ࡱ> ` /cbjbjss 7hQ%  D D D 8|  | RC,"9B;B;B;B;B;B;B$~DhF_B 222_B B6   2  9B 29B  :[&, & p"E:D 0& 'TC<RC&.GzG&&&G &b _B_B8 ^RC2222 d d` `   Green Roof Water Quality and Quantity Monitoring Dr. Charles C. Glass Associate Professor Department of Civil Engineering Howard University and ETEC L.L.C. 6509 41st Avenue University Park, MD 20782 July 26, 2007 INTRODUCTION This project was designed to address the needs of the Chesapeake Bay Foundation (CBF), the American Society of Landscape Architects (˿Ƶ), and the District of Columbia's Water and Sewer Authority by monitoring the performance of the ˿Ƶ green roof for water runoff reduction and water quality improvement. Under the National Pollutant Discharge Elimination System (NPDES), Municipal Separate Storm Sewer System (MS4), the government is tasked to utilize best management practice (BMP) methods to substantially minimize pollution transport from storm water runoff. Green roofs are being promoted as an optional BMP throughout the Washington D.C. Metropolitan area. The 3,000 sq ft ˿Ƶ green roof was installed in May of 2006 at its headquarters building on 636 Eye Street NW, Washington DC. It is one of seven green roof demonstration projects in the Anacostia River Watershed of DC that the Chesapeake Bay Foundation has partially funded with an incentive grant. ETEC monitored water quality and quantity on this roof for 5 rain events in the fall of 2006 and the spring of 2007. The sampling and monitoring of the green roof was performed in accordance with the standard operations for collection and measurement promulgated by the USEPA. In this study pH, temperature, total suspended solids (TSS), total dissolved solids (TDS), dissolved oxygen (DO), chemical oxygen demand (COD), and nutrients (ammonia, nitrite, nitrate, phosphate, and total phosphorus) were measured on rain water collected on the roof and runoff collected from the downspout from the green roof. Heavy metals (e.g. Cadmium (Cd), chromium (Cr), copper (Cu), lead (Pb), mercury (Hg), arsenic (As)) were measured for two rain events to check for their presence. All of the samples were measured in triplicate to confirm the reproducibility of the results and the accuracy of both the equipment and the sampling methodology. The two primary goals of this project were to determine the reduction in runoff and to determine the concentrations of contaminants of concern leaving this green roof. Two flow meters were already installed on the roof of the ˿Ƶ building giving flow data for the water leaving the roof. ˿Ƶ collected the water in two clean collection jars provided by ETEC. ˿Ƶ staff and ETEC coordinated the collection and proper methodology to avoid human error in sample collection. A quantitative measure of the total flow or rainfall load on the roof was calculated by the known area of the roof and the acquired depth of rainfall. The duration of the sampling and monitoring effort for ˿Ƶ green roof was not to exceed 8 rain events or eight months from the notice-to proceed date. ETEC coordinated with CBF and ˿Ƶ to determine a schedule for sample collection and monitoring. In the end, since about 75% of the estimated rainfall did not pass through the green roof, 5 sample events were collected over 10 months. Sampling followed the same protocols as in earlier studies performed by Dr. Glass, with the only adjustment necessary being the collection of rain water, which is quite a different input source from normal stormwater runoff from streets or parking lots. MATERIALS AND METHODS The field methodology of this project consisted simply of collection of rainwater directly into a glass sample vessel placed on the ˿Ƶ roof and collection of the effluent water flowing from the roof through a sample port in the ceiling under the roof. Once a sample was obtained by ˿Ƶ, ETEC was contacted and collected the sample from ˿Ƶ within the day. The sample was then prepared for storage or analyzed that same day. The following Table 1 lists the parameters evaluated in this project and the methods used to determine their values. Table 1. Parameters Measured and the Technique Utilized for Measurement Constituent NameAnalytical MethodCollection methodContainersVolume Required *PreservativeMaximum holding timeCadmiumAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsChromiumAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsCopperAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsIronAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsLeadAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsArsenicAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsZincAAS- FurnaceCompositePlastic, Glass60 mLFilter on site HNO3 to PH<26 mthsMercuryCold Vapor TechniqueCompositePlastic, Glass300 mLFilter on site HNO3 to PH<2Glass: 38 days/ Plastic:13 daysTS-Total SolidsTotal Solids Dried at 103-105CCompositePlastic, Glass< 200 mg residueCool, 4C24 hrsTDS- Total Dissolved SolidsTotal Dissolved Solids Dried at 180CCompositePlastic, Glass< 200 mg residueCool, 4C24 hrsTSS-Total Suspended SolidsTotal Suspended Solids Dried at 103-105CCompositePlastic, Glass< 200 mg residueCool, 4C24 hrsCODClosed reflux, Colorimetric MethodCompositeGlassd" 500 mLFilter on site H2 SO4 to PH<2No holding (better)Nitrogen AmmoniaAmmonia selective electrodeCompositePlastic, Glass150 mLCool, 4C H2SO4 to PH<224 hrsNitrogen-NitriteIon