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Home My WebLink AboutSpecial Report (048) ~t.-1) Olf-oDJ2] Olympic Wetland Resources, Inc. Dixie Llewellin, Principal Biologist . ." --- --', - - " - - ~. .---- '-", . - -", . -. '_.-.--... - - .- -.- A wetland delineation . was conducted on March 22, 2004:for. QUell ZOITclh. ., The subjectpaI"celis 1()6~ted ........ within the Bishop Hill Subdivision east of Center Valley Road. The delineated Class II wetland is . confined to a drainage corridor that drops approximately 4-feet in elevation from the surrounding terrain. Recent logging has removed the majority of vegetation from the 100 buffer associated with this Class II wetland. The proposed building site is within the cleared 1 DO-foot buffer. Buffer averaging and reduction are allowed, under certain circumstances, as defined in the Unified Development Code (Section 3.8 Averaging Buffer Widths). Reducing the buffer for the preferred home site location will not adversely impact the wetland functions and values. The buffer will be increased to the west of the building site (as indicated in the Appendix Sheet # 1, Buffer A veraging Map). A high quality wetland was identified to the west and north of the subject parcel; this wetland will receive added benefits from an increased buffer. The buffer will be reduced by approximately 75 feet for the single-family residence and increase the same amount to the west; the total square footage of buffer will remain the same. The site is has a high diversity of native species, with14 wetland species, and 12 upland species. Over time pre-existing plant communities will become established if aggressive weeds such as Scot's broom, Himalayan blackberry, and thistle are controlled. It is recommended that additional native trees and shrubs be planted to enhance the impacted buffer. Species could include cedar (does best in shade), spruce, Douglas' fir, vine maple, salmonberry, and Indian plum. Included with this letter is a summary of installation specification and recommendations. If you need any further information please feel free to contact me. ~ r~6J(~ Tfn. ""~( rffi' \ ' , ., I, n I "~I r' I l \ \ J U NIl 2004 \ L::;j \ ~l~.., "~>"~ . EPT QF.'CO<T':;";;\ uE.VELOPMUH ~_~.......--=---,...~2.~V; I' ___--~------_.-----. -' Dixie Llewellin, Principal Biologist Olympic Wetland Resources, Inc. Certified for Wetland Delineation, 1987 Manual. Wetland Training Institute, June 1995. rille: Buffer Averaging Map SmIe: 1" + 1 DO' Sheet OI)'111pk Wetland ResoOKeS, In Parcel #901 355 009 856 50th Street May 2004 #1 POIt iwnsend, WA 98368 ctlellt: Quen Zorrah \\ 360 385-6432 2023 E. Sims Way #206 JoL #: 2004 8488 I Port Townsend, WA 98368 ........................... ... ................ .+ .........~ / ~ ! ~ V ~\I/ j ( ~ ~ ~~ "/ . ~ . \\ ~ V ~ t ~/ . Wetland Mapped on Jefferson Coun , ~_~ '~u'~~if'[E~ ~ Dr---. . -- 'n.'._----, 1 ~ ! '! ~L i JUN 1 1 2004 !l0 , I L.~ I d./ ..::, c,' .... 1 " "J -f~-" . DEPT. OF-CO/<,;f.~U';~!\-y 0EVELOPMEfH ~-----. . 10 cry cry tt~tf~~~ ~ j ~ ~~ Draina e Corrid 662' Access Road All wetland locations and sizes are approximate; to establish exact points a formal survey is required Delineated Wetland Edge 100' Buffer From Wetland Edge Buffer Average . Flagged delineation markers ~., '___'__'_U'"".,,,__,.,,,,, ...~.__~.., 'fDJ. '. ". Ji ._~ .re u"W! [E .J..;n\!~ I.i lr<. !!j ~; I ( : I J UN 1 1 2{ifM. : ; L .;: I ~ . '. \JV , . ,. .._ Installation Specifications and Recommendations ...:::Pl OF VJ;,. j~'\E'-OPMh! Fall Installation Planting should be installed between mid-September and mid-November, unless the new plantings can be watered throughout the summer. Plantings installed in the fall generally outperform those installed in the late winter or spring. Plants put in the ground in the fall have the advantage of an extended period for root growth before rapid top growth in the spring. In the fall, the soil is warmer and more aerated than in the spring and most plants experience active root growth during this time. The cool, cloudy days and frequent precipitation of fall and winter also provide ideal transplanting conditions. Until sufficient