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MOHO RESOURCES LIMITED Capital/Financing Update 2023

Nov 26, 2023

65359_rns_2023-11-26_027b3b8c-4699-42c9-a65e-b2ddf2ace9b0.pdf

Capital/Financing Update

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Thick, high grade clay-hosted Rare Earths confirmed at Peak Charles

HIGHLIGHTS:

  • Assay results received and analysed from phase-2 reconnaissance aircore drill program at Peak Charles Project near Esperance

  • 81% of all 43 phase 2 aircore drill holes returned assays greater than 300ppm TREO and 35% returned assays greater than 750ppm TREO

  • Best 2m composite sample was in PPAC095: 56-58m @ 2118ppm TREO.

  • Outstanding Total Rare Earth Oxides (TREO) results returned at Top Block prospect with large thicknesses of high grade clay-hosted mineralisation (grades below based on 300ppm TREO cutoff)

  • PPAC095: 56m @ 1,023ppm TREO from 24m, including 18m @ 1,470ppm TREO

  • PPAC094: 40m @ 689ppm TREO from 30m, including 6m @ 1,057ppm TREO

  • PPAC096: 21m @ 1,056ppm TREO from 24m, including 8m @ 1,528ppm TREO

  • PPAC097: 18m @ 971ppm TREO from 20m, including 6m @ 1,185ppm TREO

  • Drilling to date shows Top Block prospect extends at least 1.4km

  • Presence of green muscovite and elevated TREO levels at the base indicates hydrothermally altered granite is source of rare earth mineralisation at Top Block

  • Partial testing of Rolland East prospect (borders OD6 Grass Patch – Belgian Road Prospect) encountered mineralisation up to 8m @ 580ppm TREO in PPAC121

  • Follow up soil sample survey completed over Gimli and Pippin rare earth prospects identified earlier this year

  • Land access agreement completed for Gimli prospect. Agreement to be lodged with DMIRS and ratified, with POW for drilling to follow

NEXT STEPS:

  • Passive seismic survey over the Top Block prospect to define the extent of the Top Block clay basin

  • Complete aircore drilling at Rollond East prospect and road reserve access drilling around the Gimli prospect

  • Land access agreements with landholders of Top Block prospect

  • POW applications for Top Block aircore drilling on crown land and land of the State of Western Australia west and east of the highly prospective Top Block drill line

  • Soil sampling of the Rad 2 anomaly after harvesting of the current wheat crop

26 November 2023

“The second phase of Outstanding Total Rare Earth results from Peak Charles with large thicknesses of clay hosted rare earth mineralisation over 1.4km is a fantastic outcome for the company’s critical minerals strategy. With positive landholder relationships being cultivated the company is perfectly situated to take advantage of the burgeoning clay hosted rare earth province near Esperance and now has multiple targets to expand across the project.”

  • Mr Ralph Winter, Managing Director

Moho Resources Ltd ( Moho or the Company ) is pleased to advise that the assay results of the second round of reconnaissance aircore drilling at the Peak Charles Project north of Esperance in WA have been received and analysed[1] .

The objective of the phase 2 drill program was to test the continuation of the clay basin hosted rare earth elements mineralisation which had been identified between three different prospects during the first phase of drilling[2] .

Moho’s 100% owned Peak Charles Project (Figure 1) is a 719km[2] contiguous tenement package located approximately 90 km northwest of Esperance, Western Australia. The project comprises five granted exploration licenses (E74/695, E74/766, E63/2162, E63/2163 and E63/2344) and one pending exploration license applications (E74/694). The Peak Charles Project was acquired through a deal with Whistlepipe Exploration Pty Ltd ( ASX announcement; MOHO EXPANDS NICKEL & GOLD SEARCH IN WA, 25 October 2021 ). Although the original target commodities for the Peak Charles Project were Ni-Cu sulphide and gold, the project has now shown potential for large scale, clay-hosted REE mineralisation.

==> picture [516 x 358] intentionally omitted <==

Figure 1: Moho’s Peak Charles Project in relation to other companies exploring for REE (on Google Earth image)

The Peak Charles Project tenements adjoin the Grass Patch tenements of OD6 Metals Ltd. OD6 reported recently high-grade clay REE on their regional reconnaissance drilling at Grass Patch Project (OD6 ASX announcement 24 March 2023).

1 Moho ASX announcement 14 July 2023 “Rare Earth Exploration Update for Peak Charles”

2 Moho ASX announcement 20 April 2023 “Significant Clay-hosted Rare Earths Intersected Peak Charles”

REE, particularly neodymium (Nd) and praseodymium (Pr), are becoming increasingly important in the global economy, with uses including advanced electronics, permanent magnets in electric motors and electricity generators and battery technologies. Currently, clay-hosted REE deposits are primarily economically extracted in China, with a number of other projects being explored elsewhere in the world including Western Australia.

Phase 2 Reconnaissance Aircore Drill Program

The second phase 43-hole reconnaissance and infill aircore drill program at E74/695 was designed to further understand the geological constraints of the project area, and to test for the continuation of the clay-hosted REE mineralisation defined during the first phase of aircore drilling. The drilling was carried out along road reserves and existing tracks at a 400m hole spacing and drilled to refusal at the base of the clay basin. The location of the phase 1 and 2 drill holes is shown in Figure 2. Infill holes at the Northern Track and several holes at the Rollond East prospect were abandoned due to wet ground conditions.

The reconnaissance drilling program for the Gimli prospect on E 63/2163 had also to be abandoned due to the wet ground conditions and associated safety concerns on the road reserves. Moho personnel has collected surface geochemical samples over the Gimli radiometric anomaly.

==> picture [538 x 428] intentionally omitted <==

Figure 2: Moho’s Peak Charles Project Aircore Drillhole location plan showing phase 1 and 2 collars on Google Earth image)

Highlights of Aircore Drill Assay Results:

  • Following the significant areas of high-grade clay hosted rare earth confirmed from the first stage 81hole program at E 74/695 the second phase was completed testing the Top Block prospect.

  • 43 holes were completed for a total of 1673m with 400m hole spacing and an average hole depth of 39m.

  • 35% of the holes returned assays greater than 750ppm TREO, however the majority of assays over 750ppm TREO came from 4 drillholes at the Top Block prospect, PPAC094 to PPAC097 (Table 1)

  • High grade clay hosted rare earths mineralisation confirmed, with large thicknesses at the Top Block prospect, namely:

  • 56 metres at 1023ppm TREO from 24 metres in PPAC095 including 18 metres at 1470ppm TREO.

  • 40 metres at 689ppm TREO from 30 metres in PPAC094 including 6 metres at 1057ppm TREO.

  • 21 metres at 1056ppm TREO from 24 metres in PPAC096 including 8 metres at 1528ppm TREO.

  • 18 metres at 971ppm TREO from 20 metres in PPAC097 including 6m at 1185ppm TREO.

  • Grades are calculated with 300ppm TREO cut off.

  • Grades up to 2117 ppm Total Rare Earth Oxides (TREO).

  • The Top Block prospect extends 1.4km along the drill line.

  • Aircore drillholes PPAC094, PPAAC095, PPAC096 and PPAC097 intersected 18m to 56m thick mineralised (average 922ppm TREO) clay basin from 20m to 30m below the surface.

  • In these 4 drillholes the granite basement is hydrothermally altered with green muscovite present and elevated TREO levels from around 600ppm TREO, indicating the presence of the REO source granite for the mineralisation in the clay basin.

  • The Rolland East prospect bordering the OD6 Grass Patch – Belgian Road Prospect has also been partly tested with 11 holes completed of the planned 17 drill holes with mineralisation encountered up to 8m @ 580ppm TREO.

  • 35% of all holes drilled returned grades greater than 750ppm TREO.

  • High value Nd + Pr Oxides represent an average of 19.7% of the TREO grade.

  • High value Magnet RE-Oxides represents an average of 24.8%of the TREO grade.

  • Heavy RE-Oxides represent an average of 9.5% of the TREO grade.

HoleID Depth
From		 Depth
To		 Interval TREO Nd+Pr% **Mag% ** **Heavy% ** Critical
PPAC095 56 58 2 2117.69 23.77 32.45 18.02 31.60
PPAC096 34 36 2 1753.56 21.77 26.25 6.06 20.68
PPAC095 40 42 2 1751.48 16.11 18.99 3.67 14.53
PPAC097 34 36 2 1670.03 18.87 22.09 3.66 16.49
PPAC096 38 40 2 1590.49 21.53 26.54 8.04 22.22
PPAC095 52 54 2 1551.33 23.42 28.31 6.78 22.44
PPAC097 22 24 2 1505.78 22.92 27.28 4.78 20.26
PPAC096 36 38 2 1501.74 21.71 26.59 8.36 22.65
PPAC095 44 46 2 1422.75 17.59 21.11 4.79 16.51
PPAC095 50 52 2 1406.04 24.37 29.40 7.05 23.34
PPAC095 46 48 2 1349.26 20.24 24.47 5.90 19.37
PPAC094 64 66 2 1293.96 19.17 23.71 8.07 20.31
PPAC095 54 56 2 1287.29 25.45 31.91 11.20 27.57
PPAC096 40 42 2 1268.08 22.51 28.50 10.75 25.16
PPAC095 58 60 2 1257.79 20.18 26.02 11.65 24.08
PPAC095 48 50 2 1192.08 23.81 28.55 6.51 22.46
PPAC094 60 62 2 1160.79 18.94 22.33 4.81 17.54
PPAC095 42 44 2 1150.07 17.00 20.10 4.03 15.40
PPAC095 38 40 2 1125.31 8.76 10.68 2.71 8.44
PPAC095 34 36 2 1059.16 7.84 9.55 2.32 7.40
PPAC095 70 72 2 1040.98 18.45 22.72 7.83 19.66
PPAC097 24 26 2 1025.16 19.99 24.01 4.46 17.85
PPAC097 26 28 2 1023.90 19.67 23.33 4.05 17.31
PPAC095 72 74 2 18.55 22.70 7.43 19.35
1015.40
PPAC095 60 62 2 992.98 18.52 23.08 8.16 19.96
PPAC095 74 76 2 987.98 18.32 22.38 7.61 19.40
PPAC097 28 30 2 983.79 18.47 21.94 3.94 16.36
PPAC094 36 38 2 982.37 26.43 32.53 10.93 27.86
PPAC096 30 32 2 975.87 20.82 24.93 5.62 19.36
PPAC094 30 32 2 975.74 16.09 18.93 4.02 14.62
PPAC096 28 30 2 960.60 20.56 24.32 4.64 18.45
PPAC094 66 68 2 938.08 17.60 22.56 10.89 21.51
PPAC095 68 70 2 916.43 18.70 22.33 5.45 17.80
PPAC095 24 26 2 886.37 9.69 12.08 3.33 9.55
PPAC097 30 32 2 862.14 18.11 21.99 4.85 16.78
PPAC096 26 28 2 854.90 21.19 25.47 5.91 19.81
PPAC095 66 68 2 833.69 19.16 22.77 5.26 18.05
PPAC096 32 34 2 822.74 20.79 24.91 5.34 19.15
PPAC095 76 78 2 785.72 18.17 22.02 7.11 18.84
PPAC094 68 70 2 784.88 17.82 23.34 12.19 22.83
PPAC095 64 66 2 751.55 19.77 23.35 4.87 18.28

