Analysis of the impact of the proposed Canyonlands National Park on the economy of the surrounding area: section 3

Third section of a preliminary typescript report prepared by Robert R. Edminster, Associate Professor in the University of Utah's Department of Economics, and Osmond L. Harline, Director of the university's Bureau of Economic and Business Research, dated January 23, 1962. Section Three has title: Present use of land within proposed park.

SECTION 3. ,PRESENT USE OF LAND WITHIN PROPOSED PARK In establishing the proposed park; consideration must be given to present land ownership and existing land -use patterns. This section will, therefore, consider the various economic activities which are presently taking place within the proposed park area. Much of this economic-use data can be coLLected quite readily from existing records. Some of the statistics, however, can only be obtained by time consuming compilations, and part of the data needed can best be' obtained by field surveys. The statistics presented in this section are preliminary in nature. Part of the information is approximations. , Some of the data are not only for the park as proposed in the congresstonal bill but are for the surrounding area as well. Additional research needed to verify the figures giverr and to make them more precise is currently underway. However, the preliminary figures included in this report should give a good idea of the order of magnitude and are, therefore presented even though they are subject to later revision. Land Ownership Preltminary inspection of land records In the office of the Bureau of Land Management and the Utah State Land Board indicates that there are , ... apparently no aces in the park to which private Indivtduats hold title. Slightly more cent than 93 per cent is owned by the Federal Government and by, the state government. abou 6.5 per The Utah State Park and Recreation Commission BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH 11 owns about 1 per cent of the 6.5 per cent, and the Utah State Land Board administers the other 5.5 per cent for the public schools of the state (see Table 3.1). Grazing in Study Area A preliminary compilation has been made by the local District Offices at Price and MonticeLLo, Utah, within the proposed park area. one to determine the extent of grazing The area studied consisted of approximately miLLion acres which included the area in the proposed park. of th e study are shown in Table 3.2. The results The approximate fees obtained from grazing have been calculated by the Bureau of Economic and Business Research at the rate of 22 cents per animal unit month (AUM's) and are listed in the last column. The actual revenue derived from the use of the lands -in the proposed park will undoubtedly be less than the $11,500 shown since the statistics are for the larger area. More precise data are also being developed. For example, the table shows applications for 16,230 AUM's for grazing district No.7. A 1959 survey showed car.rying capacity of the range to be about 9,941 AUM's. Actual use in 1960-61 was probably about 3,380 AUM's. AUM's in the smaLLer area as defined by The applications for e bill is probably, according to the Price Office of the Bureau of Land Management, about 1,500 to 2,000 AUM's. In addition to grazing on Federal land there is The grazing on state lands. amount, of acres leased for grazing on state lands within. the proposed v BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH 12 park boundaries amounts to about 12,800 acres which at the average rental of about 2! cents an acre per year would yield about $320 annually (see Table 3.3). Range and road improvements have been made by the Bureau of Land Management in cooperation with local range users, and by oil exploration parties. An estimate of the doLLar value of these for the larger million acre territory is shown in Table 3.4. Oil parties have spend about $120,000 for roads; the Bureau of LandManagement and cattlemen have $175,000. spent about The expenditures for the smaLL bill area are being developed and will be reported in the final report. Oil and Gas Exploration As mentioned in a previous section there has been considerable oil and gas exploration in the Four-Corners' area in the last decade and several major discoveries have been made. on The amount of oil and gas royalties paid production during the fiscal year ending June 30, 1961, amounted to $1,915,905 for San Juan C?unty and $691,075 for Grand County, a total of approximately $2.6 million. Of this. 37.5 per cent was paid to the State of Utah or a total of almost $298,000" As of this writing there are no producing wells within the park area. Geologists have been interviewed in the preparation of this report and they have stated that oil and gas prospects within the park are good but that the extent of any discovery, if oil or gas is .found , cannot be determined at this time. BUREAU