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MARQUEE RESOURCES LIMITED Capital/Financing Update 2024

May 27, 2024

65370_rns_2024-05-27_a6a4877c-bb6e-46bb-b222-93f157b20cc8.pdf

Capital/Financing Update

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28 May 2024

ASX RELEASE

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Marquee Enters into Agreement to Acquire High Grade Gold and Silver Project With Historical Resource

HIGHLIGHTS:

  • MQR enters into option agreements with two parties to acquire an advanced high-grade gold and silver Project in Sardinia, Italy, named the Sa Pedra Bianca Project.

  • The Project presently overprints a large component of the historical Osilo Project mineral resource, which was reported by ASX listed Gold Mines of Sardinia Ltd (ASX:GMS) in its 2001 Annual Report as containing 1.65Mt @ 7.06 g/t Au and 29.7 g/t Ag for a total of 376,140oz gold and 1.58Moz silver.[1]

“This reported estimate is a historical estimate which is not reported in accordance with the 2012 JORC Code. A competent person has not done sufficient work to classify the historical estimate as a mineral resource in accordance with the 2012 JORC Code. It is uncertain that following further exploration work that the historical estimate will be able to be reported as a mineral resource in accordance with the 2012 JORC Code.”

  • Mr Timothy Spencer is one of the vendors and is the ex-Managing Director of Essential Metals Limited (ASX:ESS), which was acquired by Develop Global Limited (ASX:DVP) in November 2023. Mr Spencer will be appointed as a consultant of the Company. On exercise of the option by MQR, Spencer will be invited to join the Marquee Board of Directors to oversee the work at Sa Pedra Bianca and provide special assistance with MQR’s suite of other battery metal Projects with a particular focus on the West Spargoville Lithium Project ( WSP ) in the Eastern Goldfields.

  • Essential Metals’ flagship lithium deposit named Dome North, in the core of Western Australia’s lithium corridor in the Eastern Goldfields, contains a Mineral Resource of 11.2Mt @ 1.16% Li 2O (ASX Announcement, Essential Metals Ltd, 20 October 2023). The deposit lies ~40km along strike from Marquee’s highly prospective spodumene bearing WSP Lithium Project JV with Minerals Resources Ltd (ASX:MIN) and the company will benefit greatly from the knowledge Mr Spencer will bring.

  • The two Option agreements to acquire the Project have been structured so that the consideration payable to the vendors is heavily linked to the Project advancement and real tangible milestones that, if achieved, will add significant shareholder value.

  • Based on its due diligence thus far, Marquee considers the Project to have exceptional upside with real potential to become a 1Moz+ gold district.

1 The GMS 2001 Annual Report was lodged with ASX on 27 April 2001.

WWW.MARQUEERESOURCES.COM.AU | ABN: 94 616 200 312

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Marquee Resources Limited ( “Marquee” or “the Company” ) ( ASX:MQR ) is extremely pleased to announce that it has entered into Option agreements with two parties to acquire an advanced high grade gold and silver Project in Sardinia, Italy, named the Sa Pedra Bianca Project.

The Project presently measures 3,008 hectares and overprints a large component (70% of the reported gold ounces) of the historical Osilo Project mineral resource, which was reported by ASX listed Gold Mines of Sardinia Ltd (ASX:GMS) in its 2001 Annual Report as follows: [2]

GOLD MINES OF SARDINIA LIMITED 2001 ANNUAL GOLD MINES OF SARDINIA LIMITED 2001 ANNUAL REPORT
TABLE 5 - SUMMARY OF GEOLOGICAL RESOURCES
Page 53
OSILO
Measured/Indicated Tonnes Au g/t Au oz
Ag oz
Pala Edra 470,000 6.78 105,000
618,000
Bunnari 246,000 4.92 39,000
302,000
Fieldies 68,000 10.66 23,400
76,000
Inferred Tonnes Au g/t Au oz
Ag oz
Pala Edra 273,000 5.70 50,050
150,100
Bunnari 190,000 10.00 61,100
104,000
Fieldies 165,000 7.40 39,100
87,000
Sa Pala 174,000 7.40 51,400
218,000
Pedra Bianca 62,000 8.90 17,600
32,000
TOTAL 1,657,587 7.06 376,000
1,580,000

This mineral resource estimate has been audited by Steffen, Robertson and Kirsten (UK) Limited ( SRK ) under the 1999 version of the Australasian Code for the Reporting of Identified Mineral Resources and Ore Reserves ( 1999 JORC Code ).