Table 1: Top Block Rare Earth Oxides significant intercepts (ordered by TREO grade)

The Top Block prospect is located between the Pyramid, Northern Track and Neds Corner prospects that were tested with the phase 1 Air Core drilling program in December 2022. At the Neds Corner and Pyramid prospects several infill drill holes were also completed. The recent assay results confirm the assay results from the phase 1 drilling. The Top Block prospect drill holes PPAC089 to PPAC108 are linking the Northen Track and Neds Corner phase 1 drill holes with the Pyramid Road drill holes joining on between PPAC100 and PPAC101. The holes PPAC094 to PPAC097 intersected thick and consistent high grade TREO mineralisation (Figure 3). The thicknesses of the TREO mineralisation in these 4 holes are about 5 to 10 times larger and the assays are about double compared with those from other mineralised drill holes at this project. These 4 holes were all completed in altered granite containing green muscovite and elevated TREO levels from around 600ppm.

==> picture [492 x 366] intentionally omitted <==

Figure 3: Moho’s Top Block Prospect cross section (vertical exaggeration x10)

Assays received from 81% of all the phase 2 aircore drill holes returned assays greater than 300ppm TREO (Table 2)

HoleID Depth
From		 Depth
To		 Interval TREO Nd+Pr% Mag% Heavy% Critical
PPAC083 18 20 2 792.95 24.9 29.9 7.1 23.2
PPAC083 20 22 2 378.06 20.2 24.8 7.9 20.6
PPAC083 24 26 2 355.26 17.8 22.3 8.8 19.7
PPAC083 28 30 2 450.30 20.3 24.7 7.1 20.3
PPAC083 30 32 2 320.66 16.8 21.3 8.3 18.5
PPAC083 34 36 2 303.83 18.7 23.4 8.6 20.3
PPAC083 38 40 2 384.44 17.5 21.6 6.6 17.8
PPAC083 40 42 2 312.12 18.6 23.6 9.7 21.0
PPAC083 42 44 2 300.89 17.7 22.7 10.8 21.5
PPAC084 0 2 2 305.09 24.4 33.7 22.1 35.6
PPAC084 36 38 2 759.79 22.2 27.4 7.9 22.1
PPAC084 38 40 2 467.59 22.9 27.1 5.6 20.8
PPAC084 40 42 2 308.88 24.0 28.9 7.2 22.7
PPAC084 44 46 2 412.13 25.0 31.6 10.3 26.0
PPAC084 48 50 2 353.56 22.2 28.1 9.9 23.8
PPAC084 50 52 2 307.41 20.9 26.9 11.6 24.0
PPAC084 52 54 2 382.59 22.0 27.7 10.5 24.2
PPAC084 54 56 2 513.26 21.8 26.7 9.1 23.1
PPAC084 56 58 2 640.51 22.8 28.5 10.6 25.1
PPAC084 58 59 1 491.66 21.8 28.0 13.6 26.9
PPAC085 0 2 2 377.53 23.4 31.0 16.6 30.4
PPAC085 54 56 2 768.46 18.5 22.0 4.8 17.1
PPAC085 56 58 2 831.55 19.0 23.1 6.3 18.7
PPAC089 34 36 2 329.84 20.5 25.0 5.5 19.2
PPAC090 2 4 2 345.65 19.4 26.0 14.4 25.5
PPAC090 30 32 2 1177.79 31.5 38.2 6.8 28.1
PPAC091 50 52 2 562.12 14.7 18.1 3.6 13.3
PPAC091 52 54 2 327.32 12.9 16.2 4.3 12.5
PPAC091 54 56 2 319.34 12.4 15.4 3.6 11.5
PPAC092 38 40 2 1006.46 31.7 38.5 7.2 28.6
PPAC093 38 40 2 445.43 18.2 22.2 5.1 17.1
PPAC093 42 44 2 433.26 14.4 17.8 5.2 14.5
PPAC094 30 32 2 975.74 16.1 18.9 4.0 14.6
PPAC094 32 34 2 375.05 16.4 19.9 6.1 16.6
PPAC094 34 36 2 447.17 20.0 24.2 7.1 20.2
PPAC094 36 38 2 982.37 26.4 32.5 10.9 27.9
PPAC094 38 40 2 583.16 26.1 33.4 16.3 32.2
PPAC094 40 42 2 635.10 18.6 23.1 11.5 22.9
PPAC094 42 44 2 569.66 17.7 21.3 6.7 18.1
PPAC094 44 46 2 649.57 20.1 24.0 7.2 20.3
PPAC094 46 48 2 553.53 22.5 27.1 8.2 22.7
PPAC094 48 50 2 535.02 18.5 22.1 6.7 18.7
PPAC094 50 52 2 579.81 17.3 20.8 5.9 17.2
PPAC094 52 54 2 413.14 18.8 23.2 8.0 20.0
PPAC094 54 56 2 582.05 20.1 25.1 8.8 21.5
PPAC094 56 58 2 429.52 19.6 25.4 10.9 22.9
PPAC094 58 60 2 575.72 18.7 23.6 9.3 20.9
PPAC094 60 62 2 1160.79 18.9 22.3 4.8 17.5
PPAC094 62 64 2 715.08 18.4 22.2 6.2 18.3
PPAC094 64 66 2 1293.96 19.2 23.7 8.1 20.3
PPAC094 66 68 2 938.08 17.6 22.6 10.9 21.5
PPAC094 68 70 2 784.88 17.8 23.3 12.2 22.8
PPAC095 0 2 2 502.29 20.6 27.2 14.3 26.3
PPAC095 24 26 2 886.37 9.7 12.1 3.3 9.5
PPAC095 26 28 2 484.60 13.2 16.6 5.6 13.8
PPAC095 28 30 2 328.82 10.6 13.4 4.5 11.1
PPAC095 30 32 2 480.61 10.5 12.9 3.7 10.3
PPAC095 32 34 2 597.53 9.3 11.2 2.8 8.9
PPAC095 34 36 2 1059.16 7.8 9.5 2.3 7.4
PPAC095 36 38 2 745.45 9.9 12.2 3.5 9.8
PPAC095 38 40 2 1125.31 8.8 10.7 2.7 8.4
PPAC095 40 42 2 1751.48 16.1 19.0 3.7 14.5
PPAC095 42 44 2 1150.07 17.0 20.1 4.0 15.4
PPAC095 44 46 2 1422.75 17.6 21.1 4.8 16.5
PPAC095 46 48 2 1349.26 20.2 24.5 5.9 19.4
PPAC095 48 50 2 1192.08 23.8 28.6 6.5 22.5
PPAC095 50 52 2 1406.04 24.4 29.4 7.0 23.3
PPAC095 52 54 2 1551.33 23.4 28.3 6.8 22.4
PPAC095 54 56 2 1287.29 25.4 31.9 11.2 27.6
PPAC095 56 58 2 2117.69 23.8 32.4 18.0 31.6
PPAC095 58 60 2 1257.79 20.2 26.0 11.7 24.1
PPAC095 60 62 2 992.98 18.5 23.1 8.2 20.0
PPAC095 62 64 2 527.88 19.4 23.2 6.0 18.9
PPAC095 64 66 2 751.55 19.8 23.3 4.9 18.3
PPAC095 66 68 2 833.69 19.2 22.8 5.3 18.0
PPAC095 68 70 2 916.43 18.7 22.3 5.4 17.8
PPAC095 70 72 2 1040.98 18.5 22.7 7.8 19.7
PPAC095 72 74 2 1015.40 18.5 22.7 7.4 19.4
PPAC095 74 76 2 987.98 18.3 22.4 7.6 19.4
PPAC095 76 78 2 785.72 18.2 22.0 7.1 18.8
PPAC095 78 80 2 608.02 18.6 23.1 8.6 20.4
PPAC096 24 26 2 373.76 19.4 23.9 7.2 19.5
PPAC096 26 28 2 854.90 21.2 25.5 5.9 19.8
PPAC096 28 30 2 960.60 20.6 24.3 4.6 18.5
PPAC096 30 32 2 975.87 20.8 24.9 5.6 19.4
PPAC096 32 34 2 822.74 20.8 24.9 5.3 19.2
PPAC096 34 36 2 1753.56 21.8 26.3 6.1 20.7
PPAC096 36 38 2 1501.74 21.7 26.6 8.4 22.7
PPAC096 38 40 2 1590.49 21.5 26.5 8.0 22.2
PPAC096 40 42 2 1268.08 22.5 28.5 10.7 25.2
PPAC096 42 44 2 672.92 21.8 28.2 13.0 26.7
PPAC096 44 45 1 630.30 18.8 26.1 20.9 30.7
PPAC097 20 22 2 685.98 26.5 31.8 5.8 23.6
PPAC097 22 24 2 1505.78 22.9 27.3 4.8 20.3
PPAC097 24 26 2 1025.16 20.0 24.0 4.5 17.8
PPAC097 26 28 2 1023.90 19.7 23.3 4.0 17.3
PPAC097 28 30 2 983.79 18.5 21.9 3.9 16.4
PPAC097 30 32 2 862.14 18.1 22.0 4.8 16.8
PPAC097 32 34 2 459.08 17.7 21.7 5.4 17.0
PPAC097 34 36 2 1670.03 18.9 22.1 3.7 16.5
PPAC097 36 38 2 526.02 19.8 23.7 4.6 17.9
PPAC098 0 2 2 360.53 24.9 34.0 20.6 34.7
PPAC098 22 24 2 600.44 16.5 20.0 4.1 14.9
PPAC098 24 26 2 1152.37 19.8 24.2 5.6 18.7
PPAC099 0 2 2 310.59 21.1 28.8 17.5 29.3
PPAC099 28 30 2 323.10 13.1 17.0 7.6 15.2
PPAC100 12 14 2 474.18 14.3 17.4 4.1 13.2
PPAC100 24 26 2 449.74 17.2 20.8 4.2 15.5
PPAC100 26 28 2 442.36 19.0 23.2 5.2 17.7
PPAC100 28 29 1 452.71 19.5 24.0 5.8 18.6
PPAC101 24 26 2 406.53 14.5 17.6 3.9 13.1
PPAC101 26 28 2 339.27 16.8 20.8 5.8 16.3
PPAC101 28 30 2 334.39 17.5 21.6 5.6 16.7
PPAC101 32 34 2 305.29 17.2 21.6 6.5 16.9
PPAC102 18 20 2 321.87 16.1 20.7 8.2 18.0
PPAC102 20 22 2 372.12 23.3 30.0 10.4 24.8
PPAC102 22 24 2 302.79 21.6 28.0 12.1 24.9
PPAC104 18 20 2 524.93 10.3 12.0 1.8 8.2
PPAC104 22 24 2 448.49 11.5 14.8 7.9 14.3
PPAC104 28 30 2 434.96 21.8 30.8 16.7 28.9
PPAC104 32 34 2 667.02 23.2 32.8 20.4 33.2
PPAC104 34 36 2 635.48 20.7 32.2 32.6 41.2
PPAC104 36 38 2 341.89 14.9 25.6 44.0 46.3
PPAC106 10 12 2 664.43 16.8 19.6 2.4 13.9
PPAC106 20 22 2 326.59 17.0 19.8 3.1 14.2
PPAC107 40 42 2 366.84 20.0 23.6 3.6 17.4
PPAC108 12 14 2 359.48 12.8 14.6 1.8 10.2
PPAC108 22 24 2 357.53 19.3 23.4 5.1 18.0
PPAC108 24 26 2 566.45 19.2 23.4 5.7 18.5
PPAC108 26 28 2 709.56 18.7 23.0 6.3 18.7
PPAC108 28 30 2 422.43 17.3 21.3 6.2 17.5
PPAC110 20 22 2 458.17 11.4 14.3 5.0 11.6
PPAC110 24 26 2 1281.97 18.1 21.9 7.6 18.8
PPAC110 26 28 2 376.52 19.1 26.6 18.4 27.6
PPAC110 28 30 2 491.47 23.2 28.8 12.4 26.9
PPAC110 30 32 2 694.23 25.0 34.8 20.4 34.5
PPAC110 32 33 1 754.76 23.3 40.0 41.9 50.0
PPAC111 12 14 2 314.72 14.2 16.8 3.4 12.5
PPAC112 18 20 2 312.71 18.4 22.1 4.8 17.0
PPAC112 22 24 2 314.21 19.6 23.8 5.8 18.9
PPAC113 26 28 2 392.67 24.8 31.5 12.4 27.8
PPAC113 34 36 2 309.28 20.4 27.0 11.8 24.4
PPAC114 24 26 2 1019.32 24.9 38.6 34.5 46.6
PPAC114 26 27 1 1306.05 16.3 31.3 56.5 58.0
PPAC115 0 2 2 343.25 21.0 33.3 38.1 46.4
PPAC115 62 64 2 418.67 20.6 24.7 6.2 19.9
PPAC116 6 8 2 435.84 32.9 37.3 4.8 27.3
PPAC116 36 37 1 478.15 17.5 21.4 5.4 17.1
PPAC121 32 34 2 891.44 25.1 30.9 9.3 25.6
PPAC121 34 36 2 538.53 27.3 33.3 7.4 25.7
PPAC121 36 38 2 584.24 27.0 35.1 17.1 33.6
PPAC121 38 40 2 306.03 20.1 25.4 9.7 22.5
PPAC122 46 48 2 318.64 31.2 40.6 17.9 37.2
PPAC122 48 50 2 313.95 19.9 30.0 39.1 47.4
PPAC123 28 30 2 312.23 17.2 21.7 7.9 18.8
PPAC123 30 32 2 415.48 25.2 32.0 11.8 28.2
PPAC123 32 34 2 800.67 31.0 41.3 20.2 39.1
PPAC123 34 36 2 366.81 25.0 35.2 23.2 36.9
PPAC163 31 32 1 337.50 17.4 23.2 10.7 20.9
PPAC165 12 14 2 2231.85 27.8 34.0 8.0 26.2
PPAC165 24 26 2 512.11 21.3 26.5 8.1 21.8
PPAC165 26 27 1 607.09 21.9 27.2 7.9 22.1

