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2014 Shine Facility - Wahl Extraction Area Groundwater Study
1101 South Fawcett Avenue, Suite 200 Tacoma, Washington 98402 253.383.4940 February 28, 2014 Miles Sand & Gravel Company 400 Valley Avenue NE Puyallup, Washington 98372 Attention: Mike Schuh Subject: Letter Report 2013 Groundwater, Surface Water and Precipitation Monitoring Data Shine Facility – Wahl Extraction Area Jefferson County, Washington File No. 1355-035-00 Monitoring requirements at the site were set forth by Jefferson County Department of Community Development (DCD) as conditions of the Wahl Permit (MLA03-0037), dated July 18, 2005, prepared originally for Fred Hill Materials (FHM), and Ordinance 08-0706-04 (MLA10-00073), Amendment 09-1213-10, dated December 18, 2010. The purpose of this letter is to provide a summary of the water monitoring program implemented for the WEA as of the most recent data download event on January 31, 2014 and to compare the high groundwater table elevations with the proposed excavation elevations at the WEA. PREVIOUS AND CURRENT MONITORING The original monitoring, initiated in August 2005, was conducted by CR Hydrogeologic Consulting, working for FHM. GeoEngineers assumed the monitoring duties in November 2009 when Miles commenced leasing the operations at the WEA. The monitoring locations are shown on Figure 1. The following are elements of the current monitoring program: Groundwater ■Groundwater-level monitoring at the WEA began in August 2005 with the installation of an automated water-level sensor (consisting of a combined pressure transducer and datalogger) in MW-9, a monitoring well located in the southwest portion of the WEA. The automated sensor measures and records the groundwater level on an hourly basis and the information is downloaded quarterly during a visual inspection of the site. The monitoring equipment is still functioning and has provided reliable data. Miles Sand & Gravel Company | February 28, 2014 Page 2 File No. 0000-001-00 File No. 1355-035-00 ■ A water-level sensor was installed in the Shine Hub water-supply well in April 2007. The sensor malfunctioned in June 2010 and was replaced in September 2010 with new equipment from the same manufacturer. With the exception of a few months in 2010 and 2013, the monitoring equipment has provided reliable data. ■ In January 2010, additional monitoring wells (MW-5 and MW-8) equipped with sensors were added by Miles to estimate a groundwater surface profile beneath the WEA. The installed sensors are from the same manufacturer as those installed in MW-9 and the Shine Hub well. The current monitoring equipment has provided reliable data. ■ In 2012, MW-5 was deepened to explore for a groundwater supply for the facility. The exploration was unsuccessful and MW-5 was decommissioned. Thus, the water level sensor from MW-5 was moved to MW-15 on February 15, 2012. MW-15 is located approximately 550 feet south of the proposed mining area and now provides a monitoring point for the southern portion of the WEA. ■ During the second-quarter site visit of 2013, it was discovered that the transducer in the Shine Hub water-supply well had stopped functioning on February 1, 2013. The transducer was repaired and reinstalled on July 1, 2013 during the third-quarter visit. Surface Water ■ Three surface-water monitoring stations were established in September 2005 on Thorndyke Creek near the WEA. One of the stations (Station 3) is located on an unnamed tributary and two are located on Thorndyke Creek, with Station 2 located upstream and Station 1 downstream of the confluence with the unnamed tributary. The stream stage height at each station is recorded on an hourly basis using an automated sensor. The streamflow is measured manually on a quarterly basis by wading the stream and measuring stream velocity. ■ An additional surface-water monitoring point (Station 4) is located on Thorndyke Creek approximately 1 mile upstream of its mouth. The stream stage height is recorded on an hourly basis using an automated sensor. The stream flow is measured manually on a quarterly basis by wading the stream and measuring stream velocity. ■ The automated equipment previously installed at the surface-water monitoring stations was replaced with more reliable sensors at all four stations in 2011 and 2012. Precipitation ■ A weather station was established on the roof of the office building at the Shine Hub in September 2005. The data, collected on an hourly basis, includes precipitation, temperature and wind direction and speed. Between March 14 and October 17, 2012, the weather station experienced a loss of data. Miles has reportedly implemented periodic data downloads to minimize potential future loss of data. Except for a period between February 7 and March 31, 2013 during operations reorganization, the weather station is functional and once again is providing reliable data. Miles Sand & Gravel Company | February 28, 2014 Page 3 File No. 0000-001-00 File No. 1355-035-00 MONITORING DATA SUMMARY The latest set of monitoring data was collected at the WEA