Assessment Comments
Assessment is based on: (1) results of the statewide survey of Iowa lakes conducted from 2009-2012 by Iowa State University (ISU), (2) results of the statewide ambient lake monitoring program conducted in 2008 by University Hygienic Laboratory (UHL), (3) information from the IDNR Fisheries Bureau, and (4) results of U.S. EPA/IDNR fish contaminant (RAFT) monitoring in 2010.
Basis for Assessment
SUMMARY: The Class A1 (primary contact recreation) uses are assessed (monitored) as “partially supported” due to aesthetically objectionable conditions caused by poor water clarity. The Class B(LW) (aquatic life) uses are assessed (monitored) as “fully supported.” The Class C (drinking water) uses remain “not assessed” due to a lack of monitoring data. Fish consumption uses are assessed (monitored) as "fully supported" based on results of fish tissue monitoring in 2010. Sources of data for this assessment include (1) results of the statewide survey of Iowa lakes conducted from 2009-2012 by Iowa State University (ISU), (2) results of the statewide ambient lake monitoring program conducted in 2008 by University Hygienic Laboratory (UHL), (3) results from the IDNR-county voluntary beach monitoring program from 2004, (4) information from the IDNR Fisheries Bureau, and (5) results of U.S. EPA/IDNR fish contaminant (RAFT) monitoring in 2010.
Note: A TMDL for siltation at Lake Icaria was prepared by IDNR and approved by EPA in 2002; thus, this waterbody was placed into IR Category 4a (TMDL approved) for the 2004 and 2006 assessment/listing cycles. Data for the 2008 assessment show that water quality had improved and Lake Icaria was listed as Category 2a from 2008-2012. However, recent water quality data suggests water quality is degrading. Since all impairments for Lake Icaria were addressed in the 2002 TMDL, it will be listed as Category 4a for the 2014 assessment/listing cycle.
EXPLANATION: Results from the ISU lake survey and the UHL ambient lake monitoring suggest that the Class A1 (primary contact recreation) uses for Lake Icaria be assessed (monitored) as “partially supported” due to aesthetically objectionalbe conditions from low water clarity for the 2014 reporting cycle. Using the median values from these surveys from 2008-2012(approximately 14 samples), Carlson’s (1977) trophic state indices for Secchi depth, chlorophyll a, and total phosphorus were 66, 64, and 65 respectively for Lake Icaria. According to Carlson (1977) the chlorophyll a, Secchi depth, and total phosphorus index values all place Lake Icaria in between the eutrophic and hypereutrophic categories. These values suggest moderately high levels of chlorophyll a and suspended algae in the water, poor water transparency, and high levels of phosphorus in the water column.
Inorganic suspended solids are high at Lake Icaria and indicate that non-algal turbidity remains a water quality concern. Based on data from the ISU and UHL surveys from 2008-2012, the median concentration of inorganic suspended solids at Lake Icaria was 6.7 mg/L, and ranked 92nd of the 134 lakes monitored by these programs.
Data from the 2008-2012 ISU and UHL surveys suggest a large population of cyanobacteria exists at Lake Icaria, which suggests the potential for an impairment due to nuisance aquatic life. These data show that cyanobacteria comprised a significant portion (100%) of the phytoplankton wet mass at this lake. The median cyanobacteria wet mass (44.5 mg/L) and ranked 113th of the 134 lakes sampled. This median is in the worst 25% of the 134 lakes sampled. The presence of a large population of cyanobacteria at this lake suggests a potential violation of Iowa’s narrative water quality standard protecting against the occurrence of nuisance aquatic life. This assessment is based strictly on the distribution of the lake-specific median cyanobacteria values from 2006-2010. Median levels greater than the 75th percentile of this distribution were arbitrarily considered to represent potential impairment. No other criteria exist, however, upon which to base a more accurate identification of impairments due to cyanobacteria. The assessment category for assessments based on level of cyanobacteria will be considered "evaluated" (indicating an assessment with relatively lower confidence) as opposed to "monitored" (indicating an assessment with relatively higher confidence) to account for this lower level of confidence.
Note: The City of Corning applies copper sulfate (an algaecide) to Lake Icaria in the event of an algae bloom (Iowa Water Web).
The Class B(LW) (aquatic life) uses are assessed (evaluated) as “fully supported” based on information from IDNR’s Fisheries Bureau and results of the ISU and UHL lake surveys. Information from the IDNR Fisheries Bureau indicates that extensive soil conservation practices have been implemented in the watershed that likely will reduce nutrient loading and siltation impacts in Lake Icaria. Common carp have were sampled in the lake recently, and may contribute to the declining water quality at Lake Icaria. Some aquatic vegetation has become established, but expansion is slow.
Results of the ISU and UHL lake surveys also suggest generally good chemical water quality and “full support” of the Class B(LW) uses at Lake Icaria. The ISU and UHL lake survey data from 2008-2012 show no violations of the Class B(LW) criteria for ammonia in 14 samples. The data show one violation of the Class B(LW) criterion for dissolved oxygen in 14 samples (7%) and one violation of the Class A1, B(LW) uses for pH in 14 samples (7%). Based on IDNR’s assessment methodology, however, these violations are not significantly greater than 10% of the samples and therefore do not suggest an impairment (full support/monitored) of the aquatic life uses at this lake.
Drinking water (Class C) uses were not assessed due to the lack of water quality information upon which to base an assessment. The only parameter collected as part of the ISU and UHL lake surveys relevant to support of Class C (drinking water) uses is nitrate. While the results of the ISU and UHL surveys from 2008-2012 show that nitrate levels at this lake (maximum value = 2.3 mg/l; median = 0.3 mg/l in 14 samples) are low relative to the drinking water MCL (10 mg/l), these data are not sufficient for developing a valid assessment of support of the Class C uses.
Fish consumption uses were assessed (monitored) as “fully supported” based on results of U.S. EPA/IDNR fish contaminant (RAFT) monitoring at Lake Icaria in 2010. The composite samples of fillets from channel catfish and largemouth bass had low levels of contaminants. Levels of primary contaminants in the composite sample of channel catfish fillets were as follows: mercury: 0.0322 ppm; total PCBs: 0.09 ppm; and technical chlordane: <0.03 ppm. Levels of primary contaminants in the composite sample of largemouth bass fillets were as follows: mercury: 0.21 ppm. The existence of, or potential for, a fish consumption advisory is the basis for Section 305(b) assessments of the degree to which Iowa’s lakes and rivers support their fish consumption uses. The fish contaminant data generated from the 2010 RAFT sampling conducted at this lake show that the levels of contaminants do not exceed any of the advisory trigger levels, thus indicating no justification for issuance of a consumption advisory for this waterbody.
