canals of the EAA. The SFWMD will manage the STAs for optimal removal of nutrients and will restore historic sheet flow into tens of thousands of acres of the Everglades. The Everglades Forever Act also mandated that farmers reduce phosphorus levels by 25 percent. While the farming community is meeting and exceeding the 25 percent phosphorus reduction, high levels of nitrogen still exist. These high levels of nitrogen produce algal blooms and decrease the amount of sunlight needed by submerged aquatic vegetation and coral reefs to survive. Take a look at some of the agricultural activities found within the Everglades Agricultural Area. A photo gallery is available for this page. [Photos taken December, 1999 and April, 2000] Lake Okeechobee's Herbert Hoover Dike IPIX - Herbert Hoover Dike This view brings us on top of Lake Okeechobee's Herbert Hoover Dike along State Road 715, about 2 miles south of Palm Beach County Glades Airport. Agricultural fields are on one side of the dike and Lake Okeechobee's Rim Canal is on the other side. Navigate around this 360° view atop Lake Okeechobee's Herbert Hoover Dike. IPIX image of Lake Okeechobee's Herbert Hoover Dike, Rim Canal and agricultural fields Note: You will need the free IPIX viewer to view this 360° image IPIX - Herbert Hoover Dike Stand atop Lake Okeechobee's Herbert Hoover Dike along US 27/80, about 2 miles southeast of Clewiston, and enjoy the sunny day. Sugarcane fields can be seen on one side of the dike. Turn and see Lake Okeechobee and some artificial islands on the other side. Navigate around this 360° view from the top of Lake Okeechobee's Herbert Hoover Dike. IPIX image of Lake Okeechobee's Herbert Hoover Dike, artificial islands, and sugarcane fields Note: You will need the free IPIX viewer to view this 360° image photo of dead melaleuca trees on artificial islands [larger image] Dead Australian melaleuca trees atop some artificial islands near Lake Okeechobee's shore. Australian melaleuca was introduced to Florida in the early 1900's. It now dominates the stands in which it grows and is moving in on many native plant communities. The US Army Corps of Engineers (USACE) originally planted the Australian melaleuca trees on islands just inside the Herbert Hoover Dike. Due to their invasive nature, the USACE is killing the trees with pesticides and later clearing the dead trunks away. Agricultural Water Management A ditch excavation near the intersection of State Road 80 and Duda Road (top) shows muck soils overlying limestone bedrock. Limestone ditch spoils sit atop the muck layer (bottom). Most farmers rely on these dark, rich, mucky soils for crop production. However, agricultural water management practices alternately cover and expose these soils and when muck is dry, it oxidizes and shrinks. Everglades Agricultural Area (EAA) soil subsidence rates have averaged about one inch per year. To reduce soil subsidence rates, recent water management practices involve elevated water tables to reduce oxidation. Due to soil subsidence, it is predicted that agricultural practices in the EAA will diminish over time. photo of ditch excavation site [larger image] photo of soil profile at ditch excavation site [larger image] photo of culverts lying in excavated ditch Culverts lying in excavated ditch. [larger image] Culverts are used to transport water from one location to another. Related SOFIA Information Below we have listed science projects and publications for studies that are being conducted, or have been conducted, in the vicinity of the Everglades Agricultural Area. Follow these links to read about each project and to see project-related publications and data. Science Projects: Abnormal Groundwater Conditions and Network Redesign Project Aquatic Cycling of Mercury in the Everglades Canal and Wetland Flow/Transport Interaction Color Infrared Digital Orthophoto Quadrangles for the South Florida Ecosystem Compilation of Alligator Data Sets in South Florida for Restoration Needs Cycling and Speciation of Mercury in the Food Chain of South Florida Ecosystem History: Terrestrial and Fresh-water Ecosystems of southern Florida Geochemical Processes in Organic-rich Sediments of South Florida - Mercury and Metals Ground Water Cooperative Program Groundwater-Surface Water Interactions and Relation to Water Quality in the Everglades Interagency Synthesis of Scientific Information, South Florida A Retrospective and Critical Review of Aquifer Storage and Recovery Sites in South Florida South Florida Information Access Southern Inland and Coastal Systems (SICS) Model Development Surface Water Cooperative Program Vegetative Resistance to Flow in the Everglades Related Publications: Delineation of saltwater intrusion in the surficial aquifer system in eastern Palm Beach, Martin, and St. Lucie Counties, Florida, 1997-98 (from the Water Resources of Florida website) Estimation of Infiltration Rates of Saturated Soils at Selected Sites in the Caloosahatchee River Basin (from the Water Resources of Florida website) The Florida Everglades Geologic Map of the State of Florida A GIS Interface for Environmental System Analysis: Application to the South Florida Ecosystem Hydrogeology of the Gray Limestone Aquifer in Southern Florida (from the Water Resources of Florida website) Relations of a Heterozoan Carbonate-Particle Association to Aquifer Characteristics in a Pliocene Mixed Siliciclastic-Carbonate Ramp (Tamiami Formation), Southern Florida South Florida Ecosystem Program The South Florida Environment: A Region Under Stress USGS Science for Restoration of South Florida: The South Florida Ecosystem Program U.S. Geological Survey Program on the South Florida Ecosystem: 2000 Proceedings U.S. Geological Survey Program on the South Florida Ecosystem Proceedings of the South Florida Restoration Science Forum Water Quality in Southern Florida (from the Water Resources of the United States website) Water Resources of Southeastern Florida TOP

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Last updated: January 15, 2013 @ 12:44 PM (HSH)