Novo Resources: High-Grade Gold Up to 30.3 g/t Au Defined in Rock Chip Sampling at Nunyerry North, Egina District

2022-02-17 07:16:24

HIGHLIGHTS

  • Grid soil sampling at the Nunyerry North prospect, located south-west of the Company’s Egina District, has defined a coherent high-order gold anomaly over a strike of 640 m and open to the west
  • Ten soil samples returned > 1 g/t Au including 2.3 g/t Au, 2.13 g/t Au, 1.84 g/t Au and 1.59 g/t Au
  • Rock chip sampling returned peak high-grade results from quartz veins including 30.3 g/t Au, 21.1 g/t Au and 19 g/t Au
  • Results reflect an exciting gold exploration target with the potential for growth
  • Immediate follow up work planned to include further soil sampling and logistics for road access in preparation for drilling later in 2022
  • Novo’s exploration licence 47/2973 is 70%-owned, with the remaining 30% held by Mark Gareth Creasy and entities controlled by him (the “Creasy Group”)1
  • These results support Novo’s exploration strategy targeted at growing the Company’s high quality portfolio of gold and battery metals prospects in the Pilbara region of Western Australia

VANCOUVER, British Columbia, Feb. 17, 2022 (GLOBE NEWSWIRE) — Novo Resources Corp. (“Novo” or the “Company”) (TSX: NVO, NVO.WT & NVO.WT.A) (OTCQX: NSRPF) is pleased to report exciting high-order soil sampling assay results (figure 1) for exploration work conducted in Q4, 2021 at the Nunyerry North gold prospect (“Nunyerry North”) in the West Pilbara (figure 2). Nunyerry North is part of the Croydon Project), which is a 70%/30% joint venture with the Creasy Group1.

Figure 1(Figure 1 – Gold in soil anomaly at the Nunyerry North prospect.)

_______________
1 Refer to the Company’s news release dated August 31, 2018.

The results from Nunyerry North are an exciting development in our Pilbara exploration program,” commented Dr. Quinton Hennigh, the non-executive co-chairman of Novo. “Identification of these prospects at Nunyerry North is the first step in advancing our understanding of prospectivity in the region, and we look forward to progressing further sampling and drilling efforts during 2022.

Figure 2(Figure 2 – Nunyerry North prospect location on EL47/2973, highlighting the Creasy joint venture.)

Details

Recent results from grid soil sampling at 40 x 20 m centers at Nunyerry North have defined a high-order gold anomaly at > 100 ppb Au over a strike of 640 m which remains open to the west (figure 1). The broad anomaly at >300 ppb Au is semi continuous over 600 m strike. Ten soil samples returned greater than 1 g/t Au in soil and 29 samples returned greater than 0.5 g/t Au. Peak results in soils include 2.3 g/t Au, 2.13 g/t Au, 1.84 g/t Au and 1.59 g/t Au. The soil anomaly appears displaced across the Aurora Fault on the western end of the grid and remains open to the west with a result of 1.84 g/t Au in soil on the western-most line.

Rock chip sampling by Novo also returned high grade results from quartz veins (figure 3) and associated wall rocks with peak values including 30.3 g/t Au, 21.1 g/t Au and 19 g/t Au.

Detailed mapping by the Novo team has highlighted as series of steep to flat dipping quartz veins in brittle high-MgO basalt at the intersection of a major E-W trending shear zone (Freyda Shear), secondary shear (Luzia Shear), and a crosscutting structure (Aurora Fault) (figure 3).

 

Figure 3(Figure 3 – Rock chip sample results and simplified structural setting, Nunyerry North prospect.)

Nunyerry North was identified by the Creasy Group in 2016 with fine gold panned in several streams draining from the general area. Rock chip sampling during a reconnaissance visit gave high-grade results of 81.0 g/t Au, 73.1 g/t Au, 40.3 g/t Au and 10.8 g/t Au from a zone of quartz veining over a radius of 20m and 8.3 g/t Au approximately 90m to the west of the main cluster of high-grade rock chip samples. In 2017, the area was covered with 160 x 80 m spaced soil sampling defining a >300 ppb Au anomaly over 320 m over the main target.

