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Home My WebLink AboutNC0087963_Additional Information Received_20040423NPDES DOCUMENT :;CANNING COVER SHEET NC0087963 Buckeye Creek WWTP NPDES Permit: Document Type: Permit Issuance Wasteload Allocation Authorization to Construct (AtC) Permit Modification Complete File - Historical Engineering Alternatives (EAA) Correspondence Owner Name Change Addi(tioniInforrnationZved Instream Assessment (67b) Speculative Limits Environmental Assessment (EA) Document Date: April 23, 2004 This document is printed on reuse paper - ignore any content an the re-rere +side Mir .w U. APR L!i!_ 3 H l DF" p 5tr ,- SOURCE RCI ATLANTIC PLAN ENGINEERING CORPORATION ENGINEERING NOW AND FOR 111E FE"11 RE. Date: David A. Goodrich NPDES Unit Supervisor 1617 Mail Service Center Raleigh, NC 27699-1617 Re: NPDES Permit Application Buckeye Creek Project (Proposed) Return # 2205 Watauga County Dear Mr. Goodrich: APR 2 3 2004 On Attachment 9, Curtis Weaver, Hydrologist and P.E., from the USGS Office, calculated a 30Q2 of 0.06 cfs for an unnamed tributary which ajoins Thunderhole Creek. Buddy Cox from John. S. Cox and Associates, Inc. has a system for sale that meets the standards of 15A NCAC 02B.0206 (d)(1). We have provided the following information: * Present value costs on all alternatives. * The soil report did state that there were areas where a land application for pre-treatment and drip irrigation might be used. The only area that could be used for is the front area (3.75 acres) leading into the property. This land is normally used for landscaping, a sign and an entrance. Even with this Attachment 5, 6 and 8 show the alternatives of subsurface drip irrigation, spray and reuse are very expensive alternatives. * Several properties nearby have septic tanks, but could not support an additional 50,000 g/day. There is a letter from the owner (Attachment 3), which states that he knows of no other septic system, which would support this system. James Reid, NCDENR Regional Office in Asheville, states in attachment 4, that he knows of no other treatment plant that is reasonably close to this project. PO Box 1691 (828) 327-2621 (828) 327-0931 Fax Hickory, NC 28603 atlplan@conninc.com PEI There are several other attachments also included: * Attachment 14, Local Government Review Requirements. * Attachment 15, Tax Office information showing land use. * Attachment 16, A statement from Chuck H. Davis Jr., P.E., telling why the drip and spray system will not work in this area. * Attachment 17, Letter from Appalachian District Health Department, Lawrence G. Caviness, Environmental Health Supervisor, who states: "It is my opinion that subsurface application would not be practical for this site. * This project is now two (2) phased. There are 86 units in phase one (1) and 52 units in phase two (2). All 138 units will generate wastewater for the proposed treatment system. * Attachment 18, lists the people contacted for prices of equipment, labor and cost per linear foot. * Attachment 19, Flow Schedule for unnamed tributary. * Attachment 20, Portion of "Basin wide Assessment Report, Catawba River Basin" 2003. 0:4(/ r J Richard J. Franklin, P.E. President (ATLANTIC PLAN ENGINEERING CORPORATION Engineering Alternatives Analysis (EAA) I. GENERAL INFORMATION A. Buckeye Creek — Watauga County Hwy 221 (Project Location) Owner: Franklin Reed Williams, II 9803 River Road, Richmond, VA 23233 Phone: (804) 784-0322 Preparer: Atlantic Plan Engineering Corp. P.O. Box 1691, Hickory, NC 28603 - LNG INURING NOW AND Wit TM. 11'11 Iu: B. The project is a townhouse development with approximately 138 BD units. This would generate approximately 49,680 GPD (138 x 360 GPD). The collection system is a proposed low-pressure sewer lines to a treatment plant. C. There are no existing facilities to be utilized in the new project. D. The original submittal was for three (3) phases of construction. It is now programmed for two (2) phases. 86 units in the first phase and 52 units in the second phase. All units will tie into the sewage treatment plant. II. Evaluation of Disposal Alternatives A. Connection into an existing sewer collection system (Public or Private) Public Sewer System: See attachment 1, letter from the acting Engineer, Marion Rothrock, P.E., for the Town of Blowing Rock. Attachment 2(A) and 2(B) — See figures to run the gravity lines or pressure lines back to Blowing Rock's sewer system. Please note: These do not include blasting through rock to lay this pipe. PO Box 1691 (828) 327-2621 (828) 327-0931 Fax Hickory, NC 28603 atlplan@conninc.com IMR Wink NEM • 2. Private Sewer System: The private sewer systems close have septic tanks and do not have a capacity for an extra 50,000 gallons per day. The owner wrote a letter stating that he did not know of any other private sewer systems in the area (attachment 3). James Reid, from the NCDENR Regional Office in Asheville also stated that he knew of no other treatment plants down river (attachment 4). B. Land -Based Disposal Attachment 5 & 6 show the cost for the demand spray systems. The extra land that is needed for these systems at a cost property -attachment 7). C. Wastewater Reuse $257,500/acre jsee appraisal of land near this 7 PcCd syrequire 8.5 acres. Only 3.75 acres are available. At a cost of $257,000 per acre this alternative is not feasible (see attachment 8). D. Surface Water Discharge The US Geological Survey (USGS), Mr. Curtis Weaver, was consulted to obtain receiving -stream flow information. The 7Q10 flow was 0.02 cfs. (see attachment 9). According to 15A NCAC 02B .0206 Flow Design Criteria For Effluent Limitations (d) (1) "In cases where the 7Q10 flow of the receiving stream is estimated to be zero, water quality based effluent limitations will be assigned as follows: Where the 30Q2 flow is estimated to be greater than zero, effluent limitations for new or expanded discharges of oxygen consuming waster will be set at BO135 = 5 mg/1 (see attachment 3 10). The sewage treatment plant quote by Buddy Cox (attachment 11) meets this criteria. Present worth and project cost determined by John T. Coxey, P.E. (attachment 12). E. Disposal Combinations Except for 3.75 acres, which is the area just as you come into the subdivision, there are only scattered areas available to use for drip, spray and reuse (see attachment 13 showing extreme slopes on the property). This frontal property is usually not used for a septic field, and the piping to these other available areas would make these systems unmanageable. Table for EAA Alternatives Initial Cost Annual Costs PW (1) Public Sewer System — Gravity 1,986,268.43 0 (Paid by Blowing Rock) 1,986,268.43 (2) Public Sewer System — Forced Main 4,322,666.68 0 (Paid by Blowing Rock) 4,322,666.68 (3) Connection to a Privately Owned Treatment Works Not Available N/A Not Available (4) Individual Subsurface System Land needed for this is not available Cost 1,380,000 (Not Counting Land) 0 1,380,000 (5) Community Subsurface System Land Not Available Cost 1,380,000 0 1,380,000 Drip Irrigation Surface 823,246.50 Biofilters Replaced 588,000 1,906,400.50 Drip Irrigation Subsurface 823,246.50 588,000 1,906,400.50 Spray Irrigation 10,328,267.50 Biofiiters Replaced 588,000 11,411,421.50 Reuse 390,130 32,100 3,330,974.50 Surface water discharge with NPDES Permit 390,130 32,100 730,069.10 NMI Rothrock Engineering, PLLC Telephone * 828/757-9834 Fax * 828/758-0275 E-mail * rothrock@starband.net 4779 Kirby Mtn. Rd. * Lenoir, NC 28645 July 3, 2003 Richard Franklin, P.E. .. Atlantic Plan P. O. Box 1691 Hickory, NC 28603 Re: Sewer Service Town of Blowing Rock Dear Mr. Franklin: Marion 9 o1hrock, 93.8. N.C. 3476 Ky.7950 S.C. 5817 Tenn.10,651 Fla. 30195 Penn. 016014 CONSULTING ENGINEERS Civi! - :Uec•h. - Elec. Suh-Division - II'a►cr - Sewer Grading - Erosion Control The Town of Blowing Rock has no plans and does not expect to extend it's town limits and accompanying utilities including water and sewer, to the west along US 221 beyond the Blue Ridge Parkway Lands. The present Town Limits on the west side of Blowing Rock are already to Parkway Lands. _ The cost of providing service to any areas west of Blowing Rock along US 221 would be cost prohibitive. MNI I trust the above answers your question concerning the possibility of water and sewer service to your project from the Town of Blowing Rock. If you have any questions, please let me know. Rothrock En: veering, PL P. Mari Presid: nt Rothrock, P. Cc: Scott Hildebran, Town Manager Attachment 1 PIR MR To Blowing Rock By Road MI 3 miles X 5,280 =15,840 feet mile 15,840 feet X #271ft. = $427,680 for 12" Sewer pipe For manhole every 300 feet 15,840 = 52.8 = 53 manholes 300 53 manholes X $1800/manhole = $95,400 3 Lift stations at $28,000/lift station $28,000 X 3 = $84,000 Total to run to Blowing Rock to Public System $427,680 + $95,400 + $84,000 = $607,080 Attachment 2(A) 01114 . Plant to Blowing Rock over mountains 3,000 feet, but the route goes over four (4) mountain slopes. mg Pipe: 24,000 ft. x $27/per ft. = $648,000 'a' 4 lift stations x 28,000 = $112,000 Manholes = 24,000 = 80 manholes mi 300 80 manholes x $1,800 = $144,000 wal Total = $904,000 1W Sul rug mg FIR mg num tug MR Attachment 2(B) F. Reed Williams, II 9803 River Road Richmond, Va. 23233 Monday, July 7, 2003 3:50 PM EDT Mr. Richard Rankin, P. E Atlantic Plan Engineering Corp. P. O. Box 1691 Hickory, N. C. 28603 Dear Mr. Franklin: This is in regards to my approx. 65 ac. piece of property along Hwy. 221 in Watauga County. I have owned the property for many years. I believe Fpurtha it in 1972 1 am not aware of any sewer plants near my property or any located down stream from it Sincerely, t 1 Attachment 3 NMI MIER NMI min MMI State of North Carolina Department of Environment and Natural Resources Asheville Regional Office Michael F. Easley, Governor William G. Ross, Jr., Secretary Alan W. Klimek, P.E., Director Division of Water Quality WATER QUALITY SECTION July 18, 2003 Mr. Richard J. Franklin, President Atlantic Plan Engineering Corporation Post Office Box 1691 Hickory, North Carolina 28603-1691 Facsimile Transmission (1 page, 828-327-0931) Dear Mr. Franklin: AA1 NCDENR NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES Subject: Williams Project Watauga County This letter is provided in response to the inquiry dated July 14, 2003. Staff of the Asheville Regional Office are unaware of any discharge -type (or any other type) wastewater treatment system in Caldwell County that is reasonably close to the proposed project. Please contact me if additional comments are required. xc: (w/attachments via LISPS) 59 Woodfin Place, Asheville North Carolina 28801 An Equal Opportunity Affirmative Action Employer Sincerely, James R. Reid Environmental Engineer Telephone 828-251-6208 FAX 828-251-6452 50% recycled/10% post -consumer paper Attachment 4 II I MI OMNI NOR al Nil ATLANTIC PLAN ENGINEERING CORP. ENGINEERING & PLANNING CONSULTANTS 828-327-2621 P.O. Box 1691 Hickory, NC 28603-1691 E-MAIL: atlplan@conninc com FAX: 828-327-0931 Date: July 14, 2003 To: Jim Reid NCDENR Interchange Building 59 Woodfin Place Asheville, N.C. 28801 Dear Mr. Reid: Sue White, from the Winston Salem NCDENR office, asked me to submit a map in the Caldwell County area (downstream from a Watauga County project location) to see if there might be any sanitary sewer systems that you might know. The owners of the project property, Reid and Gay Williams, do not know of any package sewage treatment plants downstream. Attached is a map of their property and what is located downstream. Please check to see if you know of any package sewage plants in this area. Thank you, Richard J. Fran P.E. President . .-1i Trout- k • "Y 1 _ : k Li • 2 +,. 11 t,1:r' c..a tilt t - • Julian Pricy lake.Dam• r ,4'1. +` .� Hert Oa. :rig Od 0fwHa I Cme take Tommie. aOaln P4lroad �134win _ ' e•hr_e - - Lake _ N•�7 f, t :. u i `>\., U RocY 6- �t-fat. r t` ! -t .�7fryr am. -+Y.. t . -.s:rv/ Kay';'�±ci!"'" �MdnT Hrrprxs lake `y 1.�1_ ' i721r ' \\ice '-�"� CO. Ca4Four u:` • --`-•...--,--'' Gap 1rl �*a� • &to i Pay/BLa 11G ( atit'r..,,SITE ParkWATAUGA : �Y- fh lx:.-st aiiir CALDWEiLL ES' CO. •,ey Bawl •tcai ��Eitk ,//i \)• Pa;lnr t • I , 'F?r,-k' iKnou t } - $bb» Pic,ut Il1i::a• --1:30° 5' .. Satd i � c.gi :h7nrr Weir n• . . ' .. - . L'p{on. Irtle HceKy Knan it.s k'f' I . • • ^NO3 _ t, • • y,n,�..vmb . ;,..,,,..t Globe 64..ont.a,,. • .. -N•n SIS• •• Rdie Srrt Rr-k 1L :,—,4 ..C•;&-,- . - 3-D ToprQzuds Copyright (9.1999 Delnzwe Yarmouth. ME 04096 1.909 ti Sea1r_ 1 :56,C O Death 12-0 Datum WCS84 Reed Williams Analysis for subsurface drip irrigation system: Townhouses arranged in four (4) units per building, with 3 bedrooms per unit. '— Each building would generate 1,440 GPD. Volume of septic tank = (1.17)(1,440 GPD) + 500 = 2,185 gallons, use a 3,000 gallon septic tank with an effluent filter at discharge. "— Also, a total of four (4) "Ecoflo" biofilters will be required at each building for pretreatment of effluent before discharging to drip system. Calculate a system for each building. A storage/pump tank for each building will be required to have a storage capacity of 2/3 of septic tank. (3,000 gallons)(2/3) = 2,000 gallons, use 2,000 gallon tank for storage/pump. If collecting the effluent for a central storage/pump tank it would need to have a 50,000 gallon capacity. For the drip system field, assume an application rate of 0.4 GPD/sqft. A minimum of 3,600 sqft would be required at that application rate. 1,440 GPD / 0.4 GPD/sqft = 3,600 sqft - With a standard spacing and separation of the lines and emitters of 2', the total length of lines needed would be 1,800 1ft. The minimum area required for the drip field and repair area will be (3,600 sqft)(2) 7,200 sqft or 0.17 acres for each building. There are-34 buildings, so the total minimum area for the drip system and repair area would 75.77acres. A um for each field would be required to have`a capacity of 20 GPM to reach the pump design flow for the field lines. Stroupe Septic Tank Systems $1,800 Septic Tank $1,800 Installed $2,400 138 Units x 2400 = $331,200 1,800 lft. x $7/ft. = $12,600 Using the front entrance area 1.16 acres + 1.59 acres = 3.75 acres Area needed 5.70 — 3.75 = 1.95 acres needed 1.95 acres 0245,870 = $479,446.50 Total = $823,246.50 r -14,5°b)%44 f( Attachment 5 Analysis for surface application drip/spray irrigation system: Townhouses arranged in four (4) units per building, with 3 bedrooms per unit. Each building would generate 1,440 GPD. Volume of septic tank = (1.17)(1,440 GPD) + 500 = 2,185 gallons, use a 3,000 gallon septic tank with an effluent filter at discharge. Also, a total of four (4) "Ecoflo" biofilters will be required at each building for pretreatment of effluent before discharging to drip system. Fon Calculate a system for each building. A storage/pump tank for each building will be required to have a storage capacity of 2/3 of septic tank. (3,000 gallons)(2/3) = 2,000 gallons, use 2,000 gallon tank for storage/pump. If collecting the effluent for a central storage/pump tank it would need to have a 50,000 gallon capacity. For the surface application system field, assume an application rate of 0.05 GPD/sqft. A minimum of 28,800 sqft would be required at that application rate. 1,440 GPD / 0.05 GPD/sqft = 28,800 sqft Since the application area would be in the woods use drip system. For drip system with a standard spacing and separation of the lines and emitters of 2', the total length of lines needed would be 14,4001ft. The minimum area required for a surface drip field and repair area will be (28,800 sqft)(2) = 57,600 sqft or 1.32 acres for each building. There are 34 buildings, so the total minimum area for the drip system and repair area F.1 would be 44.88 acres. A pump would be required to have a capacity of 20 GPM to reach the design flow for the field lines. 2,000 Gallon tank $2,400 x 138 = $331,200 12 - "Ecoflo" biofilters Lines total $14,400 lf. x $7/ft. = $100,800 (44 acres — 3.75) = 40.25 acres $9,896,267.50 Total = $9,896,267.50 + $100,800 + $331,200 = $10,328,267.50 JacJ A. tfu 920 North Bridge Street era) FIR Elkin, North Carolina 2862I Fan Pmg August 30, 2002 Mr. F. Reed Williams, II Mr. Gaylord Williams 9803 River Road Richmond, Virginia 27078 Re: Appraisal of 2.095 Acre Tract on Knob Road F. Reed Williams Property Dear Mr. F. Reed Williams, II and Mr. Gaylord Williams: In accordance with your request, 1 have made an appraisal of the above subject property. I am submitting you two copies of the apprisal report with all the ��g to and in theP� data that Y have compiled in the search of the market inspection of the subject property. The value as defined in this appraisal report is FIVE HUNDRED FIFTEEN NO/100 DOLLARS($515,000.001. THOUSAND AND This value resents my estimate of the market value of the subject pro 14, 2002. The effective date of the narrative a P Pem' as it existed on August PP�� report is August 14, 2402. The method of valuation, together with the date and the assumptions upon which these estimates of value are based, is detailed in the attached report. Appraisals and Real Estate 336435-2256 Fax336.83S-8985 gal Very yY ack A. Underdown State Certified G Certificate No. A6 JAU:bw a Attachment 7 Photograph Views L Analysis for water reuse with surface application drip/spray irrigation system: Townhouses arranged in four (4) units per building, with 3 bedrooms per unit. Each building would generate 1,440 GPD. Volume of septic tank = (1.17)(1,440 GPD) + 500 = 2,185 gallons, use a 3,000 gallon septic tank with an effluent filter at discharge. Also, a total of four (4) "Ecoflo" biofilters will be required at each building for pretreatment of effluent before discharging to aeration tank. Calculate a system for each building. An aeration tank will be required with a capacity of 360 gallons. A five (5) day side -stream detention would be required with a capacity of 7,200 gallons. A storage/pump tank for each building will be required to have a storage capacity of 2/3 of septic tank. (3,000 gallons)(2/3) = 2,000 gallons, use 2,000 gallon tank for storage/pump. If collecting the effluent for a central storage/pump tank it would need to have a 50,000 gallon capacity. Since the application area would be in the woods use a drip system. For the surface application system field, assume an application rate of 0.27 GPD/sqft. A minimum of 5,333 sqft would be required at that application rate. 1,440 GPD / 0.27 GPD/sqft = 5,333 sqft For drip system with a standard spacing and separation of the lines and emitters of 2', the total length of lines needed would be 2,667 lft. The minimum area required for a surface drip field and repair area will be (5,333 sqft)(2) = 10,666 sqft or 0.25 acres for each building. There are 34 buildings, so the total minimum area for the drip system and repair area would be 8.5 acres. A pump would be required to have a capacity of 20 GPM to reach the design flow for the field lines. 2000 Gallon tank 138 x $2,400/tank = $331,200 12- "Ecoflo" Biofilters 1 Lines 2,667 lft. x $7/1ft. _ $18,669 8.5 acres — 3.75 = 4.75 acres 4.75 acres s = $1,167,882.50 Total = $1,167,882.50 + $18,669 + $331,200 = $1,517,751.50 Attachment 8 Pagel of 1.' Atlantic Plan Engineering Corp pal From: John C Weaver <jcweaverrusgs.gov> To: <aiiplan@conninc.com> Cc: John C Weaver Icrfaaves Jsgs.gov ' Sent: Friday. February 14, 2003 g:36 AM Attach: t hundencoleoreek.ppt Subject: A.kemate location #2...Thundencole Creek low -flow discharge estimates Pal Mr. Charles Davis, rim Mr. Richard Franklin Follow-up to your question concerning the location on Thimderhole Creek "I" headwaters where the 7Q10 low -flow estimate would be 0.05 cfs, attached is another Powerpoint file that contains a slide showing the second alternate location where the flow estimate would be of this magnitude. It corresponds to the intersection of the stream and the longitude line corresponding to 81d 42. ni 30s identified at the top of the Globe quad map. �•, Meaz red by a slraight line distwee, it is equivalent to about 1,900 feet between the initial location and alternate location #2. rJ+ Mope this information helps. RIM If you have any further questions, please feel free to give me a call. Thank you. Curtis weaver 4rt♦4►+itq.w...4.4..444.+ter.