St. Johns River Water Management District

Watershed Facts

Integrating environmental science and computer mapping technology

MR312 (Matanzas River)

Basin Characterization

259.656 km²

Location: latitude 29°51’58.279”, longitude 81°18’21.273”, GPS datum—WGS-1984 Station MR312 is located on the Matanzas River at State Road 312.

Point Sources: There are no wastewater treatment facilities within a five-mile radius or within the drainage basin of this water quality site.

This site is located where the County Road 312 Bridge crosses the Matanzas River in eastern St. John County in northeastern Florida. This site is just southeast of the city of St. Augustine, Fla., and it must be accessed by boat. There are two public boat ramps nearby that have plenty of parking for vehicles and boat trailers, one at Vilano Beach and the other at the St. Augustine Lighthouse. The area around the bridge has strong tides and currents, so boaters should use caution.

There is commercial and residential development all around the area. St. Augustine is a tourist-friendly area and offers plenty of activities for visitors. Whether you are interested in the beach, or in history, boating, camping, or you name it, the choices are numerous. There is abundant marine wildlife in the area, also. Dolphins are easily spotted in the waters around St. Augustine and even the occasional manatee. The Bridge of Lions is being renovated so boaters should use caution in that vicinity.

 

 

 

 

All of the maps and charts shown below were created using a customized GIS data summary tool, with the watershed generated by Arc Hydro for this monitoring station. More information about Arc Hydro can be found by clicking on the tab “About Arc Hydro,” which includes a link to SWQM Arc Hydro Development. From that page, a description of the customized GIS data summary tool can be accessed.

Spatial Data Summaries

Download Spatial Data Summaries as an Excel file

2000 population density

Population data is collected by the Census Bureau every 10 years and is used to show the distribution of population in a number of ways. Population density has a direct impact on land use, which effects water quality in areas around or near water bodies. This map displays the 2000 population density per square kilometer within this surface water catchment. The legend shows the area for each class in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for the 2000 population density.

General land use 2000

Land use, which is usually derived from aerial photography by photo interpreters, shows the distribution of land and how it is used. Land use affects the water quality of water bodies through water runoff within a surface water catchment. This map displays the distribution of eight categories of general land use within this surface water catchment. The legend shows the area for each category in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for general land use 2000.

Geology

The geology of the state of Florida was delineated by the Florida Geological Survey. Water quality is impacted by the underlying geology of streams and lakes. This map displays the underlying geological formations within this surface water catchment. The legend shows the area for each type of formation in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for geology.

Physiographic divisions

Physiography describes the earth’s exterior physical features. These are divided into general groups and then subgroups containing features such as uplands, hills, ridges, plains, valleys, karst, etc. Water quality is affected through water runoff by physiography. This map displays the more detailed physiographic subdistricts within this surface water catchment. The legend shows the area for each subdistrict in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for physiographic divisions.

2004 rainfall

Rainfall data comes from radar imaging as well as rainfall gauge surveys. Rainfall affects water quality through runoff within the surface water drainage basins. This map displays the total daily rainfall in inches for each pixel for 2004 within each surface water catchment. The legend shows the area for each rainfall range in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for 2004 rainfall.

SJRWMD and other public lands

The St. Johns River Water Management District (SJRWMD) purchases lands that are in environmentally sensitive areas to protect the water resources on, beneath or adjoining the property. Water quality is affected in water bodies adjacent to these protected lands. This map displays the lands owned, jointly owned, being considered for purchase, or lands through which SJRWMD has an easement. The legend shows the area of these lands in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for SJRWMD and public lands.

Soils drainage

Soils drainage characteristics can also impact surface water runoff, a source of nonpoint pollution for adjacent water bodies, which effects water quality. This map displays water bodies and soil drainage characteristics. The legend shows the area of these soils in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for soils drainage.

5-foot elevation-DEM

Land elevation influences rainfall runoff, which effects the surface water quality, as water moves through the landscape to the rivers, streams, and lakes. This map with accompanying legend displays the maximum (MAX), minimum (MIN), range, standard deviation (STD) and mean of 5-foot elevations within the surface water drainage area (watershed). More complete metadata can be found by clicking on the metadata link for 5-foot elevation-DEM (Digital Elevation Model).

Recharge 1995

In some areas of SJRWMD, the Floridan aquifer is at or near land surface and is vulnerable to pollutants that threaten our drinking water supply. It is especially important to preserve surface water quality in these areas. This map displays recharge to the Floridan aquifer in inches per year (in/yr) within this surface water drainage catchment. Discharge, where the potentiometric surface is greater than the land surface elevation, is also shown. The area for each class is shown in square kilometers and the percentage of area in descending order. More complete metadata can be found by clicking on the metadata link for recharge 1995.

