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GMC Data Report No. 011
TO P. A..Mundt INTEROFFICE CORRESPONDENCE · APPLIED STRATIGRAPHY DATE June 23, 1982 cc U. A. Franz A. j. Miller - FRL H. H. Mottun - Denver W. F. Sinclair ~--M. J. Bender ES C~JtEQ UE S.i[_]N 0 ~.~31j.~54 MATURATION STUDIES _GULF COLVILLE ~DELTA '~. sLOPE Thermal maturation studies (RO, TAI and T-max.) on the fifty three ditch and core samples from 300' to 9200 (T.D.), indicate that transitionally mature rocks (Ro=0.5 to 0.6) first occur between 5950' to 7000'. Poor sample quality due to caved and recycled or oxidized organics prevents exact determination of the depth of the initiation of thermal maturity (Ro=0.5). The broad polymodal Ro histograms, the scattered TAI values and the inconsistent T-max. measurements reflect this poor sample quality. T-max. measurements suggest a thermal break between thermally immature sediments and transitionaly mature sediments at about 6600'. TAI values indicate a probable thermal shift at 7000' ,Vitrinite reflectance studies indicate a thermal shift between 5~50 and 6680'. Caved and recycled or oxidized vitrinite is very common in all the samples. Most of the samples contain less than fifteen percent indigenous vitrinite. Nine samples contain no indigenous vitrinite. I suspect that in an equal number of samples, caved vitrinite has been interpreted as the indigenous vitrinite. The interval from 5950' to 9200' TD was sampled very erratically. Some of the samples are less than fifty feet apart, and have Ro' means that vary by as' much as 0.06. The close sample intervals and wide range of Ro mean values between 5950' to 6680' allows for two interpretations for the initiation of thermal maturation (see figure 1). An excellent source rock will produce hydrocarbons in the transitionally 'mature range, while a poor source rock requires a higher thermal maturity. Included in this report are copies of 'the Ro histograms, visual Kerogen work sheet, a plot of the mean Ro values, a plot of the TAI measurements, a copy of Brown and Ruth Laboratories Rock Eval Pyrolysis results which includes T-max values, and a a table of maturation values and Kerogen types. .... ' ..... C;OriS. L~,]iIIFQ!S~:iU P. A. Mundt -2- June 23, 1982 Vitrinite reflectance readings were taken by R. R. Taylor. If you have any questions concerning this repor.t, please contact me. RJE'mp Attachments R. J. Enrico ORGANIC RESIDUE (KEROGEN) ¥SIS M-oos SCALE: T : TRACE I<1%1 TYPE OF POLLEN OR, DEPOSITIONAL I -- I- 10% 6 · 51-60% ORGANIC. FLUOR. TA! AND' PRESRV ENVIRONMENT 2 -' 11-20% 7 · 61-70% 3 .- 21 - 30% 8 -- 71- 80% MATTER MATURATION 4 31 40% 9 81 90% PROJECT: ' ,' , ~ ~( eo Iv, i I~- '~/'~ '?/r~'~. ~ . . ~ sc.o. DE P T H OR N O. /77~f ~P~ ~P~~ ~ ~BB/'~YF .E ~ aR Ks: ,, ~0' ~..~o 6760 I T 3E I I I f ~ h ~00~) 1 l~ H I ~ I I Z~X ~ ¢z~o i I g3 I ~ t I XX~ 7500 k~! ~ ~ I % ~l ~ k ~X ~ · ~TAD q 1~3 I I I'T x ~ ~r~leT'r~Po/A- ~ot 6 , ~nSSuf~, 5fz, Mean Ro Valu~ Gulf Colville~lta State #1 Figure I M-047 1500 3OOO DEPTH 4500 IN Feet 6000 7500 9000 , , .SUFFICIENT FOR TOO MILD INCREASING OIL SEVERE ENOUGH TO SEVERE ENOUGH TO FOR OIL GE NER ATION CAUSE INCREASING ~ CRACKING OF CRACK HYDROCARBONS GENERATION u~ u)' HYDROCARBONS TO METHANE Z GEOCHEMICAL Z · < PARAMETER~ ~ ' ~ 13: FAVORABLE a:: - 0.5 0.7 0.8 12, 1~35 2,0 2,5 3.00/0 ~ I I I I I I ! I I ~ I ~ ~ ~ m , I I I I · - ,., ::iiiiiiiiill Late Cretaceous 2095' - ' . ' , Neocomian Hot [one 5985' ~ ! ~?'