Table 2: 81% of drillholes returned assays >300ppm TREO

Soil sample survey over Gimli & Pippin Prospects

Follow up soil sampling has been conducted at the Moho’s Peak Charles Gimli and Pippin Prospects after an orientation soil sample survey earlier this year showed TREO anomalies coincident with radiometric anomalies[3] .

The follow up soil sample survey has been conducted at 100m X 100m spacing over the core of the Gimli and Pippin radiometric prospects, spacing out to 200m X 200m over the rims of the prospects (Figure 4). Anomalous elevated TREO assays in the orientation soil sample survey were building up over the radiometric anomalies, which could indicate the presence of REE-enriched intrusions. Gimli and Pippin are part of a linear cluster of 4 radiometric anomalies within a distinct 50km long SSW – NNW magnetic domain. Moho plans to sample the Rad 2 anomaly after harvesting of the current wheat crop. Rad 4 is located on ELA74/694 (pending) and cannot been sampled at this stage.

A land access agreement has been signed by the landholder for the Gimli prospect and will be lodged with DMIRS to be used for future POW applications.

==> picture [530 x 446] intentionally omitted <==

Fig 4. Gimli and Pippin Soil Sample Survey Plan over Radiometric Image

3 Moho ASX announcement 12 September 2023 “Coincident Soil Rare Earth-Radiometric anomalies Peak Charles”

Next Steps

  • Passive seismic survey over the Top Block prospect to define the extent of the Top Block clay basin.

  • Phase 1 and 2 Aircore drilling regional review and clay basin modeling.

  • Further geophysical interpretation of the airborne magnetics to outline the granite basement topography required for the regional clay basin target modeling.

  • POW applications for aircore drilling to complete the Rollond East prospect drilling and road reserve access drilling around the Gimli prospect.

  • Planning of follow up aircore drilling at the Top Block prospect.

  • Land access agreements with landholders for the Top Block prospect.

  • POW applications for Top Block aircore drilling on Crown land and land of the State of Western Australia west and east of the Top Block drill line.

  • The Rad 2 anomaly soil sampling after harvesting of the current wheat crop.

COMPETENT PERSONS STATEMENT

The information in this report that relates to Exploration Results and Exploration Targets is based on information compiled by Mr. Wouter Denig. Mr. Denig is a Member of Australian Institute of Geoscientists (MAIG) and Moho Resource’s Chief Geologist and has sufficient experience that is relevant to the style of mineralisation and type of deposit under consideration and to the activity which he is undertaking to qualify as Competent Person as defined in the 2012 Edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves. Mr. Denig consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.

ABOUT MOHO RESOURCES LTD

Moho Resources Ltd is an Australian mining company which listed on the ASX in November 2018. The Company is actively exploring for nickel, PGEs and gold at Silver Swan North, Peak Charles, Manjimup, Tambellup, Stirling Range North, Weld Range North and Burracoppin in WA and Empress Springs in Queensland.

==> picture [316 x 247] intentionally omitted <==

Moho has a strong and experienced Board lead by Managing Director Ralph Winter and geoscientist Shane Sadleir as Non-Executive Director. The Board is chaired by Mr Terry Streeter, a wellknown and highly successful West Australian businessman with extensive experience in funding and overseeing exploration and mining companies, including Jubilee Mines NL, Western Areas NL and current directorships in Corazon Resources, Emu NL and Fox Resources.

Moho’s Chief Geologist Wouter Denig and Exploration Geologist Scarlett Karius are supported by leading industry consultants geophysicist Kim Frankcombe (ExploreGeo Pty Ltd) and geochemists Richard Carver (GCXplore Pty Ltd).

ENDS

The Board of Directors of Moho Resources Ltd authorised this announcement to be given to ASX.

For further information please contact:

Ralph Winter, Managing Director T: +61 435 336 538 E: [email protected]

==> picture [502 x 321] intentionally omitted <==

JORC Code, 2012 Edition – Table 1: Peak Charles Aircore

Section 1 Sampling Techniques and Data

(Criteria in this section apply to all succeeding sections.)