OF ECONOMIC AND BUSINESS RESEAitCH UNIVERSITY OF U'rAH 12a' Present oil and gas leasing within the park, oil well drilling in the park and surrounding areas, and the areas where unit agreements have been effected . are indications of the likelihood with which oil companies regard petroleum discoveries within the region. This information has been compiled and is pre- sented in the accompanying maps and tables. VirtuaLLy all of the area within the proposed park is leased for oil and gas exploration (see Table 3.6). not leased. There are only about 6,000 acres which are Leasing fees calculated at 50 cents per acre for both state and Federal lands would yield about $177,000 annually. The accompanying three tables on legal size sheets (Tables 3.7 to 3.10) show the wells which have been drilled within the park and in the surrounding area. have been drilled. 20's. Altogether 72 weLLs This includes the few shaLLow depth welts drilled in the However, three-fourths of the wells have been drilled since 1950. Of the wells drilled, three are producing oil (the barrel per day rate of production is 450, 320, and 3), and one is producing gas (28,000 cubic feet per day). The oil weLLs are located on the big flat area which is situated immediately north I- • of the'. proposed park.area, There have been ten weLLs driLLed within the boundaries of the proposed park. Two of them were relatively shaLLow weLLs drilled in 1926 and 1927; seven welts-have been drilled since 1955. All nine were dry wells. At this writing there is apparently one weLL currently being driLLed within the park: boundartes BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH , 12b , There have been a number of unit agreements formed to cover production should it occur in the park and surrounding territory. agreements is shown on the map. The locatio? of these Three of these unit agreements are within the park; aLL three have been made in the 1955 to date period. Potash In addition to oil and gas the other principal mineral is potash. In the mid -forties potash bearing ores were discovered while exploring for oil and gas in the Cane Creek area near the Colorado River. This potash dis- covery is located just outside the northeast corner of the proposed park. At this writing the Texas-Gulf Sulphur Company and the Denver and Rio Grande have underway a $30 million development which consists of (1) opening a mine, (2) building a plant to process the potassium bearing ores in order to produce potash fertilizer, .and (3) constructing a 30 mile spur from the main Line of the D & RG Railroad. Production of potash from the mine is expected to begin in late 1962. By mid-1963 it is 'expected that the mine will be producing 4,000 tons of ore a day and employing 300 persons. By mid-1964 production is scheduled to amount to 8, 000 tons of ore a day, providingemployment for 400 persons. for potash develops as hoped, to If the market plans call for the expansion of the mine and plant. 12,000 tons a day, but it is not contemplated that this will occur before 1966. During the construction period employment is expected to reach a peak of about 800. Theeconomic benefit to the area of this mineral development will consist BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY 0,. UTAH 12c of (1) salary payments to workers, (2) purchases of supplies and equipment Locally and in the region and (3) royalty and tax payments to local, state and Federal governments. These figures are not available at this writing but are being developed. At the present time 'leasing within the proposed park area for potash exploration and applications for such leasing include approximately 46, 000 acres of Federal lands. Other Minerals Uranium is produced in quantity in the Four-Corners region. the entire park area was probably explored during the uranium boom. of diggings within the proposed park area have been reported. as can Most of A number However, so far be determined, at the present time, there is no major producing mine within the park boundary. In addition to uranium there may be other locatable minerals. Evidence of exploration activity (particularly the filing of claims and completion of assessI ment work) can only be obtained by a time-consuming search of county records. These records have been photographed and the data are in the process of being transferred to IBM cards for processing so that the information can be included in the final report. References to Minerals Within Park Area In connection with another project currently underway at the University of Utah, an inventory is being made and the data transferred to cards of all the BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH 12d references to mineraLs, including water, which are found in the records of government agencies, published matertals , and 3.12 represent such information for the and other sources. proposed Canyonlands Park area. BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH Tables 3.11 TABLE 3.1 LAND OWNERSHIP WITHIN PROPOSED CANYONLANDS NATIONAL pARK Per Cent of Total Total Approximate Area Federal State, School Sections Transferredb Utah Park and Recreation Commission 332,000 310,481 18,266 3,253 100.0 93.6 5.4 1.0 aFigures are preliminary pending a more careful compilation of data from government records. bDoes not include school sections containing approximately 11,900 acres which were not transferred to state because of withdrawals prior to cadastral survey, nor does it include 1,280 acres which should be transferred to state upon approval of cadastral survey. the Federal category in this table. Source: . These acreages have been included in Compiled from records of the Bureau of Land Management .and the Utah State Land Board. , BUREAU OF' £CONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH TABLE 3.2 ------ GRAZING ON FEDERAL LANDS WITHIN PROPOSED CANYONLANDS NATIONAL PARK ND ADJOINING AREAS Approxi-; mate Location Grazing District 6 (East of, Colorado River) Grazing District 9 (Between Colorado and Green Rivers) Grazing District 7 (West of Green River) Total No. Revenue Animal of from No. of No. of Cattle Sheep Horses Months 3,707 6,648 18 28,857 10 $ 6,.349 214 5,910 11 7,277 9 1,601 1,100 12,840 20 16,230 9 3,571 No. of Unit Opera- Leasing tors Fees ,- Total 5,021 25,398 49 52,364 I Source: I Bureau of Land Management BUREAU OF' ECONOMIC AND BUSINESS RESEARCH 'UNIVERSITY OF UTAH 28 $11,521 ;! TABLE 3.3 GRAZING WITHIN PROPOSED CANYONLANDS NATIONAL PARK STATE LANDS Number of Acres Leased 12,800 Approximate Revenue from Grazing Fees Source: $320 Utah State Land Board BUREAU 01" ECONOMIC AND BUSINESS RESEARCH UNfV£RSITY OF UTAH ' " TABLE 34 COST OF RANGE AND ROAD IMPROVEMENTS WITHIN PROPOSED CANYONLANDS NATIONAL PARK AND ADJOINING AREA Organization Paying for Improvement Price Monticello District District L Total Bureau of Land Management Range Users $ 676.25 $ 76,463.38 $ 77,139.63 56,826.66 32,991. 93 89,818.59 8,191.33 8,191. 33 $ 42,646.64 $175,149.55 45,000.00 75,000.00* 120,000.00 $102,502.91 $117, 646. ·64 $2.95,149.55 Others (Advisory Board) TOTAL GRAZING Oil Parties GRAND TOTAL s 57,502.91 . *Estimated by Bureau of Economic and Business Research Source: , I Bureau of Land Management , I BUREAU 0,.. EC()NONIC AND BUSINESS RESEARCH (UNIVERSITY 0,.. UTAH TABLE 3.6 MINERAL LEASING WITHIN PROPOSED CANYONLANDS NATIONAL PARK AREA Type of Lease Number of Acres Approximate Revenue 334,778 46,113 $167,389 19,210 9,605 Federal Oil and Gas Potash 23,057 State Oil and Gas Potash TOTAL 0 400,101 BUREAU 0,. ECONOMIC AND BUSINESS RESEARCH UN,VICR.I1'Y 0 .. UTAH $200,051 • r MINERAL INFOR}TION CODES REFERENCE Volume (2 columns) and Number (1 column) or Number of Paper Note: (3 columns) Any U.S.G.S. Bulletin published after umber reported. GRADE OF MINERAL 1957 add 1000 " Units B G M o P Barrels per day Gallons per ton Millions of cubic feet per Ounces per ton Percent Quantity shown in two columns day (2nd and 3rd) Decimal placement indicated by last column o 1000.0000 -.9999.99999+ 1 5 100.0000 10.0000 1.0000 0.1000 0.0100 6 0.0010 - 7 0.0001 - 2 3 4 For -, . ',' - - 999.99999+ 99 99999+ .. 9.99999+ 0.99999+ 0.09999+ 0.00999+ 0.00099+ example': P272 represents 27 percent P273 represents 2.7 percent B34l represents 340 barrel's per D b. (4th): day Drilling oil and gas well (exploration) Abandoned oil and gas well (exploration) BUREAU Of' ECONOMIC AND BUSINESS RESEARCIi UNIVERSITY OF UTAH to the Bulletin DRAWDOWN PUMPING WELL 0 Feet 1 1- Feet A Feet 10- J 60- 2 2- B 3 3- 15- K 70- 4 5 6 45- C 20- L 80- D 25- M 90- E 6- 30- N 100- F 0 110- 7 7- 8 8- G 3540- H 45- 9 9- I 50- P 120- Q 130- R 140- NUMBER OF AQUIFERS (Strata) Reported as' number of underground water-bearing strata. SOURCE OF INFORMATION Engineer's Office Utah State E D I M Books Irrigation Books Domestic Mining MS Miscellaneous MU P S Hunicipa1 Books Books Power Books Stock watering ST Stock Books' U UC W Underground water claims Underground water claims Well logs THICKNESS OF STRATA Thickness, of undergroun,d water-bearing strata in Lncr ements of 10 feet. CASING DIAMETER OF WELLS. Diameter of well shown. casing in inche-s (if multiple size the BURE .... U OF ECONOMIC AND BUSINESS RESEARCH UNIVl::RSITY OF UTAH smallest diameter is l..., CLASSIFICATION OF WATER SOURCE Type source, pressure and discharge 10* or recharge conditions: Gravity pressure, seepage 11 or 40* Spring, depression [lJ] Spring, contact [lK]* 15 Well, water table [IN]* 17 Infiltration ditch 18 Mine 20* ." 