“This reported estimate is not reported in accordance with the 2012 JORC Code. A competent person has not done sufficient work to classify the historical estimate as a mineral resource in accordance with the 2012 JORC Code. It is uncertain that following further exploration work that the historical estimate will be able to be reported as a mineral resource in accordance with the 2012 JORC Code.”

2 The GMS 2001 Annual Report was lodged with ASX on 30 April 2002.

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The MRE was based on five deposits delineated from drilling seven of the 22 quartz veins that had been mapped on surface, several over 1km in length. The MRE deposits remain open along strike and at depth.

The Sa Pedra Bianca Project includes low sulphidation epithermal gold and silver vein systems which outcrop to the south and southeast of the village of Osilo. The vein systems are hosted by Oligocene age andesite-basalt-dacite lava flows and flow domes and rhyodacite ignimbrites. The initial assessment by Marquee indicates the Project has been subject to relatively limited exploration given its possible scale and there is excellent potential to significantly grow the historical mineral resource.

Marquee has entered into separate but interlinked Option agreements with Mr Timothy Spencer and Dr Francesco Manca. The Option agreements have been structured so that the consideration payable to the vendors is heavily linked to the Project advancing. NB: All amounts of cash and shares shown below are what Marquee is obliged to pay to the vendors in total, i.e. not per vendor.

The key option terms in the agreements include:

  • The Option Agreements are subject to Marquee completing due diligence to its satisfaction by 15 July 2024 (Condition Precedent).

  • The total Option fee payable by Marquee to the vendors upon satisfaction or waiver of the Condition Precedent is: $78,000 cash and 3 million MQR listed shares.

The vendors are Dr Francesco Manca, an experienced Sardinian geologist and senior Italian mining sector technocrat and Mr Timothy Spencer. Mr Spencer worked in Sardinia for GMS as Finance & Administration Manager in 1998/99. Both vendors have been appointed as consultants to Marquee and will assist Marquee in advancing both the Sa Pedra Bianca Project and our other suite of Projects. Mr Spencer will be invited to join the Marquee Board of Directors following Marquee exercising the Option to acquire the Project.

The Option period is 12 months (or as extended in certain circumstances) with Marquee committed to designing, implementing and funding the exploration activities during the Option period. The key focus will be on attaining a high degree of confidence in the historical results and upgrading the mineral resource to JORC 2012 standards as well as assessing the additional exploration potential of the Project outside of the historic mineral resource.

Project Background

The Sa Pedra Gold and Silver Project is located in northern Sardinia and is held under an Investigation Authorisation permit (mining title) named “Sa Pedra Bianca”, which was issued by the Sardinian Department of Industry by Determination number 775 with protocol 38034 on 3 October 2022 and was extended for an additional year by Determination number 772 protocol 47005 on 3 November 2023.

In the early 1990s, Gold Mines of Sardinia Limited entered into a joint venture with Progemisa, which was a geological agency of the Sardinian government and where Dr Manca was General Manager. Gold was discovered in the south of the island, leading to the development of the Furtei Mine.

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Figure 1 – Map showing the proximity of Sardinia to mainland Italy and the location of the Project within Sardinia.

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Figure 2 – Map showing the Investigation permit in purple and the locations of the main deposits that comprise the historical Osilo Project mineral resource estimate.

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High grade gold mineralisation was also discovered in the north of the island in the vicinity of the village of Osilo. Over 20 vein systems were identified outcropping over a total area of ~100km2.