Two additional soil anomalies (figure 4) were defined by the Creasy Group, including:

  • A >100 ppb Au soil anomaly over 360 m strike defined 400 m to the WSW of the area sampled by Novo in 2021; and
  • A 500 m long >100 ppb anomaly 270 m south of the area sampled by Novo, with a peak soil result of 771 ppb Au. Reconnaissance rock chip sampling yielded a peak assay result of 20.7 g/t Au at the western end of the anomaly, but the source of the soil anomaly has not yet been explained.

Figure 4(Figure 4 – Location of multiple soil anomalies requiring follow-up exploration.)

Follow-up work by Novo will include grid soil sampling to expand the western end of the main anomaly, plus grid soil sampling, detailed mapping and rock chip sampling over the two additional soil anomalies, to the west and south of the main target area. Planning access for a drilling program later in the year has commenced.

Refer to table 1 and table 2 below for a listing of rock chip and soil sample results.

Results referred to in this news release are not necessarily representative of mineralization throughout Nunyerry North or the Croydon Project.

Analytic Methodology

Novo soil samples were sieved to -80# (250 μm) in the field and assayed by Intertek Genalysis in Perth, Western Australia for Au and 32 multielement by 25g aqua regia digest – MS finish (lab method AR25/MS) with overlimit Au assay results analysed by 25g charge Fire Assay-OE finish (lab method FA25/OE). Rock chip samples were crushed and pulverized and assayed for Au by four acid digest and 50 g charge fire assay FA50/OE and for 48 multielement using four acid digest – MS finish (4A/MS). QAQC protocols for soil samples included insertion of 3 blanks, 4 standards and 8 field duplicates for 145 soil samples (8.2%) and 3 CRM standards were inserted with the rock chip sample batches. No QAQC issues were detected. All relevant data was verified by a qualified person as defined in National Instrument 43-101 Standards of Disclosure for Mineral Projects (“NI 43-101”) by reviewing analytical procedures undertaken by Intertek Genalysis.

The Creasy Group assayed samples at MinAnalytical in Perth, Western Australia. Rock chip samples were crushed and pulverized and assayed using aqua regia digest with 25g charge ICP OES finish (lab method AR25OES) with overlimit results analysed using Fire Assay-AAS finish (lab method FA50AAS). Soil samples were sieved to -80# (250 μm) in the field and assayed by aqua regia digest with 25g charge ICP OES finish (lab method AR25OES). Rockford Metals Pty Ltd conducted QAQC for rock chip samples including certified standards (2 CRMS in 26 samples), and 3 duplicates and 3 standards per 100 samples for soil geochemical sampling. All rock chip and soil standards fell within 2 standard deviations of the CRM Au grade. Field duplicates for soil samples showed good repeatability.

QP STATEMENT

Dr. Quinton Hennigh (P.Geo.) is the qualified person, as defined under NI 43-101, responsible for, and having reviewed and approved, the technical information contained in this news release. Dr. Hennigh is the non-executive co-chairman and a director of Novo.

ABOUT NOVO

Novo operates its flagship Beatons Creek gold project while exploring and developing its prospective land package covering approximately 12,500 square kilometres in the Pilbara region of Western Australia. In addition to the Company’s primary focus, Novo seeks to leverage its internal geological expertise to deliver value-accretive opportunities to its shareholders. For more information, please contact Leo Karabelas at (416) 543-3120 or e-mail This email address is being protected from spambots. You need JavaScript enabled to view it..

On Behalf of the Board of Directors,

Novo Resources Corp.