47 [lQ]* or 21 gas 70* Infiltration ditch agencies 30* 71 Geyser [7JH 72 Spring associated with shaft [2Q]* Artesian, seepage filtration 90* Recharge facilities Recharge area for aquifer 95 Well for recha.rge of aquifer 96 Disposa.l well 97 Well for secondary recovery 91 or 31 Spring, depression [3J]* Spring, contact [3K]* 35 Well, nonfl.owing [3N]:I: 36 Well, flowing [30]* 37 Tunnel [3PH 32 38 Mine shaft of oil [3Q]* 39 Associated with oil gas well deep fractures [7K]* gas lift nonflowing gas lift Elowing Well, 76 Well, 75 or [2P]* tunnel 28 Mine * "Orr indicates unclassified :I: Alphabetic or [3R]* indicates DISCHARGE RATE Springs Wells J A Less K B 1 L C M D 1 and under 10 gpm 10 and under 100 gpm 100 gpm and under 1 sec foot 1 and under 3 sec feet 3 and under 10 sec feet N E o F' p G Q H R I or [4R] * Pressure due to other tubular Spring, depression [2J]* 22 Spring, contact [2K]* 25 Well, water table [2N]* 27 depression [4J]* Spring, contact,[4K]* Tunnel [4pH 48 Mine shaft [4Q]* 49 Associated with oil or Gravity pressure, fracture or 41 Spring, 42 [lP]* shaft fracture tubular 12 tunnel Artesian, filtration than 1 pint per minute pint and under 1 gal per inute 10 and under 100 sec feet 100 sec feet or more BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH (448.8 gpm) thermal SPRINGS, AND PERMANENCE VARIABILlTY Perennial, variability not known. Perennial, constant (variation not more than 25%). 3 Perennial, subvariab1e (variation between 25% and 99+%). 4 Perennial, variable (100% variation from maximum flow i.e., only trickle at 1 2 - minimum flow. 5 Intermittent, variability not known. Intermittent, constant. 7 Intermittent, subvariab1e. 8 Intermittent, variable. 6 WELLS; DEPTH OF WATER';" (Shown in "permanence" column). o Under 10 feet 1 10 and under 20 feet 2 20 and under 30 feet 3 30 and under 4 40 and under 5 50 and under 6 60 and under 40 feet 50 feet 60 feet 70 .fee t 7 70 and under 80 feet 8 80 and under 90 feet 9 90 and under 100 fet *Depth to A 100 and under J -1000 and under llOO B K llOO and under 1200 feet 200 feet 200 and under 300 feet C 300 and under 400 feet D 400 and under 500 fee.t E 500 and under 600 feet F 600 and under 700 feet G 700 and under 800 H 800 and under I feet 900 fee-t 900 and under 1000 feet top aquifer is shown if more than three UNIVERSITY Qf' UTAH L 12QO and under l300 feet and under 1500 feet N 1500 and under 1700 feet 0 1700 and under 1900 feet M l300 P 1900 and under 2100 feet Q 2100 and under 2500 feet R 2500 aqut Ear s., BUREAU OF EeONOMIC AND BUSINESS RESEARCH feet feet and over ARTESIAN PRESSURE Pressure in artesian wells minus. Plus shown by shown in feet from land surface * reference" plus or DEPTH OF WELL Depth of well shown in feet. AQUIFER DEPTH depth of the' bottom shown in feet. The aquifer and the three most significant aquifers are 'UMBER OF WELLS If than more only one one punch-card the card is 1 Domestic 2 Irrigation 3 4 5 6 7 well, indicated. Industrial Mining Municipal Stockwater Domestic and other 8 Test well 9 Other KIND OF PUMP POWER" 1 Electric 2 Diesel 3 Gasoline 4 Butane" propane Natural gas Hand pumps Windmill 5 6 7 in the same land subdivision, has. the same characteristics, prepared and the number of wells represented by the is " BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH GROUNDWATER MANAGEMENT FACILITIES 0- Questionable information available, indication of: 01 Recharge area 50 04 Reservoir 07 Channel 10 clay [5C]* Multiple type 55 Conglomerate [5E]* 53 Sand and other infor- 56 Shale and sandstone mation not available source 12 Gravel 13 57 Lava and other unclassified 58 59 Sand 14 Sandstones 15 Limestones or 21 Other porous 40 Reservoir Sand Organic materials [6A] =1= clay [6B]* 63 Gravel and clay [6C]* 64 Sandstone and shale [6D]* 65 Cinders [6E]* 66 Shale [6F]=I= 67 Limestone and othei [6G]* 68 Shale and other (6H]* 69 Quartz and other (61]* fault zones formations· (a.qu i.fe r ) , other 70 [4C]* [4D]* [4E]=I= 46 Basaltic lavas [4F]* 47 Other lavas [4G]* 48 Granite [4H]=I= or fault Channel, other information available 71 Hardrock source unclassified 72 Gravel not 44 Sandstones 45 Limestones 49 Brecciated 73 Sand 74 Sandstones 75 Limestones 76 Basaltic lavas 77 Other lavas zones 78 Granite 79 Brecciated * [5H]* [51]* Sandstone and other 62 Sand and information not available 41 Hardrock source unclassified 42 Gravel [4B]* 43 [5F]* 60 Gravel and rock salt Granite 19 Brecciated [5G]* 61 Silt 16 Basaltic lavas 17 Other lavas 18 [5A]=!: 54 Recharge area, 11 Hardrock Clay. 51 Other porous formations 52 Sand and gravel [5B]=!: Aquife stratified between layers of clay or or fault zones other nonporous materials THICKNESS OF STRATA Thickness. of underground water-bearing strata shown in increments of 10 feet. NUMBER OF AQUIFERS. Reported as number of underground water-bearing strata. , BUREAU OF ECONOMIC AND BUSINESS RESEARCH UNIVERSITY OF UTAH ) A,» TABLE 3.7: OIL AND GAS EXPLORATION Classified . T"\vp. 268 268 Rn. Sec. 1 9 E 20 E· 11 20E 21E 21E 34 1 2 Sub. Mer. Source County Reference - - 'tANYONLANDS" AREA OF' UTAH by Year Drilled, Depth of Well [1] Investigation Grade Mineral &- Need Type 200 545 355 S 8 10 10 o c c o c c 404 S 322 204 202 404 502 403 o c c o c c o c c o G e o c c aGe o c c o c c o c c o c c 21E 20E 6 30 16 34 2 5 19 '-10 10 10 19 19 10 1 9 19 19 19 19 10 10 A 302 302 120 304 402 503 402 S S S S S 8 S S 8 S S S S o c c o c c o c c A A A A A A 270 270 270 270 270 270 200 200 200 200 200 200 200 200 200 200 200 200 200 200 2 5 S 20E 1 2 405 S 10 o G C A 270 200 2.6 8 258 2 5 8' 26S 21E 21E 20E 1.9E 1 35 404 555 505 503 S S S 10 10 10 o G C o c c OGC A 270 A -A S 10 o G C A- 270. 