Criteria JORC Code explanation Commentary Commentary
Sampling Nature and quality of sampling (eg cut channels, random chips, or All drilling and sampling was undertaken in an industry standard
techniques specific specialised industry standard measurement tools appropriate manner.
to the minerals under investigation, such as down hole gamma
sondes, or handheld XRF instruments, etc). These examples should
not be taken as limiting the broad meaning of sampling.
Include reference to measures taken to ensure sample representivity
and the appropriate calibration of any measurement tools or systems
Aircore holes were sampled from the individual sample piles laid
out on the ground. Generally, 2m composite samples (or smaller
1m sample at EOH) were collected from the 1m sample piles.
Sample weight ranged from 2-4kg.
used. The independent laboratory will crush and pulverize the entire
Aspects of the determination of mineralisation that are Material to the sample and create a 40g sample for Aqua Regia digestion and
Public Report. subsequent ICP-MS/AES analysis. (further described below)
In cases where ‘industry standard’ work has been done this would be
relatively simple (eg ‘reverse circulation drilling was used to obtain 1
m samples from which 3 kg was pulverised to produce a 30 g charge
for fire assay’). In other cases more explanation may be required,
such as where there is coarse gold that has inherent sampling
Commercial industry prepared independent standards and
duplicates are inserted about every 50 samples.
Sample sizes are considered appropriate for the material
sampled.
problems. Unusual commodities or mineralisation types (eg
submarine nodules) may warrant disclosure of detailed information.
Drilling Drill type (eg core, reverse circulation, open-hole hammer, rotary air Air core drilling was completed by blade bit using industry
techniques blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple standard drilling techniques.
or standard tube, depth of diamond tails, face-sampling bit or other
type, whether core is oriented and if so, by what method, etc).		 Aircore is considered to be an appropriate drilling technique for
saprolite clay profiles.
Drilling used blade bits of 87mmØ with 3m length drill rods to
blade refusal.
Drill sample Method of recording and assessing core and chip sample recoveries Air core recoveries were not recorded but are not considered to
recovery and results assessed. be materially biased, given the consistent sample return

1

Criteria JORC Code explanation Commentary Commentary
Measures taken to maximise sample recovery and ensure observed.
representative nature of the samples. Aircore samples were visually assessed for recovery
Whether a relationship exists between sample recovery and grade The assay data will be analysed against control samples
and whether sample bias may have occurred due to preferential No sample bias has been observed.
loss/gain of fine/coarse material.
Logging Whether core and chip samples have been geologically and The entire hole has been geologically logged by the Moho
geotechnically logged to a level of detail to support appropriate geological team, with geological logs recording lithology, colour
Mineral Resource estimation, mining studies and metallurgical and weathering.
studies.
Whether logging is qualitative or quantitative in nature. Core (or
costean, channel, etc) photography.
The total length andpercentage of the relevant intersections logged.
Sub-sampling If core, whether cut or sawn and whether quarter, half or all core A composite 2m sample of ~ 3kg for analysis was taken using a
techniques taken. scoop from each metre pile to subsample a 1-1.5kg sample. This
and sample If non-core, whether riffled, tube sampled, rotary split, etc and was then dispatched to the laboratory.
preparation whether sampled wet or dry. Sample weight ranged up to 4kg.
For all sample types, the nature, quality and appropriateness of the Commercial industry prepared independent standards and
sample preparation technique. duplicates are inserted about every 50 samples.
Quality control procedures adopted for all sub-sampling stages to Sample sizes are considered appropriate for the material
maximise representivity of samples. sampled.
Measures taken to ensure that the sampling is representative of the in
situ material collected, including for instance results for field
duplicate/second-half sampling.
Whether sample sizes are appropriate to the grain size of the material
being sampled.
Quality of The nature, quality and appropriateness of the assaying and The independent laboratory will crush the entire
assay data laboratory procedures used and whether the technique is considered sample to 3mm and pulverize to 95% passing 105um,
and partial or total. riffle split to create a 40g sample for Aqua Regia
laboratory For geophysical tools, spectrometers, handheld XRF instruments, etc, digestion and subsequent analysis. To be finished by
tests the parameters used in determining the analysis including instrument ICP_MS/AES for the elements described below.
make and model, reading times, calibrations factors applied and their The Aircore drill chip samples were analysed for 14 rare
derivation, etc. Earth Elements and Yttrium.
Nature of quality control procedures adopted (eg standards, blanks, The analysis techniques are considered quantitative in nature
duplicates, external laboratory checks) and whether acceptable levels Certified reference standards were inserted by the Moho
of accuracy (ie lack of bias) and precision have been established. geological team and the laboratory also utilises internal
standards for individual batches.
The standards are considerate satisfactory.

2

Criteria JORC Code explanation

Verification ofThe verification of significant intersections by either independent or sampling and alternative company personnel. assayingThe use of twinned holes.

  • Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.

  • Discuss any adjustment to assay data.

Commentary

  • Assay results are reported in this release.

  • Geological and spatial data has been uploaded into the Moho geological database.

  • No Twinned holes have been drilled at this stage.

  • All data is stored in a verified database.

  • Multielement results (REE) are converted to stoichiometric oxide (REO) using element-to- stoichiometric conversion factors.

Eleme
nt		 Conv
factor		 Oxide
form
Ce 1.2284 CeO2
Dy 1.1477 Dy2O3
Er 1.1435 Er2O3
Eu 1.1579 Eu2O3
Gd 1.1526 Gd2O3
Ho 1.1455 Ho2O3
La 1.1728 La2O3
Lu 1.1372 Lu2O3
Nd 1.1664 Nd2O3
Pr 1.2082 Pr6O11
Sm 1.1596 Sm2O3
Tb 1.1762 Tb4O7
Tm 1.1421 Tm2O3
Y 1.2699 Y2O3
Yb 1.1387 Yb2O3

  • Rare earth oxide is the industry accepted form for reporting rare earths. The following calculations are used for compiling REO into their reporting and evaluation groups:

  • TREO (Total Rare Earth Oxide) = La2O3 + CeO2 +

3

Criteria JORC Code explanation Commentary Commentary
Pr6O11 + Nd2O3 + Sm2O3 + Eu2O3 + Gd2O3 +
Tb4O7 + Dy2O3 + Ho2O3 + Er2O3 + Tm2O3 +
Yb2O3 + Lu2O3 + Y2O3.
Location of
data points		 Accuracy and quality of surveys used to locate drill holes (collar and
down-hole surveys), trenches, mine workings and other locations		 The Aircore hole collars are located with handheld GPS to
an accuracy of +/- 3m.
used in Mineral Resource estimation. The locations are given in GDA94 zone 51 projection.
Specification of the grid system used. The survey data is adequate for this stage of the project.
Quality and adequacy of topographic control. Downhole survey was not undertaken with all hole drilled
vertical.
Data spacing Data spacing for reporting of Exploration Results. The Aircore drill holes for each prospect were drilled
and
distribution		 Whether the data spacing and distribution is sufficient to establish the
degree of geological and grade continuity appropriate for the Mineral
Resource and Ore Reserve estimation procedure(s) and		 at 200m spacing.
Sample compositing has been applied before sample
submission.
classifications applied.
Whether sample compositing has been applied.
Orientation of Whether the orientation of sampling achieves unbiased sampling of Drillholes were vertical and approximately perpendicular to
data in
relation to		 possible structures and the extent to which this is known, considering
the deposit type.		 mineralisation hosted in the flat lying clay basin
geological If the relationship between the drilling orientation and the orientation
structure of key mineralised structures is considered to have introduced a
sampling bias, this should be assessed and reported if material.
Sample The measures taken to ensure sample security. Samples were collected, processed, and dispatched to the
security laboratory by the Moho personnel.
Audits or The results of any audits or reviews of sampling techniques and data. The Competent Person reviewed the sampling techniques
reviews and data collection. The Independent Competent Person
completed a site visit during drilling to verify sampling
techniques and data collection.

4

Section 2 Reporting of Exploration Results

(Criteria listed in the preceding section also apply to this section.)

Criteria JORC Code explanation Commentary Commentary
Mineral Type, reference name/number, location and ownership including The Aircore drilling was on tenement E74/695 which is
tenement and
land tenure		 agreements or material issues with third parties such as joint
ventures, partnerships, overriding royalties, native title interests,		 100% held by Moho Resources.
The tenement is located 100km Northwest of the town of
status historical sites, wilderness or national park and environmental
settings.
The security of the tenure held at the time of reporting along with any
known impediments to obtaining a licence to operate in the area.		 Esperance WA.
There are no known impediments outside the usual course
of exploration licenses
Exploration
done by other
parties		 Acknowledgment and appraisal of exploration by other parties. The project area has had several levels of nickel-copper,
lignite-coal, uranium, gold and base-metals exploration by
a number of companies over the last 50 years.
Historical regional RAB drilling for gold.
Geology Deposit type, geological setting and style of mineralisation. The rare earth mineralisation at the Peak Charles Project
occurs in the weathered profile (in- situ regolith clays).
The current working model is that the emplacement of rare
earths is through ground water mobilisation from REE rich
basement granite.
Drill hole A summary of all information material to the understanding of the Drill hole collar information is included in the Drill Hole
Information exploration results including a tabulation of the following information
for all Material drill holes:		 Data (Appendix 1)
No material has been excluded
o easting and northing of the drill hole collar
o elevation or RL (Reduced Level – elevation above sea level in
metres) of the drill hole collar		 Results (<300ppm TREO) occur outside the mineralised
area of interest and have been excluded as not being of
o dip and azimuth of the hole material interest.
o down hole length and interception depth
o hole length.
If the exclusion of this information is justified on the basis that the		 No internal waste has been included in the mineralised
intercepts
information is not Material and this exclusion does not detract from
the understanding of the report, the Competent Person should clearly
explain why this is the case.

5

Criteria JORC Code explanation Commentary Commentary
Data In reporting Exploration Results, weighting averaging techniques, No cutting of grades has been used
aggregation
methods		 maximum and/or minimum grade truncations (eg cutting of high
grades) and cut-off grades are usually Material and should be stated.
Where aggregate intercepts incorporate short lengths of high grade
results and longer lengths of low grade results, the procedure used
for such aggregation should be stated and some typical examples of
such aggregations should be shown in detail.
The assumptions used for any reporting of metal equivalent values
should be clearly stated.

