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Subsidence Evaluation For <br />Exhibit 608 South of Divide Mining Area Paae 4 <br /> <br />cracks, construction cracks occur in a continuous zone where weatheredand/or fractured bedrock <br />is encountered during road construction. <br />Construction cracks may be confused with subsidence cracks, particulazly where mining has <br />occurred in the azea, and where local bedrock is weathered and fractured, or where brush and <br />trees have been ripped out of soil and/or colluvium during the construction process, The most <br />diagnostic features of construction cracks aze that they 1) have a less regulaz pattern, 2) are <br />related to the material they occur in, and 3) they lack of any spatial relationship to the underlying <br />longwall mine geometry. <br />4.3 Desiccation Cracks <br />Desiccation cracks tend to occur in claystones and siltstones of the Mesaverde and Wasatch <br />Formations in the West Elk Mine azea, particulazly where the rocks aze weathered to clays and <br />silts. The process of desiccation involves the shrinking of the clays and silts after a dry period <br />that follows a wet period, when the material swells (the shrink/swell process). <br />Desiccation cracks can often be recognized by their irregulaz, branching and diverging pattern- <br />less regulaz than typical subsidence cracks. Some of the largest desiccation cracks in the West <br />Elk Mine azea were observed in clays of the Barren Member of the Mesaverde Fonnation in the <br />Horse Gulch-Minnesota Reservoir azea and in the weathered claystones of the Wasatch <br />Formation on West Flatiron, where there has been no mining. The lazger, more regulaz <br />desiccation cracks and construction cracks may be confused with subsidence cracks in aeeas <br />where mining has occurred. However, transverse and longitudinal subsidence cracks have a <br />defmite spatial relationship to the longwall mining panel causing the cracks. <br />4.4 Pseudo Subsidence Features (Gravity-Induced Tension Cracks) <br />Cracks have been observed on high, steep ridges, near cliffs, and in landslides, in the Box <br />Canyon and Apache Rocks mining areas. These cracks look very much like subsidence cracks, <br />but cannot be, because no mining had been done when they were observed. A good example of a <br />gravity-induced crack is the extensive crack that the author observed on the narrow ridge of West <br />Flatiron in August 2002. This crack was as much as 3.5 in wide and 150 feet long. This was not <br />a mining-related crack because no mining had occurred in the area. The possibility of gravity- <br />induced cracking in the rugged country above planned mining activities at the West Elk mining <br />aeeas is a good reason to perform baseline studies of the area prior to mining so that these <br />features can be documented prior to any mining. <br />Cracks and bulges caused by landslides aze other types of gravity-induced features that may <br />appeaz to be related to subsidence, particulazly in aeeas that have been, or aze being, undermined. <br />However, landslide-induced features aze related to the geometry of the landslide rather than the <br />mine geometry. For example, cracks aze most common in the upper azea of a landslide, whereas, <br />bulges aze most common in the lower azea of the slide. This spatial and geometric relationship to <br />a landslide footprint on steep, unstable slopes, rather than the mine geometry can usually be used <br />to differentiate between gravity-induced and mine-induced surface features. <br />831-032.620 Wright Water Engineers, Inc. <br />