ChromatographyCompositePlastic, Glass100 mLCool, 4CNo holding (better)Nitrogen-NitrateIon ChromatographyCompositePlastic, Glass100 mLCool, 4C H2SO4 to PH<224 hrsSoluble (dissolved) PhosphorusIon ChromatographyCompositePlastic, Glass100 mLFilter on site Cool, 4C48 hrsTotal PhosphorusIon ChromatographyCompositePlastic, Glass100 mLFilter on site Cool, 4C48 hrsTemperatureThermocoupleMeasurement on sitePlastic, GlassN/ADetermine on siteNo holdingpH pH-probeMeasurement on sitePlastic, GlassN/ACool, 4C Determine on site6 hrs Specific parameters such as pH, dissolved oxygen (DO) and temperature were determined immediately after sample collection. HACH sension1 portable pH meter with resolution up to 0.01 was used to measure the pH and temperature of the samples. DO measurements were taken using an Oakton DO 100 portable meter. In the laboratory the pH, DO and temperature were measured. Approximately 200 mL of rain and outlet samples were put into 250 mL beakers for the necessary measurements and all the measurements were performed in triplicate. Organic content of samples was determined from chemical oxygen demand (COD). COD levels were analyzed by using HACH COD Reactor with HACH DR/2010 Portable Datalogging Spectrophotometer and the COD Reactor Digestion Method for low range sample concentration (Hach water analysis handbook, 1989) was followed throughout the analysis. COD is a surrogate parameter that measures the total organic soluble organic content in water. COD is thought of as a more conservative measure of organic content than Biochemical Oxygen Demand (BOD). To determine the solid content of the samples, total suspended solids (TSS) and total dissolved solids (TDS) measurements were conducted using method 2540 D and 2540 E (APHA, 1998). Nutrients analyzed in the laboratory included; total phosphorus (TP), nitrite (NO2- -N), nitrate (NO3- -N), phosphate (PO4-3-P) and ammonia (NH3-N). The organic and acid Hydrolyzable/Acid Persulfate Digestion Method (Hach, 1989) was used to measure the total phosphorus content. NO2--N, NO3- -N, PO4-3-P and ammonia were analyzed with the Dionex IC DX- 120 instrument and an attached AS40 Automated sampler unit. The guard column for analyzing the anions and cations were AS14A and CS12 respectively. The eluent used in analyzing the anions were 8 mM sodium carbonate (Na2CO3) and 1 mM sodium bicarbonate (NaHCO3) whereas 20 mM methyl sulfonic acid (MSA) was the eluent used in analyzing the cation. In both cases, the eluent flowrates were 1.0mL/min and the column pressure was monitored such that it never exceeded 2700 psi. Heavy metals present in two of the samples were analyzed using atomic absorption spectroscopy (AAS). The furnace module of the AAS was used for all the heavy metals analysis. The AAS system comprised of AAnalyst 800 with WinLab 32 software and AS 800 Autosampler. For accuracy in heavy metal analysis, required matrix modifiers for each of the specific heavy metals of interest were included in the analysis. Both rain and outlet discharge samples were filtered prior to IC and AAS analysis. Accuracy in test results were maintained by performing all laboratory analysis on fresh samples or within 24 hours upon sample collection however samples that could not be analyzed within this time frame were preserved on a short term basis (1 to 2 days) or long periods (6 months) for future analysis (APHA, 1998). All of the samples were analyzed well within the time restrictions listed in Table 2. Table 2 Storage Times for Standard Methods Tests Standard testHolding timeTSS6 monthsCODSamples treated with sulfuric acid to a pH of less than 2 and refrigerated at 4C can be stored for 28 daysTP24 hrs at 4CIon Chromatography (NO2- -N, NO3- -N, PO4-3 P)48 hrs at 4CAmmoniaSamples treated with sulfuric acid to a pH of less than 2 and refrigerated at 4C can be stored for 28 daysNitrate, NitriteSamples treated with sulfuric acid to a pH of less than 2 and refrigerated at 4C can be stored for 14 daysHeavy Metals6 months at 4C  This study was not meant to be exhaustive or to completely answer the question of the effectiveness of green roof technology. A study of that magnitude would require greater resources than those available at this time. Therefore, the scope of this study is intended to provide only an initial assessment of the performance of the green roof at ˿Ƶ. The sampling program was completed in the spring of 2007, and this final report, submitted to ˿Ƶ and CBF, summarizes the results including the data collected and an initial analysis of the performance of the green roof facility. Results and Discussion Before reviewing the data on this project it is important to remember the critical problem that BMPs like green roofs attempt to address. Combined sewer overflows (CSOs) that occur throughout major cities in the Northeast, Great Lakes, and Northwest regions of the U.S., are a result of rainwater from major storms that is diverted from roads, parking lots, and the roofs of buildings. The rapid transport of water away from the built environment to natural water bodies has been an engineering problem for the past 130 years, and combined sewer systems were initially used as a cost-effective means of transporting sewage and stormwater together. With wide-scale application of municipal wastewater treatment in the mid-twentieth century, flow rate limitations of treatment