The veins in the Sa Pedra Bianca vein field are classic examples of low-sulphidation epithermal vein systems and are located to the south and southeast of the village of Osilo. They are hosted in Upper Oligocene to Lower Miocene andesites, dacites and basalts which occur as lava flows and domes centred on the Osilo Volcanic Complex in northern Sardinia. The Complex is covered to the west by vast areas of Lower-Middle Miocene marine and continental sediments and the eastern side is bordered by Oligocene - Miocene rhyolitic to rhyodacitic, calcalkaline volcanics consisting of ignimbrites, lava domes and flows.

The Sa Pedra Bianca veins trend to the east-north-east and border magnetic trends on regional magnetic surveys. Vein structures can be interpreted to be related to regional NE-SW compression of the area with resulting conjugate shearing along ENE (dextral) and WNW (sinistral) trends. Veins developed within these conjugate shears demonstrate true widths ranging from 1-11 meters in thickness.

The veins are reported as being very well defined within the structures and having clear cut boundaries with the adjacent country rock (only in the case of Pedra Bianca does brecciated mineralisation exist in the hanging wall and foot wall of the vein). The highest gold values appear to exist where the vein is more vesicular fractured in nature than where it is massive white bucky style quartz.

The drilled veins are generally shown to be oxidised down to depths of between 20m and 40m though some degree of partial oxidation is usually visible for some distance below this. The gold is considered to be generally free but very fine grained. No visible gold was historically reported.

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Figure 3 – A map of the Osilo field showing structural faults and mapped quartz veins (2000).

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Historical Drill Results

The exploration activities undertaken in the vicinity of the Project back in the 1990s and early 2000s were constrained by a lack of funding available to the explorers due to low gold price during that period.

Hence, drilling only took place over one year, starting in mid-1998 and consisted primarily of Diamond drillholes (DD) with Reverse Circulation (RC) and combination RC+DD tails also drilled.

However, just over 300 drill holes totalling ~53,000m were completed on fifteen prospects contained within seven of the twenty vein sets identified on surface, with around 20km sampled and assayed, creating a rich dataset.

The highlights from the drilling are as follows:

Table 1: Highlights from Historical Drilling

Deposit Hole_ID From (m) To (m) Interval* (m) Gold gpt Silver gpt
Bunnari OBD01 229.3 238.9 9.6 14.05 8.84
Bunnari OBD02 112.0 126.0 14.0 5.56 69.16
Bunnari OBD09 205.5 211.0 5.5 18.98 19.11
Bunnari OLB19 2.3 5.5 3.2 13.42 24.6
Pala Edra OED03A 79.0 84.16 5.16 6.96 46.97
Pala Edra OED05 166.69 170.39 3.7 6.68 19.77
Pala Edra OED08 78.48 82.12 3.64 8.25 86.34
Pala Edra OED12 177.25 180.15 2.9 14.08 24.91
Pedra Bianca OPD107 50.01 53.01 3.0 9.86 7.01
Pedra Bianca OPD110 38.45 42.5 4.05 7.09 7.35
Pedra Bianca OPD136 36.19 43.59 7.4 7.38 4.66
Pedra Bianca OPD137 105.34 111.34 6.0 26.68 10.78
Fieldies OFD01 83.06 85.18 2.12 16.04 112.7
Fieldies OFD02 113.16 117.5 4.34 19.93 30.21
Fieldies OFD04 125.93 128.94 3.0 7.14 13.71
Sa Pala OD03 114.49 121.89 7.4 8.99 168.19
Sa Pala OD07 100.6 108.2 7.6 16.59 74.53
Sa Pala OD13 109.25 114.35 5.1 6.56 19.41
  • Downhole interval, not true width.