•."4,14{4r4,4-.4.4. r.......w.r♦ ►�r*****+ 144 * ++�r'"'** n n *** ** �* w mil J. Curtis Weaver, Hydrologist, PE US. Geological Survey 3916 Sunset Ridge Road Raleigh, NC 27607 Telephone: (919) 571-4043 /f Fax: (919) 571-041 E-mail address -- jcw►eavertgisgs.gov regi Internet address -- htip:f/nc.water.usgs.gov/ *****�►**,''ti *****,************ * *** *********** ►�i•#*:i►•r44.4.**#*=****:k******** I mil (See attached file: thunderholecreek.ppt) pug Attachment 9 Thunderhole Creek delineations for low -flow discharge estimates 'ARK • • • f} r I, r 'R• Ili ffey a 0 •.,(aay NI )urttain *fin••,, rf • 1i t a_• Initial location delineated: 0.05 mi2 7Q10 = 0.05 mi2 x 0.2925 cfsm = 0.01 cfs 30Q2 = 0.05 mi2 x 0.7149 cfsm = 0.04 cfs ;'- \fl Alternate location #2 delineated: 0.17 mi2 7Q10 = 0.17 mi2 x 0.2925 cfsm = 0.05 cfs 30Q2 = 0.17 mi2 x 0.7149 cfsm = 0.12 cfs Alternate location #1 delineated: 0.08 mi2, 7Q10 = 0.08 mi2 x 0.2925 cfsm = 0.02 cfs 30Q2 = 0.08 mi2 x 0.7149 cfsm = 0.06 cfs (3) Toxic substance standards to protect human health will be: ,I, (A) The 7Q10 flow for standards to protect human health through the consumption of water, fish and shellfish from noncarcinogens; (B) The mean annual flow to protect human health from carcinogens through the consumption of water, fish and shellfish unless site specific fish contamination concerns necessitate the use of an alternative design flow; (4) Aesthetic quality will be protected using the minimum average flow for a period of 30 consecutive days that has an average recurrence of once in two years (30Q2 flow). . _ (b) In cases where the stream flow is regulated, a minimum daily low flow may be used as a substitute for the 7Q10 flow except in cases where there are acute toxicity concerns for aquatic life. In the cases where there are acute toxicity concerns, an alternative low flow such as the instantaneous minimum release may be used on a case -by -case basis. (c) Flow design criteria are used to develop water quality based effluent limitations and for the design of wastewater treatment facilities. Deviations from a specific water quality standard resulting from discharges which are affirmatively demonstrated to be in compliance with water quality based effluent limitations for that standard will not be a violation pursuant to G.S. 143-215.6 when the actual flow is significantly less than the design flow. (d) In cases where the 7Q10 flow of the receiving stream is estimated to be zero, water quality based effluent limitations will be assigned as follows: (1) Where the 30Q2 flow is estimated to be greater than zero, effluent limitations for new or expanded (additional) discharges of oxygen consuming waste will be set at BOD5= 5 mg/I, NH3-N = 2 mg/1 and DO = 6 mg/I, unless it is determined that these limitations will not protect water quality standards. Requirements for existing discharges will be determined on a case -by -case basis by the Director. More stringent limits will be applied in cases where violations of water quality standards are predicted to occur for a new or expanded discharge with the limits set pursuant to this Rule, or where existing limits are determined to be inadequate to protect water quality standards. (2) If the 30Q2 and 7Q10 flows are both estimated to be zero, no new or expanded (additional) discharge of oxygen consuming waste will be allowed. Requirements for existing discharges to streams where the 30Q2 and 7Q10 flows are both estimated to be zero will be determined on a case -by -case basis. (3) Other water quality standards will be protected by requiring the discharge to meet the standards unless the alternative limitations are determined by the Director to protect the classified water uses. (e) Receiving water flow statistics will be estimated through consultation with the U.S. Geological Survey. Estimates for any given location may be based on actual flow data, modeling analyses, or other methods determined to be appropriate by the Commission or its designee. N MI History Note: Authority G.S. 143-214.1; 143-215.3(a)(1); • Ef. February 1, 1976; Amended Ell: February 1, 1993; October 1, 1989; August 1, 1985; January 1, 1985. —. 15A NCAC 02B .0207MINIMUM ACCEPTABLE DEGREE OF TREATMENT History Note: Authority G.S. 143-214.1; Efj. February 1, 1976; Repealed Eff. September 9, 1979. Attachment 10 15A NCAC 02B .0208 STANDARDS FOR TOXIC SUBSTANCES AND TEMPERATURE (a) Toxic Substances. The concentration of toxic substances, either alone or in combination with other wastes, in surface waters shall not render waters injurious to aquatic Life or wildlife, recreational activities, public health, or impair the waters for any designated uses. Specific standards for toxic substances to protect freshwater and tidal saltwater uses are listed in _ Rules .0211 and .0220 of this Section, respectively. Procedures for interpreting the narrative standard for toxic substances and numerical standards applicable to all waters are as follows: MIR NORTH CAROLINA ADMINISTRATIVE CODE Eff April 1, 2003 Page 18 FAX MEMO DATE: 3/23/04 COMPANY: Atlantic Plan Engineering TO: Richard Franklin FAX NO: 828-327-0931 RE: Buckeye Creek Project Budget Pricing Dualized 50,000 GPD BESST System FROM: Buddy Cox JOHN S. COX & ASSOCIATES, INC. PO BOX 856 / 418 JOHNSON STREET PICKENS, SC 29671 PHONE: 864-878-2045 FAX: 864-878-8683 TOTAL PAGES SENT INCLUDING THIS PAGE: 6 This fax is to confirm budget pricing for a dualized 50,000 GPD BESST system by Purestream to treat domestic wastewater and is based on the following design data: Q = 50,000 GPD Limit TSS = 240 mg/1 10 mg/1 BOD5 = 240 mg/1 5 mg/1 Free ammonia = 40 mg/I Ammonia-N = 2.0 mg/1 Phosphorus = 8 mg/1 D.O. = 6.0 mg/1 The following pages is a summary of tankage, equipment, and pricing for this system. Base pricing does not include chlorination/dechlorination tank and associated disinfection equipment. Pricing for a UV disinfection unit will be sent to you by separate memo. Base pricing does include a surge tank section, anoxic tank section, sludge holding section, dualized aeration and clarifier sections, post air/flow measurement section, and microscreen unit. Pricing for adder items are _ listed at the end of the base proposal listing. Due to the fluctuations in steel prices, you may want to add a % increase in the overall budget price if you feel that a purchase will not happen within the next 3-4 months. Overall size of the system is 12' W x 12' H x 71' L shipped as a two tank unit. MOW Attachment 11 WI PM PIM Due to the climate at the site, we would recommend the use of foam board insulation under the grating covering the plant. This is shown as an adder price in . the proposal. Another alternate is to house the main plant tankage in an insulated pole building. This would resolve any problems with cold temperatures, noise ,� levels, and aesthetics in the area. If you decide not to enclose the main plant tankage, you may want to house the blower units in a small building for noise reductions. The microscreen drum filter and UV disinfection unit should be housed in some type of building due to the cold winter temperatures. Iml MN Isall MEI rmil rArl Foil Please review and give me a call to discuss. Regards, _b,,Jib,/ We are pleased to present for your consideration One(1) Purestream/BESST system, Model PES-50 prefabricated dualized sewage treatment plant capable of treating 50,000 GPD of wastewater as characterized on the first page. The treatment plant shall be as manufactured by Purestream, Florence, KY and shall consist of all necessary steel tanks, weirs, baffles, internal piping and the following items: 1 Submerged Bar Screen. 1 Surge tank section with total volume of 10,132 gallons. Includes surge pumps, slide rail assembly, dual 1.5 HP blower units, flow control box, and controls. 1 Anoxic tank section with a total volume of 11,412 gallons. Within this tank there shall be two(2) airlift sludge pumps and two(2) submersible mixers. 2 Aeration tank sections with a total volume of 22,554 gallons. Within each tank section there shall be an air header, diffuser drops and fine bubble diffusers. fun 2 Main blower/motor units for plant with TEFC motors, 7.5 HP, 230 volts, 3 Phase, 60 Hertz, with steel baseplate mounting stand; steel locking weatherproof housings; inlet filter/silencer; discharge silencer; flexible connector and pressure relief valve. 1 Prewired control panel with starters, breakers and controls in NEMA 3R steel enclosure. 2 Clarifier tank units, integral to the Anoxic and Aeration tank sections, with a total volume of 8,471 gallons. Within each clarifier tank there shall be a baffled effluent trough with adjustable weir plates. . 1 , Sludge storage section, integral to the treatment plant, with a volume of 11,543 gallons. 1 Post air/flow measurement tank section with V-notch weir plate and ultrasonic flowmeter. 1 Lot of dual path flow valves/piping. 1 Lot Galvanized steel safety grating to cover service walkways only. 1 Microscreen filter, Model 5-BMF5-0 complete with controls. 1 Factory blast in accordance with SSPC 10 and two coats of TNEMEC Series 69 high solids epoxy for a total dry film thickness of 8 to 10 mils DFT interior and 6 to 8 mils exterior. 1 Oakton series DO 300 dissolved oxygen meter for operational DO testing. The following items are not covered by this quotation and shall be provided by others. Please note that this list is not all inclusive, and only the items specifically listed within this proposal are included in this offering. Excavating Removing tank from truck Electric to control panel Finish grading and seeding External piping Backfilling Water to fill tanks Crane to set tank on pad Hook up of pre -wired components Field installation and assembly Sewage lines Fencing Concrete Anchor bolts and turnbuckles The BESST plant tankage shall be shipped to the jobsite in two(2) pieces. The heaviest piece shall weigh approximately 47,000 pounds. Total Net Price, freight included $237,609 (Price does not include any local, state or federal taxes) Option A. Full grating across plant with foam board insulation under the grating. Adder price $18,228 Option B. 45-degree stairway for access to top of plant if plant is installed above -grade. Adder price $4,100 Option C Full perimeter handrails around top of plant if plant is installed above -grade and full grating is used across plant. Adder price $10,496 rag Submittal drawings and data available in four(4) weeks after receipt of order. vir Shipment time 12 - 14 weeks after receipt of order, approved submittal and release. Due to the fluctuations in steel prices, the price quoted shall be firm only up through April 20, 2004. After this date, price will be reviewed and adjusted (if needed) on accordance with the increasing cost of steel prices. —iLfl�pJ ThV& 1+1-vu9v' 6" DIA. PIPE STUB INLET W/ 12° INVERTED GROUT RING I'-4" FROM TOP OF TANK TO INVERT FULL/SERVICE GRATING ALRABSIN— MIXED LIQUOR UNDERFLOW PIPE . MIXER I AR LIFT SUBMERGE) SUPERNATE SKIMMER BAR SCREEN UNE "C"0" CLARIBEB ANOXIC all • r • 4 " .111 ADJUSTABLE WEIR AIR LIFTS W/ CLARIFIER BAFFLE Ner — 5 UAW Sutrio4 Vol.vmf= iu 4At. Past kii2.1FLot4 1411/10.4 utoviuwir irmIt sour' os Ilttvnie" I 1041 trit, SKIMMER AIR UFT 'a" CLARIFIER 411111E111W - It J‘ •`''t • 10 6° DIA, PIPE STUB OUTLET A PoST Ala/ Floct) witivnu twit owl' 5 mu "A' /r041 14-0:11" AERATION-1 ADJUSTABLE WEIR W/ CLARIFIER BAFFLE MIXED LIQUOR UNOERFLOW P 5 LAP- 44 5trcnu".1 MODEL NUMBER DESIGN FLOW G.P.O. f:Vt5o b 1 REVISIONS IPE -1---1' 0" • FOUNDATION k0 THICKNESS TO BE DETERMINED BY PROJECT ENGINEER BASED ON LOCAL At. Put, Rtnitt SOIL CONDITIONS ANOXIC TANK VOLUME GALLON CLARIFIER vOLUME GALLON AERATION TANK VOLUME GALLON OD .E1)112- r. JOB NO: ''/2.3 /6 JOB NAME: evocirie CAI:Mc PLALltr LOCATION: DRAWN BY, ALA DATE' 10/17 2000 g4Giti I 2.21 54. SECTION "B-B" INTERNAL STRUCTURAL REINFORCEMENT "F" • SECTION "A -A" SLUDGE HOLDING VOLUME GALLON 1 II" 1 'LH 1lc WY' DC CRIPTION SCALE' NONE PONEMEAtill 54-3 MAGNESIUM AI IODES Puvralit CliLieRSE-60NiACT VOLUME GALLON L" q.CIFL !VO[ PA.& USBF DOUBLE CLARIFIER TREATS 26,000 TO 50,000 GALLONS A I st;ApiZ!`... USBF— 4 a -� Ecofluid LLc GRE Idea/ inexpensive way to upgrad tertiary wastewater treatment to meet increased stringent effluent requirements 6TECHNOLOOY BMF Microscreen Drum Filters are designed for the tertiary stage filtration process and especially for the removal of non -soluble par- ticles in community and industrial wastewater treatment plants. The BMF Filters are open, gravitational filter sets based on the drum filter principle. The filters are constructed so that they can be built into an underground concrete channel or attached to a stainless steel tank for aboveground installation. Microscreen Drum Filters are manufactured using stainless steel for the larger parts and shafts, and the highest quality plastic for the smaller parts. The simple, rugged construction eliminates deposits left below the water surface and guarantees safe, low -maintenance service. The automatic two-way rinse filter also ensures simple, trou- ble -free operation. - No part of the Microscreen Filter needs lubrication, and maintenance is limited to periodic replacement of the used filter cloth. The life span of the filter cloth depends on the condition of the water being filtered and the content of the solid materials it contains. Aplastic switchboard cabinet (NEMA4 X rated) is included in every filter. The switchboard is completely equipped for the automatic operation of the filter. THE PROCESS Water containing solid particles flow — through the inlet pipe into the interior part of the filter drum. Impurities are caught on the inner side of the filter cloth and the fil- tered water flows out through the cloth. The entire filter remains off during this initial process. As the filter cloth slowly becomes clogged by the increasing amount of filtered waste, its resistance to the flow increases. The water level inside the filter drum increases according- ly. When the preset level is reached, the level probe located at the forefront of the filter automatically activates the rotating drum and simultaneously the rinsing pump which pumps the filtered water into the jet rinse system. The residue accumulated on the inner side of the filter cloth is removed by the directed stream of water from the jets and then washed into the waste trough located in the inner drum. The residue is then washed into the silt sump where it is washed out by the silt pump which is automatically controlled by the level probe located on the wall of the silt sump. This pump may not be needed when the gravi- tational flow alone is suffi- cient to rinse out the silt. INN The rinsed cloth is relocated at the bottom of the filter by the revolving of the drum rotation. The surface level difference is diminished and the probe automatically switches off the drum rotation, as well as the pump. The rotating drum and the pump remain off until reactivated, at which point the entire cycle is repeated. The average activated operation and rest cycles of the filter are dependent on the amount of impurities flowing into the filter, the properties they contain and the condition of the filter cloth. Since the flow of the untreated water remains uninterrupted through- out the entire filtration process, and the flow of the rinse water is taken directly from the filter set, no additional rinse water trays or tankage is needed. This significantly reduces initial investment costs. The automatic activation and deactivation of the filter reduces the amount of electricity needed for filter operation. It also increases the average quality of the water filtered, increases the density of the out - flowing sludge and prolongs the life span of the entire system. TECHNICAL PARAA1ETERS The filter capacity is determined by the basic parameter of the effective working surface of the filter cloth. The second and third parameters are the size of the openings in the filter cloth and the area of their freely functioning surface. These parameters are chosen to produce the required quali- ty of the filtered water. The composition of the solid particles also has a significant effect on the capacity of the filter. This depends on 1.) their shape; (flat particles block the openings more easily than round), 2.) their density; (solid particles are filtered better than non - solid mucus), and 3.) the average amount of large and small particles in the entire volume of inflowing wastewater. When a certain amount of dense particles larger than the filter cloth openings is reached, a thin silt layer is formed on the filter cloth. This silt layer acts as a secondary filter and is able to catch particles which are much smaller than the actual openings in the filter cloth. Therefore, it is advantageous to select a filter with a larger filter sur- face so the "rest" period between cycles is as long as possible. This secondary filter layer is then washed into the waste trough when the filter cloth is rinsed. When using the Microscreen Drum Filter as the tertiary treatment process in domestic and industrial plants, a filter cloth with an open- ing diameter of 0.04mm is usually suitable. For more contaminated water or to meet specific requirements, optimal opening diameters and other parameters can be determined by prior experience in sim- ilar conditions or by administering filter tests, J J • 1.1 OPERATIONIn locating the Miscroscreen Drum Filter it is necessary to consider that the flow of water into the filter should whirl as little as possible so that solid particles are not broken up. For this reason a grav- ity flow is recommended rather than a filter feed pump. A flow control box should be used to create a gravity flow into the filter in lieu of direct pumping. The Microscreen Filter should be set in a horizontal position with a maximum divergence of 3mm. The filtered water outlet from the filter must be kept obstacle -free at all times. The water level behind the fil- ter must not be allowed to rise to a level which would cause back -flow into the filter. The unchecked flow of rr� t. •. r s-`'l water back into the filter will cause the water level inside the filter to rise and the filter will cease to func- tion. If either the filter capacity is exceeded or the filter stops functioning, water will pass through unfiltered. Building a bypass line is not necessary although it may be advan- tageous to be able to cut off the water flow in order to change the filter cloth. Filter models installed in con- crete shafts may be lifted out and then returned to the sewer without interrupting the sewer water flow. OUTSTANDING FEATURES OF THE BMF MICROSCREEN DRUM FILTER Inexpensive WWTP upgrade to meet more stringent effluent requirements Completely self contained - no need for additional controls, tankage, pumps, or outside water supply Lower capital and operational costs than any other filter 300 series stainless steel construction means less maintenance and no corrosion STAINLESS STEEL TANK INSTALLATION MODEL WIDTH LENGTH (INCHES) (INCHES) 5 BMF 5-0 29 5 BMF 10-0 29 HEIGHT (INCHES) WEIGHT MAX.POWER (LBS) INPUT (HP) FLOW RANGE MAXIMUM (GPD) FLOW (GPM/GPD) 46 35.5 243 2.4 0-120K 132/190K 66 35.5 353 2.4 120K-300K 264/380K 10 BMF 10-0 55.5 67 10 BMF 20-0 55.5 106 CONCRETE CHANNEL (Concrete provided by others) 61.50 926 3.4 300K-700K 625/900K 61.50 1323 3.4 700K-1.3MGD 1250/1.8 MGD INSTALLATION CHANNEL FILTER MODEL WIDTH LENGTH (INCHES) (INCHES) 5 BMF 5 25.6 5 BMF 10 25.6 CHANNEL DEPTH (INCHES) WEIGHT MAX.POWER (LBS) INPUT (HP) FLOW RANGE MAXIMUM (GPD) FLOW (GPM/GPD) 49.2 30.7 148 2.4 0-200K 173/250K 73.6 30.7 210 2.4 200K-500K 396/570K 10 BMF 10 51.2 71.7 10 BMF 20 51.2 116.1 55.1 55.1 Purestream 'v Ecofluid «� In the USA Purestream / Ecofluid L.L.C. 10584 Dixie Highway Walton, KY 41094 Ph. (859) 371-9898 Fax (859) 371-3577 e-mail purestream@aol.com 926 3.4 500K-1MGD 792/1.14MGD 1081 3.4 1MGD/2MGD 1597/2.3MGD John S. Cox and Associates, Inc. P.O. Box 856, 418 Johnson St. • Pickens, SC 29671 (864) 878-2045 • FAX (864) 878-8683 FAX MEMO DATE: March 23, 2004 mai COMPANY: Atlantic Plan Engineering ATTN: Richard Franklin Fan nog ran son fan pan moo G■1 FAX NO: 828-327-0931 FROM: Buddy Cox JOHN S. COX & ASSOCIATES, INC. PO BOX 856 / 418 JOHNSON STREET PICKENS, SC 29671 PHONE: 864-878 2045 FAX: 864-878-8683 TOTAL PAGES SENT INCLUDING THIS PAGE: 4 Enclosed you will find the pricing and specifications for the UV disinfection equipment for the Buckeye Creek project. Sizing is based upon the design requirements as required by the State. Please give me a call at 864-878-2045 if you have any questions. Regards, Gad, aim TrulanTschnobjes lac. uv3ONT° PACKAGE TREATMENT PLANT PROPOSAL In response to your request, we we pleased to provide the following Package Treatment Plant (UV3000TMPTP) proposal. Since Trojan introduced the open channel approach to disinfection in 1982, mangy pathogenfor lities and privatelcommemiai beatrnent p users have s ultraviolet as the preferred destruction at their fames. NI of Trojan's UV systems are modular in design, with each design customized in respons e to the effluent criteria. This proposal is based on the use of Trojan Technologies Inc. UY3000TMPTP. Proiect Name: Troian quott No: Troian Model: Total Units Included: Design Criteria: Buckeye Creek Development, NC PSS1326 UV3100K-PTP 1 Current Peak Design Flow: UV Transmission: Total Suspended Solids: Max Average Particle Size: Disinfection Limit: 125,000 US Gpd 65%, minimum 30 mgil (monthly average; grab samples) 30 microns 200 fecal conform per 100 rnl, based on a 30 day Geometric Mean of consecutive daily grab samples Flew: refer inquires to Tinian Manufacturees Representative: Larry __ Greene ENVIRONMENTAL. INC. Phone: (704) 560-9225 Fax: (803) 364-8225 This proposal has been respectfully submitted by, Trojan Technologies Inc. Simon Wills Municipal Designer 3020 Gore Road, London, Ontario Canada N5V 4T7 • Tel: (519) 457-3400 • Fax (519) 457-3030 • www. .core Buckeye Creek Development, NC UV3000111PTP Proposal Page 2 3/18/2004 PSS1326 ULTRAVIOLET MQDUI.ES Each module will consist of 2 UV lamps with their corresponding electronic ballast in an aluminium enclosure mounted on a stainless steel type 316 frame. The electrical wires connecting the lamps and ballasts will be enclosed in the stainless steel frame and not exposed to the effluent "°" Each UV module wip be provided with a standard 120 Volt plug and weatherproof cable for connection to a receptacle. The cable will be no longer than 10 feet. A total of 2 UV modules (4 UV lamps) will be supplied. Lamp status will be displayed on top of each UV module by watertight LED indicator lights. 