Data has been aggregated according to the intercept
length above the cut off grade of 300ppm TREO
Moho considers this to be an appropriate cut off grade for
clay basin hosted rare earth oxides
Multielement results (REE) are converted to stoichiometric
oxide (REO) using element-to- stoichiometric conversion
factors.
Relationship These relationships are particularly important in the reporting of The drill holes are drilled vertical and therefore
between
mineralisation		 Exploration Results.
If the geometry of the mineralisation with respect to the drill hole		 perpendicular to generally flat lying clay basin
mineralisation
widths and
intercept		 angle is known, its nature should be reported.
If it is not known and only the down hole lengths are reported, there		 Drilled width is approximately the true width
lengths should be a clear statement to this effect (eg ‘down hole length, true
_width not known’). _
Diagrams Appropriate maps and sections (with scales) and tabulations of Plans with scale and GDA94 coordinates are provided in
intercepts should be included for any significant discovery being
reported These should include, but not be limited to a plan view of
drill hole collar locations and appropriate sectional views.		 this report.
Cross sections for two significantly mineralised prospects
are included, with 10X vertical exaggeration
Balanced Where comprehensive reporting of all Exploration Results is not All holes drilled, with associated REE assays from this
reporting practicable, representative reporting of both low and high grades
and/or widths should be practiced to avoid misleading reporting of		 drilling program are reported.
Exploration Results.
Other Other exploration data, if meaningful and material, should be reported The various prospects are widely spaced, and the program
substantive
exploration
data		 including (but not limited to): geological observations; geophysical
survey results; geochemical survey results; bulk samples – size and
method of treatment; metallurgical test results; bulk density,		 was aimed to explore the extent of possible clay basin
hosted REE mineralisation
groundwater, geotechnical and rock characteristics; potential
deleterious or contaminating substances.
Further work The nature and scale of planned further work (eg tests for lateral Passive Seismic surveys to delineate the clay basins
extensions or depth extensions or large-scale step-out drilling). above the granite basement.
Diagrams clearly highlighting the areas of possible extensions,
including the main geological interpretations and future drilling areas,
provided this information is not commercially sensitive.		 Further Aircore drilling programs are anticipated as follow
up for this drilling campaign to define the extend of the
intersected clay basins.
Metallurgical test work to establish extractability rates of
theREO.

6

Appendix 1 Drillhole collar information

Project HoleID Easting Northing RL GridID SurveyMethod Company Date Comments Depth Azi Dip
PCS PPAC083 319658 6328836 237 MGA94_51 GPS Moho 27/06/2023 56 0 -90
PCS PPAC084 320640 6328864 240 MGA94_51 GPS Moho 27/06/2023 59 0 -90
PCS PPAC085 321865 6328929 237 MGA94_51 GPS Moho 28/06/2023 58 0 -90
PCS PPAC089 324184 6333322 235 MGA94_51 GPS Moho 29/06/2023 36 0 -90
PCS PPAC090 324201 6332923 239 MGA94_51 GPS Moho 29/06/2023 37 0 -90
PCS PPAC091 324218 6332524 236 MGA94_51 GPS Moho 29/06/2023 65 0 -90
PCS PPAC092 324206 6332132 235 MGA94_51 GPS Moho 29/06/2023 45 0 -90
PCS PPAC093 324023 6331771 235 MGA94_51 GPS Moho 29/06/2023 46 0 -90
PCS PPAC094 323852 6331413 237 MGA94_51 GPS Moho 29/06/2023 70 0 -90
PCS PPAC095 323663 6331064 236 MGA94_51 GPS Moho 30/06/2023 80 0 -90
PCS PPAC096 323478 6330700 241 MGA94_51 GPS Moho 30/06/2023 45 0 -90
PCS PPAC097 323290 6330341 241 MGA94_51 GPS Moho 30/06/2023 39 0 -90
PCS PPAC098 323139 6329980 239 MGA94_51 GPS Moho 30/06/2023 26 0 -90
PCS PPAC099 323038 6329589 241 MGA94_51 GPS Moho 30/06/2023 34 0 -90
PCS PPAC100 322938 6329207 244 MGA94_51 GPS Moho 1/07/2023 29 0 -90
PCS PPAC101 322840 6328821 248 MGA94_51 GPS Moho 1/07/2023 35 0 -90
PCS PPAC102 322744 6328432 246 MGA94_51 GPS Moho 1/07/2023 31 0 -90
PCS PPAC103 322724 6328040 244 MGA94_51 GPS Moho 1/07/2023 42 0 -90
PCS PPAC104 322749 6327643 246 MGA94_51 GPS Moho 1/07/2023 40 0 -90
PCS PPAC105 322823 6327244 250 MGA94_51 GPS Moho 1/07/2023 28 0 -90
PCS PPAC106 322867 6326852 253 MGA94_51 GPS Moho 1/07/2023 49 0 -90
PCS PPAC107 322911 6326463 256 MGA94_51 GPS Moho 1/07/2023 43 0 -90
PCS PPAC108 322961 6326060 255 MGA94_51 GPS Moho 2/07/2023 40 0 -90
PCS PPAC109 323027 6325506 254 MGA94_51 GPS Moho 2/07/2023 47 0 -90
PCS PPAC110 323077 6325109 253 MGA94_51 GPS Moho 2/07/2023 33 0 -90
PCS PPAC111 323152 6324516 257 MGA94_51 GPS Moho 2/07/2023 41 0 -90
PCS PPAC112 323190 6324116 258 MGA94_51 GPS Moho 2/07/2023 24 0 -90
PCS PPAC113 335444 6322998 214 MGA94_51 GPS Moho 2/07/2023 41 0 -90
PCS PPAC114 335824 6323128 211 MGA94_51 GPS Moho 2/07/2023 27 0 -90
PCS PPAC115 336191 6323288 216 MGA94_51 GPS Moho 2/07/2023 66 0 -90
PCS PPAC116 336564 6323437 216 MGA94_51 GPS Moho 3/07/2023 37 0 -90

7

PCS PPAC117 336933 6323589 220 MGA94_51 GPS Moho 3/07/2023 15 0 -90
PCS PPAC118 337305 6323742 216 MGA94_51 GPS Moho 3/07/2023 8 0 -90
PCS PPAC119 337680 6323888 214 MGA94_51 GPS Moho 3/07/2023 19 0 -90
PCS PPAC120 338050 6324038 212 MGA94_51 GPS Moho 3/07/2023 12 0 -90
PCS PPAC121 338406 6324180 212 MGA94_51 GPS Moho 3/07/2023 43 0 -90
PCS PPAC122 343178 6324696 197 MGA94_51 GPS Moho 3/07/2023 53 0 -90
PCS PPAC123 343574 6324672 200 MGA94_51 GPS Moho 3/07/2023 39 0 -90
PCS PPAC124 343975 6324640 199 MGA94_51 GPS Moho 3/07/2023 24 0 -90
PCS PPAC163 325499 6333818 251 MGA94_51 GPS Moho 28/06/2023 35 0 -90
PCS PPAC164 325608 6333822 250 MGA94_51 GPS Moho 28/06/2023 28 0 -90
PCS PPAC165 325693 6333861 254 MGA94_51 GPS Moho 28/06/2023 27 0 -90
PCS PPAC166 325773 6333927 257 MGA94_51 GPS Moho 28/06/2023 21 0 -90