Arc Hydro model

The map below contains selected features from the St. Johns River Water Management District (SJRWMD) Arc Hydro geodatabase. The introduction of the SJRWMD Arc Hydro geodatabase made the creation of these fact pages possible, by providing improved geographic information system (GIS) data that has been combined into a GIS network. This hydrologically based network does for water resources what the commonly used mapping Web sites (such as MapBlast, MapQuest and GoogleMaps) have done for travel planning, except that instead of interstates, highways and roads, this hydrologic network shows streams, rivers, lakes and wetlands. Similar to transportation mapping sites, information about water resources has been related, or linked, to the GIS network and can be easily accessed. The legend to the right of the map includes the Arc Hydro network, Arc Hydro Polygon Feature Classes and HydroPoints. The features included in the Arc Hydro Network exist to establish relationships based on surface water flow. The lines (HydroEdges) may represent streams or rivers, which are commonly displayed as lines on maps. The lines may also represent, in a “shorthand” way, the concept of surface water flow through a lake or a wetland, which are not routinely displayed as lines. The features in the Arc Hydro Polygon Feature Classes and HydroPoints represent some of the water resources information that has been linked to the Arc Hydro GIS network. HDS refers to the District’s Hydrologic Data Services program and NWIS refers to the National Water Information System, which is part of the United States Geological Survey (USGS). See Technical Background for a more detailed explanation of the SJRWMD Arc Hydro technology and its features.

Clicking on the Methodology tab will direct you to information about how water quality samples were collected, analyzed, and summarized for this fact page. To access the most recent SJRWMD Surface Water Quality Status and Trends report, click here.

Water Quality

Download Water Quality Data as an Excel file

The Matanzas River is located in northeastern Flagler County and southern St. Johns County and is part of the Intracoastal Waterway. The river is actually a tidal lagoon, connected to the Atlantic Ocean at St. Augustine and at Summer Haven. The Matanzas River is sampled monthly, at State Road 312, as part of the ambient monitoring program. The river is about 6.1 meters deep at the sample site and has a typical temperature range. When compared to other estuarine sites, conductivity is high with correspondingly high major ion concentrations, resulting in very hard water. The median dissolved oxygen concentration is well above the FDEP standard for Class 3 surface waters. The water is well-buffered and slightly alkaline. Concentrations of total organic carbon, color, total nitrogen, chlorophyll, and coliform counts are lower than those typically found in estuarine systems. Secchi depth, turbidity, and total phosphorus are at typical concentrations, while total suspended solids are elevated. The river has good water quality at the site, according to the trophic state index.

Analytes	Data Yrs	n Data	Min	Q1	Median	Q3	Max	Range
water temperature (degrees C)	15	125	10.90	18.30	22.80	27.00	30.80	mid-lo
Secchi disc transparency (meters)	15	119	0.30	0.80	1.00	1.25	2.20	mid
color (platinum-cobalt units)	15	126	5.00	10.00	20.00	38.00	140.00	mid-lo
specific conductance field (uhmhos/cm@25°C)	15	126	32000.00	46600.00	49290.00	51170.00	54600.00	high
sampling station depth (meters)	15	124	0.50	0.50	0.50	0.50	4.50	mid-hi
dissolved oxygen analysis by probe (mg/L)	15	126	4.29	5.40	6.34	7.41	9.89	mid
pH (standard units)	15	125	6.77	7.52	7.72	7.89	9.78	mid-lo
total alkalinity (mg/L as CaCO3)	15	80	80.00	111.14	115.67	119.82	127.00	high
total nonfiltrable residue (mg/L)	15	126	0.00	22.00	33.08	45.00	137.00	mid-hi
total nitrogen (mg/L as N)	15	126	0.01	0.35	0.47	0.55	1.46	low
total phosphorus (mg/L as P)	15	124	0.02	0.05	0.07	0.10	0.61	mid
total organic carbon (mg/L as C)	15	79	0.60	1.66	2.76	3.52	27.40	low
tsi	15	124	-2.96	35.96	40.84	44.43	57.14	low
total calcium (mg/L as Ca)	15	71	187.00	316.60	358.16	397.13	811.00	high
total magnesium (mg/L as Mg)	15	70	79.00	1110.00	1215.19	1300.00	6490.00	high
total sodium (mg/L as Na)	15	70	2820.00	9520.00	10204.00	10900.00	17500.00	high
total potassium (mg/L as K)	15	71	267.10	367.85	406.44	445.50	3640.00	high
total chloride (mg/L)	15	80	8380.00	17700.00	19340.60	20765.00	44352.60	high
total sulfate (mg/L as SO4)	15	81	164.00	2360.00	2600.00	2880.00	6170.64	high
fecal coliform (MF M-FC broth 44.5°C)	4	8	2.00	2.50	4.00	20.00	25.00	mid-lo
trichromatic uncorrected chlorophyll-a (ug/L)	15	119	0.01	3.44	4.67	6.47	23.79	mid-lo
total filtrable residue (mg/L dried at 180°C)	15	79	25700.00	32200.00	34700.00	36550.00	45800.00	high
lab turbidity (NTU)	15	126	1.09	3.60	5.15	8.00	23.60	mid
sample site depth (meters)	15	117	1.70	4.70	6.10	7.40	12.90	high
hardness (mg/L Ca+Mg)	15	69	1788.56	5371.96	5933.98	6329.26	27592.28	high

 

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