110' Modules will be appro dmately 68 in long, 14 in high and 2.8 in wide, weighing approximately 30 lbs. Materials of construction w lII be stainless steel type 316, anodized aluminum, quartz 214, and teflon. EFFLUENT CHANNEL Each unit will be provided with one (1) stainless steel type 304. 14 gauge effluent channel complete with UV module support rack and downstream serpentine weir. Each stainless steel effluent channel will have the following inside dimensions: Length = 96 in Width = 6 in not Height = 15 in MONITORING SYSTEM A submersible UV sensor will continuously sense the UV intensity produced in each bank of UV Tamp modules. UV intensity in mW/cm2 wry be Indicated on a 3 character display. Elapsed time in hours will be indeed on 5 character display. Both displays will utilize 7 segment LEDs and will be vile through the panel door. The Monitoring System will be enclosed in a Type 4X wall mounted panel. Note: Contractor to supply a separate 120 Volt, single phase, S0 Hz, 5 amps, power supply for each monitoring system. rim POWER DISTRIBUTION RECEPTACLES [PDRZ Duplex ground fault interrupter receptacles to be provided. PDRs to provide power to each UV module and be ,.., mounted in individual painted cast aluminium junction boxes complete with a rain shield. Note: Contractor to supply appropriate 120 Volt, single phase, 6©1iz circuit to power the PDRs which have a total current draw of apprc uirnately 1Q amps. Contractor to be responsible for distributing F.I+ the power from the main 120 Volt feed to the individual PDRs. Responscty to be all encompassing and in accordance with the focal electrical codes. TRANSITION CONNECTIONS Transition boxes for flanged pipe attachment will be provided. The material used for these parts will be stainless steel type 304, 14 gauge, and be manufactured per dimensions indicated in accompanying diagrams. The following wits be supplied: rem Intet Transition Box 1 Outlet Transition Box 1 FIR MAINTENANCE RACK A maintenance rack of type 304 stainless steel will be provided. The rack is designed to facilitate the servicing of the UV modules. Copyright .2003 by Trojan Technologies htc. London, On eda Carleda. Aft rights reserved No part of this quotation maybe reproduoed, elm stored in a retrieval system, or &unsmitted in any forte or by any means without written permission of Trojan Technologies Inc. Buckeye Creek Development, NC UN3000711PTP Proposal Page 3 PSS1326 311812004 SPARE PARTS, Four (4) UV Lamps Four (4) Quartz Sleeves Four (4) Lamp Holder Seals OPERATORS KIT 1 pair of rubber gloves 1 face shieldmin 1 UV warning label 1 US gallon (4L) cleaning solution START-UP AND COMMISSIONING By: Trojan [ j Local Trojan Rep [ x ] Not Included [ x 1. Trojan Technologies Inc. warrants all components of the system (excluding UV lamps) against faulty workmanship and materials for a period of 12 months from date of start-up or 18 months after shipment. which ever comes first 2. UV Lamps are warranted for 12,000 flours, non pro -rated. met SEXLING PRICE: S 12200 US min TERMS & CONDITIONS: 1. Submittals within 4 weeks after receipt of purchase order. 2. Equipment delivery within 5-8 weeks from receipt of purchase order and engineer's approval (where applicable). 3. Seling price does not include taxes, which may be applicable. 4. Payment Terms: 90% due on delivery, 10% due after system start-up. Net 30-days. 5. F.O.B Factory Freight paid to jobsite. Copyright d 2003 by Titian Technologies Inc.. Landon. Ontario, Canada. AN rights reserved No pot of this quotation maybe reproduced, steed in a retrieval system, or transmitted in any roan or by any means wdhore written permission of Trojan Technologies Inc. CIVIL / ENVIRONMENTAL / WATER / WASTEWATER 'u' . JOHN T. COXEY CONSULTING ENGINEERING, P.A. illIP Project Cost Estimate and Present Worth Buckeye Creek Wastewater Treatment Plant I. Project Cost Estimate 1. 50,000 GPD Plant with microscreen fir drum filter including insulation and grating $194,500.00 2. 10,000 Gallon Equalization Basin, Pumps, W+ and Blowers $ 38,800.00 3. Sitework, Piping, Fencing $ 12,500.00 or 4. UV Disinfection System $ 15,000.00 fill 5. Standby Generator and AT Switch $ 15,000.00 6. Flow Meter $ 3,500.00 paq 7. Electrical $ 12,000.00 fir 8. Contractor Installation, Overhead & Profit $ 37,000.00 Total Construction $328,300.00 mil Contingencies (10%) $ 32,830.00 Administration $ 5,000.00 Engineering Fees $ 24,000.00 full Total Project Cost $390,130.00 rim Attachment 12 FIN JOHN T. COXEY. P.E. PRESIDENT 53 FOX CHASE RD. WEST PHONE (828) 645-4046 fm ASHEVILLE, N.C. 28804 FAX (828) 658-1304 H. Annual Operation & Maintenance Costs 1. Operator Fees $ 12,000.00 2. Laboratory Fees $ 3,500.00 3. Equipment & Supplies Treatment Plant $ 2,500.00 UV System $ 3,000.00 4. Power Consumption 2 — 5 HP Blowers 2-2HPMixers 1-1 HP Microscreen 1— 2 HP Surge Tank Blower 2 — 2 HP Surge Tank Pumps 21 HP Total 21 KWx18Hrs Avg x 365 Days x $0.75/kwH = $10,350.00 1— UV System 120 V $ 750.00 Total Annual 0 & M Costs $32,100.00 n III. Present Worth (20 years, 7%) =10.59 Present Worth Factor Present Worth of Project Cost $390,130.00 Present Worth of Annual Costs $32,100.00 x 10.59 $339,939.00 Total Present Worth $730,069.00 Buckeye Creek ss' , Williams, Reed Local Government Review Requirements for the Issuance of New Non -Municipal Domestic Wastewater Discharge Permits Gcncr21$tatute Overview North Carolina General Statute 143-215.1 (c)(6) allows input foam local governments in the issuance of NPDES Permits for non - municipal domestic wastewater treatment facilities. Specifically. the Environmental Management Commissioo (EMC) may not act on ao applie iw n fora new non•nnunicipal domestic wastewater discharge facility until it has received a written statement trom each sty and county government having jurisdiction over any part of the lands on which the proposed facility and its appurtenances arc to be located. The written statement shall document whether the city or county ir2c 2 zoning or subdivision ordinance in effect and (f such an ordinance is in effect) whether the proposed facility is consistent with thc ordinance. 'Chc EMC shall not approve a pcurut application for any facility which a cityor county has determined to be inconsistent with zoning or subdivision ordinances unless the approval of such application is determined to have statewide significance and is in the lest interest of the Sure. instructions to thUipplkant Prior to submining an application fora NPDES Permit for a proposed facility. the applicant shall request that tiodulle complete this form. The applicant must: • Submit a copy of the permit application (with a written request for this form to be completed) to the cictk of the sty and the county by certified mail, return receipt requested. • If either (or both) local government(s) fan(s) to m'd the completed form, as evidenced by the postmark on the certified moil card(e), within 15 days after receiving and aigodng for the certified mail, the applicant may submit the application to the NPDES Unit, • As evidence to the Ceatunission that the local gover unent(e) fluled to respond within 1S days, the applicant shall submit a copy of the certified mail card along with a notarized letter stating that the local government(s) failed to respond within the IS..day period. Instructions to the Local Govexnt w The nearby city and/or county government which may have or has jurisdiction over any part of the land on which the proposed facility or its appurtenances are to be located is required to complete and return this form to the applicant within 15 days of receipt. The form must be aimed and notarized. Name of local government v (K-0.'O�G ( Xtg/County) Does thc Oa/county have jurisdiction over any part of the land on which thc proposed facility and its appurtenances arc to be Located? Yes fp4 No [ ) If no, please sigp this forma, have it notarized, and return it to thc applicant. Does the Q411/county have in effect a zoning oc subdivision ordinance? Yes pQ No [ imp If there is a zoning or subdivision ordinance in effect, is the plan for the proposed facility consistent with the ordinance? Yes p4 No [ ] — Datc 10 Lo 1 \ G 3 Signature ceitm Manages/County Manager) State of N n c i'h aro 1 t n c\ , County of A] 0.±U On this dopy of C) c±o' -r ?co personally appeared before me, the said name -R 06esk `Z . N € 15 O it 13 c-. co me known and known to me to be -the person described in and who executed the foregoing document and be (or she) acknowledged that he (ter she) PIMp executed the same and being duly sworn by me, made oath that the statements in the foregoing document are true. My Commission expires U J n D .(Signature of Notary Public) Notary Alit (Official Scat) Attachment 14 MEI Print Parcel ID#: Book/Page: Date Recorded: Current Owner: Tax Owner Name: Acreage: Neighborhood Description: Land Value: Land Use: Township: Tax Code: Si^ it-h :56 There was 1 record matching your query 1897-84-2146-000 164*667 0000-00-00 WILLIAMS, FRANKLIN REED II 9803 RIVER RD RICHMOND, VA 232335717 WILLIAMS, FRANKLIN REED It 9803 RIVER RD RICHMOND, VA 232335717 64.2800 ACRES HWY 221 SOUTH/CALDWELL LINE $308,300 RESIDENTIAL VACANT BLOWING ROCK General County Blowing Rock Fire Jump to: Select Department 2000 Watauga County. NC Attachment 15 am poi Pal NM FASI PIM Atlantic Plan Engineering Corporation 828-327-2621 P.O. Box 1691 Hickory, NC 28603-1691 FAX: 828-327-0931 E-MAIL: atlplan@conninc.com Date: July 3, 2003 RE: A report on Drip and Spray Sewer Systems in the high mountains of im North Carolina. ., To Whom It May Concern: This report is based on 50 years of experience in Engineering in the North .. Carolina Mountains. With the percolation rates in the types of soils found generally in the ...; Mountains of North Carolina — regular septic systems perform very well and are predominantly used. Drip and Spray Sewer Systems when the use of the soil is limited are another matter. Air temperature in the mountains rules out the use of these systems for year around sewer service in the high mountains above the Blue Ridge and western slope escarpments. There are usable where occupancy is limited to the summer months or where the development is over the south ridge of the Blue Ridge escarpment or over fa' the ridges on the western Tennessee side of the mountains. Examples of our experience that bear this out are the "new" Cold Creek School where we .., found that the approved system not only cost more but would require a winter time pond where sewage could be stored for the winter months when the system would not perform. We proposed a regular pump septic system for '..' the school and it performs well at far less cost. Another example is a high mountain drip system that we prepared for one lot on Seven Devils that performs because of the controlled occupancy of one owner/user. This can be done for a single owner with controlled flows. MA MI Attachment 16 This engineer understands that Heavenly Mountain has a drip or spray system that performs well. It is over the ridge on the south side of the Blue Ridge in an area that has very different, milder temperature conditions. In fact, this engineer has wondered why land developments in this area are attractive as mountain developments. Powder Horn Mountain gets real warm during part of the year. The Reed Williams property off of U.S. 221, South West of Blowing Rock, is on the top of the Blue Ridge and extends only a short way down to the Southern or Eastern escarpments. Not far enough to upgrade the air temperature to any great degree. For this reason this engineer would not recommend a drip of spray system for this location since by its location near to Blowing Rock it can expect year around uncontrolled occupancy. Due to consistency of the soil, it will not percolate adequately. See the Connie Adams soil report. This engineer can only recommend a discharge system into a stream that flows away from the mountains into the John's River drainage area. This will not pollute high mountain trout streams or water sources. Certified By: 0"1 4 CAPio ,Aft Chars . Da,®,r., I .E NC 24-03-03 MIMI °m irk, ' c,y APPALACHIAN DISTRICT HEAL:1'H DEPARTMENT I :710(7 (.gT!C:1 )=(• I'ry,l.0 P,,n:x. �!< 560- #241 lr!,rlrl.r 8'F-215-I'll. rt• : _ _:611-•t9'•' Publicffealrht Prrltecling and irrlprovingyt+ur Fie-rdrh thrnfrStluun June 26, 2003 Mr. Richard Franklin, P.E Atlantic Plan Engineering Corporation P.O. Box 1691 Hickory, NC 28603 RE: Reed William's Property, Linville Rd., Watauga County, N.C. 216 three bedroom unit (67.73 acres) Dear Mr. Franklin: / 7 III 6g CeD After reviewing the soil report and site plan from Connie Adams (Licensed Soil Scientist) and considering the size of this project (77,760 gallons per day) several facials make this tract and project a concern as far a subsurface sewage disposal. Approximately50% of the tract of land is more that 65% slope which is unsuitable for subsurface sewage disposal.. The remainder of the tract is designated for streets, parking and building location with minimal available space for septic systems. The available space has areas of shallow soil and slopes that would require pretreatment and subsurface drip irrigation for approval. It is my opinion that subsurface application would not be practical Fnrthis site. t% WI can be of any further service, please contact me at (828) 264-4995. Sincerely, Lawrence G. Caviness Environmental I-Iealth Supervisor LGC:ct L•VJ�L>J JI.FIC L ILA 'O 33i.-37:-i$13 L. • 31 :r\rl • 1. ' Wall.' 11 t )I.I I. Haiti 'r,Ci,.t. lint, i in" • i-.if 1 • ';lt. l O. Iit.tLtr: rtr.Yr L.o. LJc 7 in- �anA•17ti ;1,--.? ,1-5i1oi rv. i•\1. ;.!t I...11.1.1i1)rii 12,. L,: u.•..n:. H...,,.. r : .NAr Attachment 17 Reference People/Companies 1). Buddy Cox, John S. Cox & Associates, Inc., Pickens, SC (864) 878-2045 Provides costs for a 50,000 gpd sewage treatment plant & UV disinfections equipment. 2). Randy Carpenter, installs septic systems, N. Wilkesboro, NC (336) 877-8487 Provided the cost per linear foot for sewage pipe and the cost to run a line to Blowing Rock. 3). Mr. McSwain, Gold Coast, Eastern NC (910) 842-9323 Provided the cost of biofilters and how long they last. 4). Mrs. Gary Stroupe, Stroupe's Septic Tank Service, Morganton, NC (828) 437-3885 Provided the cost for a 2,000 gallon tank 5). John T. Coxey, P.E., John T. Coxey Consulting Engineering, PA, Asheville, NC (828) 645-4046 Provided the estimate and PW for the sewage treatment plant. 6). Patrick Beaver Memorial Library (828) 304-0500 Provide the tables for finding the PW values. 7). Assumption -The gravity flow back, to Boone would have approximately 40% rock to through. Going through rock increases the price by 5X. 8). Assumption — The forces main would go over 4 mountains. We anticipate at least 70% rock and the price in this area to increase by 5X. Flow Schedule The unnamed tributary that we propose to use runs into Thunderhole Creek, which runs into the Johns River and later into the Catawba River. Attachment 19 Q.aQ.TtJ. V. gAsl,Jw(D£ 454-E*Ai .s'T R r.f•A--- cbri:,‘“34. l-(-4F . BtaSW retention time. Drought conditions increased retention times and blooms of nuisance algae (especially blue -greens that caused taste and odor problems) were recorded in 2001 and 2002.. Nutrient reductions may help to alleviate these problems. Lake Hickory has improved from eutrophic in the 1980's to mesotrophic. High productivity was indicated in August 2002, but no visible algal blooms were observed. Lookout Shoals Lake is a small run -of -the -river lake with a retention time of only nine days, and a trophic state that fluctuates from oligotrophic to eutrophic depending on the nutrient loading and flow conditions. A nuisance aquatic plant, Myriophyllum aquaticum, infested the upper ends of Hickory and Lookout Shoals. Lookout Shoals was drawn down in the fall of 2002 in an attempt to control the spread of this plant. Lake Norman, which is the largest reservoir in North Carolina, has been monitored by Duke Energy since the 1970's and DWQ has sampled the reservoir since 1981. This reservoir has ' consistently been evaluated as oligotrophic with low nutrient values and low algal production. Hydrilla, another nuisance aquatic plant, was found in Lake Norman. This macrophyte is invasive, can decrease fish habitat, and can impact recreational activities such as swimming and boating. It also has the potential of clogging intakes of water treatment plants. In an effort to manage its growth, Duke Energy treated the infestation with an herbicide. Mountain Island Lake is a small reservoir just downstream of Lake Norman. In 2002 it was classified as oligotrophic and received the lowest ^- trophic scores since 1981. These improved conditions might have been due to decreased runoff as a result of the drought. Hydrilla is _ established here also, and grass carp were stocked in 2000 and 2002 to help manage its growth. Lake Wylie is the most downstream reservoir in the Chain of Lakes. Its immediate watershed is rapidly being converted from traditional agricultural to more urban land uses. This reservoir was eutrophic in 2001 and 2002. However, as a resul of the City of Gastonia decommissioning its Catawba Creek WWTP and redirecting this ... effluent to the improved Long Creek WWTP, the Crowders Creek arm has shown an overall decrease in total phosphorus and total nitrogen. Despite these improvements, there are still sufficient nutrients entering the reservoir to keep it classified as eutrophic. Newton City Lake was oligotrophic in 2002 and nutrient concentrations were generally low. Bessemer City Lake, a small water supply reservoir for Bessemer City, was also oligotrophic in 2002. Upper Catawba River Basin (Subbasins 30 and 31) The headwater reaches of the Catawba River lie near the Eastern Continental Divide, west of the Town of Old Fort. The river flows generally eastward with the largest tributaries (Curtis, Buck, and Lower Creeks and the North Fork Catawba, Linville, and Johns Rivers) flowing south from their mountainous headwaters. Many headwater tributaries are designated as HOW and Wilson Creek has been designated ORW. Several smaller tributaries such as Crooked and Muddy Creeks flow north to the Catawba River from less mountainous and more agricultural catchments. This is a physiographically diverse area including the High Mountains, Eastern Blue Ridge Foothills, Northern Inner Piedmont, and Southern Crystalline Ridges and Mountain ecoregions. Much of this land is contained within the Pisgah National Forest and, therefore, protected from many land disturbing activities. The cities of Marion, Morganton, Lenoir, Drexel, and Granite Falls are found in this upper area. Overall, water quality is high in this area, except around urban areas. The drought appeared to be the major stressor that affected benthic communities. An Excellent benthos bioclassification was retained at Armstrong Creek and the Linville River below the gorge, before it flows into Lake James. Curtis, Mackey, and Crooked Creeks had Excellent fish ratings and Good benthos ratings. Mackey Creek, below a metal plating discharge whose permit was rescinded in June 2001, was the major success story. Poor benthos and fish ratings were found prior to removal of the discharge. Streams that originate in the Pisgah National Forest had Good or Excellent water quality ratings based on either fish or macroinvertebrate data (Figure 3). These streams included the Johns River, Upper, Mulberry, and Wilson Creeks, Gragg Prong, and Warrior Fork. Even though there is some recreational use and development in the NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 13 Attachment 20 - MEN MEI Figure 3. Fish community and benthic macroinvertebrate assessment sites rated Good or Excellent in the Catawba River basin, 2002. Stars = fish sites and circles = benthic macroinvertebrate sites. upper sections of these creeks, there has been no — substantial impairment of water quality. Extensive valleys used for the cultivation of omamental shrubs and trees present potential threats to water quality. Wilson Creek supports an unusually large number of rare macroinvertebrate species. Most of the Catawba River sites were given Good benthos ratings, but the low flows produced prolific growths of the rooted aquatic plant, Elodea canadensis, in some areas. Other streams with 1.101 Good biological ratings were Buck, Little Buck, and Canoe Creeks. North Muddy and South Muddy Creeks, which drain urban areas or have wastewater treatment plant discharges, had better fish communities (Good), than benthos (Good - Fair). Cattle access to Paddy Creek seemed to be the cause of the Good -Fair fish rating in this small stream draining the Pisgah National Forest. A fish community sample from Irish Creek (a tributary of Warrior Fork) showed severe habitat problems and was rated Fair. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 14 The North Fork Catawba River just below the Baxter Healthcare Corporation discharge declined from Excellent to Good between 1997 and 2002 — and there was a dramatic decline from Good to Fair further downstream, where the river was wider with slower flow. The drought conditions — provided minimal dilution and a conductivity value of 576 pmhos/cm was observed in August 2002. Where watersheds have become more developed — around Morganton, Lenoir and Valdese, the bioclassifications were lower (Good -Fair or Fair) (Figure 4). The physical characteristics of these streams have also changed. Lower, Silver, Hunting, and McGalliard Creeks had lower gradients and were much sandier than streams in the northern part of the subbasin. McGalliard Creek declined in bioclassification between 1997 and 2002 based on biological data. An intensive survey of the Lower Creek catchment in 2002 documented problems for many streams around Lenoir. Figure 4. Fish community and benthic macroinvertebrate assessment sites rated Fair or Poor in the Catawba River basin, 2002. Stars = fish sites and circles = benthic macroinvertebrate sites. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 15 OMR There are eight ambient water chemistry stations in this area. The headwater sites had the lowest median values for conductivity, total suspended solids, and turbidity of all the subbasins. Nutrient values were also low. Wilson Creek had many pH measurements less than 6.0 s.u., with one reading less than 5.0 s.u.. This pattern had not been observed at this site since the early 1990's and suggested that similar low pH values may be occurring in other high elevation streams that drain forested catchments. Such areas have low buffering capacity and are most susceptible to acid precipitation. The site on Lower Creek reflected the influence of various point and nonpoint source problems near Lenoir: high turbidity, high fecal coliform bacteria, and elevated conductivity. Middle) Catawba River Basin (Subbasins 32 and 33This subbasin is located in the Northern Inner Piedmont and Southern Outer Piedmont ecoregions with the extreme northwestern headwaters of several streams in the Eastern Blue Ridge Foothills ecoregion. The southeastern portion of this subbasin (east of the Lower Little River and south of the Catawba River) is flatter than the northern section. Highly erodible soils and moderate gradients contribute large amounts of sediment in the Little River watershed. However, a majority of the middle watershed remains forested. Recent biological data produced Good or Good - Fair ratings for several streams: Lower Little River and Duck, Elk Shoal, McLin, and Gunpowder Creeks. However, a Fair macroinvertebrate rating was recorded for a section of the Middle Little River and for Muddy Fork. Muddy Fork showed signs of organic loading from nearby animal operations. Fish data also produced a Fair rating for a section of the Lower Little River. The benthic Fair rating for the Middle Little River seemed to be due to low flow in 2002 and did not represent a significant water quality problem. This finding was reinforced by the Excellent fish community rating given to the river. The cause of the Fair rating (fish data) for the headwaters of the Lower Little River (above the Town of Taylorsville WWTP) was unknown, although a sand -dipping operation was 1.1 noted just above the sampling reach. Further south, the largest watershed is Dutchmans Creek, formed by the confluence of Leepers and Killian Creeks. Dutchmans Creek flows into the Catawba River just downstream of Mountain Island Lake. Streams in the lower area are often sandy, low gradient streams. Based on past benthic macroinvertebrate data, Dutchmans and Killian Creeks have been rated Excellent or Good, and McDowell Creek was rated Good -Fair. In 2002, however, based on benthic macroinvertebrate data Dutchmans Creek declined to Good -Fair and Killian and McDowell Creeks declined to Fair. Similar trends were observed for the fish community at McDowell Creek, which declined from Fair in 1997 to Poor in 2002 and in Killian Creek, which declined from Good in 1997 to Good -Fair in 2002. The lower benthic macroinvertebrate and fish ratings were likely the result of the prolonged drought in Killian Creek while the lower ratings in McDowell Creek were likely the result of the expanding urbanization from the Charlotte metropolitan area. South Fork Catawba River Watershed (Subbasins 35 and 36) There are three ecoregions in this watershed: the Eastern Blue Ridge Foothills (including the South Mountains), the Northern Inner Piedmont, and the Southern Outer Piedmont. The South Fork Catawba River has its origin at the confluence of Henry and Jacob Forks. Other major tributaries include Clark, Indian, and Long Creeks. Land use is primarily forested but there is also a large percentage of pasture. Prior to 2002, Excellent ratings were typically found in Jacob Fork, Good ratings in Henry Fork and Howards Creek, and Good -Fair at Indian and Clark Creeks. In 2002 benthic macroinvertebrate data showed that every site, except for Henry Fork, declined in bioclassification. Henry Fork may have maintained its Good rating during the drought because of its large watershed size. The fish community at Indian Creek, which drains Cherryville, was rated Fair in 1997 and 2002. In contrast, Beaverdam Creek, which also drains Cherryville, had a Good fish community rating, as did Pott Creek, a large tributary of the Catawba River north of Lincolnton. Long Creek in 2002 had a Good -Fair rating. Charlotte Metropolitan Area (Subbasins 34, 37, and 38) Three distinctly different ecoregions are found in the area surrounding Charlotte. The Southern Outer Piedmont ecoregion contains the Sugar Creek watershed, a portion of Lake Wylie, and much of the City of Charlotte metropolitan area. This is the most heavily urbanized region in the state. There are currently over 50 NPDES permitted dischargers in the Sugar Creek NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 16 watershed. The largest one is the CharlottelMecklenburg Utilities District's WWTPs which discharge to Irwin Creek (30 MGD), McAlpine Creek (48 MGD), and Little Sugar Creek (20 MGD). The Catawba and Crowders Creeks watersheds flow through the Kings Mountain and Southem Outer Piedmont ecoregions. Urban areas include Bessemer City, the South Gastonia, and a portion of Gastonia, south of the Interstate 85 corridor. The third ecoregion is the Carolina Slate Belt. It contains Sixmile and Twelvemile Creeks, tributaries to the Catawba River in South Carolina. These streams have very low flows during the summer and may stop flowing during drought periods, which naturally limits the diversity of the • stream fauna. No benthic macroinvertebrate samples have been collected from this subbasin since 1992. Based upon biological data, urban streams such as McAlpine, Sugar, and Little Sugar Creeks are degraded with Poor or Fair bioclassifications. These low ratings were due to urban drainages, large WWTP discharges, and poor habitat. Declines in 2002 were attributed to the drought rather than further declines in water quality. Crowders Creek is another degraded stream in the Gastonia area. Though some discharge changes have occurred in the watershed, only slight improvement in the fish and benthos have been found, and Fair bioclassifications were typical in 2002. The fish community in Twelvemile Creek declined from Good in 1997 to Good -Fair in 2002, while Sixmile Creek maintained its Fair rating in 2002. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 17 MON w Catawba River at SR 1221, McDowell County. The 2002 benthos bioclassification was Good -Fair, a decline from the Good ratings found since 1990, but similar to what was found all during the 1980s. In 2002, the EPT S declined to 27 from 35 in 1997 with few intolerant taxa and only one stonefly found. The largest decrease in taxa was within the mayflies. The BI increased from 4.46 to 5.38. Chironomids were particularly abundant, especially Crictopus bicinctus, which is a toxic indicator species. Since there are no dischargers between the SR 1234 site and this site, the cause for the decline in water quality is unclear. One possibility is that the slower current at this site allowed the oxygen consuming effects of upstream dischargers to be more evident even though conductivity was lower MEI at this site than at the SR 1234 site (94 vs. 153 pmhos/cm). Higher water temperatures may also have played a role; temperatures increased from 20°C at the most upstream Catawba River site to 25°C at this site in August. Curtis Creek, SR 1227 _ Curtis Creek is a small stream, six meters wide with a drainage area of 12 square miles. There is good macroinvertebrate habitat and swift current. The watershed above this site lies entirely within the Pisgah National Forest and the Mt. Mitchell Wildlife Management Area. The Town of Old Fort's WWTP discharges to the stream but the discharge is much further down in the watershed. .. Curtis Creek at SR 1227, McDowell County. Curtis Creek received a Good bioclassification during in 1992, 1997, and 2002. The benthos community was characterized by low productivity and many intolerant taxa. Curtis Creek, US 70 Curtis Creek was sampled for the first time for fish community assessment in 2002. In northwest McDowell County, the stream is a tributary to the upper Catawba River and portions of its watershed are within the Pisgah National Forest. There are no NPDES facilities within the watershed and the conductivity was very low (18 pmhos/cm). The stream is classified as Class C Tr and is a Hatchery Supported Trout Waters. At this crossing, the instream, riparian, and watershed characteristics qualified the site as a new regional reference site. Upstream view of Curtis Creek at US 70, McDowell County. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 31 CATAWBA RIVER SUBBASIN 31 Description This subbasin is located in the Northern Inner Piedmont ecoregion with only the highest, _ northwestern reaches in the Southern Crystalline Ridges and Mountain ecoregion (Griffith et al 2002). The Catawba River flows generally eastward with major tributaries such as Warrior — Fork, Lower Creek, and the Johns River flowing south (Figure 16). Many headwater tributaries are designated as HQW and Wilson Creek has been designated ORW. Portions of this subbasin are within the Pisgah National Forest and approximately 85 percent of the subbasin is forested (Table 8). This is the second greatest percentage of any of the subbasins. 0 4 Miles ■ 0 Macroliue rtebrate Stanoia Fti Comm iillyAssesameitStatloia El Lake Statloi a AmbleitiioiHorbg Statlois a Wiole Etrlle itToxlcl>,r Testlkg Facilities eccelle it Good Good-F at Fa t Poor Not Rated Figure 16. Sampling sites in Subbasin 31 in the Catawba River basin. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 43 Table 8. Land use in Subbasin 31. Based upon CGIA coverage 1993 -1995, total area = 581 square miles (NCDENR 1999). Land use Percent Water Cultivated crop Pasture Urban Forest 1 1 10 3 85 The Johns River catchment also contains some high quality areas, but this area has widespread agricultural land use, especially cultivation of ornamental shrubs and trees. The cities of Morganton, Lenoir, Drexel, and Granite Falls are found in this subbasin. Urban development and runoff from Lenoir and Morganton have impacted several tributaries to the Catawba River in the southeastern potion of the subbasin. Overview of Water Quality There are three ambient monitoring sites in this subbasin: Lower Creek near Morganton, Wilson "" Creek near Gragg (a high elevation, headwater site), and Lake Rhodhiss. None of these sites represents typical water quality for this subbasin. Wilson Creek had many pH measurements less than 6.0 s.u. (18 percent) with one reading less than 5.0 s.u.. This pattern had not been observed at this site since the early 1990's and it suggested — that similar low pH values may be occurring in other high elevation streams that drain forested catchments. Such areas have low buffering capacity and are most susceptible to acid precipitation. The site on Lower Creek reflected the influence of -. various point and nonpoint source problems near the City of Lenoir: high turbidity (22 percent of the values greater than 50 NTU); high fecal coliforms (geometric mean = 253 colonies/100 ml); and elevated conductivity (median = 93 pmhos/cm). Samples from the site on Lake Rhodhiss often IMO IMO N MI N MI Table 9. reflected algal bloom problems with elevated dissolved oxygen concentrations and pH values. The Catawba River near the City of Morganton was rated Good -Fair in 1997 and 2002 (Table 9). Some intolerant organisms were abundant at this site, but daily variations in flow, due to power generation at the upstream Lake James dam, affected the quality of the instream habitats. There seemed to be a decline in water quality between the Glen Alpine site (in Subbasin 30) and this site. Many of the streams that originate in the Pisgah National Forest had Good or Excellent water quality ratings based on biological data. These streams included Johns River, Upper, Mulberry, and Wilson Creeks, Gragg Prong, and Warrior Fork (Table 9). Even though there is some recreational use and development in the upper sections of these creeks, there has been no substantial impairment of water quality. Wilson Creek supports an unusually large number of rare invertebrate species (Appendix 9). Waterbodies monitored in Subbasin 31 in the Catawba River basin for basinwide assessment, 1997 - 2002. Map #' Waterbodr County B-1 Burke B-2 Burke B-3 Burke B-4 Caldwell B-5 Burke B 6 Caldwell B-7 Burke B-8 Burke B-9 Burke F-1 F-2 F-3 F-4 F-5 F-6 L-1 Catawba R Silver Cr Warrior Fk Johns R Johns R Wilson Cr Lower Cr Smoky Cr McGalliard Cr Silver Cr Irish Cr Hunting Cr Lower Cr2 Smoky Cr2 McGalliard Cr2 Burke Burke Burke Burke Burke Burke Lake Rhodhiss Burke, Caldwell Location NC 181 SR 1149/SR 1127 SR 1440 SR 1356 SR 1438 SR 1335/SR 1328 SR 1501 SR 1515 SR 1538 SR 1149 SR 1439 SR 1512 — SR 1501 Good -Fair SR 1515 SR 1538 Good 1997 2002 Good -Fair Good -Fair Excellent Excellent Excellent Fair Good Good -Fair Good -Fair Good -Fair Good Excellent Good Excellent Fair Good -Fair Fair Excellent Fair Fair Good -Fair Excellent Fair B = benthic macroinvertebrate monitoring sites; F = fish community monitoring sites; L = lake assessment sites. 2Data are available prior to 1997, refer to Appendices 7 and 11. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 44 The middle portion of this catchment has extensive areas used for the cultivation of ornamental shrubs and trees. While streams in — this area usually still have good water quality, several sites have recently (2002) shown a decline from an Excellent to a Good bioclassification —, based on macroinvertebrate data: Warrior Fork and the lower section of the Johns River. It is not known if drought conditions contributed to this decline. A fish community sample from Irish -- Creek (a tributary of Warrior Fork) showed severe habitat problems and was rated Fair. Where watersheds have become more developed Mall around the cities of Morganton, Lenoir and Valdese, the stream bioclassifications were lower (Good -Fair or Fair). The physical characteristics of these streams has also changed. Lower, Silver, Hunting, and McGalliard Creeks had lower gradients and were much sandier than streams in the northern part of the subbasin. McGalliard — Creek showed a decline in bioclassification between 1997 and 2002, based on fish and macroinvertebrates. An intensive survey of the ._ Lower Creek catchment in 2002 documented problems for many streams around Lenoir. Rhodhiss Lake has been sampled by DWQ since —' 1981. This lake is usually eutrophic although it was evaluated as mesotrophic in 1989 and 1997. Although there were high nutrient concentrations, algal blooms were often limited by the reservoir's short retention time. Drought conditions increased retention times and blooms of nuisance algae (especially blue -greens) were recorded in 2001 and 2002. Frequent blooms and percent dissolved oxygen saturation values greater than the water quality standard indicated the reservoir was impaired in its support of aquatic life. The presence of algae which create taste and odor problems in treated drinking water made it necessary for water treatment plants to use activated charcoal to make the water drinkable. Nutrient reductions may help to alleviate these problems. Five facilities in this subbasin monitor effluent toxicity. The two largest municipal dischargers (Lenoir's WWTP, 6 MGD and Morganton's WWTP, 8 MGD) have experienced occasional failures over the last 10 years. Lenoir's facility failed about 25 percent of its self -monitoring toxicity tests between 1992 and 1999, but has passed all tests since 2000. Morganton's facility still tends to have about one failure per year, with the last documented problems in January 2002, April 2001, and January 2001. River and Stream Assessment Upper and Mulberry Creeks were not sampled for fish community assessment in 2002. Data had been collected as recently as 1999 and the — communities have consistently been rated Excellent (Appendix 11). Upper Creek at SR 1439, Burke County, is within a reach designated as a Significant Natural Heritage Area (Oakley 2002). Catawba River, NC 181 - This portion of the Catawba River near Morganton was about 40 meters wide with a very sandy substrate. There was one area, however, of boulder and rubble downstream of the bridge. Flow in this part of the river is regulated by hydroelectric power generation at Lake James and flow may rise sharply during the day. During .