.-:i :::i~:~.'::.':.':: --........ ~ Jurassic 6240' ~erm~an 8748' Penn 8830' ~~ [~ ~ss~ss~pp~an 9200' (I.D.) , MIGRATED OIL ~~[ MIGRATED DRY GAS DEPTH 1000 2OO0 3000 4OOO 5000 6OOO TO00 8OOO 9000 10;000 I[i~l"lllctl ~1 L~r'dLIUfl i[IUrdX. Gulf Co],,ille Delta State #1 Figure ~, ~ M - 390 C 9/'76) · m · ,m m ' I.' I " I -- 1 2 3 4 5 .THERMAL ALTERATION INDEX (TAI) ['~ ~;.RATOR; Gu~ Oil C~p~ret BROWN (:~ KUTH ~O~TOKI L~AT;ON: GEOCHEMICAL LOG ~ HYDROCARBON ~ ~ SOURCE BED POTENTIAL MATURITY ~ O INDICATIONS - ~ ~ S2 S2 I S3 HYDROGEN ,~, ~'~ 4~ ~ 0 T,O.C ........ S I ~ INDEX S 1 ' '" II I i , ' ........ i ; i i 2~~ ; , _ : ; : ........ ........ ~ _ : ..... ~ - - ': ':1.' ' 3- ;',, , ' . ; : : :: [, ,,, ~ ~ , ~ . , i i : I , ,, , ; ,:~ , -~ .~ ~ -- ,, ' i~ ,. ,., I I I I '' ' I I I lO~ ' ' ; : : ' : ~ ~ i ' i i I * I t I i : I ' .~ ' : : ' , ~ ' I I : t . I I - i I II I ~ : I I t I I I ~ : , , , :; , ,12~ .... .~ , , , : : , : ' ,, ' I I I j ~. , , ,, ,. . 13 ~ ~ , ~ ' ,, ~ I I i I I , ~ I ~ ~ ' ', , , ,, ' , 14 , ~ ~ ~ ~ I II , I ' ' I I I ~ ' ' ~ , ,: : , , :: . : I , , ,, . I i '1 , I , ~ , ~ ', : , ,, , : ,,, klTN~I~L LEGEND .. PYROLYSIS TERMS I II ~ SI FREE HYDR~ARBON$ PRESENT IN R~K SANDSTONE LIMESTONE SHALE OR SILTSTONE SI HYDR~ARBOHS FR~ PYROLYSIS ~ KER~EN COA[ ~ITE CONGL~ERATE HYDR~EN INDEX .. -. FIRST DEPTH OR LOW-GRAY % HIGH-GRAY SPL. NO. Ro MEAN POP. Ro MEAN 320' 0.37 30 0.79 930' - - - 1440' - - - 2130' - - - 2440 0.38 11 0.93 2620' 0.35 17 0.86 2770' ,0.36 5 0.97 3580' 0.37 7 0.93 3970' 0.43 15 0.97 4360' 0.44 14 0.92 5020' 0.39 12 0.92 5950' 0.49 14 1.20 6063' 0.47 21 1.14 6120' 0.50 26 1.17 6200' 0.50 11 1.03 6280' 0.46 15 0.99 TABLE Gulf Colville Delta State #1 N. Slope Alaska % POP. 43 I I 77 42 75 83 76 68 71 76 51 70 71 79 THERMAL TAI MATURITY 1+, 1-1+ 1+ 1+ 1-1+ 1+ 1+ KEROGEN TYPE Immature Type IV - Type IV' Immature Type I I I Immature Type III Immature Type III Immature TyPe III Immature Type III Immature Type III Immature Type III Immature 'Type III Immature Type III Immature Type III Immature Type III Immature Type III Immature TyPe III HYDROCARBON PO TENT I AL / REMARKS No source No source Poor/Gas Poor/Gas Poor/Gas Poor/Gas, Poor/Gas Poor/Gas Poor/Gas Poor/Gas Poor/Gas Poor/Gas Poor/Gas pOor/Gas Poor/Gas DEPTH OR' SPL. NO. 6360' 6440' 6520' 6600' 6680' 676O' 6840' 6920' 7000' 7080' 7160' TABLE Gulf Colville Delta State #1 N. Slope Alaska .... FIRST LOW-GRAY % H I GH-GRAY % Ro MEAN POP. Ro MEAN POP. 0.54 23 0.97 56 TAI 1+-2 0.50 18 1.03 60 1+-2 0.48 18 1.05 67 1+-2 0.45 13 1.00 75 1+-2 0.47 11 1.00 77 1+-2 .... 1+-2 '0.50 16 1.04 68 1 0.51 8 1.11 77 1+ 2 0.48 20 '1.00 60 1+-3- 0.52 16 1.07 64 1+-2+ 0.51 11 1.09 82 2-2+ THERMAL MATURITY Transi- tionally mature Transi- tionally mature Immature Immature Immature Immature I mrna t u re Transi- tionally mature Transi- tionally mature Transi- tionally mature Transi- tionally mature KEROGEN TYPE Type IV Type III Type III Type III Type III Type III · Type II Type I I Type II Type II Type II Page 2 HYDROCARBON POTENTIAL/REMARKS No Source Poor/Gas Poor/Gas Poor/Gas Poor/Gas Poor/Gas Gas/Oil