plants made it very difficult to accommodate peak flows from the combined sewer systems that directed wastewater to them. Today, combined sewer systems remain in 746 municipalities in 31 states and the District of Columbia and discharge an estimated 850 billion gallon of stormwater and wastewater annually. The United States Environmental Protection Agency (EPA) estimates that over $55 billion (2005 dollars) of capital improvements are needed for CSO control. The objectives of BMPs for stormwater management include peak flow attenuation, volume reduction, and water quality improvement. Decentralized controls use unit processes of the hydrologic cycle, such as infiltration and evapotranspiration, to meet these objectives. The ˿Ƶ green roof meets these same objectives, however the results of this study show that the largest impact of a green roof is in peak attenuation and volume reduction. As is shown in Table 4, for the majority of the precipitation events (50 of 65, 77%), there was no runoff from the green roof. Also, during the period of this monitoring, the total volume of runoff leaving the roof was reduced by 74% (9,725 of 37,237 gallons), thus resulting in a significant reduction in the volume of water entering the combined sewer system from the roof over the ˿Ƶ building. Although no definitive peak attenuation is presented here, anecdotal evidence showed a significant delay between rainfall and water leaving the roof as runoff through the piping system. Table 4: Summary of Flow Data Date Inches of RainSnowRun Off in GalsTotal Rainfall in Gals% Retained7/6/060.61684.4766.311%7/22/060.340.0427.1100%8/7/060.790.0992.5100%8/10/060.170.0213.6100%8/29/060.010.012.6100%8/30/060.060.075.4100%9/1/062.1872.72738.797%9/2/060.53665.8100%9/5/061.77925.52223.758%9/15/060.020.025.1100%9/16/060.050.062.8100%9/28/051.04442.21306.666%10/1/060.20.0251.3100%10/6/062.04712.52562.972%10/12/060.230.0289.0100%10/17/060.552.3691.0100%10/19/060.020.025.1100%10/27/061.791171.12248.848%11/8/061.321490.11658.310%11/12/061.11640.01394.554%11/16/061.04667.11306.649%11/22/060.81418.91017.659%11/23/060.0787.9100%12/1/060.0675.4100%12/13/060.09113.1100%12/22/060.70.0879.4100%12/23/060.06103.275.4-37%12/25/060.4935.2615.694%12/26/060.1125.6100%12/31/060.0675.4100%1/1/071.03784.21294.039%1/2/070.020.025.1100%1/5/070.190.0238.7100%1/6/070.020.025.1100%1/7/070.020.025.1100%1/8/070.50.0628.2100%1/12/070.020.025.1100%1/13/070.010.012.6100%1/14/070.060.075.4100%1/21/070.331.2" snow0.0414.6100%1/22/070.020.025.1100%1/28/070.050.062.8100%2/1/070.010.012.6100%2/2/070.080.0100.5100%2/6/070.02.2" snow0.025.1100%2/7/070.04.5" snow0.050.3100%2/13/070.17.4" snow0.0213.6100%2/14/070.891.8" snow0.01118.1100%2/20/070.250.0314.1100%2/22/070.010.012.6100%2/25/070.752.9" snow0.0942.2100%3/1/070.190.0238.7100%3/2/070.570.0716.1100%3/7/070.151.8" snow0.0188.4100%3/16/072.481526.73115.651%3/24/070.0675.4100%4/4/070.46577.9100%4/7/070.09113.1100%4/11/070.27339.2100%4/12/070.7448.1929.795%4/26/070.0450.3100%4/27/070.17213.6100%5/12/071.050.41319.1100%5/16/070.18226.1100%5/27/070.39490.0100%Total29.649724.537236.974% Figure 1: Rainfall Load versus Roof Runoff  Figure 1 clearly depicts the difference between the volume of rainfall that falls on the area of the green roof and the amount of runoff that is produced. This difference between the peaks represents the vast amount of rainfall that never reaches the CSO. From event 31 through event 55 no rainfall reached the effluent down pipe leading from the roof. While this demonstrates the benefits of the green roof, it also prevents the collection of many runoff samples since only significant rain events produce runoff. The water quality data for the rain water and the 26% of the water that made its way through the green roof is presented both in tabular form and in individual graphs in the following pages. Table 5 shows that the rain water pH and the temperature increased while passing through the green roof. Also, the COD, phosphate, total phosphorus, total suspended solids, and total dissolved solids all increased by significant amounts over the concentration originally present in rain water. While these data indicate, at first glance, that the green roof is producing some pollutants considered harmful to natural water bodies, two considerations must be made. First, if one were to evaluate the characteristics of runoff from a normal roof, although some of these pollutants may not be present, other byproducts of the weathering of roofing materials would be. There was some thought given initially to comparing the green roof to a normal roof, however, that was beyond the scope of this project. The second consideration is that most of the parameters measured were within the allowed freshwater chronic concentration values promulgated by the E.P.A., and none of the concentrations were above the acute level. When comparing this data to a recent study that Dr. Glass completed evaluating stormwater runoff and the performance of a bioretention cell, (see tables 5 and 6) the effluent COD was lower from the green roof (49.5 mg/L vs. 66 mg/L). Table 5: Summary of Non-metal Parameters ˿Ƶ Green roof pH TempD.O.COD*NO3-NO2-PO4-3TPTSSTDSCrain (mg/L)7.023.08.99.11.3003.40.60.8Cef (mg/L)7.623.78.749.51.200.68.318.618.2Removal %-444 12 -1700-145-1971-2294Freshwater (mg/L)6.5-9.02010111250500 Table 6: