Creek Conditions Report - Sarasota.WaterAtlas.org

Pass

4 out of 4 primary indicators were rated as PASS.

"Primary" are nutrient related (Chl, N, P) and bacteria (B) parameters.

All four indicators must pass for the creek to be rated as PASS.

Greyed out values indicate no data for the report year.

Size: 6,399 acres
Location: Central Sarasota County
Discharges into: Roberts Bay (Venice)

For more information, please see: Curry Creek Basin Master Plan Update, Venice County Model (2001)

View county-wide water quality trends »

Dive Deeper!

Explore Water Quality Trends Watershed Management Plans Water Quality Contour Maps

Curry Creek

Water Chemistry Ratings

Monitoring data is analyzed to determine stream health based on State water quality standards. Official determination of impairment or attainment of the water quality standards is performed by FDEP and is based on at least three years and up to seven and a half years of data. Information on approximately 17 different parameters are collected at stream sites, but only total nitrogen, total phosphorus, chlorophyll a, dissolved oxygen (percent saturation), and bacteria are assessed according to established water quality criteria mandated by the Clean Water Act. Additionally, the floral and faunal communities (SCI) are assessed at some sites to determine whether waters support a healthy aquatic community.

The "pass/fail" conditions presented here do not indicate impairment as determined by the official Florida Department of Environmental Protection Impaired Waters Rule assessment but, rather, give an indication of stream condition in a particular year in relation to the set regulatory numeric limits. Streams receive an annual "PASS" rating for each parameter if the mean value is below the regulatory value and a "FAIL" rating if the mean value exceeds the regulatory value. Not all water quality parameters have an established numeric criterion, so only some of the graphs below show the regulatory limit, represented by a horizontal red line.

Chart Legend

Monthly Average
Threshold
Annual Mean

The graphs here illustrate results over the past five years. Data from sites monitored within a single waterbody identification basin (WBID) are combined to determine water quality status for each WBID, and the annual geometric mean of sample results is indicated on the graph for the most recent year. The table to the left of the graph gives the annual and historic range of values for the indicator.

Click the graph to view a larger image and to download the full dataset.

Freshwater Portion of the Creek

Chlorophyll a

Units: µg/l	Year 2020	Historical period of record
High	40.90	132.00
Mean	5.5909	7.6382 11.46875
Low	1.11	0.25
No. of Samples	34	641
Target
Threshold	20.00	20.00
MDL	0.50	0.50
GeoMean	5.5909	5.5909
Trend Score	1.00

Monthly Average

NNC 20.00 µg/l

Annual Mean

Nitrogen, Total

Units: mg/L	Year 2020	Historical period of record
High	1.793	2.697
Mean	1.0468	1.1103 0.36213019
Low	0.566	0.221
No. of Samples	29	582
Target
Threshold	1.65	1.65
MDL
GeoMean	1.0468	1.0468
Trend Score	1.00

Monthly Average

NNC 1.65 mg/L

Annual Mean

Phosphorus, Total

Units: mg/L	Year 2020	Historical period of record
High	0.66	0.885
Mean	0.2466	0.2503 0.16435384
Low	0.085	0.043
No. of Samples	29	653
Target
Threshold	0.49	0.49
MDL	0.0001	0.0001
GeoMean	0.2466	0.2466
Trend Score	1.00

Monthly Average

NNC 0.49 mg/L

Annual Mean

Dissolved Oxygen Saturation

Note: Dissolved oxygen saturation percentages above the regulatory threshold meet established water quality targets.

Units: percent (%)	Year 2020	Historical period of record
High	87.00	166.80
Mean	46.12	54.62 22.33661
Low	21.6781	1.70
No. of Samples	30	706
Target
Threshold	38.00	38.00
MDL
GeoMean	46.123	46.123
Trend Score	1.00

Monthly Average

NNC 38.00 percent (%)

Annual Mean

BOD, Biochemical oxygen demand

Units: mg/l	Year 2020	Historical period of record
High	2.34	6.58
Mean	1.13	1.35 0.76461
Low	1.00	0.50
No. of Samples	24	585
Target
Threshold
MDL
GeoMean	1.1337	1.1337
Trend Score

Monthly Average

NNC mg/l

Annual Mean

Color

Units: PCU	Year 2020	Historical period of record
High	400.00	420.00
Mean	142.83	109.29 87.52632
Low	65.00	5.00
No. of Samples	25	694
Target
Threshold
MDL
GeoMean	142.8284	142.8284
Trend Score

Monthly Average

NNC PCU

Annual Mean

Escherichia coli

Units: MPN/100ml	Year 2020	Historical period of record
High	359.00	4106.00
Mean	104.86	153.28 461.14609
Low	52.00	10.00
No. of Samples	12	109
Target
Threshold
MDL
GeoMean	104.864	104.864
Trend Score

Monthly Average

NNC MPN/100ml

Annual Mean

Nitrogen, Ammonia + Ammonium as N

Units: mg/L	Year 2020	Historical period of record
High	0.545	25.57
Mean	0.04	0.02 0.96822483
Low	0.008	0.00
No. of Samples	29	726
Target
Threshold
MDL
GeoMean	0.0375	0.0375
Trend Score

Monthly Average

NNC mg/L

Annual Mean

Nitrogen, Kjeldahl

Units: mg/L	Year 2020	Historical period of record
High	1.74	26.19
Mean	0.96	1.05 1.06296098
Low	0.55	0.188
No. of Samples	29	693
Target
Threshold
MDL
GeoMean	0.9603	0.9603
Trend Score