270 270 200 200 200 200 248 268 2\6 S 22E 1 9 E 20E 342 353 355 S 10 10 10 O-GC A aGe a G.C A 298 268 258 258 288 2 I 8 26S 308 278 308 3 4 S 278 2-5 S 268 - 21E 20E -20E 22E 20E 21E 21E 19E 20E 3 6 20 27 1 6 3 8 1 5 2 11 36 11 36 . S S aGe 0 0 270 270 270 270. 270 270 270 270 A 270 A A . 54 270 270 270 20 20 2626 26 27 27 - 200 200 200 Depth of ,el1 16 7435 200 270 A A A A A Year Drilled 52 323 2450 235 300. 527 510 1525 27 27 27 27 27 28 29 4107 38 4243- 43 43 46 49 1150 1725 3655 8389 50 51 52 3711 1008 7435 1643 3520 4163 4422 5863 5345 0 TABLE 3.7 Cont'd. Classified by Year illed, Depth T\ilp Source • 2 6 '8 Rn. Sec. 21E 19E 1 9 E 19E 20E 20E 1 9 E 19E 19E :L 9 E 20E 21E 20E 22E 1 9 E 3 1 11 Sub. Mer. 404 353 353 444 234 502 342 223 365 455 203 404 74 503 405 404 8 8 8 S S 8 S County 268 278 268 19E 19E 17E 17E 18E 20E 18E :t8E 20E 19E 20E 1 9 E 20E 3 1 1 4 36 3 1 4 S S S S S 10 10 10 10 19 19 19 19 1 9 10 19 10 19 19 10 10 10 19 19 19 19 1 9 10 10 10 10 10 10 19 10 3 3 S 1 6 E 11 S 19 268 2,6 8 268 3 1 S 2 I 8 308 308 328 2 6 S 308 268 288 318 268 258 268 30S 328 348 348 338 268 268 258 268 2 6 S :L 8 E 20E 11 1 2 7 35 26 26 28 11 32 3 1 22 8 1 4 10 36 26 18 1 26 36 30 7 30 , S S S S 8 8 S 8 8 8 S S S S S S S S Reference o c o c o c o c Grade c c c c aGe o c c o c c o G e o G e o c c o G e aGe o c c aGe I o G e o G C o c c o c c o G e o c c o G e o G e o G e o G e o c c o G C aGe o G e o c c o c c o G e Mineral A A A A A A A A Lnve s t Lg at Lon Type & Need A 270 270 270 270 270 A 270 200 A A A 57 A A A B321 [2] 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 5 3 5 4 56 56 57 59 56 56 A A A A A A A A A A A A A A 57 57 57 27'0 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 of Well -_ Year of well 53 53 53 54 55 55 56 56 5762 8213 8213 1975 1817 6036 800 2114 4944 8061 2 0 30 5000 6184 7810 7954 8776 1835 2640 2829 3425 3727 4041 6674 7282 7574 7669 54 55 55 .56 56 56 56 57 57 57 57 57 . J;)epth Drilled 56 56 57 57 57 57 57 57 58 58 58 58 58 58 58 58 58 58 58 58 58 59 60 7810 8005 80 '65 5637 3665 A. TABLE 3.7 Cont'd. _. Classified THp. 29S 3 0 S 26S 2 6 S 26S 26S 27S 3 0 S 2 8 S 268 278 28S 2 5 S 258 2 5 S 29S 28S by Year Drilled}. Depth Source Rn. Sec. 20E 1 6 E 20E 19E 20E 17E 20E 20E 20E 1 9 E 1 6 E J. 9 E 19E 1 9 E 17E 21E 21E 4 27 36 23 29 5 6 19 23 23 33 18 27 27 20 18 22 Sub .. ' Mer .. S S 404 543 425 5 5- 5 322 432 425 305 305 205 304 254 - S S S S S S S S S S 8 S S S S County 19 28 10 10 .'10 08 19 19 19 10 28 19 10 10 08 19 19 Reference o G e Grade A o G e A o G e o G e o c c A B 303 o G e 0 0 o c c aGe 'aGe o c c o G e aGe o c c OGe o c c aGe o G e Mineral 270 270 270 270 270 A A A A A A 61 6 1 61 6 1 270 270 270 270 270 270 270 6 1 6 1 62 250 270 270 270 270 6 1 M285 B 451 \ A A A of Well [3]- Investigation Type & Need 200 Year Drilled 200 ·200 200 200 200 200 200 200 200 200' 200 200 200 200 200 200 61 61 61 61 61 61 61 61 60 61 61 60 60 60 60 60 61 61 61 61 61 ·61 61 61 61 61 61 61 Dep t h of we Ll, 5076 5915 8005 8600 8600 5215 5630 6721 6860 7J_93 7243 .7243 7255 7256 8518 TABLE 3.8 OIL AND GAS WELLS - ''CANYONLANDS'' AREA OF UTAH Source 'I'wp 258 258 268 19E 19E 1 9 E 27 27 1 4 268 19E 23 • - Rn. Sec. Sub. Her. County 305 305 405 Reference Grade Mineral 8 8 8 10 10 10 o G C o G C o G C 8451 M285 8321 270 250 270 8 10 o G C 8303 270 200 OIL AND GAS EXPLORATION - - Sec. 268 17E 20E 19E 5 6 268 20E Sub. Mer. 11 404 543 545 S 8 S 36 355 8 County Reference 08 19 10 o G C o G C o G C 0 0 0 10 o G C 0 Gr?de 61 61 57 61 61 57 60 Depth of well 7243 7243 79.54 8600· 1962 Source Rn. • Year Drilled ''CANYONLAl\TJ)S'' AREA OF UTAH Drilling T,·1p 268 278 Investigation Type & Need 200 200 200 . Mineral 270 270. 270 270 Investigation Type . & Need 200 200 2 0 0. 200 Year Drilled 61 61 61 61 Depth of well 16 7 4 35 TABLE 3.9 A OIL AND GAS Classified EXPLORATION-- "CANYONLANDS" AREA OF UTAH by Township, Range, Section" and Subdivision < 1 > (Page 1) Source Twp. Rn. Sec. Sub. Mer. County Reference Hinera1 Grade 270 Investigation Type & Need 200 Year Depth Drilled of well SO 3711 61- 7255 57 58 8776 7574 61 7243 61 7243 2 4 S 22E 36 342 S 10 o G C A 2 5 S 17E 20 205 8 08 o G C A 6 1 270 200 60 258 l8E 18E 10 30 404 8 10 10 o G e OGe A 57 A 270 270 200 200 57 8 27 305 -S 10 o G e M285 250 200 258 1 9 E 1 9 E 27 305 S 10 o G e 8451 270 200 61 61 258 25S 20E 20E 2 12 505 405 8 8 10 10 o G e o G e A A 270 270 200 200 46 38 3655 4243 258 2 5 8. 