Gas/Oil Gas/Oil Gas/Oil Gas/Oil DEPTH OR SPL ~ NO. 7240' 7300' 7350' 7400' 7450' 7.500' 7550' 7620' 7650 7710' LOW-GRAY Ro MEAN 0.50 0.53 0.51 0.50 0.50 0.56 0.50 % POP. 20 13 14 16 14 FIRST H I GH- GRAY Ro MEAN 1.09 1.01 1.12 1.22 1.17 1.16 1.03 TABLE Gulf Colville Delta State #1 N. Slope Alaska % POP. 66 TAI 1+-2+ 74 1+,2+ 80 1+,2+ 72 2,3- 78 2,3- 73 1+,2+ 66 1+-2 THERMAL MATUR I TY Transi- tionally mature Transi- tionally mature Transi- tionally mature Transi- tionally mature Transi- tionally mature Transi- tionally mature Transi- tionally mature KEROGEN TYPE Page 3 HYDROCARBON POTENTIAL/REMARKS Type II Gas/Oil Type II Gas/Oil Type II Gas/Oil Type II Gas/Oil Type.' II Gas/Oil Type II Gas/Oil Type II Gas/Oil 1+ Immature Type II Gas/Oil 1+-2 Type II Gas/Oil Transi- tionally mature DEPTH OR SPL. NO. 7760' 7800' 7800' 7890' 8016' 8070' 8242' 825O 8990' LOW-GRAY Ro MEAN '53 0..57 0.52 0.55 0.55 0.48 0.53 % POP. 10 19 15' FIRST H I GH-GRAY Ro MEAN 1.07 1.13 1.09 0.93 1.10 1.03 1.00 TABLE Gulf Colville Delta State #1 N. Slope Alaska % POP. 64 2 60 55 72 63 68 2 71 TAI 2,3- 1+,2+ 2-2+ 2+ 2,2+ 1+-2+ THERMAL MATURITY Transi - tionally mature Transi- tionally mature Transi- .tional ly mature Transi, tionally mature Transi- tionally mature Transi- ~tionally mature Transi- tionally mature Transi- tionally mature KEROGEN TYPE Page 4 HYDROCARBON POTENTIAL/REMARKS Type II Gas/Oil Type II Gas/Oil Type II Gas/Oil Type II Gas/Oil Typ~ II-III Type II-III Type II-III Type II-III Gas/Oil Marginal Gas/Oil Marginal Gas/Oil Marginal Gas/Oil Marginal Gas/Oil DEPTH OR SPL. NO. LOW-GRAY Ro MEAN % POP. FIRST H I GH-GRAY Ro MEAN TABLE Gulf Colville Delta State #1 N. Slope Alaska % POP. TAI THERMAL MATURITY KEROGEN TYPE Page 5 HYDROCARBON POTENTIAL/REMARKS 8610' 8830' 8964' 8984' 9100' 9200' (T.D.) 50 5O 14 1.13 1.14 1.23 56 81 71 1+,2+ 1+ ,2+ 1+-2+ Transi- tionally mature Type II-III Type IV Marginal Gas/~ No source **£[JMMI'~I'(D = LO ..FIRST SAMPLE HI]. = 20:305 · .LRtT .SRMPLE HI]. = 20357 · ·LORD COMMRHD = LP 06/14/8P 20305 50 320'. 4 GULF :;1 COLVILLE IIELI8 ~.TRTE,rt. SLUPE H = 125 HERM = 86 STD. FR~. = 11 STD. DEV. = 67 PCT. POP. m 100 16 · 15 · 14 · 13 ·· 11 ·* · 10 ···~ 9 0···· 7 00~·* 6 00··· 3 NNNN~·· · ····· · ~ ·NONNY·· · ~····· · · ·* *** · ;I t: .I' IIlI · IIlI IIltII IlII II IIIIIIIlIIIIIlIIlIIIIIlIIIIIIIIIIIlIIIIlIIIIIIIIIII + + + + + + + + + + + + ~ + + 000 025 050 075 ION 125 150 1TM 200 2~5 ~50 ~75 300 3~5 350 375 06/14/8P ~03N6 .~N 9,~0' 4 ¢;I.tLF ¢:! CDLVILLE DFLTF~ .?TRTE,H.SLDPF H = 124 MERH = 84 STD. ERR. = 6 STD. DEV. = 39 PCT. POP. = 9g 23 21 20 19 18 17 16 15 14 13 ·· ° 12 11 10 9 O+ 8 0·* 7 6 ·00* 4 ·NNe ·eee· o · · 2 O000e · ·eeee ee ·eoo ~ . ) + 4. 4- + 4- + 4- + + + + + 4- 4, + 000 025 050 075 1 O0 125 150 175 2OO 225 250 275 300 3~5 350 375 06/14/82 20307 50 1440' 4 GLILF =1CDLVILLE DELTR STRTE,M.SLDPE M = 125 MERH = 84 STD. ERR. = 6 STD. DEV. = 39 PCT. POP. ' 100 19 18 · 17 · 16 15 · · 14 · · 13 0 * 12 Ne·. 11 10 9 8 7 6 N o ,,,, J,9,.,o,,.s v,T,', PCT. PI]P, = 100 19 · 18 · 17 · 16 · 15 · · 14 · · 13 0 · I.o t'leee 10 Oeec 9 Oeec 7 Oeec ~, eOeee 5 4 3 1 NNeee · · · eOOeeee · · ee · 000 0~5 050 075 100 1~5 150 175 ~00 ~5 ~50 ~75 300 3~5 350 375 , 06/14/8~ ~'0305 50 ~?130" 4 GULl: ~:I COLVILLE DELTR STRTE,M.SLDP£ M = 1~5 MERM = 89 STD. ERR. = 10 STD. DEV. = 60 PCT. POP. =. 