Monthly Average

NNC mg/L

Annual Mean

Nitrogen, Nitrite + Nitrate as N

Units: mg/L	Year 2020	Historical period of record
High	0.182	0.79
Mean	0.08	0.06 0.0756644
Low	0.016	0.00
No. of Samples	29	658
Target
Threshold
MDL
GeoMean	0.0776	0.0776
Trend Score

Monthly Average

NNC mg/L

Annual Mean

pH

Units: None	Year 2020	Historical period of record
High	7.69	8.90
Mean	7.21	7.56 0.31478
Low	6.69	5.52
No. of Samples	30	4,405
Target
Threshold
MDL
GeoMean	7.21	7.21
Trend Score

Monthly Average

NNC None

Annual Mean

Salinity

Units: PSS	Year 2020	Historical period of record
High	29.31	91.00
Mean	3.7	10.53 15.79659
Low	0.1457	0.00
No. of Samples	36	4,349
Target
Threshold
MDL	0.10	0.10
GeoMean	3.6987	3.6987
Trend Score

Monthly Average

NNC PSS

Annual Mean

Specific conductance

Units: µmho	Year 2020	Historical period of record
High	45209.00	61277.60
Mean	4907.46	15377.18 16387.15009
Low	303.18	0.286
No. of Samples	30	4,377
Target
Threshold
MDL
GeoMean	4907.4621	4907.4621
Trend Score

Monthly Average

NNC µmho

Annual Mean

Temperature, water

Units: °F	Year 2020	Historical period of record
High	87.26	3574.40
Mean	71.66	74.24 54.01244
Low	60.80	47.858
No. of Samples	6	4,268
Target
Threshold
MDL
GeoMean	71.66	71.66
Trend Score

Monthly Average

NNC °F

Annual Mean

Turbidity

Units: NTU	Year 2020	Historical period of record
High	2.70	40.00
Mean	1.98	2.6 1.98176
Low	1.60	0.70
No. of Samples	5	620
Target
Threshold
MDL	0.20	0.20
GeoMean	1.9807	1.9807
Trend Score

Monthly Average

NNC NTU

Annual Mean

Tidal Portion of the Creek

Oysters

Because they are immobile and will tolerate a fairly wide salinity range, eastern oysters (Crassostrea virginica) are valuable as an indicator of the relative health of aquatic ecosystems in the tidally-influenced portions of coastal creeks. Sarasota County has established an oyster monitoring program to track the location, types, and status of oyster reefs. Data from this monitoring program is shown below. Learn more about Oysters »

Loading oyster site map...

Most Recent Sarasota County Oyster Monitoring Program Data
Icon	Site ID	Year	Latitude_DD	Longitude_DD	Dead	Live	Total	% Live
1	CC1	2020	27.1145	-82.4439	23	135	158	85
2	CC2	2020	27.1152	-82.4425	13	92	105	87

Impervious Features

Rain that falls on land that is in a natural state is absorbed and filtered by soils and vegetation as it makes it way into underground aquifers. However, in developed areas, "impervious surfaces" impede this process and contribute to polluted urban runoff entering surface waters. These surfaces include human infrastructure like roads, sidewalks, driveways and parking lots that are covered by impenetrable materials such as asphalt, concrete, brick and stone, as well as buildings and other permanent structures. Soils that have been disturbed and compacted by urban development are often impervious as well. Learn more about Impervious Features »

13% of the land area within the Curry Creek Basin is covered by impervious surfaces

Land Use / Land Cover

Land use within a creek's watershed has a major effect on its water quality. In general, less development means better water quality. Land Cover/Land Use classifications categorize land in terms of its observed physical surface characteristics (e.g. upland or wetland), and also reflect the types of activity that are taking place on it (agriculture, urban/built-up, utilities, etc.). Florida uses as its standard a set of statewide classifications which were developed by the Florida Department of Transportation. Learn more about Land Use and Land Cover »

Acreage and Percentage within each Land Use / Land Cover Category for Curry Creek Basin

Land Use Classification	1990	1995	1999	2005	2011	2014	2017	2020	2023
Urban & Built-up	2,08932.7%	2,33136.4%	2,91545.6%	3,50454.8%	3,62156.6%	3,51955%	3,82559.8%	4,02562.9%	4,27666.8%
Agriculture	1,53223.9%	1,37421.5%	1,20118.8%	73611.5%	3856%	3695.8%	2704.2%	2253.5%	1562.4%
Rangeland	1742.7%	2123.3%	1882.9%	751.2%	3175%	3225%	2143.3%	1532.4%	1121.7%
Upland Forests	1,45222.7%	1,22919.2%	82612.9%	76712%	70711.1%	81312.7%	70111%	5358.4%	4046.3%
Water	3505.5%	4386.8%	4827.5%	4937.7%	4927.7%	4927.7%	5087.9%	5498.6%	5598.7%
Wetlands	5268.2%	4637.2%	4617.2%	4837.6%	5228.2%	5228.2%	5198.1%	5108%	4887.6%
Barren Land	80.1%	210.3%	00%	00%	00%	00%	00%	00%	00%
Transportation and Utilities	2664.2%	3305.2%	3265.1%	3415.3%	3545.5%	3625.7%	3605.6%	4026.3%	4046.3%

Sarasota County Water Atlas