Laserfiche WebLink
RULE 2 PERMITS <br />Another directive with regard to topsoil distribution (at the discretion of the field supervisor) will <br />be instruction to equipment operators to NOT engineer the final surface, but to the contrary leave <br />it in a very roughened state, where there is the opportunity to diversify the potential plant <br />communities within individual reclamation blocks and further reduce erosion potential. The <br />primary directives in this regard will be to not leave preferential pathways for erosion and to avoid <br />development of surface features that will overly compromise proper seed placement by seeding <br />equipment (e.g., steep and narrow ridges). Sagebrush steppe areas will by necessity be <br />predominately smooth prior to seeding in order to accommodate the special needs of the preferred <br />seeding equipment to be utilized on those sites. <br />Another topsoil distribution technique that may be used in areas targeting Sagebrush Steppe would <br />be the development of low berms using emplaced topsoil with the aid of equipment such as a road <br />grader (see Figure 2.05-7). For ease of discussion, such berms could be termed "soil fences". <br />These berms would act as natural snowfences trapping wind blown snow to aid sagebrush <br />emergence and development. In this circumstance, a designed amount of topsoil (e.g. 9 inches) <br />would be redistributed over a target area, however, berms would be developed utilizing only the <br />topsoil resource. Where upper layers of topsoil have been pushed aside, a depth of remaining <br />topsoil may be in the 2-4 inch range that should then help to encourage sagebrush emergence while <br />discouraging vigorous grass growth. Where topsoil is bermed, a peak depth up to 30 inches may <br />result. In these thicker topsoil areas, other taxa within the seed mix (or alternate mix) should <br />provide additional competitive advantage. It is critical that berms be constructed on the contour <br />to preclude development of preferential erosion pathways. It is also necessary that berms only be <br />constructed where they will be approximately perpendicular to the prevailing winds, otherwise <br />there is little benefit to be gained. Furthermore, berms would have to exhibit low and rounded <br />shoulders to allow seeding equipment to operate properly. Implementation of techniques such as <br />this must necessarily occur as a result of site-specific opportunity (as opposed to plan) given a <br />variety of factors, not the least of which is availability of equipment and personnel. <br />As indicated on Figure 2.05-7, the dimensions (in cross-section) would need to be based on the <br />width of seeding equipment to facilitate proper seeding operations, although the widths indicated <br />may be changed in the field, especially given aspect differences. In this regard, sagebrush <br />conducive seed mixes would be applied to the shallow soil areas as well as the uphill -facing side <br />of the berm (west -facing slopes). This is the area that will receive maximum benefit from <br />entrapped snow. The downhill -facing side of the berm would ideally receive the grassland <br />conducive mix owing to the steeper slope (4:1). For easterly aspects, the grassland conducive mix <br />would still need to be applied to the downhill 4:1 slope. As this technique is developed and <br />"proven", modifications to seed mix placement can and should be made as necessary. <br />Revegetation Plan <br />Following the retopsoiling of an area, any necessary fertilization, surface preparation, berm <br />development, construction of contour furrows, and seeding of the reclamation will take place. <br />The reclamation seed mixture for areas targeting grassland (grazingland land use and erosion <br />control), as shown in Table 2.05-7, Reclamation Seed Mixture, contains sufficient diversity for <br />Rule 2 Permits 2.05-30 Revision Date: 5/25/18 <br />Revision No.: RN -07 <br />