| Inorganics | |||||||
| Year | Constituent | Highest Level | Range of | MCL | MCLG | Unit of | Source of Constituent |
| at Any | Detected | Measure | |||||
| Sampling Point | Levels | ||||||
| 2000 | Rarium | 0.058 | 0.0580- | 2 | 2 | ppm | Discharge of drilling wastes; |
| 0.0580 | Discharge from metal refineries; | ||||||
| Erosion of natural deposits. | |||||||
| 2000 | Gross beta | 5.8 | 5.8000- | 50 | 0 | pci/l | Decay of natural and |
| 5.8000 | man-made deposits. | ||||||
| Organics | |||||||
| Year | Constituent | Average of all | Range of | MCL | MCLG | Unit of | Source of Constituent |
| Sampling | Detected | Measure | |||||
| Points | Levels | ||||||
| 1999- | Xylenes | 0.0026 | 0.0026- | 10 | 10 | ppm | Discharge from petroleum |
| 1999 | 0.0026 | factories; Discharge from | |||||
| chemical factories. | |||||||
| Unregulated Contaminants | |||||||
| Year | Constituent | Average of all | Range of | Reasons for Monitoring | |||
| Sampling | Detected | ||||||
| Points | Levels | ||||||
| 1999- | Chloromethane | 6.2 | 6.2000- | Unregulated contaminant monitoring helps | |||
| 1999 | 6.2000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| 1999- | Chloroethane | 4.7 | 4.7000- | Unregulated contaminant monitoring helps | |||
| 1999 | 4.7000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| 1999- | Chloroform | 3 | 3.0000- | Unregulated contaminant monitoring helps | |||
| 1999 | 3.0000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| 1999- | Bromoform | 3 | 3.000- | Unregulated contaminant monitoring helps | |||
| 1999 | 3.000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| 1999- | Bromodichloromethane | 4.2 | 4.2000- | Unregulated contaminant monitoring helps | |||
| 1999 | 4.2000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| 1999- | Chlorodibromomethane | 5.2 | 5.2000- | Unregulated contaminant monitoring helps | |||
| 1999 | 5.2000 | the EPA to determine where certain | |||||
| contaminants occur and whether it needs | |||||||
| to regulate those contaminants. | |||||||
| Lead and Copper | |||||||
| Total Coliform | NOT DETECTED | ||||||
| Fecal Coliform | NOT DETECTED | ||||||
| Violation Explanation | Health Effects | Duration | Steps to Correct | ||||
| Lead Copper - Reduced or follow-up tap | Failure to conduct reduced or follow-up lead and copper tap monitoring makes it impossible to know if the drinking water can readily leach lead and copper out of your plumbing and into your tap water. Therefore, you do not have the opportunity to consider methods to reduce the amount of lead and copper in your water. Infants and children who drink water containing lead in excess of the action level could experience delays in their physical or mental development. Children could show slight deficits in attention span and learning abilities. Adults who drink this water over many years could develop kidney problems or high blood pressure. | 1/1/2000- | |||||
| sampling | 6/30/2000 | ||||||