root systems develop, newly installed plants will undergo transplanting stress that can be exacerbated by hot sunny days. Fall and winter weather allows for reduced transpiration and provides ample moisture for the roots while the plant recovers from transplant shock. Root Disturbance Immediately before installation plants with broken, damaged, or twisted roots must be pruned. Matted or circling roots of containerized plantings must be pruned or straightened and the sides of the root ball must be roughened from top to bottom to a depth of approximately half an inch in two to four places. If circling roots are left, they may eventually girdle the plant as they grow and thicken in place. If the roots at the edge of the root ball are straightened and extended, they will have access to a greater volume of soil in the planting hole. Also, the roughened edges of the root ball will have better contact with the backfill soil. Disturbing and removing one-fourth to one-half of the roots in the outer inch of the root ball will damage only the most sensitive plants; most often, this treatment actually stimulates increased plant growth. Plant Depth The finished height of each plant's root ball will be slightly higher than that of the surrounding soil. The exception is for sandy soils, in which case the soil heights will be even. The top of the root ball will not be covered with backfill soil. A watering basin will be formed around each planting by building a berm of soil at least 30 inches in diameter. When planting a container-grown plant, the top of the root ball should not be covered with any other soil. Covering the root ball with soil, particularly if it has a finer texture than the potting or field-growing soil, will generally cause water to flow around the root ball instead of into it; root balls covered in this way may 1 receive water only from below. To allow direct wetting of the root ball from above, install the plant so that the top of the nursery soil is slightly higher than the surrounding soil level. If the soil is sandy, or of a large particle size, then the nursery soil should be level with the surrounding soil. A watering basin made of mounded soil around each planting will further help to catch water from above-the berm should be at least 30 inches in diameter surrounding a plant. Mulch placed within the basin and on the berm will limit moisture loss from the root ball and surrounding soil, but take care that it does not come into contact with the stem of the plant as rodents or pathogens living in the mulch may attack the bark. Re-seeding After the completion of the construction and planting projects, a seed mix will be evenly spread on all bare areas. Please fmd a recommended seed mix below. Table 2. Re-seeding Recommendations and Quantities Scientific Name Common Name Percent estuca rubra var. commutata ed fescue 40% echampsia cespitosa ufted hairgrass 30% olium multiflorum nnual ryegrass 20% Trifolium hybridum sike clover 10% Planting recommendations: 25 lb. per acre Maintenance: Weeding and Irrigation The use of appropriate native species and careful planting ensures that the need for ongoing maintenance will be minimized. However, some maintenance is required to ensure that the young plants become established. It is recommended that weeding around new plants be conducted once or twice a year during the months of May and September for the first five years, and as often as needed after that. All Scot's broom, Himalayan blackberry, and thistle should be monitored and eliminated from the site. Irrigation-may be required for upland species (vine maple, red-flowering currant, and pine) for the first three years or until plants are well established. Hand watering or irrigating with overhead sprinklers once a week should be adequate during the hot summer months. Wetland species that are planted near the creek corridor may require less watering. 2 --~' ,.,.- -'no. ,--- -Q: f~--- \E ~ ~- ~.~~-~1.' n) \ ; , D -------- '\' - j r---- \\\ !; ; "L ,- If\L JUN 1 1 2004 \ L-~.;' : \J i \ ; I , : L.. :.~.u j.-'",',J_"y._,J _; _ jU~ ':L~~.. ':,,:;,;":' PMfJ-ir j ;: DEP1. OF CON.t.'1L:ldi t u~~_~-- ._~