Summary of Non-metal Parameters, Benning Road Bridge, Bioretention pH TempD.O.COD*NO3NO2PO3TPTSS*TDSCin (mg/L)8.1195.91120.190.400.57152Cef (mg/L)7.718.35.8660.160.300.22414Removal %41 1721-2516674MCL (mg/L)6.5-8.5201011120500 Two samples were taken to measure heavy metals in the green roof runoff and the results are shown in Table 7. These indicate the production of copper, lead, and arsenic as the rain water passes through the green roof. This may be caused by the geotextiles or other roofing material that supports the soil and plant matrix on the roof. Only lead was produced at a higher concentration than that found to be acceptable for freshwater chronic effects. Table 7: Summary of Heavy Metal Concentrations Cu Cd Zn CrPb* Hg As Cin (g/L)18017400.700.4Cef (g/L)1570105012006Removal %-776 35 -16667 -1333Freshwater Chronic Effects (mg/L)1000550010015250Detection limit (g/L)5.60.881.620 24020 Figure 2: Chemical Oxygen Demand  Figure 3: pH  Figure 4: Dissolved Oxygen  Figure 5: Temperature  Figure 6: Total Suspended Solids  Figure 7: Total Dissolved Solids  Figure 8: Nitrate  Figure 8: Orthophosphate  Figure 10: Total Phosphorus  Figure 11: Ammonia  Conclusions As previously noted, this sampling and monitoring project was designed to provide initial indications of the performance of a typical green roof operating in Washington DC with a focus on water quality measurements because very few previous studies produced such data. The data collected must be examined with care given the limited scope of monitoring and the low number of samples. However, the following general observations are instructive and can be used as a starting point for a more comprehensive evaluation of green roof technology and how its application in the Washington D.C. metropolitan area could reduce city-wide pollution problems from stormwater runoff. Green roofs are highly effective at stormwater volume reduction. To produce runoff from green roofs, storms generally have to be larger than 1 inch in a 24-hour period, and often must come in quick succession. The ˿Ƶ green roof retained approximately three quarters of the total rainfall volume that fell on it over the ten month period that data were collected for this monitoring effort. Production of certain nutrients (esp. phosphorus) can be expected from a young green roof; however the concentrations of nutrients should generally fall below the E.P.A.s promulgated freshwater chronic concentration standards and concentrations currently found in runoff from local streets and possibly normal roofs. Nitrogen concentrations measured in the ˿Ƶ green roof runoff were similar to the values measured in the rainwater indicating that, when combined with the measured volume reduction, a significant overall reduction of nitrogen in stormwater runoff from a green roof can be expected. Heavy metals can also be produced by green roofs however they too should largely fall below the allowable limits 89:;PQ  , E K z ƺұҙvrrrnjnjnnfhNh I1h>nh8hzS5CJaJh8h85CJaJh8h>n5CJH*aJh8hV=O5CJaJhV=OhV=O5CJaJhV=O5CJaJh8hm/[5CJaJh8h2_5CJaJhm/[5CJaJh8h I15CJaJh8h>n5CJaJh85CJaJhm/[( :;<QRfgd8gdm/[$a$gdm/[ c.c ijfg}~ 8F\l $$Ifa$gdkYN$a$gdkYN$a$gd8 $`a$gdm/[`gdm/[ $`a$gd8gd8   ) - 3 R a e 9:u!ehj$0\)IJr h:h I1h<hWh1gnhNh8h>nhm/[hNh;#T "#'(,/23:;KPQ]ay}UY[\nuwbcefrhkYNCJaJhkYN5CJ\aJ hkYN\hkYNhkYN\ hkYNhkYNhl:hkYNh8h=MhNh hNh6h1gnh I1hm/[h:@&2Pjxz*,:TFfFf>Ff $$Ifa$gdkYN,.VXvxz (*,68`b  *,.:<df>?()2 4 : < v x (!*!.!0!P!R! " "["hY0hkYNCJaJhkYNCJaJhkYNhkYNCJH*aJhkYNCJOJQJaJhkYNCJaJPThz$0<Zt,Ff?Ff $$Ifa$gdkYN,.>Xl~(4@^xFf@Ff $$Ifa$gdkYNFf.>?O\oy $IfgdkYNFf"Ff $$Ifa$gdkYN!()=D[nx 0 N v x Ff-Ff)FfM& $$Ifa$gdkYN !!&!B!P!R!t!!!!!!! " ""0":"C"I"P"Z"h"Ff4FfT1 $$Ifa$gdkYN["\"^"_"o"p"##$$$%%K%L%c%e%%%%%1&4&M&a&&&&&&&b''-((($)))6)7)8)I)J)K)L)^)_)a)t)u){)**** * * ***»´ڬڬڬ֗ڬڬڬhl:hl:H* h`4H*hi h`4H*hi h`4H* hf#h`4 h"6qh`4 h`45hmhph: hh`4hl:h`4hkYNhkYN>*hkYNCJaJhkYNCJaJhkYNCJH*aJ;h"o"p""""""""""""" ###"#)#9#C#J#K#W#d#x#Ff@FfU<Ff8 $$Ifa$gdkYNx################$$$&((%,&,/`gdl:$a$gdkYNFfVGFfC $$Ifa$gdkYN**#+$+&+'+.+/+K+L+$,%,&,;,>,H,I,--R///////00 0m0t0u0v0x0y0000000000000000000ĿhY'hWH*hY'hWH* hY'hWhQahW5hNhW5hWhathW5 hNhW hW>*hyhW>* hkYN>* hmhphkYNhkYNhl:hmhp hOzh`4hOzh`4H*h`4hi h`4H*4////////0n|kd|I$$Iflj0 ? ? t0644 la $$Ifa$gd<$a$gdW00 0u0vv $$Ifa$gd<|kdI$$Iflj0 ? ? t0644 lau0v0y00vv $$Ifa$gd<|kd&J$$IflZ0 ? ? t0644 la0000vv $$Ifa$gd<|kd{J$$Iflj0 ? ? t0644 la0000000031:1;1<11111111111111111112 22222<3=3P3t3w3~33333333344%4=4>4444444444N5Q5hT h^!hl:hl:hmhph[ hkYN hl:hWhk hathWhathW5 hW5hNhW5 hW>*hWhHWhW5 hNhWA000;1vv $$Ifa$gd<|kdJ$$Iflj0 ? ? t0644 la;1<1M11vv $$Ifa$gd<|kd%K$$Iflz0 ? ? t0644 la1111vv $$Ifa$gd<|kdzK$$Iflz0 ? ? t0644 la111%4&4=4>499=zqiii]]] $`a$gdl:$a$gdkYN`gdl:$a$gdl:|kdK$$Iflz0 ? ? t0644 la Q5h5z56!6.666L6N6Q6i6n666L7777999$9.9H9P9T9Y9!:7:=:C:H:g:z:::%;&;Q;R;U;;;;;;;;==;=========>>!>">?>@>^>_>z>{>>>>>>>>>??6?7?V?W?v?h_CJaJh_ h_5>*h,%h \hdhl:hT h^!hl:S=;=A=P=U=e=}==$If $da$gd_=======A88888 $$Ifa$kd$L$$Ifl;ֈ  ''''' ' 644 lagp<=======8kdSM$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$=======8kdN$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$=======8kdO$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$====>> >8kd Q$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$ >>>>>!>">8kdGR$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$">*>/>1>5>:>?> $$Ifa$?