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temperatures. Nitrate and ammonium analyses are generally determined on overburden and <br />interburden material which will serve as a growth or aquifer medium. Nitrogen levels influence soil <br />productivity as well as ground water quality. <br />Two other sources of nitrogen are associated with the mining operation. First, an ammonium-based <br />foam which is asodium-free-alcohol fatty acid is used during exploration drilling and overburden core <br />drilling, when absolutely necessary, to maintain better circulation of water and cuttings (Peabody Coal <br />Company, 1987). Second, ammonium nitrate is mixed with fuel oil and the mixture is used to load <br />blasting holes ahead of the mining operation (Reeder and Sabey, 1987). <br />or This essential plant micronutrient serves as an activator in numerous enzyme systems <br />(Donahue, et al., 1977). Boron is needed by plants in only very minute amounts and the range <br />between boron deficiency and boron excess is not great. If present in excess concentrations, plant <br />toxicity symptoms may appear. Also as pH decreases, the solubility and the potential for boron <br />toxicity increases. Elevated boron levels are frequently found in arid soils where salts have <br />accumulated near the surface. High levels of calcium in the soil decrease the severity of boron <br />• toxicity (Traynor, 1980). <br />Molybdenum and Selenium. Some native plants tend to accumulate high levels of molybdenum <br />and selenium in their tissues. High levels of selenium are often associated with primary and <br />secondary indicator plants (USDA, 1957). Elevated molybdenum levels often occur in legumes <br />(especially white sweet clover) which require it for nitrogen fixation (Neuman and Munshower, 1983). <br />Although these elements are essential for animals, when over ingested by the grazing animals, <br />molybdenum or selenium toxicity may occur (Donahue et a1.,1977). Molybdenosis is especially acute <br />at low copper concentrations and is felt by some to be molybdenum induced copper deficiency. It is <br />usually corrected by supplementing feed rations with copper. <br />Manganese and Iron. Manganese with the aid of iron (Tiedemann and Lopez, 1982), are catalysts <br />in the synthesis or production of chlorophyll. Manganese and iron deficiencies are of major concern <br />in reclamation situations where soils are calcareous or have an alkali pH (lime-induced chlorosis). <br />Iron deficiencies are also induced by high concentrations of Mn, Cu, Zn, and Ni in acidic soils. <br />Manganese toxicity is more common than manganese deficiency. Manganese toxicities have been <br />Revised 9/99 2.04.6-16 <br />