258 258 21E 21E 21E 21E 20 204 8 503 555 8 S A A A A 270 270 270 200 200 200 200 2 35 8 o G e o G e o G e o G C 26 202 10 10 10 10 270 27 34 35 26S 17E 5 404 S 08 o G C 270 200 268 18E 7 8 10' o G C A 270 200 268 26S 19E 19E 11' 11 545 S 503 8 10 1 0' o G e o G e A 270 270 200 200 '2-5 8 258 0 0 26 28 43 61' . " 300 5345 1725 61 58 7282 49 8 3 89 16 TABLE 3.9 Cont'd. Classified T\Yp '268 26S 268 268 268 268 26S 268 Sec. Sub. Mer. 19E 11 11 _1 1 353 353 353 S 455 444 405 268 268 20E 268 268 1'1 12 1 4 14 23 23 26S 268 268 268 26S 26S 25 29 30 3 1 268 26S 268 2'6 S 21E 21E 21E 21E 1 12 31 268 278 26$ 322 1 4 20E 20E 20E 20E 20E 20E 20E 20E 20E 36 3·6 36 3 6 36 Se c t Lonj and Source Rn. 1 9 E 1 9 E 1 9 E 1 9 E 19E 1 9 E 19E 1 9 E by Township, Range, 402 3,55 355 County Reference Grade Mineral o G C A o G C o G C A A 5 3 S S S 8 S 8 10 10 10 10 ,10 10 10 10 10 o G C o G C o G C o G C o G C o G C A A 56 54 A 8303 'A 61 S 10 o G C A S S S S S S 8 S S 10 10 10 10 10 10 10 10 10 o o o o A A A A o G C o G C o G C S S G C G C G C G C o G C o G C o G C o G C o G C 8321 0 A A 404 8 322 S 404 404 S 31 10 10 10 S 10 o G C A A A 22E 8 403 S 10 o G C A 1 6 E 33 432 S 28 o G C A A 6 1 Year Drilled 270 270 270 270 270 270 270 200 59 29 60 58 58 270 200 200 200 200 2'00 200 200 200 200 270 ·270 270 270 200 200 200 200,· 270 270 270 270 270 270 270. 270 270 A A Investigation Type & Need 200 200 200 200 200 200 200 200 200 270 270 270 270 54 Subdivision < 2 > 56 54 57 61 52 Depth of 'well 51 53 53 56 54 57 58 60 61 1008 ·8213 8213 8061 1975 7954 7810 8600 6721 5637 4107 8600 6674 7669 7 4 35 7435 1835 8005 8005 52 58 58 60 43 20 53 57 1150 2450 5762 5000 200 27 1525 200 61 6860 . TABLE 3.9 Cont'd. Classified by Township) Range) Section) and Subdivision < 3 > Source Twp. Rn. Sec. 1 9 E 3 27S' 20E 27S 20E 6 2 7 S Sub. Mer. S County Reference 19 o G C o G C o G C Grade Mineral A 270 Investigation Type & Need 200 Year Drilled 58 Depth of we15 806 .. S 1 6 543 402 S 19 19 0 61 61. 27 5863 27 3 520 A 270 200 200 270 200 270 200 61 61 7193 270 270 270 200 200 200 57 61 26 57 61 527 6184 5630 270 200 61 61 8518 270 27S 21E 5 302 S 19 o G C A 288 1 9 E 18 425 S 19 o G C A 61 28S 28S 28S 20E 20E 20E 1 6 22 2 3' 404 74 555 S S S 19 19 19 o G C o G C o G C A A A 57 6 1 28S 21E 22 25.4 S 19 o G C A 62 21S 20E 3 502 S 19 o G C A 270 200 27 510 29S 20E 4 S 29S 20E 404 S 19 19 o G C 3 4 A A 270 o G C 200 270 200 60 5076 20 323 2 I S 20E 35 502 S .19 o G C A 56 270 200 55 55 6036 29S 21E 1 8 304 S 19 o G C A 61 2.7 0 200 6 ,1 61 7256 - . TABLE 3.9 Cont'd. Classified by Township) Range) Section) Investigation Source Twp, .. Sub. Mer. Rn. Sec. 30S 1 6 E 27 30S 3 0 S 30S 1 9 E 19E 1 Q E 26 3 4 '2 26 26 3 0 S 20E 1- County Reference Grade & Need 270 Type 200 200 Mineral 28 o G C A 19 O'G C A ,57 270 223 S S S 19 19 o G C A 59. 302 S S S and Subdivision < 4 > Year Drilled 60 Depth of· well 5915 56 56 800 56 2114 2640 270. 200 o G C A 270 200 56 58 o G C -A 270 o G C o G C A A 270 270 200 200 200 27 61 57 1643 S 19 19 19 270 200 27 4163 6 1 57 61 57 5215 2030 30S 3 0 S 20E 20E '19' 32 425 203 30S 21E 6 120 S 19 o G C A 3 1 S' 20E 7 234 S 19 o G C A 56 270 200 5S 55 1817 31S 22E '8 503 S 19 o G C A 57 270 200 57 57 .7810 3 2 S 32S 19E 1 9 E 18 28 ·1 9 365 S S 19 o G C o G C A A 56 270 270 200 200 56 58 56 4944 33S 1 6 E 11 S 19 o G C A 270 200 60 3665 338 18E 36 S 1'9 o G C A 270 200 58 4041 34S 1 7 E 1 S 19 o G C A 270 200 58 3425 2829 TABLE 3.9 Cont'd. ·Classified Twp • Rn by Township, Range, Section, and Subdivision < 5 > Source , Sec. 3 4 S 17E 26 34S 19E 30 Sub. 304 Mer. County S .19 OGC A S 19 o G C A Reference Grade- Mineral Investigation 270 Type & Need 200 270 200 Year. Drilled Depth of well 58 3727 27 4422 TABLE 3.10 OIL AND GAS EXPLORATION Classified - - ''CANYONLANDS'' AREA OF UTAH by Depth of Well < I > Source Twp. 258 258 29S 2 1·8 Rn. Sec. 21E 21E 20E 20E 20E 1 9 E 28 S 30S . 20 27 34 3 1 6 26 ./ 2-6 S 26S 19E 21 E 26S 308 258 31S 26S 2 6 8 308 308 2 6 S 30S 32S . 22E 8 20E 1 35 7 36 12 21E 11 1 20E 20E 19E 20E 1 9 E 21E 19E 1 9 E 32 26 1 2 26 Sub. Mer. County Reference Grade Mineral C C C C C o G C A A A A A A 10 10 S 10 o G C o G C o G C A A A S 19 o G C A S S S S 10 1 9 10 10 o G C o G C o G C o G C A S .1 9 19 10 19 19 o G C o G C o G C 204 202 404 502 404 S S S S S 342 S 10 ·10 19 19 19 19 353 404 403 302 555 234 S S o G o G o G o G o G 270 270 270 270 270 270 5·7 Investigation Type & Need 200 200 200 200 200 200 Year Drilled 26 26 20 2 726 ··56 56 278 258 33S 2 4 S 3 4 S 17E 21 E. 20E 1 6 E :22 E 17E 444 203 223 322 S S S S 18 1 5 2 11 3 6 26 235 300 323 510 527 800 .. 9GC o G C A A A A A A A A . 56 54 57 59 270 270 270 270 !370 270 270 270 270 270 270 270 270 200 200 200 200 200 200 200 200 51 43 27 27 55 54 200 57 56 200 20,0 200 200 43 55 58 54 1008 1150 1525 1643 1725 1817 1835 1975 57 2030 56 20 58 58 2114 2450 58 3425 3520 3655 3665 3711 3727 " 34S Depth of well S 302 505 S S 342 S S S 19 19 10 19 10 19 o G o G o G o G o G o G C A C C A A C A C .A C A 270 270 270 270 270 270 200 200 200 200 200 200 27 46 60 50 58 2640 2829 TABLE 3. 