>@>G>L>N>S>Z>A88888 $$Ifa$kdS$$Ifl;ֈ  ''''' ' 644 lagp<Z>^>_>f>k>m>o>8kdT$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$o>u>z>{>>>>8kdU$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$>>>>>>>8kd;W$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$>>>>>>>8kdxX$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$>>>>>>>8kdY$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$>>>>>>> $$Ifa$>>??? ??A88888 $$Ifa$kdZ$$Ifl;ֈ  ''''' ' 644 lagp<????#?%?+?8kd/\$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$+?2?6?7?@?E?G?8kdl]$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$G?K?Q?V?W?`?e?8kd^$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$e?g?k?q?v?w??8kd_$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$v?w?????????@@@@A@]@^@y@z@@@@@@@@@AA1A2AQARAnAoAAAAAAAAABBB B=B>BdBeBBBBBBBBBBC#C$CICJCqCrCCCCCCCCCDD7D8DYDZDuDvDDDDDDDDDEE"E#EBECE_Eh_h_CJaJ`???????8kd#a$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$??????? $$Ifa$???????A88888 $$Ifa$kd`b$$Ifl;ֈ  ''''' ' 644 lagp<???????8kdc$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$????@ @ @8kdd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$ @@@@@(@-@8kdf$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$-@/@5@<@@@A@J@8kdTg$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$J@O@Q@S@X@]@^@8kdh$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$^@f@k@m@o@t@y@ $$Ifa$y@z@@@@@@A88888 $$Ifa$kdi$$Ifl;ֈ  ''''' ' 644 lagp<@@@@@@@8kd k$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$@@@@@@@8kdHl$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$@@@@@@@8kdm$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$@@@@@@A8kdn$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$AAA AAAA8kdo$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$AA#A%A'A,A1A $$Ifa$1A2A9A>A@AFAMAA88888 $$Ifa$kdBFBKB8kda|$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$KBUBYB_BdBeBmB8kd}$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$mBrBtBxB}BBB8kd~$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$BBBBBBB $$Ifa$BBBBBBBA88888 $$Ifa$kd$$Ifl;ֈ  ''''' ' 644 lagp<BBBBBBB8kdU$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$BBBBBBB8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$BBBBCC C8kdσ$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$ CCCC#C$C,C8kd $$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$,C1C:C>CDCICJC8kdI$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$JCRCWCaCeClCqC $$Ifa$qCrCzCCCCCA88888 $$Ifa$kd$$Ifl;ֈ  ''''' ' 644 lagp<CCCCCCC8kdÈ$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$CCCCCCC8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$CCCCCCC8kd=$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$CCCCCCC8kdz$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$CDDD DDD8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$DDD(D,D2D7D $$Ifa$7D8D@DEDGDNDUDA88888 $$Ifa$kd$$Ifl;ֈ  ''''' ' 644 lagp<UDYDZDbDgDiDkD8kd1$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$kDpDuDvD}DDD8kdn$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$DDDDDDD8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$DDDDDDD8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$DDDDDDD8kd%$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$DDDDDDD $$Ifa$DDDDDDEA88888 $$Ifa$kdb$$Ifl;ֈ  ''''' ' 644 lagp<EEEEEEE8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$EE"E#E+E0E2E8kdܘ$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$2E6E=EBECEKEPE8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$PERETEZE_E`EhE8kdV$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$_E`E|E}EEEEEEE2GGGGGGHHHHHHHHHHHIIIIJ JJJJJJJ KKLKWKKKKKKKKKLL5L* hmhp5>*h \h3hUQh 6hh39h,%h hhj hhU h5>* h_5>*h_h_CJaJAhEmEoEqEwE|E}E8kd$$Ifl;ֈ  ''''' ' 644 lagp< $$Ifa$}EEEEEEE $$Ifa$EEEE}MA661gd3 $da$gd_kdН$$Ifl;ֈ  ''''' ' 644 lagp<}M~MMMMMMMMMMMMMMMMMMN$ & F$@&Ifa$gdmhplFf$$Ifa$gdmhpl$$Ifa$gdmhpl$a$gd_MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMֹֹ֛֐ցuj\uh5Bh2_5CJH*aJh2_5CJH*aJh5Bh2_5CJaJh5Bh2_5B*aJphhF<5CJ\aJh39h395CJH*\aJh39h395CJH*\aJh39h2_5CJH*\aJh5Bh2_5CJ\aJh2_5CJ\aJh5Bh2_5aJ h_h_ hmhp5>* h 65>* MMMMMMMMNNNN N N N N NNNNNNNNNNNN N!N&N)N*N.N/N2N3N7N8N;NNANBNENFNJNKNONPNQN[N^NcNdNfNgNhNiNnNoNsNtNuNȮh@{h2_\aJh@{h2_5CJaJh5Bh2_5CJH*aJh5Bh2_5aJ hF<\aJh5Bh2_\aJ h2_\aJh5Bh2_5CJaJh2_5CJaJ@NN N NNNNNN&N*N/N3N8NNBNFNKNPNQNFf$ & F$@&Ifa$gdmhplFf$$Ifa$gdmhplQN[N\N]N^NdNgNiNoNtNzNNNNNNNNNNNNNNFfH$$Ifa$gdmhpl$ & F$@&Ifa$gdmhpluNyNzNNNNNNNNNNNNNNNNNNNNNNNNOOOOOO O OOOOOOOOO!O"O.O/Oտ䱭wh5Bh 65B*aJphh5Bh 65CJ\aJh 65CJ\aJh5Bh 65aJh39hmhp h395>* h# \aJ h2_\aJ h2_aJhEn3h2_aJhh2_aJ h# aJh5Bh2_5aJh@{h2_\aJ hF<\aJ-NNNNOOOOO OOOOO"O%O*O.O/OFf$$Ifa$gdzSl$$Ifa$gdzSl$a$gdkYN$a$gd39Ff/O0O3O4O5O:O=O>O@OAODOEOHOIOMONOQOROSOTOWOXOZO[O]O^O_O`OcOdOeOjOmOnOrOsOvOwOyOzO~OOOOOOOOOOOOOOOOOOOOOOOOOOOOիիիիիիh@{h 6\aJh@{h 65CJaJh5Bh 65aJh5Bh 6\aJ h 6\aJh 65CJaJh5Bh 65CJH*aJh5Bh 65CJaJC/O:O>OAOEOIONOROTOXO[O^O_OjOnOsOwOzOOOOOOOFf%$$Ifa$gdzSl$ & F$@&Ifa$gdzSlOOOOOOOOOOOOOOOOOOOOOOOFf=$$Ifa$gdzSl$ & F$@&Ifa$gdzSlFfOOOOOOOOOOOOOOOOOOOOOO P9PJPZPPP9QHQQQQQQQQQQQQQQQȼȵth5Bhmhp5CJaJhF<5CJ\aJhmhp5CJ\aJh5Bhmhp5CJ\aJh5Bhmhp5aJ h395>* hmhp5>*h39hzShUQh3 h 6\aJhEn3h 6aJhh 6aJ h 6aJh5Bh 65aJh@{h 6\aJ+OOOOQQQQQQQQQQQQFf%$$Ifa$gdmhpl$$Ifa$gdmhpl $da$gdmhp$a$gdkYNFf$$Ifa$gdzSlQQQQQQQRRR RRRRRRR R"R(R6RR@RBRHRJRLRNRTRVRXRZR\R^R`RtR|R~RRRRRRRRRRRRRRRRR˸߮߮߮߮߮߮ĮˡhhmhpaJ h# aJ hmhp\aJh@{hmhp\aJh@{hmhp5CJaJ h# \aJh5Bhmhp5aJh5Bhmhp\aJ hF<\aJh5Bhmhp5CJaJh5Bhmhp5CJH*aJ6QQQQR RRRR R6R>RBRJRNRVRZR^R`RtR~RRRFfFf$$Ifa$gdmhpl$ & F$@&Ifa$gdmhplRRRRRRRRRSSSSS S"SPSXS`SdSlSrStS|S$IfgdmhplFfUFf$$Ifa$gdmhplRRRRRRRSSSSSSSSSS S"SPSVSXS^S`SbSdSjSlSrStSzS|SSSSSSSSSTTT TTTTTɻy h# h# j(h# h# U h5 h# 5h# h KhWjJh# h# U hmhp5>*h# h5 h5h@{hmhpaJh5Bhmhp5aJh@{hmhp\aJ hmhp\aJhhmhpaJ hmhpaJhhmhpOJQJaJ/|SSSSSSSSSSSSSSSSSSSSSSSSSS $`a$gdFf!