� benthic sampling in 2002, there was no water in bank areas during the night and early moming, so this area was unsuitable for macroinvertebrates. Similar conditions were observed in 1997. MEN Riffle area in the Catawba River at NC 181, Burke County. This site is only about seven miles downstream of site near Glen Alpine (SR 1147, Subbasin 30), but there were several important differences in habitat and water quality between these two locations. The Morganton site was sandier and it was also NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 45 imiloN located downstream of the City of Morganton's WWTP (8 MGD). This facility is generally well run, but it had failed quarterly self -monitoring toxicity tests in January 2002, April 2001, and January 2001. — This site received a Good -Fair bioclassification in 2002 and 1997, although a Good rating had been assigned in 1992. Higher water levels in 1992 produced more bank -associated taxa (Triaenodes, Oecetis, and Hexagenia), so this decline was most likely related to flow alteration, rather than to any change in water quality. Low flow conditions, however, might affect water quality by providing NMI less dilution for upstream dischargers. Although taxa richness was low (46 in 2002), several intolerant taxa were abundant, including Lepidostoma, Brachycentrus numerosus, and Pteronarcys. Large numbers of a grazing snail, Elimia, may have acted to reduce the abundance NNW of chironomid species. MINI MEI Comparison with the Glen Alpine site suggested a decline in water quality between these two locations in 2002, with a decline in the abundance of Acroneuria abnormis, Serratella serratoides, Micrasema wataga, and Glossosoma. Silver Creek, SR 1127 In 2002 the site on Silver Creek was moved upstream from SR 1149 to SR 1127 due to lack of flow at the downstream site. Collections from both sites have consistently yielded a Good -Fair bioclassification in three samples since 1992. The new site was very similar to Canoe Creek (Subbasin 30). This portion of Silver Creek had a mean width of six meters, sandy substrate, and MN infrequent riffles. Leaf packs were the most important habitat for benthic macroinvertebrates, producing six stonefly taxa. Some small -stream species were recorded including Eccoptura xanthenes and Diplectrona modesta. MIMI Ilan IMM OEM Silver Creek at SR 1127, Burke County. Silver Creek, SR 1149 Silver Creek was sampled for the first time for fish community assessment in 2002. Draining southwestern Burke County, the watershed is bordered by Interstate 40 to the north and the South Mountains to the south. There are no NPDES facilities in the watershed above the sampling site. The stream is a tributary to the Catawba River near the City of Morganton. Although this stream lacked cobble riffles, the woody debris in the current provided favorable habitat for three species of darters. The community was dominated by the greenhead shiner and was rated Excellent. Upstream view of Silver Creek at SR 1149, Burke County. Warrior Fork, SR 1440 Warrior Creek is a large stream (14 meters wide) with a sand -gravel substrate. Some rubble- NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 46 NEM MEI boulder substrate, however, was found near the bridge. This site is located in an area used to grow ornamental plants (nursery plants). Adjacent fields had a poor riparian buffer and the presence of dead plants suggested that herbicides had been used near the stream. Rocky riffle area at the bridge in Warrior Fork at SR 1440, Burke County. More typical sand -gravel riffle in Warrior Fork at SR 1440, Burke County. The stream declined from Excellent in 1997 to Good in 2002; EPT S declined from 41 to 34. Many of the expected caddisfly taxa were reduced or absent in 2002, including Brachycentrus numerosus, Micrasema wataga, Psychomyia nomada, and Lepidostoma. Both Hydropsychidae and Baetidae were sparse in 2002, although Plecoptera were both abundant (three taxa) and diverse (six taxa). Irish Creek, SR 1439 Irish Creek was sampled for the first time for fish community assessment in 2002. Draining central Burke County, Irish and Upper Creeks join to form Warrior Fork, a tributary to the Catawba River north of the City of Morganton. The valleys in this area of Burke County are used extensively for nursery tree propagation. Consequently, the streams' instream and riparian habitats suffer. At this locale, Irish Creek was deeply incised with easily erodible vertical banks and sandy substrate; the habitat score was 38 (Appendices 2 and 3). Downstream view of Irish Creek at SR 1439, Burke County. The fish community was rated Fair (NCIBI = 38). Although diverse, few fish were collected for a stream of its size in its ecoregion. Typical of many streams with habitats and water quality like Irish Creek, there was only species of darter present, the bluehead chub was dominant, and the percentage of diseased fish was high. The greenhead shiner was also absent; only one other stream in the upper Catawba River basin did not have this species (Lower Creek). Hunting Creek, SR 1512 Hunting Creek was sampled for the first time for fish community assessment in 2002. This urban stream drains the southern and southeastern areas of the City of Morganton in central Burke County. There are no NPDES facilities in the watershed above the site near the stream's mouth. The stream is a tributary to the Catawba River just above Lake Rhodhiss. At this locale, Hunting Creek has easily erodible vertical banks and a sandy substrate with no true NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 47 MEM NMI WWI rock riffles; the habitat score was 44 (Appendices 2 and 3). Downstream view of clear water with a shallow, shifting sandy substrate at Hunting Creek at SR 1512, Burke County. Similar to Irish Creek which also had poor instream habitats, the fish community was rated Fair (NCIBI = 38). There was an absence of intolerant species and piscivores, a low diversity and abundance of sunfish, and the percentage of .., diseased fish was high. The bluehead chub was the dominant species. Johns River, SR 1356 The headwaters of the Johns River was similar to the Warrior Fork site in size (15 meters wide) and substrate (sand/gravel). As at Warrior Fork, some high quality rubble -boulder riffles were found within the sample reach. The surrounding area was largely residential, although nursery operations were present in this catchment. There was no evidence of excessive periphyton growths in contrast to the Johns River at SR 1438, although small patches of Potamogeton diversifolius occurred along the bank. Johns River at SR 1536, Caldwell County. This site has been consistently rated Excellent in three summer collections since 1992. Four - sample EPT S has ranged from 42 to 49. The low - flow conditions in 2002 affected the habitat (greater silt deposition) and the composition of the fauna. Slow water taxa became more abundant, especially Neureclipsis and Stenacron pallidum. Many intolerant taxa were common or abundant at this site. Unusual records included Nixe sp. (new species or very restricted distribution), Rhithrogena, Ceraclea mentiea, and Helicopsyche. Johns River, SR 1438 This downstream site on the Johns River was added at the request of the DWQ's Planning Branch to examine the possible effects of local land use and increased sedimentation in a low - gradient portion of the river. This site was slightly larger (22 meters wide) than the upstream site at SR 1536, but retained the same types of habitats - - large areas of sand and gravel with some high - quality rubble riffles. The distance between the two sites is about 15 miles. NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 48 Riffle in the background on the Johns River at SR 1438, Burke County. The Johns River at SR 1438 is located in an area with more agricultural land use particularly cultivation of nursery plants than the SR 1536 site. Runoff from these areas has resulted in enrichment in the lower river with abundant growth of filamentous algae (Spirogyra) and aquatic .. macrophytes (Potamogeton diversifolius). IMP MEI Spirogyra growing atop the substrate in the Johns River at SR 1438, Burke County. This site was rated Excellent in 1983 and 1989, but Good in 2002. This pattern was similar to that observed at another watershed (Warrior Fork) used extensively for nursery plant cultivation. Wilson Creek, off SR 1358 This new basinwide monitoring site was added as a reference site for the sites on the Johns River .. and Warrior Fork. A new site on Wilson Creek (off SR 1358 below Mortimer) was selected in 2002, because the upstream site at SR 1358 was too small to compare to the Johns River sites. The new site is comparable to the Wilson Creek site at SR 1335 sampled in 1997. Two portions of Wilson Creek are in the Pisgah National Forest (headwater areas and the Wilson Creek Gorge), but this new segment was located in an area of private land above the gorge that has been developed for residential and recreational uses. Here the stream was 15 meters wide with very clear water and good rubble -boulder substrate. Specific conductance was 22 pmhos/cm. Potamogeton growth was abundant in areas of highest current speed and Nostoc was abundant in areas of slower current, especially on bedrock substrate. High numbers of a grazing snail (Leptoxis) kept periphyton growths at a very low level of abundance. Wilson Creek off SR 1328, Caldwell County. High EPT S (45) and a very low BI (3.3) confirmed extremely high water quality at this site. Many intolerant taxa were abundant including Drunella allegheniensis, Lepidostoma, Micrasema wataga, M. rickeri, M. bennetti, Helicopsyche, and Ceraclea ancylus. Other unusual taxa included Setodes, Mystacides, Brachycercus, Acroneuria lycorias, and Paragnetina ichusa. Some of the taxa recorded at this site were extremely rare, with some new species or new state records for North Carolina (Appendix 9). Lower Creek, SR 1501 The watershed of Lower Creek includes the City of Lenoir and drains primarily the southwest portion of Caldwell County into the upper reaches of Lake Rhodhiss. Sampled near the lower part of its watershed in an agricultural valley, this was the largest watershed monitored for fish community NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 49 assessments in 2002 (89.5 square miles). Potential impacts to this site include urban and agricultural nonpoint source runoff, the Lenoir's WWTP discharge (4.1 MGD), and a variety of smaller dischargers. The 2002 fish community site was relocated about 200 yards above the 1997 site because of the existence of sand dipping operations above and below the bridge. A slightly wider riparian zone "" providing more shade to the stream was present further away from the bridge at the 2002 site. Livestock did not seem to have access to the stream in 2002 as they had in 1997. But, as in 1997, the water had a greenish, turbid cast to it. nowi Lack of a riparian zone towards the bridge at Lower Creek at SR 1501, Burke County. a—. The fish community was rated Good -Fair in 2002 and 1997 (NCIBI = 42 and 44, respectively). More species, total fish, species of suckers, and piscivores were collected in 2002 than in 1997. In — 1997, only 49 fish were collected (the fewest fish of any site monitored that year) contrasted to 211 collected in 2002. However, these "gains' were offset by an absence of intolerant species, fewer insectivores, and a higher percentage of diseased fish in 2002 than in 1997. In 1997, two species (redbreast sunfish and bluegill sunfish) dominated the community; this contrasted to five species (tessellated darter, bluehead chub, redbreast sunfish, bluegill sunfish, and yellow perch) which ,, constituted 73 percent of all the fish collected in 2002. This site has been sampled for benthic — macroinvertebrates six times since 1984, with a bioclassification of Fair for all invertebrate collections. The 2002 sample had the lowest EPT NMI S, but this may have been influenced by the September collection and drought conditions. Specific conductance in 2002 (161 pmhos/cm) was over twice that observed in 1997 (60 pmhos/cm), suggesting greater influence of point source dischargers in 2002. Although EPT S was lowest in 2002, there have been no significant changes in Total S, EPT N, or BI since 1992. Water quality appears to be relatively stable at this site over the last 10 years. Smoky Creek, SR 1515 Smoky Creek was sampled for the first time for fish community assessment in 2002. This small stream (7.6 square mile drainage) is a tributary to Lake Rhodhiss and is classified as WS-IV C. There are no NPDES facilities within its watershed. At this crossing, the instream, riparian, and watershed characteristics qualified the site as a new regional reference site. One large sloughing bank near the upper end of the sampling reach may be contributing some of the orange clay turbidity and sediment observed at the site. This bank sloughing appeared natural and may have been caused by high flows. Upstream view of Smoky Creek at SR 1515, Burke County. The fish community was rated Excellent (NCIBI = 58). By the time benthic macroinvertebrates samples were collected in 2002, the steam was small (five meters wide) and may have experienced extremely low flow during the drought. Many flow - dependent taxa (Philopotamidae, Hydropsychidae, and Baetidae) were reduced in abundance in 2002 relative to prior collections. This stream had NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 50 MOM extensive silt deposits in 2002, but there remained one good riffle area about 30 meters upstream of the bridge. Extensive periphyton growths were noted in 2002, often growing over the silt deposits. Based upon benthic macroinvertebrates, the ^, stream declined from Good in 1992 and 1997 to Good -Fair in 2002. Taxa that were lost were often cool -water mountain taxa (Epeorus, and Symphitopsyche sparna) which suggested warmer temperatures under low -flow conditions. Some moderately intolerant species (Acroneuria) remained abundant in all years, again indicating a drought -associated change in water quality. McGalliard Creek, SR 1538 The watershed of McGalliard Creek drains an area dissected by Interstate 40, US 64/70, and includes the Town of Valdese. The stream is also a tributary to Lake Rhodhiss. Although there are no NPDES facilities within its watershed, the conductivity was elevated (107 pmhos/cm) due to urban run-off. Upstream view of McGalliard Creek at SR 1538, Burke County. The stream has been sampled for fish in every basin cycle — 1993, 1997, and 2002 (Figure 17). The ratings have varied from Fair to Good; in 2002 the community was rated Fair. 60 52 48 40 o 44 38 36 m 3 28 z 20 12 , 1993 1997 2002 Year Figure 17. NCIBI scores from McGalliard Creek at SR 1538, Burke County, 1993 — 2002. Contrasting 2002 to 1997 results, real declines were noted in the number of species (from 10 to 9), number of fish (from 165 to 143), and percentage of species with multiple age classes (from 60 to 44 percent); increases were noted in the percentage of tolerant fish (from 15 to 57 percent). This percentage of tolerant fish was greater in this stream than at any other site in the basin in 2002 (Appendix 12). This was because the redbreast sunfish increased in dominance from 15 percent of all the fish collected in 1997 to 55 percent in 2002. The greenhead shiner decreased from 31 percent in 1997 to 1.4 percent in 2002. No species of darters or intolerant species have ever been collected from McGalliard Creek. McGalliard Creek and Smoky Creek are identical in terms of drainage area size and elevation. However, the land use, habitats, fish communities, and ratings were very different (Table 10 and Appendix 12). Table 10. Comparisons of Smoky and McGalliard Creeks, Burke County, 2002. Waterbody Variable Smoky Cr McGalliard Cr Land use Habitat score No. species No. fish No. darters No. suckers No. intolerant species % tolerants NCIBI score NCIBI rating Rural 71 16 277 2 2 1 8 58 Excellent Suburban, urban 55 9 143 0 1 0 57 40 Fair In 1963, when the NCWRC sampled McGalliard Creek, it was heavily polluted and creosote was observed floating atop the water (Louder 1964). NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 51 OMNI IMO Only one fish, a creek chub, was collected and the stream was considered too polluted for fish reproduction. Although 10 additional species were collected in 1997 and 2002, there are two main obstacles preventing natural recolonization of the stream from downstream sources — Lake Rhodhiss and McGalliard Creek Falls. The falls is approximately 40 ft high (Figure 18). These two barriers essentially isolate the stream from any possible recolonization. Even though the stream was stocked in June 2001 and 2002 with 1,200 rainbow trout just above the falls for a fishing tournament (www.ci.valdese.nc.us/mcqalliard falls.htm), this species probably did not survive for any extended length of time in the stream. The NCIBI ratings may never be greater than 50 (Good) if the stream is not colonized by two species of darter, an additional species of sucker, and at least one intolerant species. Figure 18. McGalliard Creek Falls at SR 1538, Burke County. Copyrighted photograph courtesy of the Town of Valdese. By the time benthic macroinvertebrates samples were collected, this small stream may have experienced low -flow problems during the 2002 drought. The stream had poor habitat with very limited riffle area. The substrate was over 90 percent sand and silt. During benthic sampling conductivity was high at 144pmhos/cm, almost double the value recorded in 1992. The invertebrate fauna was very sparse with only four abundant taxa and included some very tolerant taxa (Baetis flavistriga and Hydropsyche bettenr). The rating declined from Good -Fair in 1992 and 1997 to Fair in 2002. SPECIAL STUDIES Lower Creek TMDL Development Fifteen sites were sampled for benthic macroinvertebrates in the Lower Creek watershed during September 2002. Samples from Lower Creek produced a Poor rating for the most upstream site and Fair ratings for three downstream sites. Many of the tributary streams were too small to rate, but paired sites often showed "Not Impaired" headwater sites with a substantial decline in water quality downstream of urban areas. Although many streams had poor habitat, comparisons with other streams in this area suggested there were also significant water quality problems (Biological Assessment Unit Memorandum 20030319). Fish Community Reference Streams In 1998 and 1999, Gragg Prong Creek at SR 1367, Caldwell County, was evaluated as a regional fish community reference site. The fish community was rated Excellent (NCIBI = 56) (Biological Assessment Unit Memorandum 20000922). The stream will again become a basinwide monitoring site in 2007. Fish Community Temporal Variability The fish community in Upper Creek at SR 1439 and in Mulberry Creek at NC 90, Burke County, were sampled in April, June, and October 1999 to determine the temporal variability of the NCIBI during NC DWQ's traditional monitoring period. The communities were rated Excellent during each month (NCIBI range 54 - 60) despite a prolonged summer drought. It was determined that seasonality was not an important factor to consider when using the NCIBI to assess the fish community of a stream (Biological Assessment Unit Memorandum 20000922). NCDENR, Division of Water Quality Basinwide Assessment Report - Catawba River Basin - June 2003 52 . Table for EAA Alternatives Initial Cost Annual Costs PW (1) Public Sewer System — Gravity 1,986,268.43 0 (Paid by Blowing Rock) 1,986,268.43 (2) Public Sewer System — Forced Main 4,322,666.68 0 (Paid by Blowing Rock) 4,322,666.68 (3) Connection to a Privately Owned Treatment Works Not Available N/A Not Available (4) Individual Subsurface System Land needed for this is not available Cost 1,380,000 (Not Counting Land) 0 1,380,000 (5) Community Subsurface System Land Not Available Cost 1,380,000 0 1,380,000 Drip Irrigation Surface 823,246.50 Biofilters Replaced 588,000 1,906,400.50 Drip Irrigation Subsurface 823,246.50 588,000 1,906,400.50 Spray Irrigation 10,328,267.50 Biofilters Replaced 588,000 11,411,421.50 Reuse 390,130 32,100 3,330,974.50 Surface water discharge with NPDES Permit 390,130 32,100 ! 