8

Appendix 2 Sample Assay information

HoleID From
m		 To
m		 SampleID CeO2 Dy2O3 Er2O3 Eu2O3 Gd2O3 Ho2O3 La2O3 Lu2O3 Nd2O3 Pr6O11 Sm2O3 Tb4O7 Tm2O3 Y2O3 Yb2O3 TREO
PPAC083 18 20 DG00733 209.78 6.67 2.71 2.84 11.65 1.07 311.17 0.30 146.05 51.08 18.79 1.46 0.38 26.99 2.03 792.95
PPAC083 20 22 DG00734 138.82 3.37 1.64 1.25 5.22 0.58 125.22 0.23 56.88 19.31 7.78 0.68 0.23 15.51 1.34 378.06
PPAC083 24 26 DG00736 166.79 3.34 1.65 1.12 4.60 0.60 87.41 0.22 47.50 15.60 6.85 0.64 0.24 17.35 1.38 355.26
PPAC083 28 30 DG00738 199.28 3.56 1.56 1.30 5.69 0.56 118.24 0.19 68.91 22.39 9.53 0.68 0.23 16.85 1.33 450.30
PPAC083 30 32 DG00739 152.02 2.92 1.49 0.97 4.18 0.53 81.84 0.19 40.64 13.37 6.24 0.55 0.21 14.30 1.22 320.66
PPAC083 34 36 DG00741 139.80 2.78 1.36 0.98 4.11 0.49 74.99 0.18 43.05 13.80 6.20 0.53 0.21 14.19 1.16 303.83
PPAC083 38 40 DG00743 198.20 2.80 1.30 1.20 4.58 0.47 86.22 0.17 51.02 16.36 7.39 0.55 0.18 12.95 1.05 384.44
PPAC083 40 42 DG00744 154.45 3.14 1.62 1.05 4.77 0.57 62.85 0.20 44.23 13.76 6.67 0.60 0.23 16.61 1.34 312.12
PPAC083 42 44 DG00745 147.53 3.21 1.70 0.98 4.46 0.61 61.27 0.24 40.91 12.46 6.13 0.60 0.24 19.14 1.41 300.89
PPAC084 0 2 DG00753 81.94 6.77 3.57 1.98 8.66 1.26 71.01 0.41 58.39 16.13 10.27 1.20 0.48 40.37 2.64 305.09
PPAC084 36 38 DG00771 334.13 6.89 2.98 3.59 11.11 1.15 178.40 0.30 126.20 42.52 18.74 1.45 0.38 29.84 2.12 759.79
PPAC084 38 40 DG00772 206.02 2.98 1.36 1.76 4.98 0.49 117.59 0.18 79.36 27.64 10.64 0.60 0.19 12.62 1.15 467.59
PPAC084 40 42 DG00773 126.15 2.54 1.26 1.45 3.93 0.44 78.82 0.16 55.04 19.00 7.75 0.51 0.18 10.59 1.07 308.88
PPAC084 44 46 DG00776 139.81 5.15 2.32 2.23 7.79 0.86 114.62 0.25 78.12 24.89 12.25 1.04 0.32 20.76 1.72 412.13
PPAC084 48 50 DG00778 143.46 4.26 1.84 1.75 6.18 0.71 87.51 0.20 59.93 18.44 9.16 0.79 0.25 17.58 1.50 353.56
PPAC084 50 52 DG00779 121.41 4.05 2.01 1.44 5.61 0.74 78.74 0.24 48.80 15.45 7.28 0.73 0.29 18.91 1.70 307.41
PPAC084 52 54 DG00780 140.60 4.52 2.14 1.85 6.69 0.79 108.70 0.23 64.27 19.72 9.21 0.89 0.29 21.07 1.63 382.59
PPAC084 54 56 DG00781 192.14 4.67 2.25 2.25 7.58 0.88 151.50 0.26 85.25 26.65 11.21 0.93 0.30 25.58 1.80 513.26
PPAC084 56 58 DG00782 201.43 6.93 3.01 3.15 11.80 1.20 209.80 0.28 112.08 33.89 15.54 1.38 0.38 37.51 2.13 640.51
PPAC084 58 59 DG00783 150.62 6.53 3.02 2.47 9.98 1.18 155.81 0.33 82.77 24.25 11.58 1.26 0.39 39.32 2.15 491.66
PPAC085 0 2 DG00784 125.38 6.60 3.25 2.29 8.76 1.19 89.92 0.36 68.50 19.95 10.96 1.16 0.43 36.12 2.65 377.53
PPAC085 54 56 DG00812 375.41 4.32 1.54 1.53 7.91 0.65 200.40 0.16 105.76 36.43 13.29 0.92 0.18 18.85 1.12 768.46
PPAC085 56 58 DG00813 390.77 5.96 2.39 1.93 9.87 0.96 215.00 0.23 118.61 39.68 15.45 1.22 0.30 27.56 1.63 831.55
PPAC089 34 36 DG00891 154.86 2.20 0.75 1.23 4.33 0.31 81.79 0.08 51.05 16.41 7.48 0.52 0.09 8.17 0.57 329.84
PPAC090 2 4 DG00893 156.16 5.37 2.69 1.78 6.77 0.96 64.26 0.31 51.90 15.02 8.70 1.05 0.37 28.07 2.25 345.65
PPAC090 30 32 DG00908 288.29 10.49 2.94 9.29 22.94 1.36 396.76 0.20 280.32 90.75 41.96 2.66 0.33 27.62 1.88 1177.79
PPAC091 50 52 DG00938 335.88 2.48 0.70 1.59 5.77 0.34 113.56 0.07 61.79 20.94 9.71 0.65 0.09 8.06 0.49 562.12
PPAC091 52 54 DG00939 208.53 1.65 0.54 0.82 3.27 0.23 57.35 0.07 31.74 10.48 5.31 0.39 0.07 6.39 0.49 327.32
PPAC091 54 56 DG00940 212.80 1.42 0.50 0.81 2.79 0.19 50.65 0.07 29.33 10.12 4.82 0.33 0.08 4.90 0.50 319.34
PPAC092 38 40 DG00966 174.55 9.11 2.57 7.86 20.14 1.20 405.18 0.17 241.53 77.66 35.47 2.22 0.29 27.11 1.38 1006.46
9
PPAC093 38 40 DG00990 215.85 2.69 0.98 1.11 5.23 0.41 116.88 0.11 60.72 20.21 8.94 0.62 0.13 10.81 0.73 445.43
PPAC093 42 44 DG00992 254.28 2.59 0.99 1.19 4.22 0.40 87.05 0.11 47.01 15.28 6.91 0.54 0.14 11.70 0.83 433.26
PPAC094 30 32 DG01011 536.86 4.06 1.82 2.86 7.46 0.69 228.08 0.27 115.71 41.30 14.55 0.91 0.29 19.11 1.79 975.74
PPAC094 32 34 DG01012 200.74 2.25 1.17 1.91 3.48 0.41 83.58 0.18 46.06 15.62 6.24 0.47 0.19 11.47 1.28 375.05
PPAC094 34 36 DG01013 207.86 3.21 1.59 2.47 5.09 0.56 108.88 0.22 67.65 21.97 8.92 0.65 0.24 16.32 1.55 447.17
PPAC094 36 38 DG01014 303.01 11.17 5.37 6.68 17.74 1.98 285.51 0.63 197.38 62.31 26.80 2.20 0.78 56.25 4.58 982.37
PPAC094 38 40 DG01015 146.43 8.88 4.78 4.74 13.19 1.70 172.17 0.55 117.19 35.28 16.83 1.63 0.70 55.23 3.87 583.16
PPAC094 40 42 DG01016 255.39 5.92 3.26 3.17 9.23 1.16 177.45 0.39 89.95 27.90 11.67 1.11 0.46 45.36 2.69 635.10
PPAC094 42 44 DG01017 279.07 3.51 1.76 2.12 5.91 0.63 142.28 0.23 75.81 25.19 9.39 0.75 0.25 21.17 1.57 569.66
PPAC094 44 46 DG01018 271.25 4.45 2.20 2.47 7.39 0.81 189.12 0.30 98.02 32.55 11.90 0.89 0.33 26.01 1.89 649.57
PPAC094 46 48 DG01019 202.42 4.61 2.40 2.42 7.13 0.82 169.31 0.32 93.42 31.38 11.75 0.91 0.35 24.22 2.06 553.53
PPAC094 48 50 DG01020 248.95 3.49 1.72 2.17 5.54 0.63 142.15 0.22 73.97 24.94 9.29 0.64 0.24 19.65 1.43 535.02
PPAC094 50 52 DG01021 300.11 3.49 1.57 2.35 5.88 0.58 135.87 0.17 75.48 24.73 9.64 0.75 0.22 17.70 1.28 579.81
PPAC094 52 54 DG01022 196.16 3.51 1.59 2.13 5.36 0.61 98.47 0.18 58.77 18.82 8.00 0.64 0.23 17.39 1.29 413.14
PPAC094 54 56 DG01023 268.78 5.62 2.54 1.93 8.70 0.99 132.22 0.26 88.72 27.99 12.84 1.13 0.35 27.95 2.03 582.05
PPAC094 56 58 DG01024 194.54 4.96 2.25 1.76 7.58 0.89 93.46 0.23 64.58 19.55 10.54 0.96 0.32 26.21 1.69 429.52
PPAC094 58 60 DG01026 269.77 5.58 2.78 1.92 8.22 1.02 132.88 0.28 81.86 25.65 12.20 1.12 0.37 29.92 2.16 575.72
PPAC094 60 62 DG01027 573.66 5.77 2.47 2.63 11.09 0.94 291.19 0.25 164.71 55.15 20.22 1.28 0.34 29.25 1.84 1160.79
PPAC094 62 64 DG01028 356.29 4.79 2.07 2.49 8.01 0.84 169.97 0.22 99.62 31.76 13.00 1.05 0.29 23.16 1.54 715.08
PPAC094 64 66 DG01029 618.92 11.12 5.02 4.53 18.10 1.90 297.11 0.56 188.69 59.33 25.43 2.22 0.70 56.30 4.03 1293.96
PPAC094 66 68 DG01030 436.13 9.78 4.86 3.65 14.80 1.84 216.49 0.48 125.79 39.28 18.21 1.89 0.65 60.66 3.56 938.08
PPAC094 68 70 DG01031 359.04 9.63 4.43 3.18 13.77 1.72 173.98 0.41 107.54 32.33 16.30 1.86 0.59 56.98 3.11 784.88
PPAC095 0 2 DG01032 202.75 7.26 3.66 2.39 10.40 1.36 111.25 0.40 79.72 23.69 13.05 1.34 0.50 41.57 2.95 502.29
PPAC095 24 26 DG01044 645.38 3.91 1.25 1.15 6.34 0.58 116.06 0.10 64.35 21.57 9.50 0.84 0.16 14.39 0.80 886.37
