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  1. 05030202050

    https://ohiowatersheds.osu.edu/huc/05030202050

    below Shade River to above Leading Creek 05030202 Ohio River tributaries ...

  2. Bromide

    https://ohiowatersheds.osu.edu/node/1511

    transport through soils. They do not adsorb to negatively charged soil minerals, which allows them to move ... as fast as water through the soil. The main difference between the two is that chloride is more ... ubiquitous in the soil than bromide. This is mainly due the higher concentration of chloride use in manures ...

  3. 05030202100

    https://ohiowatersheds.osu.edu/huc/05030202100

    below Leading River to above Kanawha River (W.V.) 05030202 Ohio River tributaries ...

  4. Blanchard River Watershed Partnership Inc.

    https://ohiowatersheds.osu.edu/groups/blanchard-river-watershed-partnership-inc

    both agricultural and industrial, and the individual citizen who uses water for protecting and ... (BMP's), education activities like the watershed "Report Card", rain gardens and rain barrel ...

  5. Total organic carbon (TOC)

    https://ohiowatersheds.osu.edu/node/1540

    in excess of their MCLs may lead to adverse health effects, liver or kidney problems, or nervous ... system effects, and may lead to an increased risk of getting cancer.  See Bromate, Chlorite, and Total ...

  6. Phosphorous

    https://ohiowatersheds.osu.edu/node/1538

    GENERAL INFORMATION Phosphorus is commonly found in soil, rocks and plants.  Phosphorus is an ... Phosphorus is relatively immobile in soil and will not reach groundwater except under certain conditions, ... such as transport from sewage treatment systems placed below the seasonal high water table and soils ...

  7. Ammonia

    https://ohiowatersheds.osu.edu/node/1534

    elevated levels of ammonia.  Ammonia is very soluble in water.   Because of its solubility, excessive soil ... ammonia may penetrate into deeper soils and eventually reach groundwater. In some soils part of the ...

  8. Dibromochloropropane

    https://ohiowatersheds.osu.edu/node/1556

    a pungent odor. It is used primarily as an unclassified nematocide for soil fumigation of cucumbers, summer ... shrubs. The major source of 1,2-dibromo-3-chloropropane in drinking water is runoff/leaching from soil ... detection suggest human source Runoff/leaching from soil fumigant used on soybeans, cotton, pineapples, and ...

  9. Beryllium

    https://ohiowatersheds.osu.edu/node/1509

    weathering of rocks and soils or from industrial wastewater discharges. The major source of environmental ... soil does not dissolve in water and remains bound to soil. HEALTH EFFECTS Some people who drink water ...

  10. Carbofuran

    https://ohiowatersheds.osu.edu/node/1551

    Carbofuran is a broad spectrum insecticide that is sprayed directly onto soil and plants just after emergence ... California. The major source of carbofuran in drinking water is leaching of soil fumigant used on rice and ... suggest human source Leaching of soil fumigant used on rice and alfalfa TREATMENT OPTIONS Granular ...

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