Contaminant Data — All Analytes
1237 total samples analyzed across
18 analytes.
Data spans 1986 to 2017.
| Contaminant |
Samples |
Years |
Detection Rate |
Distribution LowModHigh |
vs. Limit |
vs. MI Avg |
|
Iron
|
9 |
1986–2000
|
100% |
|
172% of limit
|
~ typical
|
|
Manganese
|
8 |
1986–2000
|
100% |
|
21% of limit
|
↓ 84% below
|
|
Nitrite
|
9 |
2002–2012
|
89% |
|
1% of limit
|
↓ 58% below
|
|
Uranium
|
1 |
1986
|
100% |
|
0% of limit
|
↓ 78% below
|
|
PFNA
municipal
|
2 |
2023
|
0% |
|
0% of limit
|
— |
|
PFOS
municipal
|
2 |
2023
|
0% |
|
0% of limit
|
— |
|
HFPO-DA (GenX)
municipal
|
2 |
2023
|
0% |
|
0% of limit
|
— |
|
PFOA
municipal
|
2 |
2023
|
0% |
|
0% of limit
|
— |
|
PFHxS
municipal
|
2 |
2023
|
0% |
|
0% of limit
|
— |
|
Chloride
|
22 |
1986–2017
|
100% |
|
3% of limit
|
↓ 72% below
|
|
Sulfate
|
19 |
1986–2017
|
100% |
|
3% of limit
|
↓ 83% below
|
|
Fluoride
|
3 |
1986–2000
|
67% |
|
4% of limit
|
↓ 53% below
|
|
Arsenic
|
3 |
1987–2013
|
100% |
|
20% of limit
|
↓ 38% below
|
|
Lead
|
1 |
2000
|
100% |
|
3% of limit
|
↓ 69% below
|
|
Nitrate
|
27 |
2001–2012
|
96% |
|
1% of limit
|
↓ 78% below
|
|
PFBS
municipal
|
2 |
2023
|
0% |
|
— |
— |
|
Sodium
|
19 |
1986–2017
|
100% |
— |
— |
↓ 71% below
|
|
pH
|
8 |
1986–2013
|
88% |
— |
— |
~ typical
|
Distribution shows the share of samples in each concentration band relative to the EPA Maximum Contaminant Level (MCL): Low = below half the MCL, Moderate = between half and the MCL, High = above the MCL. Analytes without an MCL (e.g. sodium, pH) show — in the limit columns. State average is based on county median values across MI.
Public vs. Private Water in Mecosta County
165
Active public water systems
36,359
Residents on public water
9%
Households on private wells
Public water systems in Mecosta County are regulated by the EPA and must test and report contaminant levels. Private well owners are responsible for their own testing — there is no routine monitoring of private wells by any government agency.
Data Sources
This report aggregates data from the following public databases:
- Water Quality Portal (WQP) — groundwater sample results for Mecosta County from EPA, USGS, and state agencies. Browse WQP data →
- EPA Safe Drinking Water Information System (SDWIS) — public water system inventory used to estimate the share of residents on private wells. Browse SDWIS →
- Census ACS 5-Year Estimates — well and cistern household counts (variable DP04_0074E) used to calculate the private-well percentage for Mecosta County. Census data explorer →
- USGS Aquifer Atlas — principal aquifer type underlying Mecosta County, which informs which contaminants are geologically likely. USGS Aquifer Atlas →
- EPA UCMR 5 (2023–2025) — PFAS occurrence data from public water systems, used as a proxy indicator for aquifer PFAS exposure. Rows marked "municipal" in the table above come from this source. About UCMR 5 →
- EPA Toxics Release Inventory (TRI) — industrial facility chemical releases near Mecosta County, used in contamination risk scoring. TRI Explorer →
- EPA Superfund NPL — National Priorities List sites in or near Mecosta County, used in contamination risk scoring. Superfund site search →
- CDC PLACES — county-level health outcome prevalence (kidney disease, cancer, heart disease) correlated with detected contaminants. About CDC PLACES →
Methodology
Raw records are downloaded from the Water Quality Portal and normalized to µg/L (ppb). Records are deduplicated by sample ID and date, and certified outliers are excluded. Analyte names are mapped to EPA canonical forms. Detection rates, distribution bands, and MCL comparisons are computed from the normalized dataset.
Distribution bands use the EPA Maximum Contaminant Level as the threshold: concentrations below 50% of the MCL are classed as Low, between 50% and 100% as Moderate, and above 100% as High. For analytes without an MCL (sodium, hardness, pH), distribution is not computed.
State comparison uses the median of county median values across all counties in MI with at least one sample for that analyte.
Last updated: 2026-05-27
Full methodology →