$$Ifa$gdmhplSSSSSSTTT+T-T.TDTFTgTiTjTTTTTTT $`a$gd# gd K$a$gd K $`a$gd K$a$gd# dgdmhp $`a$gdTTT+T,T-T5T6TDTETFTMTNTPTfTgThTiTkTrTsTuTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTj5h Kh KUj&,h Kh KUj!h Kh KUj|h Kh KUj h Kh KUh Kh K5jVh Kh KUh Kh# 5jh Kh KU h K5 h# 5 h56TTTTTTTTTTUUWW/YL$ & FEƀc.a$gdLgd3$a$gd# $a$gd K $`a$gd# TTTTUUYUrU~UUVVVVVV$V%V?VEViV|VVVVVVVVVVVVVVVV&W*WbWiWWWWW XxXXXXX.Y=YEYNY`YlZe[w[[[[[[[`"`C`n`r`z`ȼȼȼȴȸȴUhzShht&h$$IfT֞K?w!&+&S&&8&8&e&&C0'"2 22 22 22 22 22 22 24a T$$If!vh5S558585e55C#vS#v#v8#ve#v#vC:V 0'",5S5585e55C92 22 22 22 22 22 22 24 a T$kd&B$$IfT֞K?w!&+&S&&8&8&e&&C0'"2 22 22 22 22 22 22 24a T$$If!vh5S558585e55C#vS#v#v8#ve#v#vC:V 0'",5S5585e55C92 22 22 22 22 22 22 24 a T$kdE$$IfT֞K?w!&+&S&&8&8&e&&C0'"2 22 22 22 22 22 22 24a TS$$If!vh5? 5? #v? :Vlj t65? S$$If!vh5? 5? #v? :Vlj t65? S$$If!vh5? 5? #v? :VlZ t65? S$$If!vh5? 5? #v? :Vlj t65? S$$If!vh5? 5? #v? :Vlj t65? S$$If!vh5? 5? #v? :Vlz t65? S$$If!vh5? 5? #v? :Vlz t65? S$$If!vh5? 5? #v? :Vlz t65? -$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ /  / agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<;$$Ifg!vh55555 5#v#v#v#v#v #v:V l; 6,55555 59/ / / /  agp<Dd 4T$0  # A"MŸR|SO|He)Qg@=!ŸR|SO|HeU),(r ZxlU}{CEū@RM$k$0ht^ P Z2 "dQEfFل׬=%P; T N7[;&SwϽQNҹ.%.{ObW!DHE,t]!tu-??C JPBtA=*쯦i\q/ĒU+P _3?M%w_\Y=?ts=1FK6DZa^?]3W *Ikce*gfʎМ2Dy6' Z}H4u(=[~ytZVKyVU?~tٯ{PamY'9я~[W{t_[*_91^RGTOZ|&~oJd2cIy*{RdI>Ɩͯʝy׮&?`4D9gs5/ s 5SZDLFNDGIk`dd #h?$~%p_۬h< ;hZ[T nkvk ;h&{5>`imwYذUşyU?`5$Ǭq ;hϒo >`/j oa-E-&د_F ;h_ #4>`?lAJ񫩏 RYSZ4qo~Q DouG׹n`mq ;h&$k|0>=`GYůo;[cGbmA1bXGyqObX]lnv$/(QS|0~:0[;[E~eCS AqqT/`c?_^0^yA_Cf&;/&#h7=}K3>ZW"mV\|?+a-qP|X(&u*ZʄoL7'N6&$忇D}DܛZ{ę؉ĥ?UN!~ v3$]g\<&tQ =zl<VL#ĆxLA̟5>`Ko[?]쨻tvNׇߠ6wHֺvO[ nN}?E7n}?=Jna| sa?+~{r\<|!I<V.YM<-;DG3xҘ쳲S}?+~uP?` 9$+y4>`ߟ<"'G>ϟ{mG31~!A%w}?wňd`J.uw:ϟ"Es,tjVJ؁įR&wNU qS4>`?ziNu;ϟ+>`Z/{R[%US |08%bj ;Y`Lo{$gvN4>`H Ԕ>x=B7ݲ3= a?qLϥw}.g_)&tK؁M&&؛3sdc憼 ST'ٟ?W28{3/;ϟ4S`=9"OdF$>`´773#1ڈϸְ;ѐ={?&&ϱHfI؁S<Xwa²/@ھ- -/#u<8uߘk~yTh~yByk~_nwLVߗZ=X~ǿ,z>2& w 纑lJ$Zr]mdvvؾݭG'{ Q{mmp{b܋\&JFeU잣g=WC~)R4IDxk_J)U$/6J"IrtOѽ=GF&鵉NڎR(̻;rC/VgPNM zE>sMث磡B=gN67Ƃ V xxwxxx'xxGhxׅQxg:x#x z^35{lG<9 Jx3 0ws`S1|s2̛0sq,WC0T}Q'T{]>hNnh=UUU@@?ShRV/;U?EEEE?FFFnSC15N0^0n&8jU #'bFVf2{ٵ-S"mmӫmDZy;>L^5dmL'F+O$&::do잘Mڷ/Li71٣d**O51adWev+{=Z״3c̮}afW$Y2̎L{^f̮ۗʘv#t7ڗ٭+a_S">~"aƋ ׌3^dbŋ/Gx5/YbH܌Y6ŝ,^sx1!ˌm3^̍be܌O%x#/Xfb1ų,^4fbbŋK13^xŋq/Ybŋ /xpx1,^ŋq/FXŝ/Vx1EcƋ,^vxŋ!3^ x5E77xcƋ/vxq ~О [g }> 6,+veZۮR_ە]jkKomWv.~]٥֫+veZڮl}^8ݏ헓߈쩷oSk8>,Dܤx)2}3"MEf`BQ QU4_bU '}@+cEYN%^Z9:~|,VGvh|,u`|UZyG{r>:cC>_v>n}(q\g=5xCK}k!UWQ umm-Cb mU]ULpu[.υd~O_ሩ:1Lfz7/0[[כL?3L?*az#v2}naz$ӟdz/{>I:l]2]Lcӯ:l]L`zӇ> S똾mLocz?vuezӛ0/0}Ư/ӛ~~g5l2Log &M?'^O2})Sm_?.w1}cLN:lc2}#;a3}n L_61LgͲ:73=LQz5g!Nso.m`ϙV9s6Ez)w,RrUr̕;mk׾̘{o;h1so-})Vr[̹Ľss} XA-UYYJFDuӭkJC.߆_TVnKx8(]׮!~ʳQMǾfv}퓖e6+]}-Ub-=o%{[w4?ophFyGy[7 q:h/;xuN3_BeU$$If!v h5X555h55555 5 5 #vX#v#v#vh#v#v#v#v#v #v :Vl "5X555h55555 5 kd޲$$Ifl  V Hlt"Xh0",,,,44 lapn$$If!v h5X555h55555 5 5 #vX#v#v#vh#v#v#v#v#v #v :Vl}"5X555h55555 5 kd$$Ifl} V Hlt"Xh0",,,,44 lapn$$If!v h5X555h55555 5 5 #vX#v#v#vh#v#v#v#v#v #v :Vl@"5X555h55555 5 kdn$$Ifl@ V Hlt"Xh0",,,,44 lapn$$If!v h5X555h55555 5 5 #vX#v#v#vh#v#v#v#v#v #v :Vl@"5X555h55555 5 kd6$$Ifl@ V Hlt"Xh0",,,,44 lapn$$If!v h5X555h55555 5 5 #vX#v#v#vh#v#v#v#v#v #v :Vl@"5X555h55555 5 kd$$Ifl@ V Hlt"Xh0",,,,44 lapn$$If!v h5555h55|5h5R5 5 5 ^#v#v#v#vh#v#v|#vh#vR#v #v #v ^:Vl 65 kd$$Ifl  X ;?=06,,,,44 lapn$$If!v h5555h55|5h5R5 5 5 ^#v#v#v#vh#v#v|#vh#vR#v #v #v ^:Vl}65 kdR$$Ifl} X ;?=06,,,,44 lapn$$If!v h5555h55|5h5R5 5 5 ^#v#v#v#vh#v#v|#vh#vR#v #v #v ^:Vl@65 kd$$Ifl@ X ;?=06,,,,44 lapn$$If!v h5555h55|5h5R5 5 5 ^#v#v#v#vh#v#v|#vh#vR#v #v #v ^:Vl@65 kdj$$Ifl@ X ;?=06,,,,44 lapn$$If!v h5555h55|5h5R5 5 5 ^#v#v#v#vh#v#v|#vh#vR#v #v #v ^:Vl@65 kd$$Ifl@ X ;?=06,,,,44 lapn$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl 65'kd$$Ifl ִ t xx06    44 lapP$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl}65'kdN$$Ifl}ִ t xx06    44 lapP$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl@65'kd$$Ifl@ִ t xx06    44 lapP$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl@65'kd$$Ifl@ִ t xx06    44 lapP$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl@65'kd$$Ifl@ִ t xx06    44 lapP$$If!vh5( 555@5@55@5#v( #v#v#v@#v#v@#v:Vl@65'kd~$$Ifl@ִ t xx06    44 lapP Dd 4T$0  # A"Z |ȉG]p'.6 g@=. |ȉG]p'.T+),(r ZxZklU>`AjX]T-/"B1 C|bD$A (&_(|a# b=gޝ3wgwJNs{;͝s޽@"wc;V~4 a(pQqr|@VHWՠ!]Ҡ eh=Rl2vCTU"(dʗgLCm* < pQ!lU2Vjh#.sxy~~hj*).OY Գ#7 ܨgn&1^xND[s<[߃'}HO#>-k::!Y&=}) h9}XO:6ƛ N-T'OĉfB{is~'OPrמs'WR{*TBX,rj1N#b]A03nm66UNmv,mvhd>JY~ϲot8"B!p4l)v1ps|C؉oPSЉkN|?;q9Nq/D;>Ii'swF}VGYZa1um3G@.r, %=.\SL'x=ry7/\#Y<,mՇeHư[#ۣmYlms $f̎h0F6}&YG.~=&Y܎+L9Y|+*u2nE7I={3G{ӏ&=?2?5_Cdi q]?ĠJ6T`u Y$ȗjtcv|0)%K2~#jo)J,m^[lG?!{DTAH\ƛ/GoGۣ6N~2jG/!Woe2KE/GNSfT\a~N8VE~[=m:m:㸛~v)Яt`:aǘ>/|K/g—Z?zb!wQKĉc?[/- >+ |)~S?~w/wG>׏nM:tq7*N*N8 E~v{g"UuuY|rk496iT8Or=q~)\Oqz|$Sk وk pϊ3*{a'N>N|(<^toV=ラ.<~[{5 o3od܍Jv|+VI?qN<8#+qa5y PwN%̋-P>/a^ @>/a^WWx?y /K{2[ݫyNb:`}x4$M4\ղԱշo%"ձ}=ͽ?Uor֯z֝tP%_x_zVRe8/5g}zXKpf5>5IqW*q>vuPk$\8C켿7Wۣ&7S& 3sZv=j])9 2 "2` Q0>N(;~T*t7EKj0%(oɶg .BM؎MaW eч,'/FKW'Y̏u22R1F)Bk] Cgg/@iшUcfgxfکoG nTn$'lIݷw4р牰Ek ξ ;bxOv ӵ'uʇW4mDHZINj1N: ?;ǪSLGg&5ƽυ}=͹t|sO9'n={)>~Գ7հՊqL1?