730,069.10 il, Present Value Cost For Public Sewer System -Gravity Flow raq PW = PW+ PW2 (20 years, 7%) flal PW = $607,080 + $607,080 (.2584) PW = $763,949.47 pim Assuming 40% of the way is rock. p.m $763,949.47 x .4 = $305,579.79 PWi = $763,949.47 - $305,579.79 = $458,369.68 `"' Going thru rock increases the price 5X. PW = $458,369.68 + 5 ($305,579.79) 1.1 PW = $1,986,268.43 Present Worth of Forced Sewage Main to Blowing Rock PW = PWi + PW2 (20 years, 7%) PW = $904,000 + $904,000 (.2584) PW = $904,000 + $233,593.60 PW = $1,137,593.60 Going over the mountains to get to Blowing Rock, about 70% of the way would be through rock. The cost of going through rock increases the price by 5X. PW = 30% ($1,137,593.60) + 5 (70%) ($1,137,593.60) PW = $341,278.08 + $3,981,388.60 PW = $4,322,666.68 C y Drip System— Present Worth R., Since the Biofilters need changing when they fill up, the time frame would be every five (5) years. PW=PWI+PW2(5 years, 7%) + PW3 (10 years, 7%) + PW4(15 years, 7%) + PWs (20 years, 7%) PW = $823,246.50 + Eac ' . ' , _ - . rocesses 480 gallons/day Style STB650, $5,600/ea. 50,000 gallons/day =104.16 - 105 Filters 480 gallons/day 105 filters x $5,600 = $588,000 PW = $823,246.50 + $588,000 (.7130) + $588,000 (.5083) + $588,000 (.3624) + $588,000 (.2584) PW = $823,246.50 + $419,244.00 + $298,880.00 + $213,091.00 + $151,939.00 PW = $1,906,400.50 . Spray System— Present Worth PW = PWi + PW2 (Same as Drip System) PW = $10,328,267.50 + $1,083,154.00 PW = $11,411,421.50 Water Reuse — Present Worth PW = PWi + PW2 (Same as Drip System) + PW3 (Same as Treatment Plant) PW= $1,517,751.50 + $1,083,154.00 + $730,069.00 PW = $2,600,905.50 + $730,0069.00 = $3,330,974.50 PIM fag Fon Paq Mit CIVIL / ENVIRONMENTAL / WATER / WASTEWATER JOHN T. COXEY CONSULTING ENGINEERING. P.A. Project Cost Estimate and Present Worth Buckeye Creek Wastewater Treatment Plant I. Project Cost Estimate 1. 50,000 GPD Plant with microscreen drum filter including insulation and grating $194,500.00 2. 10,000 Gallon Equalization Basin, Pumps, and Blowers $ 38,800.00 3. Sitework, Piping, Fencing $ 12,500.00 4. UV Disinfection System $ 15,000.00 5. Standby Generator and AT Switch $ 15,000.00 6. Flow Meter $ 3,500.00 7. Electrical $ 12,000.00 8. Contractor Installation, Overhead & Profit $ 37,000.00 Total Construction $328,300.00 Contingencies (10%) $ 32,830.00 Administration $ 5,000.00 Engineering Fees $ 24,000.00 Total Project Cost $390,130.00 JOHN T. COXEY, P.E. PRESIDENT 53 FOX CHASE RD. WEST �+ ASHEVILLE. N.C. 28804 PHONE (828) 645-4046 FAX (828) 658.1304 II. Annual Operation & Maintenance Costs FM 1. Operator Fees $ 12,000.00 f.^ 2. Laboratory Fees $ 3,500.00 3. Equipment & Supplies Treatment Plant $ 2,500.00 '.' UV System $ 3,000.00 4. Power Consumption mg 2 — 5 HP Blowers F'+ 2-2HPMixers 1-1 HP Microscreen 1— 2 HP Surge Tank Blower 'x1 2 — 2 HP Surge Tank Pumps 21 HP Total 21 KWx18Hrs Avg x rim 365 Days x $0.75/kwH = $10,350.00 1— UV System 120 V $ 750.00 mil Total Annual 0 & M Costs $32,100.00 III. Present Worth (20 years, 7%) = 10.59 Present Worth Factor Present Worth of Project Cost $390,130.00 Present Worth of Annual Costs $32,100.00 x 10.59 $339,939.00 Total Present Worth $730,069.00 41(00 ;7(63 4ori/ 2eq REED WILLIAMS BUCKEYE CREEK PROJECT RETURN # 2205 APPENDIX B SOIL ANALYSIS REPORT REQUIREMENT Summary of Soil Data and Wastewater Application Rates Site: Buckeye Creek Development, Blowing Rock, North Carolina Prepared for Reed Williams By Foothills Soil Consulting, LLC Summary of Soil Data: In 2001 an initial investigation of the soils on this site was carried out by Foothills Soil Consulting, LLC, and was followed up by an intensive investigation of two areas on the site: the field along US 221 ("Priority 1 Area" on attachment 1) and an area along the private road that runs along the west boundary of the property ("Priority 2 area" on attachment 1). In 2003 additional pits were looked at on the northeast part of the property. See Attachment 1: Backhoe Pit Location Map, Attachment 2: Auger Borings Location Map (2001 investigation), and Attachment 3: Non -detailed Descriptions Location Map (2003 investigation). For brief soil descriptions see attachments 4 and 5. Soil depths from the intensive investigation of 2001 are summarized on the map on Attachment 1. Detailed descriptions are also available if needed. Based on these studies, there are two general soil areas -that can be identified on the property. The soils on the summit landscape and shoulder landscape positions have slopes ranging from 2-20%. Depth to bedrock or other restrictive horizon ranges fro„i 11" to more than 60". Depth to bedrock is highly variable, even within one pit. Depth to bedrock is generally greater than 12". There are a few rock outcrops in this area. Surface textures are loamy; with clay loam and loam subsoils. Saprolite, where present, has loam or sandy loam textures. Long- term acceptance rate (LTAR) for subsurface systems ranged from 0.4-0.6 gallons per day/ square foot (GPD/sf) of trench bottom, with 0.4 GPD/sf clearly the overall LTAR for this area. The other general soil area is the side slope area. Slopes in this area range from 25-70% or more. Depth to bedrock ranges from 6 to more than 60" in the upper part of the "Priority 2 Area", with depths ranging from 9 to 50" in the other parts of this soil area. Depth to bedrock generally ranges from 18-30", with deeper soils found in concave slopes. There were only occasional pits that were shallower than 12". Some rock outcroppings were noted on nose slopes, but were not a prominent feature on most of the landscape. Surface textures were loam underlain with loam, sandy clay loam, and clay loam subsoil. Where present, saprolite textures range from loam to sandy loam. LTAR for septic systems ranges from 0.4 to 0.7 GPD/sf. Application Rates and Land Required for Wastewater Disposal Options: There are several possible options for on -site wastewater discharge. The most obvious option is some type of conventional subsurface (septic system) disposal. This disposal method was discussed in detail in "Soil Suitability for Onsite Wastewater Treatment Report" by Foothills Soil Consulting, dated August 26, 2001. There is clearly inadequate area for this type of ewater system for the proposed development of 138 three -bedroom condominium units. A second option would be a pretreatment and drip subsurface system. On slopes greater than 25% a minimum of 18" of suitable soil would be needed. A significant portion of both the side slope area and summit/shoulder area soils would be suitable for this type of system. Based on the soil textures observed, a likely LTAR for the summit and shoulder soil areas would be 0.15 to 0.2 GPD/sf of drainfield area, and for the sideslope soil areas the LTAR would be 0.2 to 0.3 GPD/sf. Based on a design daily flow (DDF) of 49,680 gallons per day (GPD), and a reasonable figure of 0.25 GPD/sf for a drainfield on the sideslope, about 198,720 square feet of subsurface drip drainfield would be needed, about 4.5 acres, with an equal area reserved for repair. The more conservative figure of 0.2 GPD/sf would require about 248,400 square feet or about 6 acres, and the most conservative LTAR of 0.15 would require about 331,200 square feet, about 8 acres. This area does not include space for manifolds or effluent distribution lines, or space between zones. It would have to be installed in areas with 65% slope or less —preferably on slopes no more than 30-40%. This type of system is difficult to manage for wastewater systems of this size, and surface application may be a better option from a technical and management point of view. A third option is surface application. For this type of system a minimum soil depth of 12" is required. Most areas of the property that were evaluated would meet this standard. Based on the soil textures, soil depths and slopes described above, an application rate of 0.05 GPD/sf of application area is a likely application rate. At this application rate, 993,609ksquare feet or 23 acres of application area would be needed. Because this application area would be in the woods, a likely distribution system would be surface drip. A 30-60 day storage pond would be needed. No slope limits are listed in the regulations. However, if the application area has a very steep slope a lower application rate would be needed. Setbacks for surface application of wastewater using drip irrigation are as follows: 100 feet from houses, 50 feet from property lines, 100 feet from wells or other water supply source, 100 feet from most surface waters. Setbacks for spray irrigation are 400' from houses, 150' from property lines, and 100 feet from wells or surface waters. A fourth non -discharge option is water reuse. Based on a water budget prepared using general values for the soils on this property, about 160 inches of tertiary treated "recycled" water could be applied per year on this site. This corresponds to an application rate of 0.27 GPD/sf of application area. Based on a design daily flow of 49,680 GPD, 4.2 acres would be needed for the application area. Again, the likely application area would be in the woods, requiring surface drip irrigation. Setbacks for water reuse for surface drip application are 25 feet from non -SA surface waters, 100 feet from SA surface waters, and 100 feet from a potable well. There is no setback from either property boundaries or houses listed in the regulations. The application rates listed above are based on general soil characteristics, and are solely for use in this alternatives analysis. Actual design of any of these systems would need to be based on site specific data collected in a proposed wastewater application area. D- .77 0 a- Attachment 1: Backhoe Pit Location Map (priority 1 and priority 2 areas) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek Development, Watauga County, North Carolina Base Map by Atlantic Plan Engineering Corp. / 6 I IP 41 CO, . \ ‘,...., ..„,... sc 1 ,. •„. 1 .,_ , T. . _ . —fi o # Q. 0' 2) . / - 4-11 ."i-j1"- .-- - il I ..._ 4P VI - — '' ---. —r—Lr— t t a-15 • kal:- is; . 5 o,- ` ,.......::,. „......\ L: aa.--t „,0 31./ 14 al" --_ -------„, ,--, 1% 'ss" , — ---, --X6 .• /' ,,- _._ axt N * kr ' ....--..._ •••,..‹.........:, 25 ,., a 31,% — ----_, 1 4;,I- ---_,,ie - .---.. / ra4, All "Priority 1 Area" Approximate scale: 1"---100' Pit locations are approximate . ; to sot- ta 18 11.'3/ ' ' it ,1,5 • " 36 1 *p.(13i "Priority 3 Area" _ • g r • F'si 7 (-4 • \ 17- ) 1 2. - - - • 115 "Priority 2 Area" xi•.•09,V3(3 It" /; 113 • '< 106 7.11.).1 '1* 421, rry PPA • Vr.52;1;'• .72-1 :1-4 -.1e;4313. si \SP" '-‘01r 117. V •era- c;;3:1Z".^. 71440.11:. 36" tn. -A- 6. \ - rot— . , v., 46.10 - \e- k • lc) vp, c3° <kv ,ktol Ocs. '43 r in, cntfl Loa. z on Az 0 a) 11 Attachment 2: Auger Borings Location Map (2001 investigation) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek Development, Watauga County, North Carolina Base Map by Atlantic Plan Engineering Corp. ,-a t r "Priority 1 Area" ,3 0 •% Approximate scale: 1"=100' Pit locations are approximate jib maccio . 1 \ � -- , ._,... ; ,4.-:-t• , __.,,_:.:._r_:._,..r:__k_,..,._,..,,.. ,....,,,.I.....„,,,r„:„.i,,,.....L.„..,,,_11:„:„.___,__F_r.,,,;.17::::_i_7_,..t_ti_t_÷„f:ii.,,,::72:71_77.i:rzii_,:_rir;i4..,._ ,•......;_.,,.:_,:_i__,. l•-...__...- . 1,:i--4 27_17; ....-i_.44..` . it-1-'1, '�14.=i�" .. -s - "Priority 3 Area" i, ..,t' ID P3-7 •5 .f 3-5 P3-11 P3-3 ' • o • kot GO Dori _Ast.l cpti 10 Pow 0 L�o� oo Sage otd 0 iff •- /kor to z c U Zji ON czi z ..r.`,r--,__ Attachment 3: Non -detailed Descriptions Location Map (2003 investigation) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek Development, Watauga County, North Carolina Base Map by Atlantic Plan Engineering Corp. a.n' f+. • =--fit• is Pn!ntwi', rcu r,;orvi --._ J J • • �", • j a _/," • _ �Ilam` . L: a• am a$'`-.- r1. r.'-^'e` �' 1 rf .ran v.r, r \ • 1(C % r . ' Tom,` _f- --V�---- o f \ ir. • N. ,)i . ! -_ 4;., .� t7 `fir • e•. om ' C 1._ Luru;s now ur formerly al Ron Armstrong Pudic Armstrong liecord Boob 421 at page 58U .ter y)) / 1 r/7'Or --r-i. 1 / jI ! i i, % i; 1 / 1 () !. )i/ i- ( 7 / iiiii a t/ ; .ft : ' /IliJiIf I I iri..111 • I i c. I i l_`�I �S 7 r�E,AnR)tyG • i `'_t L e I ``i '' i ff ti�1,� '...--1N. . `1._ _ '`tip IV •, _. r- t_o:lris now to, :rter!:- ch_Irn Fi. noes •'l M4rcur. t t.AM. inr+ i '.COld 0001• .1 .1! pc.): .• i VICINITY ;vif •lT„ i.i]ad:: :1:a':r 1.1: :=,rrnoriy of .chard Finti « Margaret K. Flan Rer.r:rri . c) ; 1 fi• ;'It pane 087 r +irve,e::r Londs now or rorrnrr!v of ,Altw?tal Reully Saes Corp, Record ao i1- 223 a? pone if Imo. .r ..� _ .- .r •.= ..'^.` 1.8b•]r it �! - 1r • • 1 t •- rf r' i . i L•Q11ri5 :riiW 61 !rq • f/1 at o1;ui r:eott;; _r$ • Attachment 4: Non -detailed descriptions of Auger Borings (2001 investigation) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek Development Page l of 2 Pit# Lnd. pos./ Bt texture/ Bt Saprolite Limiting conditions— LTAR slope % %clay struct. depth/text.. depth and type (cony) Priority 1 Area _1 SU/7% L/25% lmsbk, fr 45"/SL SWC @ 30" .4 2 SU/5% CLl35% lmsbk, fr Cr/R. at 28" 3 HS/depression L/20% 4 HS/4% 1J25% lmsbk, fr 5 LS/9 CL/30% lmsbk, fr 6 LS/9 CL/30% lmsbk, fr .4 Cr? 20-30" .6 stopped @ 30"—R? .6 R? @33" .4 stopped @ 28" .4 Priority 2 Area P2-1 CV/35% L/25% stopped@25" .6 P2-2 CV/40% CL/30% stopped @30" .4 P2-3 LS/55% CL/30% 1 msbk,fr 33-55+/L >55" .4 P2-4 LS/60% L/25% lmsbk, fr 35-40"/L Cr/R@40" .6 abbreviations: Landscape position SU summit SH—shoulder LS—linear sideslope CC —concave sideslope CV —convex sideslope NS—nose slope FS—footslope TS—toeslope FP —flood plain DW—drainage way HS—head slope Textures C—clay CL--clay loam L—loam SL—sandy loam LS—loamy sand S—sand Limiting conditions SWC—soil wetness conditions EXP--expansive clay minerology R—Hard bedrock Cr—Soft bedrock FSap—unsuitable saprolite Structures gr—granular sbk—subangular blocky abk—angular blocky pr prismatic sg—single grain pl—platy ma —massive • Attachment 4: Non -detailed descriptions of Auger Borings (2001 investigation) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek Development Page 2 of 2 Pitt/ Lnd. pos./ Bt texture/ Bt Saprolite Limiting conditions— LTAR slope % %clay struct. depth/text. depth and type (cony) Priority 2 Area, coned. P2-5 CV/60% L/25% stopped @ 30" .6 P2-6 CV/35% L/20% stopped@25" .6 P2-7 LS/55% CL/30% 30-40"/L Cr?@40" .4 P2-8 CV/30% CL/30% 30-40"/VFSL >50" .4 Priority 3 Area P3-1 CV/40% many rock outcrops P3-2 LS/40% CL/30% 25-38"/L Cr? @38" .4 P3-3 LS/15% very gravelly 25-38"/L Cr? @20" .4 P3-4 CV/30% L/20% Cr?@20" .6 P3-5 LS/40% P3-6 LS/45% P3-7 LS/50% L/25% stopped @24" .6 P3-8 LS/60% 7 35% CL/30% stopped@28" .4 8 55% CL stopped @ 36" .4 9 45% CL stopped @24" .4 ,�, _10 42% SL stopped @ 40" .4 PEI Attachment 5: Non Detailed Descriptions (2003 investigation) Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: Buckeye Creek (US 221 near Blowing Rock) Pit# Lnd. pos./ Bt texture/ Bt Saprolite Limiting conditions— LTAR slope % %clay struct depth/text depth and type (cony) _1 LS/45% Cr @18-20" US 2 LS/50% Cr @ 27-30" US_ _3 LS/50% Cr @ 22", 30", 39" US_ 4 LS/50% Cr/R @ 20-32" US_ 5 CC/45% (colluvium) >50% coarse frag. @34", 37" .4 6 CC/50% water in bottom of pit >50% coarse frag. @ 40" .4 7 CC >50% coarse frag. @40-45" .4 _8 CC/50% US_ 9 CC/50% >50% coarse frag. @ 2T' .4 _10 CC/50% CL >50% coarse frag. @ 50" .4 abbreviations: Landscape position Textures Limiting conditions 1'' SU summit C—clay SWC—soil wetness conditions SH—shoulder CL—clay loam EXP—expansive clay minerology LS—linear sideslope L—loam R—Hard bedrock CC —concave sideslope SL—sandy loam Cr—Soft bedrock CV —convex sideslope LS—loamy sand FSap—unsuitable saprolite NS—nose slope S—sand FS—footslope TS toeslope Structures FP —flood plain gr granular pr prismatic sg—single grain DW—drainage way sbk subangular blocky pl—platy HS—head slope abk—angular blocky ma —massive Poll WI WI Mil rmil SOIL SUITABILITY FOR ONSITE WASTEWATER • TREATMENT REPORT 1.1 prepared for PM • Reed Williams US 221 Site near Rocky Meadows Blowing Rock, NC 1.' August 26, 2001 by ,,., Foothills Soil Consulting 4827 Berkley Street Morganton, NC 28655 F, (828)584-4445 Soil Suitability for Onsite Wastewater Treatment Report prepared for Reed Williams US 221 Site, near Blowing Rock, NC MOM The site is a 67.73 acre piece of undeveloped land located about four miles west of Blowing Rock. Various properties adjoining the site have been developed as single family — housing and as condominiums. Reed Williams, the owner of the site, is hoping to put in an extensive condominium development on the property. This soil investigation was to determine the suitability of the soils on this property to treat the waste onsite for such development. ^— Much of the land is extremely steep (65% or more slopes), and has no possibility of being used for any kind of septic system drainfield. Other areas of woodland are less steep, with 25% to 65% slopes and have some potential for use. At the front of the property on US 221 there is a large 2-3 acre field with slopes ranging from 2% to 15%. This investigation focused on three areas. The "priority one" area is located in the field, "priority two" is located on Knob Road immediately southeast of the existing condominiums, and priority three was the steep slopes below the proposed condominiums off221. (see attached map) The proposed condominiums would have four three -bedroom units per building. Therefore, the design daily sewage flow for one building would be 1440 gallons per day. This qualifies as a "small" septic system under current regulations, although there are some restrictions on systems with over 1000 gallon per day (GPD) flows. There are a variety of septic system designs that can be considered in deciding whether a given area is suitable for a septic system drainfield. This decision is partly technical, depending on what soils are present on the site, and partly economic. The soils observed so far suggest several likely systems. The most reasonably priced system, about $2000 per three bedroom unit, would be a gravity -fed conventional system or large diameter pipe (LDP) system. The minimum soil depth needed for this type of system varies with the slope_ In the "priority 1" area, the minimum soil depth needed would be 24 to 27 inches. Where the slope is 45%, as it generally is in the "priority 2" and "priority 3" areas, a minimum soil depth of 42" is needed. Where there are limited areas of soils with sufficient depth, gravity -fed pipe can be combined with .