PPAC095 26 28 DG01045 286.76 3.14 1.18 0.86 5.03 0.50 99.62 0.09 47.64 16.24 7.21 0.64 0.15 14.77 0.79 484.60
PPAC095 28 30 DG01046 216.66 1.79 0.75 0.59 2.74 0.29 58.30 0.08 25.99 8.94 4.01 0.38 0.09 7.59 0.61 328.82
PPAC095 30 32 DG01047 334.07 2.08 0.87 0.64 3.40 0.34 73.19 0.11 37.52 12.75 5.33 0.44 0.13 9.00 0.74 480.61
PPAC095 32 34 DG01048 443.21 2.08 0.86 0.69 3.22 0.33 76.43 0.11 41.34 13.94 5.62 0.41 0.13 8.39 0.76 597.53
PPAC095 34 36 DG01049 827.11 3.06 1.18 1.12 5.11 0.47 115.59 0.14 61.79 21.23 8.82 0.62 0.16 11.81 0.95 1059.16
PPAC095 36 38 DG01051 531.37 3.13 1.28 1.11 5.18 0.50 106.29 0.15 55.25 18.53 7.99 0.67 0.18 12.78 1.04 745.45
PPAC095 38 40 DG01052 858.89 3.51 1.38 1.44 6.39 0.57 127.01 0.14 74.22 24.36 10.39 0.76 0.18 15.06 1.01 1125.31
PPAC095 40 42 DG01053 1042.07 7.37 3.03 2.50 13.61 1.17 336.32 0.35 211.27 70.91 26.72 1.59 0.42 31.79 2.37 1751.48
PPAC095 42 44 DG01054 639.88 5.35 2.10 2.00 10.15 0.84 250.25 0.19 145.79 49.71 18.16 1.20 0.26 22.77 1.42 1150.07
PPAC095 44 46 DG01055 794.72 7.92 3.08 3.08 14.26 1.28 284.80 0.28 188.09 62.21 24.81 1.76 0.38 34.06 2.02 1422.75
PPAC095 46 48 DG01056 655.09 9.25 3.42 3.55 16.57 1.43 ~~10~~
313.82		 0.32 206.10 67.01 27.70 2.05 0.40 40.37 2.17 1349.26
PPAC095 48 50 DG01057 457.95 8.58 3.30 3.45 16.24 1.39 344.24 0.32 213.96 69.85 28.49 1.88 0.39 39.84 2.20 1192.08
PPAC095 50 52 DG01058 541.86 10.90 4.14 4.50 20.47 1.75 387.33 0.35 258.96 83.73 35.10 2.43 0.48 51.41 2.62 1406.04
PPAC095 52 54 DG01059 632.44 11.55 4.43 4.56 22.46 1.82 413.19 0.36 275.29 88.04 37.25 2.72 0.50 54.07 2.65 1551.33
PPAC095 54 56 DG01060 387.03 15.40 6.43 5.15 27.73 2.59 394.34 0.53 252.52 75.08 34.15 3.25 0.72 78.52 3.84 1287.29
PPAC095 56 58 DG01061 544.56 41.31 16.97 9.47 65.41 7.15 626.67 1.31 390.19 113.17 61.57 8.36 1.91 219.94 9.70 2117.69
PPAC095 58 60 DG01062 509.76 15.12 6.33 3.89 24.41 2.59 319.36 0.52 194.55 59.23 28.31 3.11 0.70 86.23 3.69 1257.79
PPAC095 60 62 DG01063 479.97 8.40 3.59 2.72 14.25 1.44 228.59 0.30 139.30 44.56 19.55 1.71 0.40 46.05 2.16 992.98
PPAC095 62 64 DG01064 254.80 3.27 1.32 1.52 6.19 0.54 129.66 0.11 77.41 24.77 9.53 0.69 0.15 17.06 0.87 527.88
PPAC095 64 66 DG01065 366.96 3.83 1.57 1.66 7.81 0.62 185.60 0.13 112.00 36.60 13.75 0.85 0.17 19.02 0.98 751.55
PPAC095 66 68 DG01066 409.80 4.65 1.83 1.82 9.09 0.78 205.77 0.17 119.85 39.89 14.54 0.99 0.22 23.15 1.14 833.69
PPAC095 68 70 DG01067 449.21 5.37 2.17 2.03 10.20 0.89 230.23 0.20 128.41 42.99 15.69 1.13 0.25 26.21 1.45 916.43
PPAC095 70 72 DG01068 495.22 8.33 3.67 2.35 14.02 1.41 253.19 0.38 145.55 46.55 18.99 1.71 0.45 46.70 2.47 1040.98
PPAC095 72 74 DG01069 482.11 7.71 3.37 2.18 13.11 1.35 251.07 0.33 141.95 46.41 18.44 1.56 0.40 43.10 2.31 1015.40
PPAC095 74 76 DG01070 468.23 7.38 3.32 2.06 12.38 1.31 245.95 0.33 136.49 44.47 17.61 1.49 0.40 44.24 2.31 987.98
PPAC095 76 78 DG01071 374.87 5.39 2.47 1.69 9.26 0.99 198.77 0.25 107.21 35.57 13.46 1.12 0.31 32.61 1.74 785.72
PPAC095 78 80 DG01072 282.75 5.23 2.36 1.44 8.52 0.92 148.59 0.25 85.65 27.15 11.73 1.05 0.29 30.47 1.65 608.02
PPAC096 24 26 DG01086 163.53 3.18 1.29 1.03 4.92 0.53 103.50 0.14 54.38 18.23 7.39 0.64 0.17 13.84 1.00 373.76
PPAC096 26 28 DG01087 353.23 6.05 2.00 2.30 11.01 0.94 252.65 0.16 134.41 46.71 17.39 1.26 0.22 25.34 1.23 854.90
PPAC096 28 30 DG01088 423.80 5.42 1.78 2.30 10.28 0.80 276.34 0.14 146.91 50.56 18.38 1.22 0.19 21.41 1.06 960.60
PPAC096 30 32 DG01089 407.79 6.55 2.33 2.41 11.64 1.01 290.62 0.19 150.83 52.35 19.42 1.45 0.25 27.68 1.33 975.87
PPAC096 32 34 DG01090 365.16 5.51 1.89 2.26 9.76 0.81 225.98 0.16 127.65 43.43 16.55 1.19 0.21 20.95 1.23 822.74
PPAC096 34 36 DG01091 813.06 12.28 4.54 5.23 22.06 1.92 412.91 0.38 288.80 92.90 39.58 2.78 0.54 53.57 3.03 1753.56
PPAC096 36 38 DG01092 662.97 13.10 5.50 4.81 20.83 2.15 352.56 0.51 248.07 77.97 34.58 2.69 0.67 71.55 3.79 1501.74
PPAC096 38 40 DG01093 726.15 13.93 5.74 5.82 23.02 2.29 356.56 0.55 261.83 80.60 37.41 3.02 0.73 68.77 4.08 1590.49
PPAC096 40 42 DG01094 529.62 14.08 6.14 5.55 23.78 2.39 284.05 0.58 220.88 64.61 32.62 3.00 0.74 75.56 4.48 1268.08
PPAC096 42 44 DG01095 280.20 8.41 4.14 3.87 13.42 1.55 140.62 0.44 115.27 31.52 17.59 1.71 0.53 50.31 3.35 672.92
PPAC096 44 45 DG01096 249.43 11.20 6.54 3.76 14.91 2.25 114.47 0.82 92.69 25.59 16.09 2.01 0.87 84.11 5.55 630.30
PPAC097 20 22 DG01108 193.22 4.74 1.52 2.03 11.08 0.68 252.20 0.14 136.09 46.03 18.39 1.15 0.18 17.58 0.95 685.98
PPAC097 22 24 DG01109 573.82 8.22 2.62 3.09 20.37 1.19 480.93 0.20 259.22 85.93 33.84 2.07 0.30 32.41 1.58 1505.78
PPAC097 24 26 DG01110 472.06 5.24 1.60 1.93 12.45 0.73 280.98 0.16 153.54 51.42 21.45 1.32 0.19 20.94 1.13 1025.16
PPAC097 26 28 DG01111 491.60 4.77 1.56 1.75 10.97 0.68 269.55 0.16 150.51 50.90 19.91 1.12 0.19 19.11 1.12 1023.90
PPAC097 28 30 DG01112 493.55 4.23 1.44 1.64 10.02 0.64 251.61 0.15 135.83 45.86 18.21 1.05 0.18 18.22 1.16 983.79
PPAC097 30 32 DG01113 431.48 4.72 1.50 1.48 10.26 0.68 216.13 0.13 116.60 39.56 16.58 1.20 0.16 20.67 1.00 862.14
PPAC097 32 34 DG01114 236.25 2.77 0.94 1.12 5.51 0.42 107.87 0.08 61.22 20.13 8.87 0.67 0.10 12.48 0.64 459.08
PPAC097 34 36 DG01115 851.76 6.73 2.49 2.04 15.20 1.03 ~~11~~
412.66		 0.26 235.50 79.64 29.27 1.59 0.30 29.58 1.97 1670.03
PPAC097 36 38 DG01116 267.43 2.74 1.02 1.26 6.13 0.41 119.49 0.13 78.68 25.40 10.67 0.65 0.14 11.02 0.85 526.02
PPAC098 0 2 DG01118 97.14 7.41 3.80 2.49 10.11 1.37 86.93 0.45 70.36 19.55 12.37 1.42 0.55 43.58 2.99 360.53
PPAC098 22 24 DG01130 329.88 3.24 1.17 1.68 6.21 0.48 136.50 0.11 73.83 25.31 10.47 0.73 0.13 9.83 0.88 600.44
PPAC098 24 26 DG01131 585.92 7.56 2.57 3.79 15.63 1.13 248.50 0.24 172.54 55.21 25.46 1.71 0.29 30.05 1.76 1152.37
PPAC099 0 2 DG01132 115.18 5.45 2.85 1.79 7.33 1.03 66.36 0.36 51.04 14.60 9.04 1.01 0.39 31.67 2.48 310.59
PPAC099 28 30 DG01146 199.46 2.78 1.33 0.90 3.69 0.49 51.54 0.20 31.85 10.37 5.36 0.53 0.19 13.05 1.34 323.10
PPAC100 12 14 DG01156 222.72 2.51 0.75 0.64 4.45 0.36 157.44 0.07 49.37 18.46 6.73 0.52 0.09 9.59 0.49 474.18
PPAC100 24 26 DG01162 221.46 2.27 0.71 1.09 4.84 0.31 123.99 0.07 57.36 19.81 8.37 0.51 0.09 8.37 0.49 449.74