̰#ފ23ѱ;$)F2,>ޱVճe:/<ѧ1 N ;"Zq{!'N:KNT'G}Nt+_v9A| s/9NgMX=[woKQ2j!A%<ıȶyFPDz /X(gϘ$|1qd r, g"+AkXfIRI!`= I6H6f׮ m5T&I[C$ai_6iQ~%ILgc?)4;JIR͐³,9L3"GףzX'I<[QQm!pЋHR&E9jFW##KI|.' Gьb~r(&I0rT1iwV>I2/x3F>FҰByOs7wN[.t?M}ImK|mbIoW:䮁sIS' ] \r;wPZ?9wEEŃe y7Y މ}/pes/.Oc,G3+. ~9GNLkBTߏ},IwEHoNXq6^#tߩnm0m0q܍NNN)S߬Y'w/W#} 5'Nu ].*u~vy6_KOisrӚVYq䚌| &dk0&8_5!w Qg! o+P 'N:Ǐ9q9d'犝8x\okyr߇Ny|g-2 \D.L]osҘ9)16O=oWP|n9ŧ|.C>kaMϟϺ`O¼|tYn$5МsZXD9Yߜ)p畸 5pQ_,W_f>犨$yC#_~ Xł>%*.lV8קļ|N[>cQd4קļǞ[}_5 \7XE"lC8-(CkϙFh7 al*̸`܇q,t1缂֏Bo=,3s8?稽sAlvnIvd aZ+7Ic-%+qE,י{.3a/Sy5]P$:kԛ6#_հEK~ߨGDsQ'qttwo]߼ e7Sbj Ez>kXvX Xч}|7 m;zcguh&=}Nb}nsU8.őa.c쁞`Tcؽ4T_zGA+Σm"ƢQ:<",1h6_3Ρ3fXNIbr֧s2wd[ osү8! 9'6p$,zҼnдqszO0}NgI{}}kgN ldPf&`bﰉ)Gƞc_ocx;cOy쉧o3Qƞ{)],֕ϵ42ZC.n(㖼BO=0=y46#7S'3䉢[Qn]>`GŊ䯌R/|ق=%^q} $},nzIƉx8HƉxb_C7YjΦkSw{,MXխݖRCy^|WhGzҖbA.%mm3SaO۲u|tC. <܎a-,FdKAZ179~(kr70 ]4j;!?@rE}#\Dt)qχ myY/QԷ-(/. e RH y/ C)77݃gHD]~ިpE}?R~9|}ғr֏x>x)-Vx]Ym'Jgi^B~HXGl o؏a9eKNc>8 %~SKЀ<ex_KYߊV0$/U We,7(op#F1,3_NݘӇ}oax*2 ' g ^Q?_쓼ĿP+ ncߢߢ w|l1lQ?:nu\qN_3reʾ| {g8#=A8kAirO2N<$sٟqg}Q-Md,k.ȼ;wQP]R?΃HṖwrSMXSڴu'U?a7sK+U?ak?mX ˦J֨#YČ,Lj.oTeHRX:_A/lԯƤ9` 6Mfm.Ds{[ݩ:%MXz7UIJ+t{:%Mxk#߻;{=?sw[(_rssO~fh?&̊5Y&TRc8\3ĽTxf:o@mӊ-]ѓ>YiO? g5csq]--P<{L>W:r_a?Z ֣\q6bѳ"~Yπ.}r)&E}Y f0^s9ds~'bS97k9H8yQOt|Ж}–™َsL-mxm=>Du厠B͡}$$9㫰[}ٮ ;:{e(ߺ2:j39Y~|-9Urj+sN}*rj(]Da 92)w֬b[Y~}fWεǵ3b oRov䷄!;\tsiܳc,a1x~G}V,1Vl Dd 4T$||0  # A"0 dsBa^c# g@= dsBa^c#*),(r ZxZ}l?3vnF- Ex&$Q@QȫK)X{ABh7JAbQ3>k">4Q@DZJ>.wν;g֖:33g=cj w*!LO.Y@nrT*5$t@0Rr%=xlWl!? )*T8_GLrY\ 1AgS呑.J(c(PR2۱"iß}/FXx@vtkN6\=!yz1 Vɱ&$y'!j1HN_þhZ{"H:^XH$v(v*afG鿠#[s 5}O=͹ io:t~Ya={Vk1G'u־ ][ n-*K{Wm6q܋yy?{777 |kPkPk(21Le\/d.q2Yu `P~k1O L8?(\pG|="'>8_ {.zO %eq9Z'5nt1͍qƵ"m\CJDTڼ%3H7HI{} n<7(~7~*/K߅~ ~/ VOGB9e~ {3z{޴6 oaQ0"` %߯wwV{ vh:6S(KR*IӃnV$|ݒ ,)1ͷnu\))1?-USb~>ϻb}[c>%L6=os4ﱐiXOrt>r;߃v+?UG(`+t` 0꛰QWb|%"/;,1J)eۂ܇4>vݖ>d؇E9v}[;H}ʼn8\Cq!Ȫ{ZK^^q=7ݑCGQ ɃMWR}M/{cwNq[;uqʓT&9/q>NP'ŴhlV݌7lC}EnX>!}'}_P_ڌyؕՁ1{혍[܁am'zdީ9 Wk.ύfZ7037U=(ʞչ{Vc"|oXvXvNXޏ9F>hʏ#< מx峸т\by{v yXn|5p;M`o,h5=Ѵ!M=*ݦ^mj6ѦJ\mj <qt##^mku&k_ qڥ2YkĂf>캲7ٲ]xʯ<$XpKEۼ!P Xa> * jV\oWr Dd 4T$||0  # A"9k愡" |Ng@=9k愡" | +),(r ZxZ}U ]p(sQI\d#`@B?s#DE@1n_ zQL$"i^VH@qsVM~=\O*իz H)ϦrL\|)-s:LЮfY038 5rٴ2"H+ٶ|J|R:˛e]2WjoG*XiP-7 LVei*)ЊEjzU[b+hW'P\a34+TJDiQo`aq78rtZ+){[2䈧z?U}ӟ gpxUIWo< (۩ܚi͓MğDR7M߿f[~~'\}W^x} f?fS|O6e̳X>28C^c+fqsOh,Mzs%H}x_Szy X`y"arD<x}Em٫r7Ƅѿa՜@+ B g17N7l>ƉAӍ/>;2fe?1S!%URTy7aYnC/? KUQm-7W>o[v}E>cVcj# u<V^/QcHrETטDG,?m(MUsl+ETDsl3+m. VM?}7Zku!MqqGG {b=1ߌ 8.ߝDE'H/(>O4Gbij_Ź휰Օٷ7ѻ<>ŶIzIۊgg* /ig5<w`yg|?ɴ[?4iUq1gG ߈9Gq+ZŻ5$c Qʼn? P_*To#~75&37b?Ŀ)c ^ !$;n/'q/O7?Ľw=Ľvoߒџ!h Z1^+-zN_zFu_{ 5W&ܸܫyx$q=垇@{Ij}:vKŨ'^KnxƉ8ٻưáaDeZz E"s [Ѷn3Fu˴T0O"섣['cftzX^‚G őZ]9\ m:z0k|Z=w{s&P~ֳ%(';pۏ`S~`̟u%:O OD;o@}:7g8 b9T9 mc}M[|cFyzkdAΤ̽?59:OL(OeE~ʧiյe܇jmFN$_2rtZܚ#A O%rT&{H_s'ci1֧ 1~s' k_^>u|`?VgY-W6u&T.nƞc#q{2?[ϹrSU]Y|67r[oa\p(s~u65s]hNe˶ f 9Cƨ<_B[_E[w }>=۫8DߌE겮+ɡ:kEx?멐<˸-z~q5sˆK7FC*P .X",hƱt1܀ jsf =)b:kvkcTm9]{؂qYz茈zb! H~Ȋ:hVG<J*JT~z M\UrWmHs Dd 4T$||0  # A".)QfrmK2g@=.)QfrmK2|+),(r ZxZolE{{^[- -A< l™Pj[ Z1hmOA$bQ`h& M0ј*"E+ ܾ۽--u//;o}ٙo'xooj^ ڙ7*@9 gj^N0 fjY `%T;4ʃGao,ڌ1EM2WҲLg*d;29߇){;2fٵǺ۪꟱4$ɛ$Ѧ3"S¶پ߲:1F'[&|/g-2kl7wMMYѵ%JŚ/o9 k6q7BW"+qlށX)/aAs|xGm;b*Jy y׆Ky ʇ9dJy Kߠ@0{s Qޗ%(ׯ><9iyط$+}R".; RNiiwaSbZ`.\ScZM)Ĵ<|`H!s(hi|>3?op<wxV1^ZF_'Wr@=ohM huGQG[}.h_Ӿ%iO}gcZfSa`=6f}Fs s~<SC>G HN_q t"F\ Y~U,ږӉ[^ߔ!N|7*9ė>I'_l5nՌ̩7;Ѷߴ^ҫ<|R/d7x>uaf" 3)؎.њ;ع7]-KoiCNj{|DsLe_:.~{[іm–#Rf$2=|d(3}m݋5\KߘN׆m )9*29rt)9OF>0 <͸-gaq5=KDVKӰl:X",h%c _μYS X\Iy>1vuHl,=8^P1Pwr$L3?Yp֚g}PX(үˋEW{B?IbjU{77 Dd 4T$||0  # A" :o8,ƕ%eqX͎ 3"g@= :o8,ƕ%eqX͎<.),(r ZU xZ}l{{{ދ焘`Gn{d$8H U6@1&dPR@@"D T*UADMST)5b޻{3{wGo|ߌ{QPQ.8╻ 1 |t4 ]M){ M[pJ3 ҭ6\z~dlwl!|+b9d:5 \ВAC)$(.JH+ЂEYU{戼Koo 1J雡{ 4+dV  .ӅoqSpMT'mȐNفK:Շ_FR9y2Ӽp{(r~P1|]ɖfb,O37o6YgcOyIؿ@uY/cOi={`c,?ܯA}Jo+ `m g~9ib ~ K,/l62\h_|\р9;M%?)8&U˱d*;c~Es$io4e:\`_IrՖo7@l|!ɹ1QSY;厚v$Z.Iעɒk(IsדtX2n/8Ze ,VS'B^Ao}·!ɹҥзS΄8IΥ.!ǗĄ^Bs)KHC~(9ai ɹewzkdciKܱTX|.fjxpM4/~7Rqmm>?Tٺp">_~kΫ弙~ 9sl][r|M'xk:8_5y-xA88cP&Yfk?W!m'EUtRs%*N:|m2Phmh1I(;)mb\;塬}Ĩoiqm-GPWiFǿZT7  4񟌕V &F siVB ?j{>  <ȿ%V : Z.Z@q_aV r~οƧ|/woKn 8GhN!1Byl)b-W)X55}N9ĪqweSb8i=Iwy#]uz6{asv%w<5k?HTnDMhw,' 巛.ؿ^h1xEhz_k:%mbg^lvKSxU4.s;'0hyR<'P?5p9i?C FbFS `5A]yb'Sߏ=mgﹾ/D}*8qۺqۯʐNI'uR )Kv|Iskfh\8 X|,[,gIJ#}Ycv؋ommKˋ55nkO=>.۪>I=ڽv;0oΓXBs暱B;[;Ea!-|֫r{6W3٣.Gt_r]uiڝ %ªd]~{qzZ/|\Ukn-pT_.ךx6`̧}8#U,_L+y͹4Cιp:?}m+~ |'WP*aoP?jY{.cOGg&O?SbO>egf^7lWCmXѡ->rW,n2aQ, y'hHc3:Ek# %p V\d?,Q @I:Z"V}AXQ]}Z]'C~ѱ'o(7{=MH?Nǣ~|\aQď.'];L?NG4GP;ɜtP;q΅}LKRلijz7Ҟz| ]ofBLҩ$gn gڗCxޤ|X5%~5W(}q:jWk0O&=ג>tƟpc'I mg4_.-~]M߄ -~uQF-~?ochx"ǿ Dž*'4>yVyXgL܏k.O=oQ:jx ;󖇓)/]ތwJߩ&ZN׉_O?~OYKbeyrT<uxڨ>g8zuTk(^SI\xM%q5T55!$F|nq%Z̏.I?Nďq%NTs$r|6^z;WB9ovÅƨ?:68ng؍r:K XFTR̮ QQF{'BT >3oUV Nn _k#f%?a/[n?CRtY4vxAr|1oƌi6&y/ޗVr2Vs | w(^X=x9fu*9ǹnq+9E9=鞻6Rh܇k w\cw7͇QއWdk<w>^W=װ?>Yi͝xy<> /l}᝖+})O{KChk—/3zLJhOxw|PmyߺuCĈv[6#~ѱH-ܕ< p`L Rw/*IHHn`$ː|eߒ2E$iCLJs1CSior95`;rJQꂡl e4jBHlٮBu.2ًkUCkfo 6gW P^b^'~}|ڤ_aHm|^_k´yqRS==S-մвS==]"T&ߓѲԾ2Y?5Bu+ĸ%ԙ`*)ͱm߁1X׆:}-j\%ʘ"^ʏEQnz-?!6RD_K?Q!|{߱eL/˟06D {lLT mKy/E]sN 7loay%/ ~BgjNT+%_]?8^5zN_⿺~L3q<^Sߪxǣ=u 1'瘍\ ćX0 f퉿+nhqnþ}>kMe~{u}# MzD_:hה_u|EC=B)8rOq{ AxY9ps'bNx_*usSư`=k)܎ {Զt`ʶĨn]Zdgdo㢖QNχh PP:G'X[C<F;qX!f(ƫib:D/`g 7 ǂ<[VݢbY_-v4Gyq;>]ފ՞#'ڳӈخ;?ɏ'밿<=߈L琾N<dl/'?G1c.57 xZ}T?|3oaXٍtHG8 MH %! H!Fc,M[S1dbSS(-MnͶٞ3̛ݾw{{ ؊ҋ҇r' ( s֭0ݯ<`@;5-8 V[dd a#tl@[ Zbyrp95 \_ٖ TnV山1lUFW %2d;V隭ޅϐϾeAQ8h߀nx 6i|G r yLEB~͓5x^{>MC&nG{!ǯ C:]k,1)8: ?O.oEwO:u|򡦶'/; ת"fڜSeuZʱ2SLS;n=)_MQD-#}YW;(9MYRߌ~N)Ir%( V~X(JhXޗcErB/"&8CǮVcj=MHWm/NėD8 {!