� pretreatment to allow a smaller drainfield, with a total cost of about $10,000 per three bedroom unit. Current regulations would allow a 25% reduction in drainfield area for systems with over 1000 gallon per day flows. If a rule change requested by the manufacturer is allowed, a 50% reduction may be possible. Soil depths of 18 to 24" inches require a more expensive system (about $15,000 to 20,000/ three bedroom unit) using drip and pretreatment, while soil depths of only 12 to 18 inches will require a still more expensive system ($20,000 to $25,000/three bedroom unit) because more drip line will be required. The "priority one" area was investigated with auger borings and backhoe pits spaced on 50 foot centers. (see attached descriptions) The backhoe pits indicated that the bedrock in this area is extremely variable. It consists of interbedded metamorphosed siltstone and sandstone, with varied but generally steep dips (layers are steeply tilted). Since the layers have variable resistance to weathering, in one pit the bedrock could come to within 16 inches of the surface in one corner and be more than 50 inches from the surface in another corner. Because bedrock 1 PEP frequently comes up to within 20 inches of the surface, it is going to be difficult to locate the 1440 GPD systems necessary for 4 unit condominium buildings in this area. The controlling soil texture in the priority 1 area was clay loam with a clay percentage of 40%. Based on this I would recommend a long term acceptance rate (LTAR) of .4 GPD/ square foot of trench bottom, which would require 3600 square feet of trench bottom for a 1440 GPD system. Assuming the installation of a large diameter pipe system with 2.5 foot wide trenches, 1440 linear feet of trench would be needed, taking up about 11,520 square feet for the initial system. An equal area would be needed for a repair system. Of the area investigated here I estimate there is potentially space for between 1770 and 2040 linear feet of LDP trenches, a little more than what would be needed for the initial system for one building. It may be possible to g MA put in one building using gravity fed LDP for the initial system and set aside a repair area with 12 inches or more soil that is suitable for a pretreatment and drip system. It may also be possible to put in two buildings by using pretreatment in combination with the large diameter pipe to decrease the size of the drainfield of the initial system. One concern is that most of this suitable soil is located in a headslope position, a part of the landscape where water concentrates, making it less preferable for drainfields. In addition, because of the variability of the depth to bedrock I cannot be sure that all of this area will be suitable until the trenches are dug and an investigation in the trench bottoms carried out. The remaining area of the field below the existing condominiums may offer additional space for septic system drainfields and is worth additional investigation. Holes 8-9 and 17-23 (see map) all had deep enough soils for a gravity -fed drainfield, a trend which may continue across that slope. The priority two area has slopes ranging from 30% to over 50%, and for that reason soil depths of 31 to 42 inches are required to allow a gravity fed system with no pretreatment. The soil investigation included both auger borings and backhoe pits on 50 foot centers in areas with potential for use as a drainfield. The soils in this area were similar to those in the priority one area, with steeply tilted interbedded bedrock. In the upper part of the slope most pits were at least 30 inches to bedrock . Again, the recommended LTAR is 0.4, so that 1440 feet of trench would be needed for the initial system for one building, with an equal area needed for repair. I ' estimate that the area with sufficient soil for a large diameter pipe will allow about 500 to 750 feet of trench, about 35% to 50% of what is needed for the initial system for one building. The final area was the priority 3 area located downhill from the proposed condominium units located off US 221. The slopes in this area are very steep, ranging from 25% to over 65%. For the proposed use virtually all of the soils with slopes less than 65% would have to be used for drainfields. Preliminary borings with an auger indicated significant amounts of bedrock within 20-35 inches. Given the number of bedrock outcroppings, the landscape position and the results of the auger observations, the soils in this area can be expected to range from less than 20" to about 40", with a few spots slightly deeper. A gravity fed system with no pretreatment on these slopes would require a minimum of 42-45 inches of soil. In this area it will be difficult to find enough soils of that depth for 2-3 bedroom septic systems (240-360 GPD). There is almost no chance that large enough expanses could be found for 1440 gallon per day systems. Therefore, no further investigation was carried out at this time. There is a good chance that there would be large areas with 18" of soil that would support a pretreatment and drip system. If it is decided that such a system would be economic for this development, then a more detailed investigation of the soils would be warranted. • • 3eq.. "Priority Area" , 105„ • 114 3-b" n3 02::. :b" ttr- - • " Attachment 1 Backhoe Pit Location Map Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: US 221 near Rocky Meadows L 6. cy • t. 40, • iv ?cif 7 IQ D .417 \ \ ' '---------------___,L___:-_- -----------------2-411*' 4461! - -I, _________------1-' ----- ----- ---G iv---=-LD_Tl-_, 3s a- • -- -- -2-•-•,.------?=-------____s,,----- 1 -? ..... la.:1 — - It. I 6. - -- I ° tO 10-- --tia -, .a..644.3„aer,-,- ._2.0 *S-,\I, 117. 15. 3*, - ._ ja „).. ul 5 184* S" ,..--- - — --2-3--th"- •-:----›-.1.',,-..' ai -.. • .-•,,.....0 at., 4 I \ -- qw -. --"-•-... Amy-, A Oft \ - 7 /'` '0 31 -el — ' 1/4 t •--\ "Priority 1 Area" ."-. ..ae-'.-e-,zn* ` -AI-- i ----..„. ....., '••••:-3".. ......344c:34, 55s. ?iv Approximate scale: 1"=100' Pit locations are approximate Q "Priority 3 Area" _ • - • • -- - -•- • • - - • •-• ••• / 1.4 ° el 0- t?- 334 ti;3) 71.11: • x!n• )"1" \,.... . 0-1 7.:74"; - - ,---' iwa Li! .-c, ...- 5o• m 0 _,..s-,...0 . Cf::- C - .21 -- 9 ke ,,n_ - r- 61" -IN .1.7.0 ,>-.. , .„-4.5-f e, 1:3\`- • 1c3 1 .--'''' 7:5 --' oc, cke. ‘... .. 21 .'".„--- ...401/4,,,,-- 1:•....11. „.---- ,----p--cy--, e-- ---.:- - -- ---- 11 "`er4r5- - -- — -1, oc ok" OW? If) cr. (Das z 1/7 c 0 -.‘432:t 045 106 .;.2.11. IC> -••• C4I 0. t 1— z 4/ Attachment 2 Auger Borings Location Map Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: US 221 near Rocky Meadows ° 0 0 o 00 "Priority 1 Area" . 3 Kr• . • .41 Approximate scale: 1"=100' Pit locations are approximate .5 -7--, • 7,4-1—,' ' 1' 4--!-- '' ''-' 7-i 1. , ' ''' "`""--"..-.-',..!-- `."-`7:1-,-'"'"..---•"--.'4'.4-1, .4'1: ..riv. rj i•*-7T :," 7 '-1"- :- . ..-, --- - . 1.-''''-.1- ii z _.__4. , .....4 ... _, :1-,--:-..... :-.:_...1„7,---1-2,.,__!..„;:- -i-,-;-- ---:--•-i- A , 14-i,--i-4- -LI : , 7-'- t- '..-.'r---•: '-= 4- 4- :- '-'-i- -;1.--Ir‘ --1~.-H- _.,1,;..,-,---•:- - .- ',.-;4---4.--!--1----- .,7-.1-c-.--'-'--- - • -i--.......,....,1 .. - ......-- .....i 4-... -; -t ----1..,-,--.. --..4..-i i 7 -!---,•"---f-i-t- ,,,- -..--.. Tr .,-- ' -- 4 -""1" 1-2.-,±i'..i---i.-H.• ';'''I'..] i 1-,-...--i--.'-7±i-T -'' I 14---!T-:11-, 1.---;!Li f_i , .4.:.'..1:.1.14....: ' ,..1.4.,L•174,..; ::4::: ,,,..-4,* 1.,:-: 1 . . i...t ::,',1 1.1:1,1: ' ' , • • " '.i - ''''''' I 4.' •••-• •.' —i-r : — .. : • ,- i -:,-. : 4-1-7: e-F---'I ,-.-t. -r-fr-!--., . ` ----;-• -...-.i-i-,4;,-:-ri--,.4"-!-!--.:H---1-,-T ; . ,.. l'.-1-';' "4-r ',. '..--r2t.-'i- ''''.-;':i:.--171-"r! , ...; 1--r. -,---, r---_-.F.:_r,- 1-_:.-;---i--1-1 .4 i-7.4--T---4- ._ • ___.f_ •:„ Tt7k--:71._,-4-7-1..--,..-_, .--:_1,-,:-...,„,. j , 4,-t-i4LL-: ' _I• :'1:1„I.L- 4.tr'_;:.-..,-....' 4_ .i._+±gt, .-1-r4_14._,...._ •:,-- ,,,—,-- , +14±-, 7r; --r.--;'4"1" ;-"T-- ,-i. I- -t---f -IA- -. .— • -.-:i_..-1-:-7-7-1-i.!--4.-1_--L-7---7-1-:-_-1±.';:k--1—__,_.----?.-1-- --'-'t--.!--__:•-_,E", .4_,---f----.'_2_,.- ,--1-,+:-..._f_',, :. -- • . ,_...„,__71:4.1.4,i-T.:.;_..:.-..t.i.i.,-_?..._LE.,,;_i_14,_ "Priority 3 _,-,....4.t.......H,.. --,_.-7-4,-4--(-7 ---,- -__.:1S.17_i_i_u.1::_j_= ,.--.__1*.r..:,,,,- _ , • . . , • ---- . P3-7 - • G P3-5 :e31 • . - • • • • "•-•'•-•-•••••-,-,-••••-•••'-',-,- "co r- 0. ...▪ .Sr 5 .3 251:5 0‘ • cp• _ _ _ \pcs, \\.1 sova. o 014 (3` s cipcc _.eo 10 dc- vooi c z to a' Co vs •: • • • 4 '1' • '1•-• • • r 1-1't'tt7r-1 .114 • F4 III; Oa% •So IMO Attachment 4: Soil descriptions of Auger Borings Prepared for Reed Williams by Foothills Soil Consulting, LLC Site: US 221 near Rocky Meadows Page 2 of 2 Pit# Lnd. pos./ Bt texture/ Bt Saprolite Limiting conditions— LTAR slope % %clay struct depth/text, depth and type (cony) Priority 2 Area, cont'd. P2-5 CV/60% L/25% stopped @ 30" .6 P2-6 CV/35% L/20% stopped@25" .6 P2-7 LS/55% CL/30% 30-40"/L Cr?@40" .4 P2-8 CV/30% CL/30% 30-40"/VFSL >50" .4 Priority 3 Area P3-1 CV/40% many rock outcrops P3-2 LS/40% CL/30% 25-38"/L Cr? @38" .4 P3-3 LS/15% very gravelly 25-38"/L Cr? @20" .4 1.9 P3-4 CV/30% L/20% Cr?@20" .6 r.' P3-5 LS/40% P3-6 LS/45% P3-7 LS/50% L/25% stopped @24" .6 P3-8 LS/60% 7 35% CL/30% stopped@28" .4 8 55% CL stopped @ 36" .4 R► 9 45% CL stopped @24" .4 _10 42% SL stopped @ 40" .4 PIM • Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 1 of 29 Site: US 221 near Blowing Rock Pit # 1 Slope 8% Lndscpe Pos. Parent Mat. Res. Depth to SWC Profile Classification Unsuitable Soil Depth/Saprolite 12"_ Profile LTAR (Cony.) NA Restrictive Horizon 12"_ Min. Soil Depth Needed 24" Clay Mineralogy _sl. exp_ Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type A Bt R 12" *R too shallow for most systems —no description made. Fe1 Pit # 2 Slope 5% Lndscpe Pos._SU Parent Mat. Res Depth to SWC >64" Soil Depth/Saprolite 25"_ Restrictive Horizon 25"_ Clay Mineralogy:_ sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.)_ 4 Min. Soil Depth Needed 24" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade AP 0-8" 10YR 3/2 L 2 f Gr &sbk fr Bt 8-25" 10YR 4/4 CL 2 m sbk Fr, sp, ss 30% Cl 25-33" 10YR 4/4 70% gr L ma Fr, sO, p0 0 20 /o 33-54" MCS 10-20% cb SL ma fr 15% Cr 54-64+" Ftiuhilla Cnil ('nnct.ltina Q..9A f1 • FIER PIM rail • (ttachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 2 of 29 Site: US 221 near Blowing Rock Pit # 3 Slope 5% Lndscpe Pos_LS Parent Mat. res. Depth to SWC >60" Soil Depth/Saprolite 23"_ Restrictive Horizon 28"_ Clay Mineralogy _sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" Cr Depth range 28-40" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type Ap 0-11" 10YR 3/2 L 2 m sbk fi. Bt 11-23" 1OYR 5/4 L/CL 2 m sbk Fr,sO, p0 28% C 23-28" MCS L ma Fr, sO, p0 20% Cr 28-60" Pit # 4 Slope_12% rim Lndscpe Pos. LS Parent Mat. Res Depth to SWC >60" Soil Depth/Saprolite 18"_ Restrictive Horizon 22" Clay Mineralogy:_ sl. exp Profile Classification Unsuitable Profile LTAR (Conn.) .4 Min. Soil Depth Needed 24" Cr Depth range 22-54" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade Ap 0-9" 1 OYR 3/2 L 2 f Gr Fr, sO, p0 Bt 9-18" 1OYR 5/4 CL 1 m sbk Fr, sp, ss 30% C 18-38" 2.5YR 5/4 L ma Fr, sO, p0 20% Cr 38-60" Rei thtllc Cni) ('rn+anitina 0..7f111 MEI Fairl Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 3 of 29 Site: US 221 near Blowing Rock Pit # 5 Slope 15% Lndscpe Pos. LS Parent Mat. Res. Depth to SWC >72" Soil Depth/Saprolite 28"_ Restrictive Horizon_38"_ Clay Mineralogy:sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Kin. Soil Depth Needed 27" Cr Depth range 38-52" Horizon Depth Main Colors Mottles Texture Structure Moist &Clay Wet Consistence % Grade Class Type Ap 0-10" 10YR 3/2 L 2 f Gr, sbk fi. Bt 10-28" IOYR 5/4 CL 1 m sbk Fr, ss, sp 30% C 28-41" MCS 2.SY5/3, 2.5Y 3/3 L ma Fr, s0, p0 I5% Cr 41-64" Pit # 6 Slope 20% son Lndscpe Pos._LS Parent Mat. Res Depth to SWC >65" Soil Depth/Saprolite 16"_ Restrictive Horizon 16"__ Clay Mineralogy:_ sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .4 Mn. Soil Depth Needed 28 - Cr/R Depth range 16-40" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-8" 1 OYR 2/2 L 2 m sbk fr Bt 8-19" 1OYR 5/6 CL 1 m sbk Fr, ss, sp 30% BC 19-34" 2.5Y5/4 L 1 c sbk Fr, sO, p0 20% C/Cr 34-55" MCS Layers of Cr L ma Var. 20% R 55-60+" Frvithillk Cni1 i'nnvultinn 0.7f1111 ran Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 4 of 29 Site: US 221 near Blowing Rock Pit# 7 Slope 15% Lndscpe Pos._SH Parent Mat.Res. Depth to SWC >55" Soil Depth/Saprolite 26"" Restrictive Horizon 26" Clay Mineralogy: sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 27" Cr Depth range 26-50" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type Ap 0-6" I OYR 2/2 L 2 f gr fr Bt 6-24" IOYR 4/4 CL 2 m sbk Fr, ss, sp 300A, BC 24-33" 2.5Y4/4 L 1 m sbk Fr, s0, p0 25% Cr 33-55" fi Pit # 8 Slope 10% r�ra Lndscpe Pos._CC Parent Mat. Res Depth to SWC >60" Soil Depth/Saprolite 23' Restrictive Horizon 42' - Clay Mineralogy: sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.)_ 4 Miin. Soil Depth Needed 24" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade Ap 0-7" I OYR 3/2 L 2 m sbk fr Bt 7-23" I OYR 4/6 CL I m sbk . Fr, ss, sp 30% C 23-42" MCS SL ma Fr, s0, p0 Cr 42-60" Fi Frv►Il+illc Cnii realcullina Q_711111 ran RNA Fart • Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 5 of 29 Site: US 221 near Blowing Rock Pit # 9 Slope 5% Lndscpe Pos._LS Parent Mat. Res. Depth to SWC >60" Soil Depth/Saprolite 2T' Restrictive Horizon 2T'_ Clay 11(neralogy:__sL exp Profile Classification Provisionally suitable Profile LTAR (Cony.) ) .4 Min. Soil Depth Needed 24" Cr Depth range 27->60" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Clay %Consistence Grade Class Type Ap 0-6" 10YR 3/2 L 2 f Sbk fr Bt 6-20" 10YR 4/4 L 1 m sbk Fr, ss, sp 25% BC 20-2T' 2.5Y4/4 10YR416 L l m sbk Fr, s0, p0 20% Cr/C 27-60" Soft bedrock layers W/MCS of ma Fiand fr Pit # 10 Slope 5% Lndscpe Pos. LS Parent Mat. Res Depth to SWC >65" Soil Depth/Saprolite 34"_ Restrictive Horizon 55" Clay Mineralogy:_ sL exp Profile Classification Suitable Profile LTAR (Com.) .4 Min. Soil Depth Needed 24" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-11" 10YR 3/2 L 2 f sbk fr Bt 11-23" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% BC 23-34" 2.5Y5/4 L 1 c sbk Fr, s0, p0 25% C 34-55" MCS SL ma Fr, s0, p0 15% Cr 55-65+" revolving, Gil f'nnci,ltinn O_7ff Attachment 5: Detailed Soil Descriptions •a Prepared for: Reed Williams Page 6 of 29 PIA CAR ria Site: US 221 near Blowing Rock Pit # 11 Slope 8% Lndscpe Pos._ irr. Parent Mat. Res_ Depth to SWC >60" Soil Depth/Saprolite 20"_ Restrictive Horizon 20" Clay Mineralogy_ sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) ) .4 Mn. Soil Depth Needed 24" Cr Depth range 20-43" Horizon Depth Main Colors Mottles Texture Structure Moist& Wet Consistence Clay % Grade Class Type Ap 0-8" 10YR 3/1 L 2 f sbk fr Bt 8-20" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% CrB 20-32" 80% gravel, 20% 10YR4/4 soil ma Cr 32-60" Fractured phyllite Pit # 12 Slope 5% Lndscpe Pos._LS Parent Mat. Res Depth to SWC >52" Soil Depth/Saprolite 13"_ Restrictive Horizon 13"_ Clay Mineralogy: sl. exp Profile Classification Unsuitable Profile LTAR (Conv.)_.6 Mm. Soil Depth Needed 24" Cr Depth range 13-30" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-9" I OYR 3/2 L 2 m sbk fr Bt 9-1 T' 2.5Y5/4 L 1 m sbk Fr, sO, p0 20% BC 17-29" - 2.5Y5/4 SL 1 m sbk Fr, sO, p0 20% R 29-52" Pnnthilly Coll ('nncidtinn 0.711A1 IMP ROI Fmel Fan Parent Mat. Res Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 7 of 29 Site: US 221 near Blowing Rock Pit # 13 Slope_0%down, 10%up Lndscpe Pos. HS Parent Mat _Res. Depth to SWC >72" Soil Depth/Saprolite_36"_ Restrictive Horizon 36" Clay Mineralogy _sl. exp Profile Classification Provisionally suitable Profile LTAR (Conv.) .35 Min. Soil Depth Needed 24" Cr Depth range 36->72" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay c /o Grade Class Type Ap 0-8" 10YR 3/1 L. 2 f gr fr Bt 8-16 1OYR 4/4 CL 1 m sbk Fr, ss, sp 30% BC 16-37" 10YR4/3 SL 1 m sbk Fr, s0, p0 20% C/Cr 37-72" Gray and brown MCS With layers of Cr SL & L ma Fr & fi Pit # 14 PEI Slope_2% Lndscpe Pos. HS Depth to SWC >69" Soil Depth/Saprolite 55"_ Restrictive Horizon 55"___ Clay Mineralogy: sl. exp_ Profile Classification Suitable Profile LTAR (Conn.) .35 Min. Soil Depth Needed 24" Cr Depth range 55->69" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade Ap 0-13" 1 OYR 3/2 L 2 f gr fr Bt 13-35" 10YR 5/4 CL 1 m sbk Fr, ss, sp 35% B/Cr 35-55" 10YR 4/3 40% p yllite gr SL 1 m sbk Fr, sO, p0 Cr 55-69" fi Fetnthillc Cnil !'ro+assltinn Q.7SYU NMI Mal PEI Fog 110,4 4 Attachment 5: Detailed Soil Descriptions • Prepared for: Reed Williams Page 8 of 29 Site: US 221 near Blowing Rock Pit # 15 Slope 5% Lndscpe Pos. HS Parent Mat. Res. Depth to SWC >56" Soil Depth/Saprolite 27 _ Restrictive Horizon 27"_ Clay Mineralogy: sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Mn. Soil Depth Needed 24" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type Ap 0-8" 1 OYR 3/2 L 2 m sbk fi. Bt 8-27" 10YR 5/4 CL 1 m sbk Fr, ss, sp 35% Cr 27-56 Fractured phyllite Pit # 16 Slope_4% r+� Lndscpe Pos_HS Pal Parent Mat. Res Depth to SWC >72" Soil Depth/Saprolite 22"_ Restrictive Horizon 22" Clay Mineralogy _sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" Cr Depth range 22-65" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-7" 10YR 3/2 L 2 m sbk fi- 25% Bt 7-22" l OYR 5/4 30% phyllite gr CL 1 m sbk Fr , ss, sp o 30 /o CrB 22-38" 10YR 5/4 80% p yllite gr L _ 1 m sbk Fr, sO, p0 25% Cr 38-72" P,.,.,a;nc S,.;s r.e,c..1:;.,,. oanni Fowl Poll rani Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 9 of 29 Site: US 221 near Blowing Rock Pit # 17 Slope 4% Lndscpe Pos.HS Parent Mat. Res. Depth to SWC >57" Soil Deptb/Saprolite 33"_ Restrictive Horizon 33" Clay Mineralogy: sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Miin. Soil Depth Needed 24" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type Ap 0-9" 10YR 3/2 L 2 m sbk fr Bt 9-21" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% B/Cr 21-33" 2.5Y 5/4 40% gr SL 1 m sbk Fr, sO, p0 Cr 33-5T' Pit # 18 Slope 5% rst Lndscpe Pos. HS Parent Mat. Res Depth to SWC >66" Soil Depth/Saprolite 60 Restrictive Horizon 36" Clay Mineralogy _sl. exp Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed_24" Cr Depth range 36-60" Horizon Depth Main Colors Mottles Texture Structure moist & Wet Consistence Clay % Grade Grade Grade A 0-6" 10YR 3/2 SiL 2 f gr fr 20% Ap 6-10" 10YR 4/2 Sii, 2 m sbk Fr, sO, p0 25% Bt 10-28" 10YR 5/4 CL 1 m sbk - Fr, ss, sp 30% BC 28-60" 2.5Y5/4 25% gr L 1 m sbk Fr, sO, p0 20% 18" thick vein of Cr comes up to 36" from surface. F,vNhale c,.;i rnne,.hin., 0.111111 11.. Pr Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 10 of 29 Site: US 221 near Blowing Rock Pit# 19 Slope 7% °m Lndscpe Pos. HS Parent Mat. Res. PEN MI MR P. MI falri Depth to SWC >69" Soil Depth/Saprolite 35"_ Restrictive Horizon 25"_ Clay Mineralogy:__sl. exp Profile Classification Provisionally suitable Profile LTAR (Cony.) .35 Min. Soil Depth Needed 24" R/Cr Depth range 25->69" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type Ap 0-7" 10YR 3/2 L 2 f gr fr 25% Btl 7-11" 1OYR 4/4 CL 2 f sbk Fr, ss, sp 30% Bt2 11-23" 1OYR 5/4 CL 2 m sbk Fr, ss, sp 35% BC 23-35 2.5Y 5/4 L 1 m sbk Fr, sO, p0 25% C 35-69" MCS 2.SY7/2, 2.5Y4/3 SL ma Fr, s0, p0 Pit # 20 Slope_8% r.•1 Lndscpe Pos._HS Parent Mat. Res Depth to SWC >52" Soil Depth/Saprolite 30"_ Restrictive Horizon 32"_ Clay Mineralogy: sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Ivfin. Soil Depth Needed 24" Cr Depth range _5" vein Cr @ 32"_ Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade Ap 0-10" 1OYR 3/2 L 2 f gr fi. 20% Bt 10-21" 1OYR 5/4 CL 2 m sbk Fr, ss, sp 30% BC 21-30" 1OYR 5/4 L 1 m sbk Fr, sO, p0 25% C 30-52" MCS W/ 2.SY4/2 colors LS to L ma Fr, sO, p0 R Qa 52" Frwithille Coil rfinemUi"a Q0.9M1 REI NMI OMNI Fngl Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 11 of 29 Site: US 221 near Blowing Rock Pit # 21 Slope 15% Lndscpe Pos. LS Parent Mat. Res. Depth to SWC >75" Soil Depth/Saprolite 23"_ Restrictive Horizon_30" Clay Mineralogy:_sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 2T' Cr Depth range 30->75" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type Ap 0-8" 10YR 3/2 L 2 f sbk R% Bt 8-16" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% BC 16-23 2.5Y 5/4 L 1 m sbk Fr, sO, p0 25% C/Cr 23-75" MCS SL & L ma Fr, s0, p0 Pit # 22 Slope_10% '=1 Lndscpe Pos. FS Parent Mat. Res PER ran fml FIER Depth to SWC >65" Soil Depth/Saprolite 29"_ Restrictive Horizon 29"_ Clay Mineralogy _sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.)_ 4 Min. Soil Depth Needed 24" Cr Depth range 29-> 65" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade Ap 0-13" 10YR 3/2 L 1 m sbk fr 20% Bt 1 13-2T' 10YR 4/4 CL 1 m sbk Fr, s, p 40% Bt2 27-36" • 10YR 5/4 35% gr SCL 1 m sbk Fr, sO, p0 25% C 36-65" MCS—gray SL ma Fr, sO, p0 and brown i:i+nthiile S 1 r'nntvvltinn 0-WV) 1 ank aligh ran Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 12 of 29 Site: US 221 near Blowing Rock Pit # 23 Slope 7% Lndscpe Pos.._FS Parent Mat. Res. Depth to SWC >54" Soil Depth/Saprolite 26"_ Restrictive Horizon 26"_ Clay Mineralogy:_sl. exp Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" Cr Depth range 26-29" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay ° /° Grade Class Type Ap 0-9" . Btl 9-15" 10YR 5/4 10% gr CL 1 m sbk Fr, s, p 40% Bt2 15-27" 10YR 5/4 30%' 2.5Y5/3 25 L 1 m sbk25% Fr, sO, p0 Cr 27-54 Pit # 24 Slope_8% "" Lndscpe Pos _FS Parent Mat. Res RIR WR Depth to SWC Soil Depth/Saprolite 9" Restrictive Horizon 9" *_ Clay Mineralogy _sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) NA bkn. Soil Depth Needed 24" Cr Depth range 9-13" Horizon Depth Main Colors Mottles Texture Sure Moist & Wet Consistence Clay Grade Grade Grade *Too shallow for any system —no soil description made. F.,..