100 13 · 12 · '11 · 10 ee 9 OOe 8 00* · 7 OOe · G ilO0 · · 5 000 · · 000 · ee · · ee 000 eeeee eee eee ee · ¢ . + + + + + + + + + + + + + + + 000 085 050 075 I O0 1~5 150 175 ~00 ~E5 ESO 875 300 3~5 350 375 06/14/8~ ~.0309 50 ~440' 4 ' GULP ::1 CBLVILLE DELTFI STATE,M.SLrlPE ' M = 124 HEflN = 89 STD. DEV. = 50 PCT. PUP. = 99 10 9 8 7 6 5 3 eO0 · eec · O000000eeee®eeee~eee $ee $ + + 4- + + +' + + + + + .4. + + + 000 025 050 075 1 O0 125 150 l?b 200 225 ;'50 275 300 325 350 :375 06,/14/8E E0310 50 ~6~0' 4 GULF ~:1 C:DLVILLE DELTFi STRTE,M.SLDPE 11 * 10 *0 7 OO* 6 OOe 5 · O00e 4 flflOe · · 3 nnnn · ee · ~ 0000s · eee$ $ $ · O000eeeeeeeeeeeeee e~ e. · eec eeee cee · + + + + + + + + + + + + + + + oon OJ5 nsn 075 1 on ! ~5 I 5n 175 Pnn P~S PSO P75 ~nn q?~ 350 20311 50 2770' 4 GULF :;I LUL¥iLLE DELTA STflTE,N. SL~E HEAN = ! O! PCT. PDP. = 100 ' 9 . .~'0-1.3'0: 8 · 7 · · 5 0 ·0 · eeC® · · 4 OOeO · · · ··e·· · · · 3 0000 ··········· · · · 2 O000eOOe·e·eeee·· ····e · 1 0@000~000·+····+··········?···· ··+· ·· · · · · ......../ 't ' /' ' + + + + + + + + + + + + + + + + 000 025 050 075 I OO 125 150 175 PnO &25 250 ~75 300 3~5 350 375 06/14/82 20312 50 3580' 4 GULF ::1 C:OLVILLE DELTA STATE,M.SLI]PE N = 126 MEAN = 88 STD. E~. = 8 STD. DEV. : 50 PCT. POP. = 100 v~ i~o_ ,/F= .37 o- 11 · 10 0 9 0 0 O· · · ? 0 · · · 6 0+0 ee · + + + + + + + + + + + + + + + 000 025 050 075 1 O0 125 150 175 ~00 225 250 275 300 325 350 375 06/14/82 20313 50 3970' 4 GULP :;1 COLVILLE DELTA STflTE,H.~;LDPE M = 125 MEAM= 91 STD. ~TD. DEV. = 54 11 · · I0 +· · · 9 +* * · 8 e· · · 7 O· · · 6 eeOee ·+ ·· 5 eOOee· ·· ·· · 4 ·00··· e· ·· · · · 3 000000· ·· ····· ·· 2 ·000000· eec ····· ·· + + + + + 4- + + + + + + + 4- + + 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14/82 20314 50 4360' 4 GULF =:I CDLVILLE DELTA STATE,N.SLDPE N = 125 MEAN = 91 STD. DEV. = 49 ~CT. ,,,~. =~oo . ~0 - .~ ~ '~? 11 e+ / . ,o o.. - .~ - . EO = Y2 9 0 ** 8 0 ** ' 6 0 **ce e -'?-'/' .5 O00*ee cee . . · ~,~::_:~,'< :' -, · · · · · .I .... i .................. ~ .... : .... : .... l .... l .... ; .... l .............. " :~:":-:'~e ' ' e · · . · . ( 4- 4- 4- + + 4- 4, + 4- + 4' 4' 4- 4' + 06/14/8~ 3~0315 50 50~0' 4 GULF ==l CI:]LVILLE DELTFI STFtTEJH.,~LI'IPE M = 125 MESH = 91 STD. STD. PCT. POP. = 100 16 15 14 13 12 11' 10' 9 8 7 6> 5 4 3 0 0 0 ** * -. '/? = .3? ..Fo - 1.5o: .,/:2. *00- * *00. * 0000-********* **** * ** ** * njo nn .............. leelel iiiiiiiiii + + + + + + + + + + + + + + + 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14/&2 20316 50 5950' 4 GULF ::1 CDLVILLE :PELTR STRTE,II.$LDPE H = 125 HE~H = 103 ~TD. EPR. = 10 ~TD. BEV. = 59 PCT. POP. = 100 1 ************************** **4,**eee. . .4, . * 4- 4- 4- 4- + + 4- + 4- 4- + 4- 4' 4- + 000 025 050 075 1 ON 125 151'1 175 PI'lO ?25 250 ?75 ."aON 3F>5 350 :375 06/14/82 20317 50 6030' 4 GULF; ::1 COLVILLE DELTR STF~TE~H.$LOPE H = 115 HERH = 114 STP. E~P. = 14 STP. BEV. = 78 PCT. POP. = 100 I0 9 @ 7 5 4 3 I 0 00* 0 00* O0 00* * . . O0 OOee. 4, . .4, +. fl('l el'lO®ce, · · eeee4, eec, · .30- ,6o + + + + + + + + + + + + + + + 000 025 050 075 100 125 150 175 200' 225 250 275 300 325 350 375 0~./]4/8~' ~?031~ 5N 61~_0' 4 GOLF =;! ¢:[]LVILLE BFLTR STRTF~H.