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TABLE I UNDWATER MONITORING ND CHE iCAi RESULTS <br /> FORMER REGAL STATION 603 6425 PACIFIC AVENEUE STOCKTON CALIFORNIA <br /> WELL S CASING TOP OF DATE DEPTH TC PROD VACUUM :ORRECTEITOTAL PET BENZENE TOLUENE ETHYL XYLENES Meth,rl ter t-Butt'DISSOLVED <br /> ELEVATION SLOT TOP OF THICK AT WELL GW EI.EV HfDROCAR9 BENZENE Ether OXYGEN <br /> FEET AMSIFEET AMSL WATER HEAD FT AMSL GAS-RANGE 8020 8260 <br /> IN FEET IN FEET IN FEET PPB PPB PPB PPB PPB FPS PPB PPM <br /> 7912 12 38 -37 62 1z.o9.aa <br /> 9W12 12 38 -37 62 56 88 0 000 -44 50 <br /> MW12 12 3 -37 62 to o8.3z 56 92 U 0 00 -44 Sd 110 5 3 1 9 <0 3 2 1 <br /> HW12 12 386 -37 62 1 9z 56 56 0 0 00 -44 18 <br /> MWI2 12 38 -37 62 12 09 9 92 9z 56 14 0 0 00 -43 76 910 180 3 8 18 16 <br /> MW12 12 38 -37 62 01 15.x3 S5 52 0 0 00 -43 14 <br /> "12 12 38 -37 62 02/08.93 S4 58 0 0 00 -42 20 <br /> MW12 12 38 -37 62 uvuf33 54 42 0 0 00 742 04 530 <0 3 0 7 1 4 1 2 <br /> M912 12 38 -37 62 ns 15.93 53 6 0 0 00 -41 22 <br /> MW12 12 38 737 52 7s79793 51 61 0 —U-0_0 739 23 <br /> MWi2 12 38 -37 62 oa.0 43 52 $ 0 0 00 -40 42 620 180 1 2 33 <0 9 <br /> MW12 12 38 -37 62 07 1= 33 51 66 0 0 00 -39 28 <br /> V12 12 38 -37 62 49. 0.93 53 12 0 Tr -40 74 <br /> MW 12 12 38 -37 62 09 23 a3 53 12 09� �,O <br /> -4O 74 <br /> MW12 12 38 -37 b2 a� is 9, 53-3 3 0 -40 95 <br /> MV12 12 38 37 62 0. 993 53 32 0 -40 94 <br /> MW12 12 38 -37 62 03.21133 53 32 0 -40 94 540 130 5 4 61 12 <br /> MW12 12 38 -37 62 11 0, '2 52 9 0 -40 52 <br /> MV12 12 38 137 62 1zz 93 52 26 0 -39 88 4800 1700 20 350 20 <br /> MW12 12 38 -37 62 n .10 14 52 25 0 -39 87 <br /> MW12 12 38 -37 62 Q3 04 34 5O 92 O Tr -38 54 <br /> MW12 12 38 —37 62 03 zq s{ 50 I5 0 0 010 —37 77 1500 820 2 150 5 <br /> XV12 12 38 —37 62 04 b-4 49 79 0 0 00 --37 41 <br /> XV12 12 38 737 62 05.19.94 50 0 0 00 —37 62 <br /> MV12 1-2-3—a -37 62 a6 -q4 49 14 0 —6-0_0 -36 76 1400 510 <3 47 <10 <br /> MW12 12 38 -37 62 02 117 34 Sl 35 0 0 00 -38 97 <br /> MW12 12 38 -37 62 89 14.34 50 21 0 0 00 -37 83 400 14 <0 5 <0 5 <2 <br /> 9W12 12 38 -37 62 10}26194 50 4 0 0 00 -38 02 <br /> KV12 12 38 -37 62 1 .16.9e 50 03 0 77, 00 -37 65 500 130 8 3 4 <br /> MY12 12 38 -37 62 01 25.91 49 42 0 0 00 -37 04 <br /> MV12 i2 38 -37 62 C3115115 48 45 0 0 00 -36 08 90 0 7 <0 5 <0 5 <2 <br /> MW12 12 38 -37 62 Cs1L35 48 56 0 0 Op 736 18 <br /> MV12 12 38 -37 62 Cs.17 95 47 29 0 7-0!LOJU <br /> E22 <br /> 1 <br /> MV12 12 38 -37 62 a6.21.95 46 98 p 2000 150 62 120 3pO <br /> MW12 12 38 -37 62 08.n1 35 97 17 0 MW12 12 38 -37 62 09 �.9s 47 32 0 210098 6 8 120 180 <br /> MWI2 i2 38 -3762 1012 9s 45 62 0 4XV12 12 38 -37 62 a 14 3s 46 8 0 MW12 12 38 -37 62 1 i2.9s 47 33 0 6300 210 200 410 1400MW12 12 38 -37 62 01. z q6 45 35 0 MV12 12 38 -37 62 03 09.40 44 9 0 9500 250 46021p0MW 12 12 38 -37 62 04n� 5 42 72 0 MW12 12 38 -37 62 os aae 41 75 0 0 00 <br /> XV12 12 38 -37 52 A6. U 3e 41 6 0 0 00 -29 22 4200 93 9 8 31p 610 80 2 2 <br /> M912 12 38 -37 62 0, 30 9e 42 25 0 0 00 -29 87 <br /> MV12 12 38 -37 62 u9 19F95 43 0 0 00 -30 62 4000 76 8 3 330 720 130 <br /> MV12 12 38 -37 62 1 10.01 41 34 0 0 00 -28 96 8200 180 49 920 2500 50 <br /> MW12 12 38 -37 62 0� 1a9� 38 74 0 0 00 -26 36 8600 110 76 510 1 1700 <100 ND <100 <br />