Dickey-Lincoln School Lakes Project Transmission Studies Environmental Impact Statement: Appendix B: Alternative Power Transmission Corridors

This report identifies alternative corridors of land within which transmission lines could be routed and details various impacts on the environment which would be associated with introduction of transmission facilities. Many alternative corridor locations were identified (see Figure 1-1). Identification of these alternative transmission corridors was a complex process, since the number of potential corridors capable of connecting the various substations was myriad; the \u27least desirable\u27 potential corridors, i.e., those where transmission facilities might have entailed severest impacts on the environment, had to be eliminated from consideration before alternative corridors could be delineated. Identified alternative corridor locations were subsequently evaluated to determine \u27most desirable\u27 corridors

Channeled Scablands of Eastern Washington

https://digitalcommons.cwu.edu/government_posters/1163/thumbnail.jp

Dickey-Lincoln School Lakes Project: Transmission System Planning Study

The purpose of this report is to investigate various transmission system alternatives and recommend a plan of service to integrate power from the Dickey-Lincoln School Lakes (D-L) Project into the New England electric power transmission system

Dolores Project Colorado, Final Supplement to the Final Environmental Statement

This Final Supplement to the Final Environmental Statement (FES) to the Dolores Project describes project modifications since completion of the 1977 Final Environmental Statement on May 9, 1977, (FES 77-12) and a Finding of No Significant Impact approved May 11, 1981, for the addition of two hydroelectric powerplants to the project. The project modifications include adding salinity control and changing the alignment of the Towaoc Canal from west of Cortez, Colorado, to the east of the city. In addition, refinements would be made to the project plan by deleting Monument Creek Reservoir and the Cortez-Towaoc Municipal and Industrial Pipeline from the plan; combining the capacities of two pumping plants into one plant near Dove Creek, Colorado; constructing a delivery pumping plant near Cahone, Colorado, as an economical alternative to increasing pipe size; increasing the capacities of the McPhee and Towaoc Powerplants; and improving the operation, maintenance, and replacement of the project by installing a computerized system

Plan of Development for Valley Gravity Project, Lower Rio Grande, Texas

PROJECT REPORT NO. 5-0619-0 The Valley Gravity Project plan has been formulated to furnish an adequate and dependable irrigation water supply for fertile and productive area in the Lower Rio Grande Valley, Texas. It would also provide drainage works, which would remove the threat of destruction of the economy of the area due to effects of a high water table and salt accumulations. The project works would permit generation of the maximum practicable amount of electrical energy and at the same time the plan would free for industrial and other development of the valley electrical energy which otherwise would be required to operate irrigation pumping plant. Other incidental benefits include fish and wildlife conservation, recreation and flood control.https://scholarworks.utrgv.edu/lrgv/1007/thumbnail.jp

Draft Climbing Management Plan and Environmental Assessment, Devils Tower National Monument, Wyoming

The unique geological formation known as Devils Tower annually draws nearly half a million visitors. Most visitors enjoy photographing the butte, hiking area trails, camping, picnicking, and wildlife viewing. A few thousand technical rock climbers annually travel from across the country and the world to scale the butte\u27s nearly vertical cracks and columns. Devils Tower also is a sacred site to several American Indian peoples of the northern plains. Increasingly, American Indian groups travel to the monument to perform traditional cultural practices. Devils Tower is highly regarded as having significant values that make it worthy of inclusion to the National Register of Historic Places. Recreational climbing at Devils Tower has increased dramatically from 312 climbers in 1973 to over 6,000 per year since 1992. New route development in the last ten years has led to increasing numbers of bolts on the tower. Approximately 580 metal bolts are currently embedded in the rock. Devils Tower is world famous for its crack climbing, which depends primarily on removable protection placed by climbers in cracks. Activities performed by the numerous climbers on the tower during the spring through fall climbing season has affected nesting raptors, soil, vegetation, the integrity of the rock, the area\u27s natural quiet, and the rock\u27s physical appearance. American Indians have complained that the presence of climbers on the sacred butte and the placement of bolts in the rock has adversely impacted their traditional activities and seriously impaired the spiritual quality of the site. The preferred alternative and five other alternatives address the monument\u27s objectives to: 1) preserve and protect the monument\u27s natural and cultural resources for present and future generations, 2) manage recreational climbing on the tower, 3) increase visitor awareness of American Indian beliefs and traditional cultural practices at Devils Tower, and 4) provide the monument with a guide for managing climbing use that is consistent with National Park Service management policies and other management plans at Devils Tower National Monument