>>ale Seta r w,anh..w. o_7nni Attachment 5: Detailed Soil Descriptions PIM far Prepared for: Reed Williams Page 13 of 29 Site: US 221 near Blowing Rock Pit # 25 Slope 5% Lndscpe Pos.FS Parent Mat. Res. Depth to SWC >55" Soil Depth/Saprolite 21" Restrictive Horizon 21" Clay Mineralogy:_sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .4 Kin. Soil Depth Needed 24" Cr Depth range 2I 23" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type Ap 0-10" 10YR 3/2 _ L 1 m sbk fi- Btl 10-17" IOYR 5/4 CL 1 m sbk Fr, ss, sp 30% Bt2 17-23" 10YR 5/4 35% gr L 1 m sbk Fr, sO, p0 25% Cr 23-55 Fractured phyllite Pit # 26 Slope 5% Lndscpe Pos. HS Parent Mat. Res Depth to SWC >61" Soil Depth/Saprolite 27" Restrictive Horizon_18' Clay Mineralogy: sl. exp_ Profile Classification Unsuitable Profile LTAR (Conn.) ..35 Min. Soil Depth Needed 24" Cr Depth range 22-52" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay ° /O Grade Grade Grade Ap 0-10" IOYR 3/2 L 1 m sbk fi- Btl 10-18" 10YR 5/4 CL 1 m sbk Fr, ss, sp 30% Bt2 18-27" 10YR 5/4 60% gr L - 1 m sbk Fr, sO, p0 C/Cr 27-61" MCS-brown and gray WI veins of phyllite Cr L Pried hale Reba rnnm.l,:, ., Q._?nnl mar Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 14 of 29 Site: US 221 near Blowing Rock Pit # 27 Slope 2% Lndscpe Pos. HS Parent Mat. Res. Depth to SWC >62" Soil Depth/Saprolite 44 _ Restrictive Horizon >62"_ Clay Mineralogy: sL exp_ Profile Classification Suitable Profile LTAR (Cony.) .35 Mm. Soil Depth Needed 24" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type Al 0-6" 10YR 3/2 SL 1 f gr fr A2 6-20" 10YR 3/2 L 1 m sbk Fr, s0, p0 Bt 20-32" 10YR 5/4 CL 1 m sbk Fr, ss, sp 30% BC 32-44" 10YR 6/4 L 1 • m sbk Fr, sO, p0 20% C 44-62 MCS VFSL ma Fr, sO, p0 Pit # 28 Slope 2% Lndscpe Pos. HS Parent Mat. Res Depth to SWC >67" Soil Deptb/Saprolite 38"_ Restrictive Horizon 38"__ Clay Mineralogy: sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" R/Cr Depth range 38-67" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-12" 10YR 3/2 L 1 m sbk fr 20% Btl 12-27" IOYR 5/4 CL 1 m sbk Fr, ss, sp 35% Bt2 27-53" 2.5Y 6/4 . L 1 m • sbk Fr, sO, p0 25% C 53-67" MCS 2.5Y6/3 &2.5Y 6/1 (no water in pit) VFSL ma Fr, sO, p0 Chroma lcolor in C horizon most likely lithochromic—may indicate some wetness in this pit. Petesthillio Ana r.b.n,It ,," oann i Attachment 5: Detailed Soil Descriptions F+ Prepared for. Reed Williams Fug n•l PER Oaf Page 15 of 29 Site: US 221 near Blowing Rock Pit # 29 Slope 2% Lndscpe Pos _SU Parent Mat. Res. Depth to SWC >36" Soil Depth/Saprolite 11" Restrictive Horizon 11"_ Clay Mineralogy: sl. exp_ Profile CIassification Unsuitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" R Depth range 11-1T' Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type Ap 0-6" 10YR 3/2 L 2 f Sbk S- 20% Btl 6-11" 10YR 5/4 CL 1 m sbk Fr, ss, sp 30% Bt2 11-16" 10YR 5/4 L 2 m sbk Fr, sO, p0 20% R 16->36" . Pit # 30 Slope 7% Lndscpe Pos._SH/SU Parent Mat. Res Depth to SWC >62" Soil Depth/Saprolite 26 = Restrictive Horizon 31" Clay Mineralogy._ sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 24" Cr Depth range 31-62" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-7" 10YR 3/2 L 2 f gr fr 25% Bt 7-15" 10YR 5/4 CL 1 m sbk Fr, ss, sp 30% BC 15-26" 2.5Y6/4 L 1 m sbk Fr, sO, p0 • 25% C 26-62 „ MCS 5Y8/1, 2.5Y6/4* Varied: L to SL ma fr, sO, p0 2 inch vein of Cr angles across pit at 16 and 21 inches fan *Chroma 1 color probably lithochromic. Penrsthille Anil r`rn+cveltina Q-9f1f1I IMP Pasi fag PIM FOR FaI Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 16 of 29 Site: US 221 near Blowing Rock Pit # 31 Slope 10% Lndscpe Pos. LS Parent Mat _Res. Depth to SWC >60" Soil Depth/Saprolite 18" Restrictive Horizon_18"_ Clay Mineralogy: sL exp_ Profile Classification Unsuitable Profile LTAR (Cony.)_ 4 Min. Soil Depth Needed 24" Cr Depth range >60" Horizon Depth Main Colors Mottles Texture _ Structure Moist & Wet Clay %Consistence Grade Class Type Ap 0-7" 10YR 3/2 L 2 f gr fr 25% Bt 7-18" 1OYR 5/4 SCL 1 m sbk Fr, sO, p0 25% C 18-60"MCS Varied: SL, L, CL ma 10- 30% Pit # 32 fun Slope_12% Lndscpe Pos. LS_ Parent Mat. Res Depth to SWC >66" Soil Depth/Saprolite 31"(21?) Restrictive Horizon_31"(21?) Clay Mineralogy:_ sl. exp Profile Classification Prov. Suitable (Unsuitable?) Profile LTAR (Cony.)_ 4 Min. Soil Depth Needed 24" Cr Depth range _one side of pit has R or boulder c@21"• Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-6" 10YR 3/2 L 2 f sbk fi- 25% Bt 6-16" 1OYR 5/4 CL 1 m sbk Fr, ss, sp 30%/a BC 16-24" 2.5Y6/4 L 1 m sbk Fr, sO, p0 20% Cr - 24-26" phyllite Fi 26-42" 2.5Y4/4 2/oSNL1)CS 0B/C L 1 m sbk Fr, , sO, p0 o 25/o C 42-66" MCS SL ma Fr, sO, p0 FnnIM'llc Real r nncnitinn 4 711f11 ran PIM Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 17 of 29 Site: US 221 near Blowing Rock Pit # 33 Slope 5% Lndscpe Pos _CV Parent Mat. Res. Depth to SWC >63" Soil Depth/Saprolite 12" Restrictive Horizon 12"_ Clay Mineralogy: sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .4 Km. Soil Depth Needed 24" Cr Depth range 12 32" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type Ap 0-8" 1 OYR 3/2 L 2 • f gr fr 20% Bt 8-12" 10YR 4/4 .CL 1 m sbk Fr, ss, sp 35% Cr 12-23" R 23-63" Note: Saprolite in this pit is Loam with less than 20% clay Pit # 34 Pig Slope 10% Lndscpe Pos_LS Parent Mat. Res Depth to SWC >64" Soil Depth/Saprolite 19' :_.• Restrictive Horizon 19" Clay Mineralogy:_ _sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .5 Min. Soil Depth Needed 24" Cr Depth range 19->64" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade Ap 0-7" Bt 7-16" 10YR 5/4 SCL 1 m sbk Fr, sO, p0 25% BC 16-23" 1OYR 6/4 SL 1 m sbk Fr, sO, p0 C/Cr 23-64" MCS With layers of Cr SL ma fr. And fi Fnnth;lla Cn;l t^nna)slt;nsr Q 1IN)1 Attachment 5: Detailed Soil Descriptions r.. Prepared for: Reed Williams Page 18 of 29 Site: US 221 near Blowing Rock Pit #101 Slope 45% Lndscpe Pos.__CV Parent Mat _Res. Depth to SWC >60" Soil Depth/Saprolite 32" Restrictive Horizon 46'_ Clay Mineralogy _sL exp Profile Classification Provisionally suitable . Profile LTAR (Cony.) .5 Min. Soil Depth Needed 38" Cr Depth range 46-49" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay o /o Grade Class Type A 0-7" 10YR 2/2 L 2 f gr Fr, sO, p0 Btl 9-17" 10YR 3/3 L 1 m sbk Fr, sO, p0 25% Bt2 17-32" 10YR 4/4 L 1 m sbk Fr, sO, p0 25% C 32-49" MCS L ma Fr, sO, p0 10% Cr 49-60"+ vfi Pit # 102 r;l Slope 35% Lndscpe Pos _CV Parent Mat. Res Depth to SWC >62" Soil Depth/Saprolite 51 "_ Restrictive Horizon 51" Clay Mineralogy:_ sl. exp_ Profile Classification Suitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 36" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade A 0-8" 10YR 2/2 . L 2 f gr fr 10% Btl 8-16" 10YR 5/4 CL 1 m sbk Fr, ss, sp 28% Bt2 16-30" 10YR 5/4 L 1 m sbk Fr, sO, p0 25% BC 30-51" 10YR 5/4 40% grveins f SL L 1 m sbko Fr, sO, p0 25/o Cr 51-62" Printhilie Ana f`n„cnit;nn o_ nni full PEI Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 19 of 29 Site: US 221 near Blowing Rock Pit # 103 Slope 40% Lndscpe Pos. CV Parent Mat _Res. Depth to SWC >33/48"? *_ Soil Depth/Saprolite 48" Restrictive Horizon 48' Clay Mineralogy _sl. exp Profile Classification _Provisionally suitable_ Profile LTAR (Cony.)_ 5 Min. Soil Depth Needed 3T' Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type A . 0-7" 1OYR 2/2 L 2 f gr Fr, sO, p0 Btl 7-13" 1OYR 4/3 L 1 m sbk Fr, sO, p0 25% Bt2 13-33" 1OYR 5/4. SCL 1 m sbk Fr, s0, PO 20% BC 33-48" 10YR 5/4 and 2.5Y 5/3 2.5Y 6/2 — <2% SL 1 m sbk Fr, sO, p0 15% Cr 48-56"+ *Chrome 2 colors in BC horizon are probably lithochromic. Pit # 104 Slope 50% Lndscpe Pos ;CV '_' Parent Mat. Res Depth to SWC >72" Soil Depth/Saprolite 28' _ Restrictive Horizon 28" Clay Mineralogy:_ _sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .5 116n. Soil Depth Needed 39" Cr Depth range 28-48" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade A 0-T' 1OYR 2/2 L 2 f gr fr Btl 7-16" 1OYR 3/3 L 1 m sbk Fr, sO, p0 25% Bt2 16-32" 1OYR 4/3 SL 1 m sbk Fr, sO, p0 20% Cr 32-72" Attachment 5: Detailed Soil Descriptions poi Prepared for: Reed Williams Page 20 of 29 RIM Site: US 221 near Blowing Rock Pit # 105 Slope 45% Lndscpe Pos._CV Parent Mat _Res. Depth to SWC >72" Soil Depth/Saprolite 30" Restrictive Horizon 30' Clay Mineralogy _sl. exp Profile Classification Unsuitable Profile LTAR (Conv.) .5 Min. Soil Depth Needed 38" Cr Depth range 30-35" Horizon Depth Main Colors Mottles Texture ct 51ure Moist & Wet Consistence Clay Grade Class Type A Bt 1OYR 5/4 L 1 m sbk Fr, sO, p0 25% Cr/R 30-60"+ Note: Bees nest in pit. Pit # 106 ram Slope 40% Lndscpe Pos _CV Parent Mat. Res Depth to SWC >64" Soil Depth/Saprolite 33"_ Restrictive Horizon 33" Clay Mineralogy:_ sl. exp Profile Classification Unsuitable Profile LTAR (Cony.)_ 4 Min. Soil Depth Needed 37" Cr Depth range 33-44" Horizon Depth Main Colors Mottles Texture Structure WetClay Mot &Grade Consistence /O Grade Grade A 0-8" 1 OYR 2/2 L 2 f V' Fr, sO, p0 15% Bt 1 8-20" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% Bt2 20-35" 1 OYR 4/3 L 1 m sbk Fr, sO, p0 25% Cr 35-64" Fnnthillc Cnil rnnanitinn Q_1f)fl1 rim r�q Lndscpe Pos. CV Parent Mat. Res. Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 21 of 29 Site: US 221 near Blowing Rock Pit # 107 Depth to SWC >54" Slope 40% Soil Depth/Saprolite 32" Restrictive Horizon 32"_ Clay Mineralogy: sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .5 Min. Soil Depth Needed 37" Cr Depth range Horizon Depth . Main Colors Mottles Texture Ste'cture Moist & Wet Consistence Clay % Grade Class Type A 0-6" 1OYR 2/2 . L 2 f & Fr, sO, p0 Btl 6-17" 1OYR 5/4 SCL 1 f sbk Fr, sO, p0 20% Bt2 17-27" 1 OYR 4/4 SCL 1 m sbk Fr, sO, p0 25% BC 27-32" 1OYR 6/3 SL 1 m sbk Fr, sO, p0 10% Cr 32-54"+ Pit # • 108 Slope 30% Lndscpe Pos.__CV rat Parent Mat. Res MIR wor Fog Depth to SWC >69" Soil Depth/Saprolite 44 Restrictive Horizon 69" Clay Mineralogy:_ sl. exp Profile Classification Provisionally suitable Profile LTAR (Corn.) .4 Min. Soil Depth Needed 35" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist Wet Consistence Clay % Grade Grade Grade A 0-7" l OYR 2/2 L 2 f gr Fr, sO, p0 Btl 7-25" 1OYR 4/4 CL 1 m sbk Fr, ss, sp 30% Bt2 25-44" 2.5Y 5/4 Gray colors around gravel L 1 m sbk Fr, sO, p0 t, 25/o C 44-69" MCS— 10YR6/2, 7/2* 2.5Y 5/6 L ma Fr, sO, p0 20% Cr (Q69" *Gray colors in C and Bt2 horizons are clearly lithochromic. Pnantisilly Anil f nncnitina 4 7M1 , -Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 22 of 29 Site: US 221 near Blowing Rock Pit #_109 Slope 30% Lndscpe Pos. CV Parent Mat. Res. Depth to SWC >76" Soil Depth/Saprolite 40" Restrictive Horizon 33" Clay Mineralogy:_sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 35" B/Cr Depth range 33-40+" Horizon Depth Main Colors Mottles Texture Structure Moist & ,yet Consistence Clay Grade Class Type A 0-9" 10YR 2/2 L 2 f gr Fr, s0, p0 Bt 9-40" 10YR 4/4 CL 1 m sbk Fr, ss, sp 30% B/Cr 40-51" 10YR 4/4 60% gr SL 1 m sbk Fr, s0, p0 C 51-76" Mand SL ma brown Pit # 110 Slope 35% Lndscpe Pos _CV Parent Mat. Res Depth to SWC >72" Soil Depth/Saprolite 35 - Restrictive Horizon 36" Clay Mineralogy:_ sl. exp_ Profile Classification Provisionally suitable Profile LTAR (Conv.)_ 5 Min. Soil Depth Needed_36" Cr/C Depth range 36-45" Horizon Depth Main Colors Mottles Texture Structure Moist Wet& Consistence %% Grade Grade Grade A . 0-10" 10YR 2/2 L 1 f gr Fr, s0, p0 Bt 1 10-1 r 10YR 3/3 L 1 m sbk Fr, s0, p0 25% Bt2 17-35" 10YR 5/4 L 1 m sbk Fr, s0, p0 20% C/Cr 35-72" YR MC 5�3 SL ma Fr, s0, p0 One upper corner of pit has fill to 32" Fnnthille Snit rftr a»1tinn Q711131 . Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 23 of 29 Site: US 221 near Blowing Rock Pit #111 Slope 30% Lndscpe Pos _CV Parent Mat. Res. Depth to SWC >84" Soil DepthlSaprolite 33" Restrictive Horizon >84"_ Clay Mineralogy_sl. exp Profile Classification Provisionally suitable Profile LTAR (Cony.) .6 Min. Soil Depth Needed 35" Cr Depth range Horizon Depth . Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class Type A 0-11" 10YR 2/2 L 2 m sbk Fr, s0, p0 Bt1 11-21" 1OYR 5/4 L 1 m sbk Fr, sO, p0 20% BC 21-33" 10YR5/4, 2.5Y5/4, 2.5Y6/3 L 1 m sbk Fr, sO, p0 20% C 33-84 MCS-gray and brown SL ma Fr, sO, p0 *Gray colors in C horizon are lithochromic. Pit # 112 n*r Parent Mat. Res Pol non RIR Slope 33% Lndscpe Pos _CV Depth to SWC >58" Soil Depth/Saprolite 29"__ Restrictive Horizon 32" Clay Mineralogy:_ sl. exp_ Profile Classification Unsuitable Profile LTAR (Cony.) .4 Min. Soil Depth Needed 35" Cr Depth range 15-40" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade A 0-9" 1OYR 2/2 L 2 f gr fr• Bt 9-29" 1OYR 4/4 CL 1 m sbk Fr, ss, sp 30% C 29-34" Gray saprolite L ma Fr, sO, p0 10% R 34-58" fractured *Chroma 2 colors in C horizon are probably lithochromic. t:,wt„fq rnr.aattina oannt v , Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 24 of 29 Site: US 221 near Blowing Rock Pit # 113 Slope 30% 919I Lndscpe Pos. NS Parent Mat. Res. Depth to SWC >67" Soil Depth/Saprolite 21" Restrictive Horizon 21"_ Clay Mmeralogy:sl. exp Profile Classification Unsuitable Profile LTAR (Cony.)_ 6 Min. Soil Depth Needed 35" R/Cr Depth range 21-38" Horizon Depth • Main Colors Mottles Texture Structure Moist &' Wet Consistence Clay Grade Class Type A 0-5" 10YR 2/2 L 2 f gr Fr, s0, p0 • Bwl 5-11" 10YR 4/3 SL 1 m sbk Fr, s0, p0 15% Bw2 11-27" 10YR 5/4 SL 1 m sbk Fr, sO, p0 20% Cr/C 27-67" Cr w/ veins of 2.5Y 5/3 sap. L ma 20% Pit # 114 Slope 35% Lndscpe Pos_NS Parent Mat _Res Depth to SWC >50" Soil Depth/Saprolite 15" Restrictive Horizon 15" Clay Mineralogy:_ sl. exp_ Profile Classification Unsuitable Profile LTAR (Conv.) .6 Min. Soil Depth Needed 36" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & yet Consistence Clay Grade Grade Grade - A 0-7" 10YR 2/2 • L 2 f gr fr Bw 7-15" 2.5Y 4/4 L 1 m sbk Fr, sO, p0 15% Cr/C 15-50" MCS Seams of SL and L ma reinthille Sn 1 (nnm,ltirin Q.?ftl11 NMI ems Inn foul Fir Foll awl 9 ,.Attachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 25 of 29 Site: US 221 near Blowing Rock Pit # 115 Slope 40% • Lndscpe Pos. NS Parent Mat. Res. Depth to SWC >50" Soil Depth/Saprolite 9"_*_ Restrictive Horizon 9"_ Clay Mineralogy: sl. exp Profile Classification Unsuitable Profile LTAR (Conv.) N/A Mn. Soil Depth Needed 3T' R Depth range 9" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type R 9-50" Fractured bedrock *No description made--R too shallow for any system Pit # 116 Slope 45% Lndscpe Pos._SH Parent Mat. Res Depth to SWC >76" Soil Depth/Saprolite 32 __ Restrictive Horizon >76"_ Clay Mineralogy:_ st. exp Profile Classification Provisionally suitable Profile LTAR (Cony.) .6 Mn. Soil Depth Needed 38" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Grade Grade A 0-T' 10YR 3/2 L 2 • f gr Bt 7-32" 2.5Y 5/3 L I m sbk Fr, sO, p0 20% C 32-76" MCS SL ma Fr, sO, p0 10% Fnnthilk C..;1 rnnaulti.%n Q_1(1111 Attachment 5: Detailed Soil Descriptions Prtpared for: Reed Williams Page 26 of 29 Site: US 221 near Blowing Rock Pit #117 Slope 45% Lndscpe Pos._SH Parent Mat._Res. Depth to SWC >75" Soil Depth/Saprolite 41" Restrictive Horizon 41 "� Clay Mineralogy: sl. exp Profile Classification Provisionally suitable_ Profile LTAR (Con.) ) .6 Mui. Soil Depth Needed 38" Cr Depth range 41->75" Horizon Depth . Main Colors Mottles Texture Structure Moist & Wet Consistence Clay �O Grade Class Type A 0-7" 10YR 2/2 L 2 f 8r Fr, sO, p0 Bt 7-36" 10YR 4/4 L 1 m sbk Fr, sO, p0 Z5% BC 36-48" 2.5Y 6/4 SL 1 m sbk Fr, sO, p0 Cr 48-75" Pit # 118 Slope 40% Lndscpe Pos _LL f"+ Parent Mat. Res POI furl flarl Depth to SWC >60" Soil Depth/Saprolite 29"_ Restrictive Horizon 29" Clay Mineralogy:_ sl. exp Profile Classification Unsuitable Profile LTAR (Con.) .6 Min. Soil Depth Needed 37" Cr Depth range 29->60" Horizon Depth Main Colors Mottles Texture Structure MWet& Consistence y C% Grade Grade Grade A 0-8" l OYR 2/2 L 1 m sbk Fr, sO, p0 Bt 8-21" 10YR 5/4 SCL 2 m sbk Fr, sO, p0 20% BC 21-33" 2.5Y 5/4 SL 1 m sbk Fr, s0, p0 10% C 33-41" Whit �y-- SL ma Fr, sO, p0 Cr 41-60" *Gray colors in C horizon are clearly lithochromic. Fe nth,1I c.a1 retnaviltivirr a�nf I d `Attachment 5: Detailed Soil Descriptions wit Prepared for: Reed Williams Page 27 of 29 PPII NMI IMP FOP rya Site: US 221 near Blowing Rock Pit # 119 Slope 35% Lndscpe Pos. LL Parent Mat. Res. Depth to SWC >72" Soil Depthf/Saprolite 33" Restrictive Horizon 33" Clay Mineralogy:___sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .4 Kin. Soil Depth Needed 36" Cr Depth range 33-38" Horizon Depth . Main Colors Mottles Texture Structure Moist Wet Consistence Clay % Grade Class Type A 0-8" 10YR 2/2 L 2 m sbk Fr, s0, p0 Bt 8-20" 10YR 4/4 CL 1 m sbk Fr, ss, p0 30% BC 20-33" 2.5Y 5/3 10YR 4/6 L 1 m sbk Fr, sO, p0 20% Cr 33-72" Pit # 120 Slope 25% Lndscpe Pos. LL fan Parent Mat Res Rol FOP Mot Depth to SWC >67" Soil Depth/Saprolite 38"_ Restrictive Horizon >67"__ Clay Mineralogy:_ sl. exp Profile Classification Provisionally suitable Profile LTAR (Conv.) .5 Min. Soil Depth Needed 29" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure MWet& Consistence C� y Grade Grade Grade A 0-10" 10YR 2/2 L 2 m sbk Fr, sO, p0 20% Bt1 10-26" 10YR 4/4 SCL 1 m sbk Fr, sO, p0 25% Bt2 26-38" 2.5Y 4/4 20% gr L 1 m sbk Fr, sO, p0 25% C 38-67" SY 8/1 SL ma Fr, sO, p0 10% Cr @67" *Gray color in C horizon is clearly lithochromic. Fmthilla s, i ('nnaniti.+sr 0_71V11 4 ‘:`Attachment 5: Detailed Soil Descriptions ® - P Prepared for: Reed Williams Page 28 of 29 MEI NMI r�l Site: US 221 near Blowing Rock Pit # 121 Slope 25% Lndscpe Pos._CV Parent Mat. Res. Depth to SWC >76" Soil Depth/Saprolite 33" Restrictive Horizon 76„ Clay Mineralogy _sl. exp Profile Classification Provisionally suitable Profile LTAR (Cony.)__ 4 Mm. Soil Depth Needed 29" Cr Depth range Horizon , De th p Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Class ' Type +10-0" fill A 0-8" 10YR 2/2 L 2 f & Fr, s0, p0 Bt 8-25" 10YR 4/4 CL 1 m sbk Fr, ss. sp 30% BC 25-33" 1OYR 6/4 L 1 m sbk Fr, sO, p0 25% C 33-76„ MCS-gray and brown SL & VFSL ma Fr, sO, p0 Pit # 122 Slope 25% Lndscpe Pos _SH '_' Parent Mat. Res Depth to SWC >62" Soil Depth/Saprolite 6"__ Restrictive Horizon 6"_*_ Clay Mineralogy:_ sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) N/A Wm. Soil Depth Needed 29"_ Cr Depth range 6-49" Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay Grade Grade Grade *No description made —unsuitable for any system. Rnnthillc Cnil rnrsmrltinn 4_7lf11 ran FM PI rMR • illttachment 5: Detailed Soil Descriptions Prepared for: Reed Williams Page 29 of 29 Site: US 221 near Blowing Rock Pit #_123 Slope 50% Lndscpe Pos. LS Parent Mat. Res. Depth to SWC >83" Soil DepthlSaprolite 15" Restrictive Horizon 15"_ Clay Mineralogy:_sl. exp Profile Classification Unsuitable Profile LTAR (Cony.) .5 Min. Soil Depth Needed 39" Cr Depth range Horizon Depth Main Colors Mottles Texture Structure Moist & Wet Consistence Clay % Grade Class Type A 0-8" 10YR 2/2 L 2 f gr Fr, s0, p0 . Bt 8-15" 10YR 5/4 SCL 1 m sbk Fr, sO, p0 25% C/Cr 15-83" MCS—gray Seams of Cr— 1-2 ft thick Var—SL, SiL, L ma Fr, sO, p0 and brown Pit # 124 Slope 45% Lndscpe Pos_LS Parent Mat. Res Depth to SWC >63" Soil Depth/Saprolite 16"_ Restrictive Horizon 16" Clay Mineralogy:_ sl. exp_ Profile Classification Unsuitable Profile LTAR (Conv.)_ 5 Mn. Soil Depth Needed 38" Cr Depth range ___16-31" Horizon Depth Main Colors Mottles Texture Structure MWi et Consistence Clay Grade Grade Grade A 0-10" 10YR 2/2 L 2 . m sbk Fr, sO, p0 Bt 10-18" 2.5Y 5/4 SCL 1 m sbk Fr, sO, p0 20% BC 18-23" 2.5Y 6/3 SL 1 m sbk Fr, sO, p0 C/Cr 23-63" MCS—gray SL ma and brown.* *Gray colors in C horizon are clearly lithochromic. Frv►thilla Coil (nnanitinr► Q 7M 1 moo :"Attachment 6: Key to Abbreviations used in Soil Descriptions Client: Reed Williams Site: US 221 near Blowing Rock txml Landscape position SU summit FS—footslope SH shoulder TS—toeslope LS--linear sideslope FP flood plain CC —concave sideslope DW—drainage way CV —convex sideslope HS—head slope NS—nose slope Dep—depression Parent Material Res. —residuum Coll.—colluvium All. —alluvium Texture • ran C--clay L—loam SiC—silty clay SC —sandy clay SL—sandy loam SiCL—silty clay loam CL—clay loam LS—loamy sand SiL--silt loam SCL-sandy clay loam S—sand Sand sizes: VFS—very fine sand, FS—fme sand, S—medium sand, CoS—Coarse sand rarl Coarse Fragments gr gravel cb—cobbles st stones Structure grade: 1—weak 2—moderate 3—strong size: f fine m—medium c—coarse type: gr granular pr prismatic sbk subangular blocky pl—platy abk—angular blocky ma —massive sg single grain Moist and Wet Consistence fr--friable sO—non-sticky p0non-plastic fi—firm s—moderately sticky p—moderately plastic vfi—very firm vs —very sticky vp—very plastic exfi—extremely firm exs—extremely sticky exp—extremely plastic Limiting conditions SWC—soil wetness conditions Exp—expansive clay minerology R—hard bedrock Cr—soft bedrock Colors are from Munsell Soil Color Charts. MCS = multi -colored saprolite Criteria for structure and for moist and wet consistence is based on USDA standards. SBRF= Stopped by rock fragments