~IDPE ~ 15 14 13 12 11 10 8 5 4 3 2 eO · cOO· · · · · 00·· · · · ®0'0·· · · · · ®NNe· · · ··· ··· · · 000·· · · ··· ··· · · · 000·· eec eec eec · · ··· · . t,,V'-2, o° '- t.t ,' 4' 4- 4- 4- 4- -I- -l- 4- + 4. 4- '+- .4- 4- 4' + 000 025 050 075 100 125 150 17,5 ~00 2.25 250 275 300 .325 350 375 06/14/82 20319 50 6200' 4 GULF ¢:1CDLVILLE DELTR ·TRTE,H.SLDPE M = 83 MFRH = 98 STD. ERR. = 13 STg. DEV. = 64 PCT. POP. = 100 7 4 3 1 . 'to ' .5~1 = .5'0 7,,3 , ~o I.~'6 =- I.o 5 0 0 NO Ne · · O0 O· · · · 0 O0 Oeec ·· ··· · · 0 O0 Oeec·e· ·eeeee ·· e· 0 O0000·Oeeee·eeee· ······ · · e· + .4- 4- + + 4- -t- + + 4- -¥ 4- 4- +' '9' '4- 000 025 050 075 100 125 150 175 200 225 250 275 300 325 350 375 06/14/82 ~'0320 50 6280' 4 GULF =! C['iLVILL£ DELTR ·TRTF~,H.S:LDPE H = 125 MFRH = ~TD.E~R. = 6 STD.DEV. = PCT.PDP. = 100 ~ ' $0 13 · 11 0 10 O+ 9 O+ 8 O+ ·. · 7 O+ ·. · · 6 +00 ·** . .· ~ ·00 · 4 ·NO · ········· · 3 2 I 0 ....... 1.. 1 000 025 050 075 100 125 150 175 ~00 ~25 ~50 2?5 300 ~25 350 375 06/14/82 20321 50 6360' 4 GULF ;=1 CDLVILLE DELTR ·TRTE~H.$LDPE H = 124 MEflH = 93 STD. E~R. = 8 STD. DEV. = 47 PCT. PDP. = 99 14 13 12 11 10 9 8 7 $ 4 0·· · · 0··· · · OOee ee · OOee ee · · 000ee · ee · · O0 O0®eeee eec · ·e OO·OOeeeeeeeeeeee·e · · · · · 000 025 050 07~ 1~0 125 150 17~ 20~ 225 250 275 300 ~25 ~50 ~75 06/14/82 20322 50 6440' 4 GULF ::! CDLV%LLE DELTR STRTE~H.$LDPE H = 125 MERM = 99 STD. EPR. = 9 STD. DEV. = 52 PCT. PDP. = tO0 14 13 12 11 10 9 ? 6. 5 4 3 2 1 005 00- * * * 0000 * *** ** ** * * NONO * ********* * * 0 0 ********************** ** * eec* ** * * · 4. 4- 4- + + 4- 4- 4- 4- 4- + 4- 4- 4- 4- 4. 000 025 050 075 I O0 125 150 175 2A¢1 225 250 275 300 325 350 375 20323 5fl 6%20' 4 ~IILF ::1 PDIVILiF DFI. TR %TRTE,M.SLDPE H = 116 MERH = 95 STD. ERR. = 8 STD. DEV. = 45 PCT. POP. = 100 15 14 13 12 11 0 10 9 8 **0 7' *00 6 .00 * 000 025 050 075 100 125 150 175 200 225 250 275 300 325 350 375 06/14/$2 20324 50 6600' 4 GULF wl CDLVILLE D£LTR STRTE,M.$LDPE H = 125 MFRM = 93 STD. ERR. = 8 STD. DEV. = 47 PCT. PDP. = 100 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 0 0 0 0 0 *0* * * *0* * * * eOl'lefleeeee · eec · eeee e 0000eeeeeeeeeeeeeeeeee · I I I I I I I I I I . I I I II.I I I I I I I I I I II e e I I I I I · I · II I ! I I· I I I el II! II · I I I II I I II II mIllIme em e" 4, 4, 4- 4, 4' 4- 4, 4, 4- 4' 4, 4- '. 4, 4' 4- 4- 000 025 05fl 075 1 Oil 125 150 175 2tiff 225' 250 275 300 325 350 375 06/14/8~ 20325 50 6680' 4 GULF ail CDLVILLE DELTR STRTE~H.SLDPE H - 124 MERH - 102 06/t4/82 20325 50 6680' 4 GULF ::1 CDLV]LLE [~ELTR STRTE~H.SLDPE H = 124 PtFI~H = I 02 :TD. Ff.~. = i0 S%D. I~F¥. - w,n PCT. PDP. - 99 tO 9 7 4 000 '0~5 050 075 1 O0 1~5 150 1~5 ~00 ~5 ~50 ~75 300 3~5 350 375 06/14/8~ ~03~6 50 67(,0' 4 ~ULF ~=1 ~['IIVILLE DELTO ·TRTE,H.SLDPF MEflH ~ 97 ST~. E~P. = 11 STD. DEV. = 64 PCT. POP. = I00 tO ? ·Ne · · 6 000 · · 5 000· · · .· .·· · 4 OOfl· · · ······ · 3 0000 · · ······· · 2 0000 O· · ·+·······+ ·+ · · · 1 + + + + + + + + + + + + + + + + 000 0~5 050 075 I O0 1;:>5 150 175 ~00 ;::)~ 5 ~50 ~75 300 3~5 350 375 06/14/8~ ~03~7 50 6840' 4 GULF ==1 CDLVILLE DELTR STFITEeH.$LDPE H = MEAH = 108 ST~. EP~. = 7 STD. ~EV. = 43 ' PCT. PUP. = 100 9 7. 6 5 4 3 ! ******************************* . ** + + '";' "; .... ; .... ; .... 