Michael Spreadborough

Michael Spreadborough

Executive Co-Chairman

Forward-looking information

Some statements in this news release contain forward-looking information (within the meaning of Canadian securities legislation) including, without limitation, planned exploration activities. These statements address future events and conditions and, as such, involve known and unknown risks, uncertainties and other factors which may cause the actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the statements. Such factors include, without limitation, customary risks of the resource industry and the risk factors identified in Novo’s management’s discussion and analysis for the nine-month period ended September 30, 2021, which is available under Novo’s profile on SEDAR at www.sedar.com. Forward-looking statements speak only as of the date those statements are made. Except as required by applicable law, Novo assumes no obligation to update or to publicly announce the results of any change to any forward-looking statement contained or incorporated by reference herein to reflect actual results, future events or developments, changes in assumptions or changes in other factors affecting the forward-looking statements. If Novo updates any forward-looking statement(s), no inference should be drawn that the Company will make additional updates with respect to those or other forward-looking statements.

Table 1: rock chip sample results.





















































Sample id Easting MGA94 Z50 Northing MGA94 Z50 Au ppm FA50/OE Au Rpt 1 FA50/OE Au Rpt 2 FA50/OE Ag ppm AR25/MS As ppm AR25/MS Cu ppm AR25/MS Sb ppm AR25/MS W ppm AR25/MS Zn ppm AR25/MS
NVO-05117 590775 7619500 13.798 12.02   0.52 10.7 39.1 0.48 0.9 64
NVO-05118 590803 7619509 1.052     0.05 5.3 12.4 0.35 0.4 11
NVO-05119 590800 7619503 4.328     0.47 15.2 52.9 0.49 0.8 44
NVO-05120 590804 7619507 1.354     0.24 28.9 29.6 1.28 0.2 29
NVO-05218 591073 7619612 0.722     0.11 52.3 249 5.66 0.5 15
NVO-05219 591007 7619172 -0.0025     0.11 2 126.1 0.46 0.2 17
NVO-05220 590999 7619187 0.01     0.24 30.6 14.6 17.21 0.8 12
NVO-07234 590304 7619305 0.008     -0.025 24.3 41.9 1.74 7.2 70
NVO-07235 590292 7619332 -0.0025     -0.025 138.3 55.4 1.49 25.8 67
NVO-07236 590303 7619244 0.008     0.09 29.2 145.9 3.57 7.9 51
NVO-07237 590317 7619242 0.02     -0.025 46.6 18.4 4.54 7.9 63
NVO-07238 590340 7619218 -0.0025     0.07 69.7 42.3 2.3 2.1 30
NVO-07239 590260 7619321 0.032     0.16 17.7 9.8 0.56 4.3 30
NVO-07241 590256 7619335 0.013     0.06 125.6 79.5 2.22 2.2 68
NVO-07242 590118 7619298 -0.0025     -0.025 4 18.9 4.22 0.3 44
NVO-07243 590216 7619319 -0.0025     0.19 31.3 237 1.17 1.5 127
W10501 590634 7619463 0.477     0.12 6 62.6 1.85 0.7 40
W10502 590637 7619446 -0.0025     -0.025 2.4 5.4 1.92 1 9
W10503 590633 7619452 0.05     0.06 7.6 17.9 2.37 0.5 21
W10504 590598 7619428 -0.0025     0.05 11.5 52.9 1.73 1 51
W10505 590655 7619526 -0.0025     -0.025 2.4 30 1.34 0.3 29
W10506 590633 7619496 -0.0025     -0.025 1.6 4.1 0.73 1.4 10
W10507 590639 7619495 0.021     -0.025 8.7 89.7 0.68 1 91
W10508 590645 7619482 0.725     0.12 8.3 21 0.86 1 34
W10509 590649 7619503 0.028     0.08 1.1 101.6 1.34 0.5 38
W10510 590710 7619492 5.003     28.42 172.5 1311.9 0.98 0.3 26
W10511 590716 7619492 0.782     1.04 6.9 45.1 0.38 1 6
W10512 590711 7619497 0.103     0.05 3.5 15.2 1.42 0.5 34
W10513 590744 7619487 4.226     0.1 3.5 13.3 0.31 0.2 13
W10514 590779 7619462 0.449     0.06 13 18.2 0.36 0.6 27
W10515 590750 7619490 0.05     -0.025 1.5 4.8 0.41 0.2 17
W10516 590747 7619474 21.099 20.207   3.47 1.1 6 0.2 0.7 12
W10517 590755 7619478 0.307     -0.025 2.3 7.3 0.27 0.3 15
W10518 590765 7619484 2.036     0.2 3 4.4 0.19 1.2 6
W10519 590770 7619490 3.213     -0.025 1.5 2.4 0.23 -0.05 3
W10520 590772 7619457 14.2 19.008   4.29 6.2 140.2 0.31 0.8 7
W10521 590779 7619461 0.048     0.08 4.9 160.4 0.8 0.3 14
W10522 590786 7619494 30.311 6.254 8.458 0.3 6.4 18.6 0.38 0.7 19
W10536 590907 7619551 10.726     2.27 9.9 646.1 0.33 0.5 24
W10537 590911 7619557 2.506     1.32 14.9 407.2 0.41 0.1 25
W10538 590978 7619598 0.012     0.09 4.4 68.3 7.66 1 7
W10539 590805 7619459 0.047     0.09 5.9 41.9 0.41 2 71
W10540 590825 7619463 0.168     0.07 14.7 5.2 0.36 1.1 4
W10541 590834 7619466 4.753     27.14 312.5 1415.7 1.74 0.3 25
W10542 590856 7619466 1.098     0.18 5.5 11.3 0.6 0.6 11
W10543 590906 7619494 0.076     0.08 1.7 8.7 0.15 -0.05 4
W10544 590895 7619482 0.905     1.54 40.3 606.7 0.47 0.7 14
W10545 590700 7619445 0.026     0.05 0.7 3.5 0.13 -0.05 4
W10546 590750 7619458 10.272     0.24 1.8 3.4 0.21 0.7 6


