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the primary headwaters of Amazon Creek. Site E37K is comprised of three stream reaches <br /> that flow through the forested areas of the Ridgeline Trail park system. The stream starts in <br /> a forested area above 1,000 feet, flows past Fox Hollow near the UGB, and continues down <br /> to Martin Street and Kinney Park at the Amazon. Portions of the site have been thinned or <br /> narrowed by adjacent development, such as at upper Amazon Drive. However, overall, the <br /> corridor is relatively intact. Native species are dominant, including Oregon ash, Douglas -fir <br /> and willow. This corridor is located almost entirely within City -owned Ridgeline Trail park <br /> land. Near Canyon Drive and Martin Street, the stream (a non -Goal 5 portion) enters a <br /> narrow channel that flows very close to houses and garages, with predominately native <br /> riparian species. The stream at Center Way (E37L) is located mostly on Ridgeline Trail park <br /> land. It begins near upper Dillard Road, and is comprised of three stream reaches that flow <br /> down steep slopes through a mixed deciduous /conifer forest, to the end of Center Way and <br /> the BPA powerline easement, where they enter a pipe. There are portions of the corridor, <br /> such as those near the BPA easement, where invasive species such as Armenian blackberry <br /> are prevalent. However, the corridor contains primarily native species, such as Oregon ash, <br /> big leaf maple ponderosa pine, willow, and red -osier dogwood. These sites are valuable for <br /> their diversity of plant species, including both riparian and upland species, and structural <br /> diversity (trees /shrubs /groundcover layers), making the sites valuable for a variety of <br /> wildlife species. Like other stream corridors within the South Hills, these two sites are <br /> characterized by steep stream gradients and steep surrounding topography, giving them a <br /> valuable role in water quality moderation within the Amazon basin. <br /> (6) South Hills at Dillard (E37M): <br /> (a) South Hills at Dillard Hollow: <br /> This site (E37M -1, M -3) is one of the most pristine riparian corridors the Inventory. <br /> Unlike many other sites, this stream corridor is virtually free of non - native species. The <br /> site is actually two tributary streams that flow from near Dillard Road down a steep, <br /> forested slope and join just east of Nectar Way. The upper portion of the creek (E37M -3) <br /> starts above a "hairpin turn" on Dillard Road within the City -owned Amazon Headwaters <br /> Park, a part of the extensive Ridgeline Trail park system. The stream continues northwest <br /> (E37M -1) to Nectar Way, where it is joined by the other tributary. The site is a corridor <br /> of mixed deciduous /coniferous forest of native species, including Oregon ash, bigleaf <br /> maple, and Douglas -fir. Near the bottom of the slope, the streams join and flatten out into <br /> a low depressional broadleaf wetland area, consisting of ash, willow, and native <br /> understory. Although this portion of the site was not mapped as locally significant <br /> wetland, it exhibits wetland characteristics, such as wetland plant species. In addition to a <br /> very high quality riparian plant community, the site provides a wildlife corridor between <br /> the large protected habitat areas in the extensive Ridgeline Trail park system and habitats <br /> at lower elevations. <br /> (b) South Hills at Dillard ditch: <br /> Across Dillard Road, and not connected to the Dillard Hollow stream, is a very narrow <br /> drainage channel (E37M -2). It collects drainage from the slope above, flowing along <br /> Dillard Road for a short distance below the Hunters Glen development. The channel <br /> contains virtually no riparian vegetation, and functions essentially as a roadside ditch. <br /> Land uses within the sites in this analysis group are primarily single family residential. A small portion <br /> of the St. Clair Lane stream (E37 I) is located in an undeveloped area of a school site. Approximately <br /> ESEE Analysis Page 6 <br />