1 .... ; .... ; .... ; .... ; .... ; .... ; .... ; .... ;' + 000 OE5 050 075 100 125 150 175 ~'00 ~.E5 ~'50 .c'75 300 3B5 ,350 375 06/14/'8~ ~03~8 50 6920' 4 GULg ::l CDLVILLE BELTR STRTE~H. SLDPE H = 124 "FRH = 119 ~?& STD. E~. = O STD. DEV. = 46 ~/ · + + + + + + + + + + + + + + + ~00 0~5 050 075 108 1~5 150 175 ~00 ~5 ~50 ~75 300 3~5 350 375 025 050 075 I on 125 150 175 200 225 250 275 300 325 350 375 06/14/82 20329 50 7000' 4 GULF ::1CDLVILLE DELTR STRTE,H.~LDPE H = 1PS MEflH = 101 3T9. ERR. = 8 3TD. DEV. = 50 PCT. POP. = 100 1'! ' ! . 000 0~5 050 075 100 I~5 150 175 ~00 ~5 ~50 ~75 300 3~5 350 375 06x14xS? ?0338 50 7080' 4 GULF ::1. CDLVILLE DELTR STflTE~H.SLDPE 4' + + + + '1- + + + + -I- + + + + 000 025 050 075 1 O0 1~5 150 175 2.00 :~;~5 2.50 E75 300 3~5 350 375 70331 50 7160' 4 GULF =l FDL¥ILLE DFLTR ~TRTF,I',I..<:LDPE I'1 = 1~5 STD. EIHI~. " STD. ~V. ' 47 ': .?::' ~- '"-'~ OflNe· ee ee · . eec · ~'~:: a ** o~...................- ....... ..... 1 ................. 1 ............................................ 1 O~O ~5 ~50 ~75 I ~ !7% 15~ 17~ PO~ ~5 ~5~ ?75 300 3~5 350 375 06/14/82 2033~ 50 7~40' 4 GULF ::1 COLVILLE I~ELTR STRTE,H.SLDPE H = 1~5 MEflH = 97 STD. FRR. = 8 STD. DEV. = 5~ PCT. POP. = 100 18 · 17 · 16 . 15 · 14 · 13 . _ _ 18 17 16 15 14 13 12 11 - 9 $ ? 6 5 4 3 2 · 0 · *0- · 0- ** 0 O* * ** 00* · e. ee · · 1.5o = I. o? 4' 4- 4- + + 4- 4- 4- 4- 4, 4- 4- 4, + 4, 4- 000 OE'5 050 075 11~0 125 150 ! 7~ Pno 225 250 275 300 325 350 375 20333 50 7300' 4 GULF ¢:1COL¥ILLE DELTA STATE,M.~LDPE M = 125 MEAN = 95 STD. ERP. = 8 STD. DEV. = 45 PCT. POP. = 100 15 14 13 11 10 9 8 ? 5 4 3 1 · · · · · · O* * O* * * *- * O0 · . ee · · OOe · · eeeeee O00e ee · eeeeee · O000e ee eeeeeeeeee · 4- 4' 4- 4- 4, 4- 4- 4- 4- + 4, 4- 4- 4- 4- 4- 000 02.5 050 075 I O0 125 150 175 2.00 225 250 2.75 300 325 350 375 06/14/82. 2.0334 50 7350' 4 SULF ~1 C:DLVILLE DELTA STATE,H. SLOPE H = 125 MEAN = 108 STD. ERR. = 9 ~TD. DEV. = 55 PCT. POP. = 100 8 0 * 7 0 * * 6 00-* *** * * 5 00** * *** * ** 4 OOeN* · *** 3 O('IONNe · *** .e.ee.eee 1 .'-/o- .,fy =..el 4?0 = -I- 4.. 000 025 05N 075 I AN IP5 150 175 ~'ON P25 P5N 275 300 385 350 375 06/14/82 20335 50 7400' 4 GULF ¢:1 CDLVILLE DELTA STA'YE,N.SLDPE H = 125 MEAN = 107 STD. ERR. = 9 STD. DEV. = 56 PCT. POP. = 100 11 * * 10 *. 8 O* 7 6 00 5 0-0 4 000 * 3 · e · · e · e e · e e e,I I · · e .e e ileee,le e lei ii e e el el .lei. el i il i e eee ii eee el e i i i, 1 II lei i i il i i + 4, 4, + 4- 4, + + 4- 4- 4, 4- 4- 4' 4- 000 025 050 075 I O0 1;:>5 150 175 200 225 250 275 300 325 350 375 m V v ',.. ',.- '... -,-., + 4' + 4' + '+' '1' + '+' 4' '4' + 4' '4' 4' 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 0'_A/14/8~ ~0336 50 74.~0' 4 I'411LF .'.*! COLVItLE DELTri ~TF~TF.I~.~LOPF N = 125 MEAN -- 99 3TD. DEV. = 44 15 $ 13 11 * 8 *0~ · 6 cna · · ee 5 000 · ·eee e · , ... . IL1 'mlellmllllll'llllellllllllltlelllllllOllml '1' +' + 4' . + 4' 4' + + + + '+' 4" 4' 4' 4' 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14/82 20337 50 7500' 4 GULF =:1CDLVILLE DELTR ·TRTE,H.