on January 31, 2014. GeoEngineers has developed plots of the monitoring data described below. Several years of background groundwater, surface water and precipitation data have now been acquired. Groundwater Data The elevations of the groundwater monitoring points (rims of the well casings) have been surveyed relative to the National Geodetic Vertical Datum (NGVD) 1929 datum. The water levels measured in each monitoring well have been converted to groundwater elevations. Figure 2 shows a plot of groundwater elevations from the four monitoring wells and the Shine Hub water-supply well. The water-supply well is located near the office buildings at the Shine Facility (Figure 1). Monitoring wells MW-5, MW-8 and MW-9 are located within the WEA; monitoring well MW-15 is located approximately 550 feet south of the WEA. Shine Hub Water Supply Well The hourly data from the Shine Hub water supply well are shown on Figure 2 as points because the well pump cycles on and off several times a day. The lowest water level elevations in the Shine Hub water supply well represent pumping water levels and the highest represent fully or nearly recovered water levels. The data in-between represent water levels that are either recovering or are being drawn down at various stages of the pumping cycle. The highest levels show a pattern similar to the other monitoring wells described below that are located over a mile west of the Shine Hub well. In 2013, non-pumping water levels ranged from Elevations 254.7 to 256.2 feet. Monitoring Wells MW-5, MW-8, MW-9 and MW-15 The dataset with the longest period of record is for monitoring well MW-9, beginning in August 11, 2005. The groundwater elevations in all the wells show similar seasonal fluctuations of rising levels in the winter wet months and declining levels between spring and fall. During the winter of 2008 -09, there was below-normal precipitation that was indicated by a decline in water levels from between early 2008 and late 2009. The highest groundwater elevations were all recorded in 2013. These groundwater elevations were 278.38, 279.48 and 254.71 feet NGVD for MW-8, MW-9 and MW-15, respectively. In 2013, water levels in MW-8 ranged from Elevations 274.22 to 278.38 feet, water levels in MW-9 ranged from Elevations 275.21 to 279.48 feet and water levels in MW-15 ranged from Elevations 252.86 to 254.71 feet. Surface Water Data Figure 3 shows a plot of the surface water data for Station 1 located on Thorndyke Creek southwest of the southernmost extent of the WEA, as a typical example of the surface water datasets (other datasets are available upon request). An elevation of 233 feet NGVD is estimated at Station 1 based on the U.S. Geologic Survey topographic map. Figure 3 shows the stage heights as recorded at a 30-minute interval using dataloggers. The stage height dataset had three relatively short periods in 2010 and 2011 when the data was lost due to faulty monitoring sensors. The equipment was replaced in early 2012 with more reliable sensors. Short-term changes in stage height reflect variations in streamflow; however, the Miles Sand & Gravel Company | February 28, 2014 Page 4 File No. 0000-001-00 File No. 1355-035-00 long-term increase in stage height observed at Station 1 likely reflects aggradation of sediment in the streambed, and does not translate into an overall increase in streamflow. Figure 3 also shows the streamflow rates calculated from flow velocities that were measured by wading the stream; these are plotted on a logarithmic vertical scale (right-hand axis). The highest recorded flow at Station 1 was 56.27 cubic feet per second on January 4, 2008 and the lowest flow was 0.7 cfs on October 11, 2012. Precipitation Data Figure 4 shows a plot of the daily precipitation at the weather station located on the roof of the Shine Hub office. The highest recorded daily precipitation event was 3.11 inches on December 3, 2007. Rainfall in 2013 was below normal, especially during November and December. GROUNDWATER ELEVATIONS VERSUS PROPOSED EXCAVATION FLOOR The proposed excavation elevations are shown on the attached plan titled “WDNR Permit No. 70-013024 Final Reclamation Map” as prepared by Team 4 Engineering. The plan shows that the excavation will stay 10 feet above the high groundwater table, as a currently required condition, in the central and north portions of the WEA. For example, the highest recorded groundwater elevation at MW-9 was Elevation 279.48 feet and the proposed excavation there is Elevation 290 feet. Miles proposes to excavate to Elevation 275 feet in the southernmost extent of the WEA. Prior to 2012, there was a lack of groundwater monitoring data points in this area. Monitoring of MW-15, located approximately 550 feet south of the southern WEA mining disturbance boundary (Figure 1), indicates that the highest water level recorded at MW-15 was Elevation 254.71 feet. Based on a uniform slope to the water table between MW-9 and MW-15, the high groundwater elevation would be approximately Elevation 259 feet at the southern mining disturbance boundary and approximately Elevation 