Table 2
: soil sample results.


































































































































































SAMPLE_ID EASTING NORTHING AR25/MS Au ppb FA25/OE Au-Rp1 MANUALLY CONVERT FROM ppm to ppb FA25/OE Au-Rp2 MANUALLY CONVERT FROM ppm to ppb AR25/MS Ag ppm AR25/MS As ppm AR25/MS Cu ppm AR25/MS Pb ppm AR25/MS Sb ppm AR25/MS Zn ppm
H2960 590562.4061 7619406.565 1839     0.65 9 69 6.4 0.61 53
H2961 590562.4159 7619426.822 84     0.1 5 59 4.9 0.47 57
H2962 590562.321 7619446.858 2     0.05 5 67 4.6 0.43 57
H2963 590562.7414 7619466.448 3     0.06 5 65 3.7 0.63 54
H2964 590562.9584 7619486.704 6     0.1 9 73 4.8 0.55 50
H2965 590562.9584 7619486.704 38     0.09 9 758 10.8 0.44 29
H2966 590561.4117 7619506.416 2     0.09 7 65 5.9 0.75 43
H2967 590561.5232 7619526.34 12     0.06 5 53 5.6 0.89 52
H2968 590603.2639 7619526.438 18     0.22 11 89 4.7 0.65 54
H2969 590602.4266 7619506.407 10     0.06 7 70 3.2 0.42 39
H2970 590601.9007 7619486.486 16     0.08 5 89 4 0.69 50
H2971 590601.8933 7619466.672 9     0.21 9 84 5.8 0.8 53
H2972 590601.8858 7619446.858 18     0.14 11 66 4.6 0.84 58
H2973 590602.2896 7619426.488 15     0.21 21 56 6 1.04 53
H2974 590601.5553 7619406.346 52     0.16 18 66 5.6 0.96 55
H2975 590642.8838 7619406.889 8     0.07 12 91 4.4 0.61 67
H2976 590643.3074 7619427.033 25     0.08 24 58 5.4 1.55 46
H2977 590643.3155 7619446.958 1014     0.3 6 47 5.8 0.55 57
H2978 590643.4272 7619466.882 421     0.2 7 39 5.4 0.51 53
H2979 590643.7467 7619486.915 408     0.26 9 48 7.2 0.45 60
H2980 590642.8838 7619406.889 46     0.07 11 91 4.6 0.65 67
H2981 590641.7851 7619506.519 12     0.18 11 75 4.8 0.68 56
H2982 590642.6199 7619526.107 2     0.14 12 75 5.5 0.56 55
H2983 590681.7744 7619526.773 3     0.08 4 51 6 0.39 58
H2984 590681.8679 7619506.516 395     0.3 7 70 5.1 0.38 57
H2985 590682.7931 7619486.807 525     0.34 6 73 6.2 0.48 60
H2986 590682.2628 7619466.111 725     0.32 4 65 6.1 0.5 64
H2987 590682.9833 7619446.846 1341     0.47 6 71 5 0.6 59
H2988 590681.8353 7619426.817 551     0.23 14 58 4.3 1 58
H2989 590682.2396 7619406.558 28     0.2 12 97 4.4 0.67 61
H2990 590682.2396 7619406.558 1     -99 -99 5 -99 0.05 3
H2991 590722.6341 7619406.774 63     0.09 10 53 5.2 0.77 55
H2992 590722.4358 7619426.811 900     0.33 13 61 4.7 0.84 52
H2993 590722.6499 7619446.513 362     0.49 10 90 4 0.7 57
H2994 590722.2488 7619467.325 455     0.37 8 75 5.9 0.58 64