$LDPE N = 125 MEAN = 107 STD. ERR. = 8 STD. DEV. = 50 PCT, POP. = 100 15 · 14 · 13 0 1~ 0 11 0 10 n 9 Oe 8 7 O* · · 6 , oo, . . !!!!!1111 ii111 Ii oon 025 050 075 ! nn 125 15~ 17% 2A~ 225 ~50 ~75 30~ 325 35~ 375 06/14/82 20338 50 7550' 4 GULF ::1CULVILLE DELTri STriTE,H.SLDPE H = 1~4 MEAN = 113 STD. ERR. = I0 STD. ~EV. = 60 PCT. POP. = 99 11 10 9 8 7 6 5 4 3 * OO* 000 * · OOfl * e. · · 000** * · .e eec . · OAOeeee · eeeeeee eec I IO*O00?O*Oeeeeeeeeeeeeee~ee **· ···· ·· ····· · · + -I- .S' + '+' 'i, + 4- .4, '~' + .l- . .4, + ,4, '4, 000 025 050 075 -1 O0 125 150 175 ~nn 2?5 250 275 300 325 350 375 06,/14/G2 ?0~¢~ .~l't 76Pn' 4 Gl. JIF ol F'DIVlILF flFLTF~ ;TriTF,H.$LDF'E H - 104 HEriN - 128 STD. E~R. m 12 STD. DEV. " 65 · -- ,.._~lC U = 104 MERH = 128 ~TB. ERR. = 12 STD. DEV. -- 65 PC.T. P[qP. = .... 4 ... Cr' 0s * * t I I 000 025 050 075 ! O0 1~5 150 175 ?00 ~5 750 ~75 300 3~5 350 375 N~,,'I4/RP 20~4N 5N ?RSN' ;:' GLILF .':t I"DLVll IF DFITA ~TATE,H.$L['IPF H = 79 HERH = 155 ST]). ERR. = 15 STB. BE'./. = ?0 PCT. POP. = 97 2 m .m m 000 0~5 050 075 1 O0 125 150 175 ~00 ~5 ~50 ~75 300 3~5 350 375 06/14/82 2034! 5N 7710' 4 GULF ¢:! CDLVILLE DFLTR ~TATF,H. SLDPE H = 124 HERH = 127 STg. ERR. = 8 STB. BEV. = 49 PCT. PDP. = 99 13 11 10 7 5 3 4- 4- 4- 4. + 4. + 4- 4. 4. 4- 4- 4. 4. 4. 000 0~ 05N 07~ I O0 125 150 17~ 2NO 2~5 250 275 300 325 350 375 N6-/14/~2 2N342 50 77.An' 4 GULF ¢:1 CDIVI'LLE DELTA ·TATE,H.~L['IPF H = 121 MEflH = 136 STD. ERR. = 11 STD. DFV. = 66 PCT. PDP. = 96 ( . el eellee il*··lei I el el i el*eeeelee el eee i~1 lille el I le iie el el leelele iiI e i i Iillel, lee el 4- 4- 4- 4- + + 4' 4. + 4' 4. 4' 4' 4- 4- 4' 000 025 050 075 1 O0 125 15U 175 ~00 225 250 275 300 325 350 375 H = l~l STD. F~. = I~ STD. DEV. - 7~ PCT. POP. " 96 06/14/$2 20343 50 7800' 4 GULF t~l CDLVILLE DELTA STRTE,H. SLDPE -/"/: 5-- I. - I.l'7 + + + + + + + · + + + + + + + 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14/82 20344 50 ·7800' 4 GULF =1COLVILLE DELTR STRTE,M.SLDPE M = 125 MEAM = .106 ~TD. ERR. = 10 STD. DEV. = 61 PCT. POP. = 100 13 · 12 · 11 · 10 · 9 · 7 0 · 6 0 · ,'ZO - 12o =' I' 13 000·0········ · ··· eec · · O000000··e····· · ····· ··· ·· · · + + + + + + + + + + + + 'I' + + 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14."82 20345 50 7850' 4 GULF r.l CDLVILLE DELT~ STRTE,H. SLDPE H = 122 MEflM = 124 STD. ERR. = 13 STD. DEV. = 77 ' PCT. POP. = 97 9 · 8 · · ......................... 7 0 · 6 0 · · 5 0 · · ·· · · 4 .000·~ · ·· · · · 3 O00eO ·eec ······· · · · · 2 000000·*··· ······· · ..· · ·· 1 !...1 ........... : ..... 1 ......... · ..................................... + + + + + + + + + + + + + + + 000 025 050 075 100 125 150 17~ ~'UO 225 850 275 300' 325 350 '375 06/14x82 20346 50 7890' 4 GULF ~1CDLVILLE DELTR STRTE~H. SLDPE H = 122· MESH = 123 STD. £RP. = 13 13 · 12 · 11 · 10 · 8 7 Oe· 6 0.· · · · 5 0 O. O· · · 4 000 O* · · · 3 000·0··· · · · ·· · 2 O0000·····e ····e······· · ·· · · · · 1 · 000000··0·······+········ · ·· · ··· · ··· · ·· · · ·· · ¢ . 000 025 050 075 100 125 150 175 200 225 250 275 300 325 350 375 06x14/82 20347 50 8016' 2 GULF ~1COLVILLE DELTR ·TRTE~H.$LDPE H = ~25 06/14/82 2034? 50 8016' 2 GULF ¢:1CDLVILLE DELTR STRTE,H.$LDPE H = ]25 MFRH = 37 STD. ERR. = 0 STD. DEV. = 4 PCT. PDP. = tOO - ;:'9 · 75 · ?4 · ?3 21 · ?0 · 69 · 68 · 67 · 66 · 65 · 64 · 63 · 6,_= · 61 · 60 · 59 · 58 · 57 · 56 · 55 · 54 · 53 · 51 50 · 49 · 48 · 42 · 46 · 45 · 44 · 43 · 41 · 4O · 39 · · 38 · 37 36 · 35 · 34 · 33 · 32. · 31 · 30 · 29 · 28 · .............. ' ......... 27 ............ · ....................... 