ǎ']^tﶼ8o48 ճ YzN3ـs>/>x=>GOetҦ$ =ۗcxޤ|߈OjJ%(9U5VI1I:Bl .Zn~$8jHrHdb]/5$.3^I\g^I\x'q5ek>@j5 q$BK']^tI8B'#OƑ#3ɗѳ֣0e:/VM˿vO3>ߊÿ0+\OX=KỾׇ\ voV*[.Or~_3\YOX=B/?G)(J70jTH6bGk[UNos:&$ޗ s2VfnH}rNjq.=Î{_KZKa7w"YX-[fpdyi:Cp_v/od1R|vbۡ|nsnTuD!Z5X}0Ymop xMĿ-%X&c~wsl)FfCwљS6C H @{*ýx2ۭ̃g#6kdn]Bێ[mgHS)xG )KrϤx|Zדm͗ت;f.xuc=Coo<|G}+<QumN<܎o R؍5닮O#kbqlU:*Um5]a/! bb?ٳ_sS9Y>s?ŽN*q6*ԍx<]sS(FnTon.sM]<^u(ϞT@y mZs6nK`3mY;jmjI95mr}Rk2׭*E[[܉|ǛqH Q,( R_^WoPU5-K@@@ NormalCJ_HaJmH sH tH jj mhp Heading 1$ & F@&&5CJKH \^J_HaJ mH sH tH ff mhp Heading 2$ & F@&!5\]^J_HaJmH sH tH ^^ mhp Heading 3$ & F@&5\^J_HaJmH sH tH `` mhp Heading 4$$ & F<@&a$5CJ\aJmH sH bb mhp Heading 5$ & F<@&a$56CJ\]aJmH sH \@\ mhp Heading 6$ & F<@&a$5CJ\aJmH sH RR mhp Heading 7$ & F<@&a$ CJmH sH XX mhp Heading 8$ & F<@&a$6CJ]mH sH b b mhp Heading 9 $ & F<@&a$CJOJQJ^JaJmH sH DA@D Default Paragraph FontRi@R  Table Normal4 l4a (k(No Listj@j W Table Grid7:V0TR@T kYNBody Text Indent 2$hd`ha$~@ mhp Table Grid 1z:V0jj 6]6]L^@"L mhp Normal (Web)dd[$\$ B*phH2H ;# Balloon TextCJOJQJ^JaJ4 @B4 f|Footer  !.)@Q. f| Page NumberRh RK0d!U K0T  :;<QRfij f g } ~ #.6AN_demz*4=CIXelmr,6?EKZgnot.>?O\oy!()=D[nx&.@JT]cjt$*1;IPQep $+,8EYbhl~  ###########V$W$Z$h$i$$$$$%%.%%%%%%%((((,,01"11161F1^1i1j1q1v1x1~11111111111111111111111111111122 22222 2!2(2-2/242;2?2@2G2L2N2P2V2[2\2c2h2j2p2w2{2|22222222222222222222222222222233 3333!3&3(3,3237383A3F3H3L3R3W3X3a3f3h3l3q3v3w33333333333333333333333333334 44444!4"4+404244494>4?4G4L4N4P4U4Z4[4d4i4k4m4s4x4y444444444444444444444444444444555 55555!5'5.52535:5?5A5E5J5O5P5W5\5^5b5h5m5n5u5z5|555555555555555555555555555555566 6666666'6,666:6@6E6F6N6S6U6Y6^6c6d6l6q6s6w6|6666666666666666666666666666677 7777%7*7+73787B7F7M7R7S7[7`7b7f7l7q7r7z777777777777777777777777777777 8 8888!8&8(8/868:8;8C8H8J8L8Q8V8W8^8c8e8g8m8r8s8z88888888888888888888888888888888899 99999#9$9,9193959;9@9A9I9N9P9R9X9]9^9d9j9l9s9{99999^A_AAAAAAAAAAAAAAAAAAAAAAAAAAAB BBBBBB#B'B,B1B2BB?BEBHBJBPBUB[BaBbBtB|B}B~BBBBBBBBBBBBBBBBBBBBBCC CCCCC"C&C*C/C3C5C9C?O\oy!()=D[nx&.@JT]cjt$*1;IPQep $+,8EYbhl~  ###########V$W$Z$h$i$$$$$%%.%%%%%%%((((,,01"11161F1^1i1j1q1v1x1~11111111111111111111111111111122 22222 2!2(2-2/242;2?2@2G2L2N2P2V2[2\2c2h2j2p2w2{2|22222222222222222222222222222233 3333!3&3(3,3237383A3F3H3L3R3W3X3a3f3h3l3q3v3w33333333333333333333333333334 44444!4"4+404244494>4?4G4L4N4P4U4Z4[4d4i4k4m4s4x4y444444444444444444444444444444555 55555!5'5.52535:5?5A5E5J5O5P5W5\5^5b5h5m5n5u5z5|555555555555555555555555555555566 6666666'6,666:6@6E6F6N6S6U6Y6^6c6d6l6q6s6w6|6666666666666666666666666666677 7777%7*7+73787B7F7M7R7S7[7`7b7f7l7q7r7z777777777777777777777777777777 8 8888!8&8(8/868:8;8C8H8J8L8Q8V8W8^8c8e8g8m8r8s8z88888888888888888888888888888888899 99999#9$9,9193959;9@9A9I9N9P9R9X9]9^9d9j9l9s9{99999^A_AAAAAAAAAAAAAAAAAAAAAAAAAAAB BBBBBB#B'B,B1B2BB?BEBHBJBPBUB[BaBbBtB|B}B~BBBBBBBBBBBBBBBBBBBBBCC CCCCC"C&C*C/C3C5C9CCH]T, h"x#/0u000;111====== >">?>Z>o>>>>>>?+?G?e?????? @-@J@^@y@@@@@AA1AMAdA}AAAAAAB/BKBmBBBBBB C,CJCqCCCCCCD7DUDkDDDDDDEE2EPEhE}EE}MNQNN/OOOQR|SST/Yc/c/146789:<=?@ABDEFGIJKLMNOPQRSTUVWXYZ[\^_`abcdefghijklmnopqrstuvwxyz{|}~.c0  '!!8@0(  B S  ?#$W $U 2\7 ܃ 8 ̤ } L̤ V n  9/D#  $    h 4W ,O l&B X&LG&     ))))++BBBBHHH"J"J-JrOrO}O%Q%Q0Q R     ! " -)-),,BBBBHHH,J1J1J|OOO/Q2Q2Q R   ! " B*urn:schemas-microsoft-com:office:smarttagscountry-region= *urn:schemas-microsoft-com:office:smarttags PlaceType="*urn:schemas-microsoft-com:office:smarttags PlaceName9#*urn:schemas-microsoft-com:office:smarttagsplace>*urn:schemas-microsoft-com:office:smarttags PostalCode9*urn:schemas-microsoft-com:office:smarttagsState8*urn:schemas-microsoft-com:office:smarttagsCity:*urn:schemas-microsoft-com:office:smarttagsStreet; *urn:schemas-microsoft-com:office:smarttagsaddress I2 #"" ## ###"" ####=?dfgkimgi.0 egq}!:<DL`f} !!(((( ----@@AABBBBCC@CCCDDEEEEEEEELLOOQQQQQQQQQQQQQQRR Rw~QQQQQQQQQQQQQQRR R333   3 3   Y Y IeKgOoDnj1I $DD##W$i$$$%.%%%&&n'n'''''~(~(((((2)2)))**2*2*c+c+++..\.\.////////09;;;;v<v<~<~<<<<<<<<<======??????q@q@ABBCCCnzS 6NFLt&J{f|k?Ooy!()Dnx.JTcj*1IPQp $+,8EYhl~#########V$W$Z$h$i$$$$$%%.%%%%%%1"11161F1^1i1j1q1v1x1~11111111111111111111111111111122 22222 2!2(2-2/242;2?2@2G2L2N2P2V2[2\2c2h2j2p2w2{2|22222222222222222222222222222233 3333!3&3(3,3237383A3F3H3L3R3W3X3a3f3h3l3q3v3w33333333333333333333333333334 44444!4"4+404244494>4?4G4L4N4P4U4Z4[4d4i4k4m4s4x4y444444444444444444444444444444555 55555!5'5.52535:5?5A5E5J5O5P5W5\5^5b5h5m5n5u5z5|555555555555555555555555555555566 6666666'6,666:6@6E6F6N6S6U6Y6^6c6d6l6q6s6w6|6666666666666666666666666666677 7777%7*7+73787B7F7M7R7S7[7`7b7f7l7q7r7z777777777777777777777777777777 8 8888!8&8(8/868:8;8C8H8J8L8Q8V8W8^8c8e8g8m8r8s8z88888888888888888888888888888888899 99999#9$9,9193959;9@9A9I9N9P9R9X9]9^9d9j9l9s9{999AAAAAAAAAAAAAAAAAAAAAAAAAB BBBBBB#B'B,B1B2BB?BEBHBJBPBUB[BaBbBtB|B}B~BBBBBBBBBBBBBBBBBCC CCCCC"C&C*C/C3C5C9C?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXY[\]^_`abcdefghijklmnopqrstuvwxyz{|}~     Root Entry FP-E:Data I1TableZGWordDocument7hSummaryInformation(DocumentSummaryInformation8CompObjq  FMicrosoft Office Word Document MSWordDocWord.Document.89qRoot Entry FpL*@Data I1TableZGWordDocument7h4 $, SummaryInformation(DocumentSummaryInformation8CompObjq  FMicrosoft Office Word Document MSWordDocWord.Document.89q՜.+,D՜.+,< hp  Howard University)Q DWater Quality Monitoring for Catch Basin Inserts at Three Locations Title