H2995 590722.977 7619486.36 423     0.38 7 93 6.3 0.47 58
H2996 590721.8491 7619506.845 36     0.19 7 71 4.6 0.74 53
H2997 590720.7217 7619527.44 4     0.19 5 60 8.3 0.64 57
H2998 590762.6734 7619546.686 8     0.07 7 85 6.2 0.63 73
H2999 590762.8742 7619527.093 9     0.15 3 67 6.7 0.54 60
H3000 590762.1384 7619506.729 51     0.17 7 49 5.2 0.53 38
H3001 590762.026 7619486.695 2000 2300   0.65 7 49 6.7 0.46 56
H3002 590762.3278 7619466.658 274     0.18 9 60 5.2 0.51 61
H3003 590762.113 7619446.845 586     0.21 13 69 4.9 0.59 62
H3004 590762.4149 7619426.808 105     0.11 12 51 5.1 0.72 48
H3005 590762.1384 7619506.729 37     0.22 8 55 5.1 0.64 38
H3006 590761.6823 7619406.998 23     0.06 11 78 4.6 0.46 64
H3007 590802.2821 7619406.881 9     0.05 8 81 4.1 0.53 73
H3008 590807.7951 7619429.542 56     0.12 9 61 4.7 0.61 55
H3009 590802.6094 7619446.728 122     0.19 16 59 5.1 1.23 41
H3010 590802.5148 7619466.764 436     0.29 9 74 5.4 0.58 58
H3011 590803.1408 7619486.021 354     0.2 8 59 5.2 0.59 58
H3012 590801.9106 7619506.727 661     0.33 12 86 5.4 0.44 46
H3013 590802.1285 7619527.094 17     0.14 3 66 5.5 0.42 61
H3014 590802.8612 7619546.904 145     0.14 4 79 4.6 0.44 58
H3015 590842.2179 7619546.683 8     0.15 5 80 4.7 0.52 59
H3016 590842.2179 7619546.683 17     0.06 3 366 13.6 0.42 24
H3017 590842.3082 7619525.872 6     0.17 4 81 4.8 0.4 56
H3018 590841.7888 7619507.168 116     0.28 14 256 5.5 0.5 47
H3019 590842.916 7619486.573 539     0.29 15 66 6.8 0.65 55
H3020 590842.6 7619467.203 366     0.24 19 67 5.2 0.6 56
H3021 590843.4171 7619446.72 235     0.22 19 86 4.8 0.81 55
H3022 590842.4773 7619426.912 94     0.12 18 60 5.1 0.91 50
H3023 590842.5675 7619406.101 25     0.05 8 86 3.6 0.44 66
H3024 590881.7205 7619406.545 43     0.07 17 100 5 0.61 64
H3025 590881.9444 7619446.393 1376     0.55 27 89 4.7 1 48
H3026 590881.7482 7619466.762 343     0.37 26 96 5.2 0.87 63
H3027 590882.8934 7619486.237 583     0.39 10 77 5.8 0.6 56
H3028 590883.0091 7619506.825 153     0.2 8 73 5.2 0.58 53
H3029 590881.9818 7619526.756 25     0.14 5 61 5.7 0.5 55
H3030 590881.9444 7619446.393 178     0.3 24 79 5.1 0.94 51
H3031 590883.0271 7619546.896 6     0.14 4 82 4.5 0.64 58
H3032 590921.9714 7619547.009 532     0.42 4 89 5.2 0.54 50
H3033 590922.391 7619566.378 10     0.39 5 98 5.8 0.51 58
H3034 590922.3717 7619526.086 129     0.11 5 56 5 0.43 57
H3035 590922.677 7619506.713 664     0.3 7 70 6.9 0.6 54