10 Cont'd Clasified by D.epth of Well < 2 > . T\'lp : Rn. Sec .1 8 E 20E 21E 20E t 9 E 19E 36 25 21E 20E 20E 21E 20E 20E "21 E 20E .1 6 E 31 4 19 3 4 23 1 4 3 1 1 6 27 21S 28S 26S 26S 27S 20E 20E 20 E· 19E 1 6 E 35 22 30 23 33 502 74 28S 19E 17E 21E l8E 20E 18E 1 8 425 205 304 3 3 S 26S 30S 25S 3 4 S 32S 26S 29S 30S 25S 28S 2 6 S 26S 27S 30S 25S 29S 2 6 S 26S 25S " 6 1 2 30 28 20 1 8 7 36 30 Sub. Mer. •. 402 120 405 304 365 »: .. 404 425 503 555 404 402 322 432 355 . County S 19 10 19 10 19 19 S 10 S S 19 S S S S S S S Source Reference o G e o G e OGe o G e o G e o G e 19 10 Grade A A A A A A OGe. o G C o G e o c c o G e o c c a ·G e o c c aGe A A A A A A A A A S S S S 19 10 10 19 28" S S S S S 19 19 10 10 28 aGe o c c aGe o G e o c c A A A A A S 19 S S o G e o G C o G e o c c o G e o G e A 08 19 10 10 10 S S S - A A A A A Mineral 56. 61 6 1 56 57 6 1 61 6 1 6 1 61 54 270 270 270 270 ·270 270 Investigation Type & Need 200 200 200 200 200 200 270 270 270 270 270 270 270 270 270 200 200 200 200 200 200 200 200 200 2"70 200 200 200· 200 200 270 270 270 270 270 270 270 270 270 270 Year Drilled 56 58 29 27 38 27 56 61 57 60 61 61 55 57 28 61 59 53 27 60 Depth of well 40·41 4 1 07· 4163 4243 4 4 22 4944 5000 5076 5215 5345 5630 5637 5762 5863 5915 61 55 57 58 61 6036 6184 6674 6721 6860 200 200 61 61 20D 60 61 61 52 58 52 58 7193 7255 7256 7282 7435 7574 200 200 200 61 61 TABLE 3. 10 Cont'd Classified Twp. by Depth of Well < 3 > Source Rn. 26S 2 6 S 3 1 S Sec. 20E 19E 2'2 E 31 14 268 268 268 ,278 268 268 268 288 268 258 20E 1 9 E 3 6 36 11 3 11 1 1 11 21E 20E l8E 22 29 10 20E 19E 19E 19E '1 9 E Sub. Mer. S 503 8 o- 455 353 353 503 254 404 8 8 S 8 8 8 8 S 8 8 8 8 County ,10 10 19 10 10 10 19 10 10 10 19 10 10 Reference o G C o G C o G C o G C o G C o G C o G C o G C o G C o G C o G C o G C o G C Grade A A A A A A A A A A A A A Mineral 57 56 53 62 57 270 270 270 270 270 270 270 270 270 270 270 270 270 Investigation Type & Need 200 200 200 200 -200 200 200 200 200 200 200 -200 200 .: Year Drilled 58 5 57 57 56 - 61 57 58 60 56 58 53 53 49 61 60 57 Depth of well 7669 7810 7810 80'05 8005 8061 8065 8213 8213 8 3 89 8518 8600 8776 .,.. TABLE 3.11 ?" MINERAL RESOURCES, CANYONLANDS AREA, UTAH :z: C> ..... ""10 • ..... .:e (.::) ..... ;._ s· o_ ..... = ::c t....I C> t-1 :i <.!:' - ..... 0::: .q: t....I C> = (J V) 2 5 S 2 5 S 20E 2 6 S 18E 26S 19E 11 26S 20E 36 27S 20E 27S 22E 28 S 28S >- ..... t::) en :::> V'l "., .:2: .q: ..... = t-1 0::: V'l t....I <.!:' >- _, t....I - (J = => a::: :::> a (J . V) 0::: C> 0::: <.!:' ..... - 0::: t....I = = ..... ..... .q: t....I C) t....I ..... C> >- z C> . V) ..... - en 0::: V)O t....It....I 0... 0::: SB 87 A P G 9 59 58 UNK P 17 3 670 11 113 110 S S8 87 59 U,N·K 670 113 S A P G 7 56 8602 270 110 S o G C 60 8302 270 200· S S8 59 UNK 670 1 1.3 S o G C 60 UNK 270 204 19E S S 8 87 59 UNK 670 113 20E S SB 8 7 59 U N K 670 113 UNK 670 113 UNK 670 752 270 670 104 104 204 110 23E 29S 24E 24E 24E 24E 293 t-1 S S 20E 28 S 2 9. S 2 9 S V) - 12 17 1.9 28 245 505 C C 302 7 11 8 7 S SB 841' 33 S U VI P B 48 48 60 56 S s S UWPB o c C A P G 7 . U N K UNK LG TABLE 3.12 WATER RESOURCES, CANYONLANDS AREA, UTAH >- L.) B "f ... !'>-= = :z: a = 1-4 f1 :-.! a ,_ 4..1 <..? a:: <:) 1-4 I-- L.) t....J V') 2 5 S 19 E 21 26S 1 7 E 2' 6 2 6 S 18 E 268 2 6 S < V') 1-4 :z: 1-4 0: < :> <:) 1-4 1-4 Cl co c1: (__) ::E: Lo.J ....J 0... ::;) V') <C Z 1-4 _J 0- L.) < 4..1 oo :i.: => = L.) lU .... 0-- 8 1-4 L.) :z: C1 \._ ::;) .... I-- V') 1-4 V') t.. c...) :E 0: < ....J ="= = 4..1 0- <:) S A13068'" 15 C 0 44 542 S A26465 150 7 44 28 432 S M 1 20 E 27 500 S N 1 22 E 1 6 444 S A26729 K <:) < L.) -- -e ....J ::;) 4..1 ....J <:) ::> 0- = 1 B a 2: 1-4 ....J o:l => 0 0:: Cl I-- 4; L.) a 1-4 .. 43 350 < >- I-- I-- <:) :;: 0- V') 1-4 .... t..... C1 \..o.J 0: ;;z:: <:) I- z t....J = <1: <C lU <:) <1: -- I-- I-- <::) 1-4 0- 1-4 = CJ <:) I-- 0: 4..1 0':) ::z => = :.: 0: >- <:) \..o.J = < t..... 1-4 0-- ClI < t....I z <..? ::.: ;;;;: 1-4 V') 1- 0-- Z => < U .... I-- ::c < <:) L.) 0: V') ,_ ...J 4..1 • V') L.) 0: t....J Z. <C lU 0: Z 1-4 ::;) V') V') t....J V') t.- ........ 0: 4..It..... 4..1 I-- t....J < ClI ....J ._J. 0- a:: 41: 0... 0: t..... :I: 1-4.::;) 0CJ 4..1 < ClI ...._ ::x: :I: -t....J 0: Cl a 3 4..1 1-4 ,_ ::;) 0- CJ 4..1 < ClI ee t....I ...._ ::x: ........ 1-- => 04..1 ClI C7 < V') ....J ::;: 0: ....J t....I t.<J ...._ 4..1 oo :3 => t..... = C7 <:) V') ::;) EW 39 10 7- E W 55 28 1 EMS14 57 10 7 EM811 54 8 2 E W 59 10 8 9 450 527 450 70 120 7 O. 35 78 7 • . " .. 27S 16 E 1 5 445 S 278 278 278 22 E 22 E 22 E 1 1 1 332 303 554 S 8 S 27S 22 E 1 523 8 A 2 8' 3 9 2 28S 3 E 17 353 S C 288 17 E 30 445 S L 288 19 E 2 S M Al3070 A14033 A22505 7985 K 1 Ole 350 350 B B B 66 43 43 36 C A 44 1 EW E 'II EW E W 00 1 1 3 E 8 42 28 39 41 51 5'6 10 10 10 10 EUC23 22 ·28 1 E S 7 19 1 1 EMS11 53 19 35 C 5 1 1 2 . 