PPAC100 26 28 DG01163 215.55 2.79 0.89 1.31 5.73 0.44 110.60 0.14 63.14 20.84 9.16 0.69 0.15 10.29 0.65 442.36
PPAC100 28 29 DG01164 217.35 3.08 0.94 1.42 6.30 0.45 110.94 0.09 66.55 21.68 9.83 0.71 0.11 12.55 0.71 452.71
PPAC101 24 26 DG01178 189.71 1.88 0.72 0.68 3.84 0.29 136.07 0.09 43.17 15.65 6.20 0.44 0.10 7.05 0.65 406.53
PPAC101 26 28 DG01179 163.32 2.35 1.04 0.64 3.99 0.38 92.87 0.17 42.39 14.47 6.45 0.51 0.15 9.42 1.13 339.27
PPAC101 28 30 DG01180 161.10 2.26 0.98 0.63 3.99 0.37 89.32 0.16 43.69 14.96 6.61 0.47 0.15 8.66 1.05 334.39
PPAC101 32 34 DG01182 140.23 2.31 1.02 0.65 4.08 0.39 86.67 0.16 38.85 13.60 6.23 0.52 0.16 9.40 1.04 305.29
PPAC102 18 20 DG01193 172.25 3.18 1.43 1.03 4.31 0.56 65.01 0.17 39.13 12.69 6.26 0.60 0.19 13.86 1.20 321.87
PPAC102 20 22 DG01194 121.26 5.03 1.97 1.75 7.41 0.81 114.81 0.19 65.48 21.26 10.58 0.95 0.24 18.90 1.47 372.12
PPAC102 22 24 DG01195 93.50 4.15 1.74 1.22 6.10 0.69 99.87 0.17 49.19 16.26 7.47 0.81 0.23 20.13 1.26 302.79
PPAC104 18 20 DG01232 313.11 1.43 0.39 0.97 2.54 0.18 143.98 0.05 37.42 16.64 4.50 0.31 0.05 3.09 0.28 524.93
PPAC104 22 24 DG01234 211.78 3.65 1.83 1.27 4.24 0.68 144.10 0.20 37.27 14.43 5.42 0.66 0.26 21.22 1.48 448.49
PPAC104 28 30 DG01237 169.13 9.61 3.83 3.45 12.72 1.55 84.96 0.33 74.99 19.71 13.69 1.80 0.48 35.74 2.98 434.96
PPAC104 32 34 DG01239 246.66 15.87 6.95 5.43 19.76 2.73 106.91 0.74 122.37 32.37 22.75 2.96 0.93 74.86 5.74 667.02
PPAC104 34 36 DG01240 193.98 21.05 11.67 5.50 23.21 4.09 81.62 1.32 106.12 25.63 20.68 3.61 1.55 125.65 9.79 635.48
PPAC104 36 38 DG01241 93.02 12.66 8.51 2.40 11.15 2.80 39.29 1.14 40.74 10.05 8.40 1.91 1.24 100.63 7.97 341.89
PPAC106 10 12 DG01263 330.28 2.12 0.56 2.27 4.92 0.27 195.86 0.05 82.38 29.18 10.63 0.53 0.07 4.94 0.35 664.43
PPAC106 20 22 DG01268 132.58 1.32 0.45 1.02 2.52 0.18 123.62 0.06 39.76 15.65 4.79 0.29 0.06 3.95 0.34 326.59
PPAC107 40 42 DG01306 181.99 1.58 0.42 1.79 3.76 0.19 90.95 0.03 55.16 18.20 7.27 0.41 0.06 4.72 0.30 366.84
PPAC108 12 14 DG01314 195.63 0.72 0.25 0.97 1.51 0.09 107.25 0.03 32.41 13.75 3.91 0.18 0.03 2.53 0.20 359.48
PPAC108 22 24 DG01319 175.55 1.99 0.65 1.97 4.26 0.29 87.23 0.08 52.32 16.73 7.64 0.45 0.08 7.77 0.52 357.53
PPAC108 24 26 DG01320 277.95 3.37 1.25 3.46 7.03 0.52 135.47 0.14 82.35 26.27 11.97 0.81 0.15 14.85 0.88 566.45
PPAC108 26 28 DG01321 334.25 4.63 1.75 4.16 9.42 0.72 183.35 0.17 101.42 31.22 14.56 1.02 0.21 21.46 1.23 709.56
PPAC108 28 30 DG01322 193.87 2.58 1.04 2.30 5.19 0.42 121.26 0.11 55.69 17.54 8.00 0.55 0.13 12.93 0.80 422.43
PPAC110 20 22 DG01364 231.03 2.87 1.20 1.40 3.64 0.44 146.28 0.18 37.31 15.10 5.62 0.53 0.17 11.21 1.17 458.17
PPAC110 24 26 DG01366 641.06 10.19 4.93 5.25 13.66 1.79 290.40 0.64 169.85 61.86 21.94 1.89 0.67 53.45 4.40 1281.97
PPAC110 26 28 DG01367 160.67 8.54 4.62 2.49 7.78 1.62 65.84 0.63 54.60 17.25 8.95 1.38 0.66 36.99 4.51 376.52
PPAC110 28 30 DG01368 226.97 6.93 3.44 2.63 7.33 1.25 ~~12~~
78.83		 0.40 87.61 26.33 11.02 1.15 0.49 34.03 3.06 491.47
PPAC110 30 32 DG01369 272.08 17.07 7.99 6.47 19.94 3.01 81.87 0.83 137.02 36.81 24.57 3.08 1.07 76.01 6.40 694.23
PPAC110 32 33 DG01370 183.05 36.65 18.64 11.42 39.10 6.75 42.63 2.02 145.06 30.83 37.01 6.20 2.49 177.69 15.22 754.76
PPAC111 12 14 DG01378 126.63 1.26 0.45 0.88 2.55 0.18 128.86 0.06 32.22 12.57 3.87 0.28 0.05 4.57 0.30 314.72
PPAC112 18 20 DG01403 156.41 1.86 0.58 1.39 3.30 0.26 77.91 0.06 42.84 14.57 5.98 0.39 0.07 6.72 0.38 312.71
PPAC112 22 24 DG01405 151.90 1.99 0.77 1.64 3.84 0.32 75.94 0.08 46.69 14.92 6.48 0.44 0.09 8.60 0.52 314.21
PPAC113 26 28 DG01419 117.09 5.18 2.17 2.74 8.22 0.88 118.58 0.22 74.07 23.43 10.93 1.04 0.29 26.24 1.61 392.67
PPAC113 34 36 DG01423 135.23 3.87 1.60 2.07 6.72 0.66 66.31 0.17 49.43 13.76 8.16 0.76 0.19 19.20 1.13 309.28
PPAC114 24 26 DG01440 281.86 36.37 17.10 14.53 41.97 6.61 84.37 1.69 205.70 47.63 48.44 6.60 2.20 211.50 12.75 1019.32
PPAC114 26 27 DG01441 228.02 66.84 40.16 15.61 59.30 14.02 82.41 4.54 175.65 37.72 44.65 10.34 5.47 488.77 32.54 1306.05
PPAC115 0 2 DG01442 84.17 12.53 6.84 3.59 12.82 2.44 43.92 0.80 57.86 14.09 12.41 2.05 0.93 83.18 5.64 343.25
PPAC115 62 64 DG01474 191.40 2.51 1.21 0.96 5.07 0.45 106.08 0.18 65.39 20.93 8.72 0.55 0.17 13.98 1.06 418.67
PPAC116 6 8 DG01480 34.37 2.42 0.89 2.20 4.94 0.34 226.35 0.09 105.27 37.97 10.95 0.53 0.10 8.75 0.66 435.84
PPAC116 36 37 DG01495 257.83 3.09 1.06 2.11 5.28 0.48 101.60 0.08 63.36 20.55 8.82 0.67 0.13 12.39 0.69 478.15
PPAC121 32 34 DG01541 250.89 8.94 3.54 5.42 15.66 1.50 309.95 0.31 169.14 54.22 24.07 1.85 0.42 43.17 2.35 891.44
PPAC121 34 36 DG01542 185.58 4.87 1.69 3.64 9.01 0.76 149.35 0.15 111.56 35.23 16.77 1.07 0.22 17.46 1.17 538.53
PPAC121 36 38 DG01543 146.97 9.78 4.54 5.28 14.94 1.81 160.31 0.43 121.53 36.09 19.20 1.93 0.56 57.76 3.12 584.24
PPAC121 38 40 DG01544 137.75 2.96 1.41 1.86 4.73 0.53 69.92 0.15 47.36 14.16 7.28 0.59 0.17 16.12 1.06 306.03
PPAC122 46 48 DG01571 53.95 6.17 2.77 3.24 8.60 1.04 95.17 0.30 76.81 22.73 12.95 1.16 0.37 31.15 2.23 318.64
PPAC122 48 50 DG01572 45.14 9.38 5.57 2.79 9.91 1.96 74.85 0.60 48.72 13.81 8.79 1.49 0.71 86.36 3.87 313.95
PPAC123 28 30 DG01590 166.68 2.67 1.20 1.47 3.85 0.47 60.50 0.17 41.06 12.78 6.41 0.51 0.18 13.07 1.21 312.23
PPAC123 30 32 DG01591 152.76 4.80 2.20 3.30 8.38 0.81 95.97 0.24 82.01 22.80 13.06 0.98 0.26 26.28 1.65 415.48
PPAC123 32 34 DG01592 125.42 16.85 7.01 9.39 26.34 2.84 232.03 0.67 194.51 53.32 33.85 3.34 0.91 89.11 5.09 800.67
PPAC123 34 36 DG01593 76.32 8.93 4.01 4.01 12.39 1.58 100.82 0.39 72.01 19.77 12.72 1.67 0.50 48.85 2.84 366.81
PPAC163 31 32 DG00870 138.03 4.01 1.48 1.26 6.20 0.70 97.08 0.14 44.33 14.43 7.65 0.84 0.18 20.19 0.98 337.50
PPAC165 12 14 DG00832 462.49 21.39 6.52 8.12 43.29 3.15 903.70 0.43 462.30 157.07 67.17 4.94 0.71 87.11 3.46 2231.85
PPAC165 24 26 DG00838 210.94 4.65 1.84 1.32 7.90 0.77 138.34 0.19 82.50 26.63 12.06 0.98 0.23 22.39 1.39 512.11
PPAC165 26 27 DG00839 261.05 5.83 2.28 1.66 9.43 0.95 150.27 0.24 101.15 31.90 14.55 1.20 0.30 24.56 1.73 607.09

13

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