H3036 590923.7037 7619486.672 542     0.31 9 101 5.2 0.68 48
H3037 590923.3845 7619466.749 278     0.2 9 66 4.8 0.61 52
H3038 590923.6783 7619426.898 20     0.07 12 83 4.1 0.64 64
H3039 590923.2531 7619406.533 3     0.07 7 80 4.5 0.59 65
H3040 590923.2531 7619406.533 -99     -99 -99 4 -99 -99 2
H3041 590963.131 7619406.973 12     0.14 15 92 4.6 0.65 61
H3042 590962.7284 7619427.453 156     0.13 15 84 4.4 0.65 59
H3043 590963.2601 7619466.746 40     0.22 11 81 5.2 0.67 48
H3044 590962.5436 7619486.675 109     0.21 8 105 5.5 0.68 57
H3045 590961.8284 7619506.825 104     0.22 8 84 5.5 0.66 50
H3046 590962.0415 7619526.306 7     0.1 7 70 4.9 0.58 53
H3047 590962.0507 7619546.341 19     0.13 7 79 4.2 0.45 46
H3048 590962.4766 7619566.817 11     0.17 3 67 4.3 0.41 48
H3049 591001.8371 7619567.26 381     0.35 4 65 4.2 0.53 51
H3050 591001.6189 7619546.893 35     0.11 6 58 4.3 0.48 45
H3051 591001.9211 7619526.967 78     0.12 6 66 4.2 0.67 50
H3052 591002.217 7619505.934 149     0.19 7 69 4.3 0.69 46
H3053 591002.8324 7619486.448 516     0.31 5 65 4.2 0.63 51
H3054 591002.4089 7619466.415 238     0.32 10 95 4.2 0.75 62
H3055 591001.6189 7619546.893 16     0.12 7 64 4.8 0.52 50
H3056 591002.6002 7619426.786 116     0.13 12 81 5.2 0.71 75
H3057 591003.1088 7619406.748 7     0.08 7 72 4.3 0.48 65
H3058 591002.7871 7619386.382 9     0.25 8 132 4.2 0.68 64
H3059 591042.7692 7619386.932 5     0.08 9 91 4.1 0.58 77
H3060 591041.8457 7619406.862 74     0.16 15 110 4 0.64 67
H3061 591042.2753 7619446.377 536     0.21 10 58 4.3 0.8 57
H3062 591042.9103 7619467.183 95     0.18 8 87 4 0.72 67
H3063 591042.607 7619486.889 105     0.21 6 75 4.2 0.74 54
H3064 591042.6131 7619506.37 67     0.14 6 64 5 0.63 60
H3065 591042.6131 7619506.37 19     0.06 3 358 13.7 0.39 22
H3066 591042.7271 7619526.627 298     0.27 9 64 7.5 0.71 48
H3067 591042.3239 7619546.996 120     0.17 8 60 6.2 0.68 42
H3068 591043.0575 7619566.917 18     0.16 3 73 5.5 0.49 57
H3069 591082.5173 7619566.584 6     0.11 3 66 4 0.51 51
H3070 591081.9908 7619546.662 284     0.15 4 61 4.7 0.64 52
H3071 591082.2916 7619526.514 316     0.4 3 112 4.3 0.74 39
H3072 591081.868 7619506.481 2000 1588   0.82 6 103 4.8 1 45
H3073 591082.8951 7619486.551 343     0.3 5 86 5.4 0.89 50
H3074 591083.7137 7619466.4 51     0.13 6 64 5.5 0.53 49
H3075 591082.5652 7619446.371 32     0.32 14 57 4 0.75 52
H3076 591082.8561 7619406.078 9     0.12 13 78 4.2 0.93 61