6 1 4 1 8 6 6 1 7 245 2' 0 0 165 184 72 315 350 310 192 15 -: 230 255 240 300 181 5 7 6 7 cr: LJ ::?: 0 0... TABLE 3. 12 Cont'd I <: = >-4 0- = ....... 0 : a .._ C> l..o.J >-4 .._ <....> t......I V') 0:: .._ <C = C> 0 V') = >-4 0:: <1: >-4 a Cl .. -... <: ex co :::::J ....... 0... o... LJ :.-.:: V') < L.) <....> <: 224 8 A14265 350 8S 25 E 20 555 S C 35 C 29S 20 E 36 3 3-3 S 298 22 E 30 552 S 298 29S 298 24 E 24 E 24 E 3 1 4 1 4 234 333 333 S S C C C 30S i 4 8 44 F :2: C> L... 2: 0 0:: <:) >-4 = c::. 1 0:: >I...J .._ -e E S 0 1 A13070 350 2 8251 8087 350 8 2 3 3 S 30S 16 E 2 3 0 S 17 E 8 30S 20 E 34 3 0 S 23 E 23 E 23 E 10 10 10 400 00 lIo €r C)C> -6 7 7 5 t-- .._ ::x: I...J 1 E U C-2 4 35 19 E M 26 1 0:: Vl 19 0.. ........ .._ 6 21 lI- .-' I...J 2- 8 151 EW 39 28 8 240 325 00 00 4 1 1 EUC24 EUC24 EUC24 34 33 34 19 19 19 5 8 6 20 190 28 145 1 ES 9 31 28 S L 1 E S 7 19 28 S N 1 EMS 3 21 28 305 S L 1 E S 552 552 552 S C 8 246- C C 8246 8429 150 350 35 C 0 S S J 00 00 00 0 1 1 22 E W EUC24 EUC25 100 130 22 110 290 24 135- - 19 19 19 7 1 7 7 (; 7 6 - 6 7 52,' 19 34 34 29 c... 4 3 1 80 LJ ,- 2 00 :::::J 11 4 44 35 C 350 K _J ::x: <....> E-W 3 2.: <1: - 82 35.- ::<: L..J 1-- o <....> c::::) < t......I 1- 2 42 .-' Vl Vl .._ 0 22 E 3 0 S ::: Cl :::::J = >-4 t-- 0:: t......I m 288 308 5 0:: >-4 6 4 , 27 4 7 45 7 7 7 7 6 ) TABLE 3. 12 Cont'd , >- U ;:,?:: f' ; t-4 0.. (/) t-4 Z t-4 C> l..J ..; .. 0 Or: .._ I--i t-4 (.!) : ::> .._ . = L.) W V') en => V') (YC> ""1: t-4 t:") <: ::!: t-4 ...... 0:: W .....J <C ......... 0<:: L..I .....J e>::l a.. <""">..c::( • ::::> Z I--i - (.!) <t: V') o- .....J 0:: W :E: U 0.. ;;::= V') C> t...... C) W = I-- V') 1-- = => I--i :os L.) = L._ w W t-4 ..> . <t a.. :4 L) ,._ t <C - t-4 z < .._ t-4 :z.:: C> C> :z.:: W :;a:: C> 1< = W 0- >- I-- a::: = e <:> 2: (.!) <::) <1: -- t-4 .._ <1: 2: -'1: U I--i I-- .....J -- I--i .....J en => a.. I....J 0<:: ::£ l....J => .....J C> :;:. .-J C> <:> .._ __, :z: u 8 . <1: >- 1- 0<:: a:l C> => = 2: V') V') W t............ < C) = => C) U <C ... - l....J 2: G: U ,._ :x: 0::: (/) ...... I-- (.!) Z <0::: I-- I--i C) => l....J V') I- g: Lo...I C':) I-- o:: (Y- 1-4 (/) I <C U ZW W W t...... W (/) :z: a.. W __, t...... C> .-J l....J : t...... :z: t-41- => <1:= :z: 0:: W t...... __, ::x: I-- t-4 I-- ;:::) 0.. w <t: C) => C:, a.. w = t-4 0- Lo...I . V') <C I....J ::<: .....J Wl t...... Z W en :3 => t...... :;= C> C> (/) => w :>: 0 0- , 32S 18 E 22 235 S 1\1 1 E M 3 27 19 4 3 2 S 3 2 S 3 2 S 23 E 23 E 23 E 4 1 4 17 343 543 252 S S· S L L K 1 1 1 E S 6 17 6 6 19 19.19 6 3 2' S 24 E 20 433 S 3 2 S 3 2 S C 8242 24 E 24 E 20 21 552 252 S C 8250 s· K 3 3 S 15 E 33 254 S 3 3 S 3 3 S 3.3S 18 E 18 E 18 E 9 325 425 9 35 D35 C EI EI 00 1 00 1 3 3 2 2 34 19 1 EUC24 EUC24 E M 2 34 15 19 19 L 1 E-S 1 2 40 8 6- S S L M S EI E S E S 31 5 L 1 1. 1 29 1 5 15 19 11 11 2 6 5 6 68. 184 188 3·5 7 7 7 7 4 2 6 .. 3 3 S 20 E- 31 303 S· 33S 3 3 S 24 E 24 E 1 26 222 S 543 3 4 S 16 E 28 3 4 S 3 4 S 34S 23 E 23 E 23 E 6 6 36 . N E U 1 S C C 8248 8236 '350 350' 00 00 445 S Cl0426 35 F 00 222 242 233 S S S 0 N C H231 35 0 . 1 1 66 A 10 10 24 1 1 EUC24 EUC24 34 34 19 19 1 EUC30 22. 11 1 E 0 2 E 0 21 EUC24 11 42 19 19 19 34 2 4 5 5 6 16 176 150 9 134 67 148 7 7 7 7 2 3 1 11 6 140 26 3 7 7 >- TABLE 3. 12 'Cont'd u E: :;;:: <::> CJ (/) 0- <::) 0-- l.o..J <.!) 0: = CJ 0-- Clo r-4 U l.LJ (/) co => Vl (..J ._. = 0: < Cl <1: :z ......... C') .-1 ....... 0: -ec ..?. (..J..-:( _J 0: 4.J co ....., l.LJ C3 1...- :::> ,._ (/) (/) = = ....., .:::: :=; ..-:( ;?! (..J :!: 8255 8255 150 350 A ::-= => _J 0: CJ ..-:( 3 0 S 3 0 S 23 E 23 E 1-1 11 555 555 S 3 1 S 14 E 23 235 S M 3 1 S 15 E 5 404 S 31S 16 E 1 2 300 3 1 S 20 E 1 3 3 1 S 21 E 31S .. U <.!) o., _J o_ uJ ..... CJ <1: -- 0-- ,__ :z: <1: = CJ 2: LJ 0- 2:' (/) ,__ t...... (..J 3:: 0- <1: ...- Cl >- • Z Cl l.LJ - <.!) CJ :->: 0: -- ....., CJ 1- <::> _J 0-- -- ::.£ _J co CJ ::::> a.. I...J => _J CJ >- .J 0 r-4 _J :z: <1: U <1: 0 Z <::> Vl (/) ..-:( = l.LJ en => :z: ::!: 0: >- ..-:( I- ... - CJ l.LJ :z: ..-:( ;.::: ..-:( CJ U ,._ t...... ::::> ,._ Cl = (/) L..J %: :c.:: (..J ,--4 = ..-:( U (/) .-- I = Z. ,._ ::::> ....., Ld : <1: ,_. Cl • ....J oe ..-:(= (/) (/) '-'.J ...... (/) ....., == -:z: a.. = 1- a.. I....J t...... _J _, \_.OJ ClCJ I..oJ 1..._ ::c r-4.:::> 0.. CJ I....J <1: Cl ....., ....., 1..._ => a.. CJ I...J ..-:( Cl ::::> I-i I ::c t...... (/) ...- ,_. . _J ::c ...- a.. CJ l.LJ ..-:( Cl 120 120 0: _J ....., I.J §2 :::> ;c: ::3: t...... CJ I..oJ t...... CJ ca l.LJ (/) ::::> CJ 0.. 7 7 E W EUC24 34 34 19 19 1 EMS16 58 9 9 L 1 E 0 4 8 51 9 1 S L 1 E S 7 19 9 6 445 S N 1 E S 4 12 19 6 3 343 S L 1 E 0 5 6 54 19 1 22 E 11 533 S L 1 ES 9 29 19 6 31S 3 1 S 23 E 23 E 23 552 225 S C 35 S EUC24 EUC24 34 C 34 19 19 32S 32S 15 E 15 E 1 4 27 352 S S E S E S 30 52, 9 9 6 9 6 S C C 8254 8253 44 00 350 350 l M 44 44 1 1 1_ 1 1 2 9 22 r 32S 16 E 20 222 S M 1 E S 22 52 : 1 1 10 10 6 6 130 130 156 230 60 52 201 I..oJ :-= 7 7 7 7 6 r I I I I "'" ,; .. I . I I I I, I' I j '