264 feet at the northern extent of the 275-foot excavation elevation contour shown on the Reclamation Map (Attachment 1). Thus, the proposed excavation elevation of Elevation 275 feet will be greater than 10 feet above the highest groundwater table based on available data. CONCLUSIONS Monitoring data for groundwater, surface water and precipitation at the Wahl Extraction Area are being collected by GeoEngineers on an ongoing basis to develop an extensive background data set, as required under permit conditions and local ordinances. Data have been collected since 2005, and additional groundwater monitoring locations installed in 2009 have allowed the estimation of a groundwater elevation profile beneath the planned mining area. Based on the groundwater data collected to date, the gravel mine excavations proposed by Miles Sand & Gravel Company at the Wahl Extraction Area are 10 feet or greater above groundwater table elevations projected from the highest recorded groundwater levels. Miles Sand & Gravel Company | February 28, 2014 Page 5 File No. 0000-001-00 File No. 1355-035-00 Please contact us if you have any questions about the water monitoring program. Sincerely, GeoEngineers, Inc. Joel W. Purdy, LG, LHG, CWRE Senior Hydrogeologist Michael A.P. Kenrick, PE, LHG Principal Hydrogeologist JWP:MAPK:lc Disclaimer: Any electronic form, facsimile or hard copy of the original document (email, text, table, and/or figure), if provided, and any attachments are only a copy of the original document. The original document is stored by GeoEngineers, Inc. and will serve as the official document of record. Copyright© 2014 by GeoEngineers, Inc. All rights reserved. Attachments: Figure 1. Vicinity Map Figure 2. Groundwater Data Figure 3. Surface Water Data Figure 4. Precipitation Data, Shine Hub Weather Station Attachment 1. Wahl Reclamation Map &( EDEDED ED @A @A @A @A @A Shine Hub Weather Station MW-15 MW-8 MW-5 MW-9 Shine Hub Water Supply WellWahl Lake Rd Thorndyke Rd UV104 Thorndyke Rd S Po in t RdPeabody Way T h o r n d y k e R d µ Vicinity Map Figure 1 Shine Facility - Wahl Extraction AreaJefferson County, Washington !^ Olympia §¨¦90 §¨¦5 §¨¦405 £¤101 Olympic NP W a s h i n g t o n 3,000 3,0000 Feet Data Sources: ESRI Data & Maps, Street Maps 2005 Notes:1. The locations of all features shown are approximate.2. This drawing is for information purposes. It is intended to assist in showing features discussed in an attached document. GeoEngineers, Inc. cannot guarantee the accuracy and content of electronic files. The master file is stored by GeoEngineers, Inc. and will serve as the official record of this communication.3. It is unlawful to copy or reproduce all or any part thereof, whether for personal use or resale, without permission. Transverse Mercator, State Plane South, North American Datum 1983North arrow oriented to grid northOffice: TACOPath: W:\Tacoma\Projects\1\1355035\GIS\135503500_F1.mxdMap Revised: 17 February 2014 syiEDED ED Station 1 Station 2 Station 3 200 2000 Feet Station 1Station 3Station 2 Station 4 Legend @A Monitoring Well ED Stream Gage &(Shine Hub Weather Station Wahl Extraction Area MW-5 Station 1 Tho m d y k e C r e e k Creek Monitoring well MW-15 not surveyed; top of casing elevation of 304.56 based on elevation data provided by Fred Hill Materials. This drawing is for information purposes. It is intended to assist in showing features discussed in an attached document. GeoEngineers, Inc. cannot guarantee the accuracy and content of electronic files. The master file is stored by GeoEngineers, Inc. and will serve as the official record of this communication. 1. 2. Notes: Groundwater Data Shine Facility – Wahl Extraction Area Miles Sand and Gravel Company Figure 2 TACO: \1\1355035\00\Finals\2013 Annual Report_Figures 2 through 4.pptx MAPK:JWP:jwp 021714 This drawing is for information purposes. It is intended to assist in showing features discussed in an attached document. GeoEngineers, Inc. cannot guarantee the accuracy and content of electronic files. The master file is stored by GeoEngineers, Inc. and will serve as the official record of this communication. 1. Notes: Surface Water Data Shine Facility – Wahl Extraction Area Jefferson County, Washington Figure 3 TACO: \1\1355035\00\Finals\2013 Annual Report_Figures 2 through 4.pptx MAPK:JWP:jwp 021714 Installed INW PT2X Precipitation data from the period 3/14/12 to 10/17/12 missing due to weather station data loss. This drawing is for information purposes. It is intended to assist in showing features discussed in an attached document. GeoEngineers, Inc. cannot guarantee the accuracy and content of electronic files. The master file is stored by GeoEngineers, Inc. and will serve as the official record of this communication. 1. 2. Notes: Precipitation Data Shine Hub Weather Station Shine Facility – Wahl Extraction Area Jefferson County, Washington Figure 4 TACO: \1\1355035\00\Finals\2013 Annual Report_Figures 2 through 4.pptx MAPK:JWP:jwp 021714 Data loss between March 14 and October 17, 2012 and between February 7 and March 31, 2013 ATTACHMENT 1 Wahl Reclamation Map