H3077 591082.7501 7619387.26 83     0.11 8 94 4.4 0.71 73
H3078 591122.0023 7619386.929 28     0.1 20 52 4.7 0.52 50
H3079 591122.8557 7619446.476 494     0.24 8 54 4 0.75 48
H3080 591082.5652 7619446.371 645     0.26 5 45 4.9 0.78 50
H3081 591122.3472 7619466.515 2000 707 1511 0.58 6 53 5.3 1.29 46
H3082 591122.4619 7619486.881 1077     0.25 5 48 4.2 0.95 42
H3083 591121.4324 7619506.369 393     0.24 5 145 4.7 1.13 45
H3084 591121.7525 7619526.403 28     0.16 10 59 6.5 0.82 54
H3085 591121.6601 7619546.771 582     0.43 8 113 4.2 0.75 40
H3086 591122.4998 7619567.134 62     0.1 3 47 4.8 0.54 51
H3087 591162.0607 7619566.357 61     0.08 3 49 5 0.58 53
H3088 591161.846 7619546.655 98     0.07 5 49 6.4 1.6 46
H3089 591161.632 7619527.064 213     0.16 4 57 4.1 0.5 44
H3090 591161.632 7619527.064 -99     -99 -99 5 0.8 -99 2
H3091 591162.0363 7619506.915 900     0.26 6 47 4.4 0.76 51
H3092 591162.8549 7619486.765 501     0.19 9 50 4.7 0.85 57
H3093 591162.9497 7619466.839 2000 2128   0.47 9 30 5.6 0.89 47
H3094 591161.7006 7619447.364 1139     0.27 12 31 4.5 0.75 49
H3095 591162.8261 7619426.548 117     0.1 11 33 2.4 0.96 39
H3096 591201.2341 7619386.703 26     0.11 7 71 4.9 0.38 62
H3097 591201.2454 7619407.071 8     0.06 5 35 4.9 0.54 43
H3098 591202.1857 7619426.879 7     0.15 5 55 5.7 1.16 40
H3099 591202.2981 7619446.803 69     0.13 5 55 4.2 0.93 45
H3100 591202.9258 7619466.282 249     0.17 12 58 3.5 0.98 65
H3101 591202.1104 7619486.986 229     0.14 6 42 5 0.8 52
H3102 591202.4293 7619506.798 532     0.2 5 62 4.7 0.77 53
H3103 591202.7457 7619526.168 41     0.13 4 73 4.5 0.68 51
H3104 591202.7588 7619546.867 11     0.08 4 55 5.8 0.76 44
H3105 591202.9258 7619466.282 742     0.22 13 60 3.8 1.01 66
H3106 591202.9729 7619566.458 5     0.09 3 56 4.9 0.55 61
H3107 591241.8169 7619567.125 4     0.08 3 67 4.3 0.56 58
H3108 591242.319 7619545.98 3     0.07 6 45 7.2 0.81 37
H3109 591242.2103 7619526.72 3     0.05 6 37 5.5 0.9 41
H3110 591241.5788 7619506.577 22     0.11 12 53 4.8 1.25 46
H3111 591241.6717 7619486.32 114     0.18 7 55 5.9 1.13 48
H3112 591243.2164 7619466.387 22     0.09 7 43 5.1 0.59 53
H3113 591243.623 7619446.681 2     0.09 4 50 6.1 2.09 41
H3114 591243.3041 7619426.869 6     -99 3 54 3.8 0.91 47
H3115 591243.3041 7619426.869 42     0.1 9 761 10.9 0.44 30
H3116 591242.9827 7619406.614 2     -99 3 51 4.5 0.56 57
H3117 591243.5959 7619386.796 5     0.06 5 66 4.4 0.39 61



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