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1.0 INTRODUCTION <br />This revegetation plan is designed to restore the physical landscape disturbances associated with the <br />development and operation of the Somerset Mine (now sealed), the Sanborn Creek Mine and the Elk <br />Creek Mine. Operations in the Somerset Mine began in 1902 and continued until 1985. In 1991, <br />Somerset Mining Company opened the Sanborn Creek Mine. Oxbow Mining, LLC (OMLLQ <br />(formerly dba as Somerset Mining Company) is proceeding with development of the Elk Creek Mine. <br />Approximately 72 acres of disturbance (historic figure for Somerset and Sanborn Creek Mine - See <br />Table 2.05-T1 for current disturbance acreages) are associated with the surface plant facilities, mine <br />portals, power line roads, and other minor disturbances. These disturbances, which occur on both <br />private and federal land, will continue for the life of the mine. The disturbance affects two major <br />vegetation types, Mountain Shrubland and Juniper Woodland. Topsoil was not salvaged during the <br />early construction ("pre -law' or prior to SMCRA) activities at the minesite. Therefore, revegetation <br />will be initiated on surface soils produced by regrading existing surface materials. By the time <br />revegetation activities occur in the future, it has been assumed that areas of old shale materials from <br />pre -law refuse piles will be weathered to a consistency similar to the other materials to be revegetated <br />at the Somerset, Sanborn Creek and Elk Creek Mines. <br />Analytical results from seventeen surface soil collections in disturbed and undisturbed areas provide <br />an indication of the suitability of surface materials as a medium for plant growth. These data, as <br />analyzed by Ford Chemical Laboratories on August 8, 1980 indicated that there are no problems with <br />salts. Conductivity and sodium adsorption ration (SAR) values are all below the conservative limits of <br />4000 umhos/cm and 6, respectively (see WRDC 1981). <br />The data on heavy metals are total values derived from acid extraction and thus cannot be compared <br />to most standards for reclamation suitability (see Shafer 1979, VDEQ 1981). If samples for <br />undisturbed areas are compared with those from disturbed locations, it is apparent that total heavy <br />metal levels are comparable throughout for boron, cadmium, copper, iron, lead, manganese, mercury, <br />molybdenum, nickel, and selenium Again however, note that the data examined were acid extractable <br />totals and not plant -available levels. Data for heavy metals are not in a form to evaluate the hazard <br />for plant growth. However, total heavy metals in disturbed materials and undisturbed soils are not <br />significantly different. <br />In the case of soil texture the 17 samples had a reported texture of either "sandy loam" or "clay". <br />However, this classification was produced without a particle size analysis. The occurrence of <br />numerous samples in two diverse textural classification and the absence of intermediate textural <br />ranges suggest an imprecise determination. Therefore, the soil textural data may not represent <br />sufficiently precise determination to merit serious evaluation as to their suitabilityfor reclamation. <br />During 1986, soil sample sites for the lower Elk Creek facilities were sampled. These results indicated <br />the soil on the north storage yard is acceptable for revegetation. Other areas of the lower Elk Creek <br />facilities require six inches of suitable root zone material. <br />In 1987, soil test pits were dug on the west bench, central yard and east bench areas. The results are <br />tabulated in Table 1. These test pits confirm the need for 6 inches of topsoil for the central yard area <br />and east bench. The west bench area appears to have sufficient subsoil for revegetation. The coal <br />material layer is generally less than 6 inches thick. This gob material will either be scarified and mixed <br />with underlying material prior to topsoil placement or scraped up by mobile equipment for use as fill <br />material. <br />TR -40 H 1 Revised August 2002 <br />