25 · 24 · 23 · 22 21 *· 20 -% 19 ·· · 16 .·· ~.' 15 *0. 13 *0· C 11 *0- 10 9 8 *00 ? *00 · 6 ·00 5 *00 4 ·00 3 ·00 * 2 000·· 1 *000*·* !1 ! I I II ii! I iii i ii ii i i i IiilmI iii ii ii II !1 I IllllmI Iii I i I i ilmiiilIImlIIliliIlili i + + '+' '1' +. + 'l' '+' '+' + + + + 'I' + OOO 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06x14/82 20348 50 8070' ri = 125 MERH = 88 ~TD. 'ERR. = 6 STD. DEV. = 39 PCT. POP. = 100 4 GULF *:1CDLVILLE DELTR STRTE~H.$LDPE I 15 14 13 12 11 10 9 8 ? 5 4 3 00~0·***·**·******* * · * , + + + + + 4- + + + + + + + + + 000 NB5 NSO N75 I O0 1~5 15N 175 ~l'tO 2~5 ~sn P75 300 ~P~ 350 375 06/14/82 20349 50 8242' 2 GULF ::1COLVILLE DELTA STATE,M. SLOPE H = 105 PCT. POP. = 97 6 · 3 1 4' + + + + + + 'I- + + +' '+' .I, + + 000 025 050 075 1 O0 125 150 175 2l'10 225 250 275 300 325 350 375 06/14/82 20350 50 8250' 4 GULF =1CDLVILLE DELTA STATE,H.$LDPE H = 125 MFRH = 112 STD. ER~. = 9 STD. DEV. = PCT. PDP. = 10 6 O* * * 5 *0 0-* ·· ·* ** · * 000 000··****·** ****** * ............ [. ........ : ....... 1.: ......................................... '... + + + + + + + + + + + + + + + 000 025 050 N75 I ON 17~ 150 175 200 ~75 250 275 300 325. 350 375 06/14/82 20351 50 8490' 4 GULF ~;1 CDLVILLE DELTA STRTE,H.SLDPE H = 124 MERH = 111 STD. ERP. = 9 STD. DEV. = 55 PCT. POP. = 99 1 0 000000000··***··**·* ,e ·cee, ·,e · .. . e, . . · ......... I-.:.t ........ : ....... 1..': ........................................... + + + + + + + -1- + + + + + + + 000 025 050 075 1 O0 IP5 150 175 200 225 250 275 300 325 350 375 06/14x82 20352 50 -8610' 4 GULF =;! CDLVILLE DELTA STRTE,H.$LDPE H = 4 MERH = 193 STD. ERR. = 13 TTD. DEV. = 14 PCT. POP. = 100 H = 4 HERH = 193 STg. ERR. = 13 3T9. DEV. = 14 PCT. PDP. = 100 000 025 050 075 100 1~5 150 175 200 225 250 :::'75 :300 :325 ,350 375 06y14x82 20353 50 8830' 4 GULF =:1CDLVILLE DELTR GTRTE,M.$LDPE H = 124 MERH = 127 STD. EP~. = 14 STD. DEV. = 82 PCT. POP. = 99 11 10 9 7 5 t 0o0 OJ5 o50 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 ~/14/~2 20354 5A 8964' ~ GULF ==1CDLVILLE DFLT~ STRTF,H.~LDPE · H = 65 MERH = 98 ~TD. EPR. = l ~.TD. DEV. = 7 PCT. POP. = 100 17 16 15 14 13 12 10 9 4 1 + 4- 4- + + 4- + + 4- + 4, + 4, 4- + 000 025 050 075 1 O0 125 150 175 200 E~25 250 ~75 300 325 350 375 06/14/82 20355 50 8984' 2 GULF ::1 CDLVILLE DELTR STRTE,H.SLDPE H = 19 HERH = 83 STD. E~R. = 23 PCT. POP. = 100 ikf~r/=' 4 3 ¢ . + + + + + + + + + + + + + + + 000 0~5 050 075 1 O0 125 150 175 ~00 225 ~50 ~75 300 325 350 375 06/14/82 20356 50 9100' 4 GULF :=! CDLVILLE DELTR STRTE,H.SLDPE H = 125 MERH = 113 STD. FRR. = 8 STD. DEV. = 50 . _ + + + + ..t- ~ '+ + '+' 4' +' + 4- + '+' + 000 025 050 075 1 O0 125 15U 175 ~OO 2~5 ~50 275 300 325 350 37'5 06/14/$2 20356 50 9100' 4 GULF ::! CI]L¥ILLE DELTf~ STRTEmH.SLI]PE M = 125 MERM = 113 STD. FRR. = 8 STD. DEV. = 50 cT. POP. 6 OO. **** ee . · 5 O0 3 *000 0 1 ( . ) 000 025 050 075 1 O0 125 150 175 200 225 250 275 300 325 350 375 06/14/8P 20357 50 g200' 4 GtlLF ¢~1 COLVILLF DFLTR ~TF~TF,N..~L[IPE H = 125 MEAN = 114 STD. ERR. = 9 STD. DEV. = 54 PCT. POP. = 100.~ .q ! 0 00* * *+* *** * + * 000000 cO0 eeeeeeeeeeeeeeeeeeeeeee · · -I- +' *' -I- + + -I- "1- .i- -I- + '+' 4, + 't- + 000 025 050 .075 100 125 150 175 200 ~25 250 ~75 300 325 350 375 **COMMRMD =