**Refer to Appendix A – DH ASSAYS for all gold and silver intersections and drill hole statistics.

The historical drilling was focussed on the five main vein sets that sit within or adjacent to the current footprint of the Sa Pedra Bianca Project investigation permit and which will be fully encompassed by proposed research permit. The drill results from the five veins were used in the estimation of the Osilo Mineral Resource. The veins are described as follows:

Bunnari

The Bunnari vein set is interpreted to consist of two separate quartz veins both of which strike east-northeast and west-south-west, dip steeply to the south-east and average about 3m in width. The two veins

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are some 4m apart and overlap by some 20m. The hanging wall vein is well exposed at surface ~5km to the south-west of Osilo Village and had been sampled extensively over a strike length of ~300m. The continuity of the Bunnari vein set was demonstrated to extend for ~330m along strike and ~300m down dip by a combination of drilling and outcrop sampling. The footwall vein is not exposed at surface.

Pala Edra

The Pala Edra vein outcrops some 3km to the southeast of Osilo Village and comprises primarily a single continuous east-west striking, vertical dipping quartz vein which varies in true width up to 6m and which has been demonstrated by drilling and outcrop to extend for at least 400m along strike and 360m down dip. Towards the east, additional thin and discontinuous veins are also present in the hanging wall to the main vein.

Fieldies

The Fieldies vein comprises a single east-west striking, steep southerly dipping, quartz vein up to 2m in true width. The vein is poorly exposed where it outcrops at surface some 4km to the southeast of Osilo Village, but it has been confirmed by drilling to extend for ~360m along strike and ~240m down dip.

Sa Pala de sa Fae

The Sa Pala de sa Fae vein set was interpreted to be comprised of 6 separate veins, each of which strikes east-north-east and west-south-west, dip to the north-west at angles of up to 70 degrees and be up to 4m wide. The veins outcrop ~3km to the south-east of, and strike parallel to, the Bunnari vein sets but the exposure is poor.

Exploration Potential

Based on its due diligence thus far, Marquee considers the Project to have exceptional upside with real potential to become a 1Moz+ gold district.

GMS performed regional magnetic surveys and a program of regional soil geochemistry, which identified vein systems in the area that offer potential for low sulphidation epithermal gold and silver veins over an area of over 100 square kilometers.

Sa Pedra Bianca is a low sulphidation epithermal gold and silver vein field with over 50 kilometres of mapping completed over 22 vein sets, of which only seven have been drill tested and a number of the 22 veins have received only limited exploration evaluation.

Previous activities focussed mostly on progressing the Bunnari and Pala Edra veins towards development of a trial mining operation. It is postulated that the Pala Edra and Bunnari veins are part of the same mineralisation structure, covering approximately 5km in strike length.

The Osilo Mineral Resource is based on only five veins that, to various extents, are open along strike and at depth.

About Sardinia

Sardinia is an island in the middle of the Mediterranean Sea, west of the Italian mainland. It is approximately 24,000km[2] and has a population of around 1.6 million people.

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Sardinia is an autonomous region within the Republic of Italy and has its own parliament which has a degree of autonomy to carry out the administrative functions of the local body and to create its own laws in a number of areas, including the regulation of the extractive sector (mines and quarries) within the bounds of the Italian Mining Law (1927).

Its main economic sectors are commerce, hotels and restaurants, transport, telecommunications, financial services and real estate, and other services. It also has an important agricultural and fishing sector and an industrial sector including petrochemicals and renewable energy.

Historically, mining played a big part in the Sardinian economy with large, high-grade zinc, lead and silver mines being important suppliers of these metals in post-WW2 Europe. However, due to the prevailing commodity prices at the time, most of these mines closed during the 1970s-80s.

Now, the extractive sector (mines and quarries) is relatively small from a GPD perspective, however in 2018 there were 58 producing quarry sites (mainly extracting granite aggregates and gravels, silica other sands and sandstone) and 12 mines (mainly ceramic and other industrial minerals).

The fluorite/lead Silius Mine is currently being developed by Mineraria Gerrai SRL and is due to commence production in 2026.

Key Terms of the Option Agreements

Marquee has entered into separate but interlinked Option agreements with Spencer and Manca. The Option agreements have been structured so that the consideration payable to the vendors is heavily linked to the Project advancing. NB: All amounts of cash and shares shown below are what Marquee is obliged to pay to the vendors in total, i.e. not per vendor.

The key terms in the agreements include:

  • The Option Agreements are subject to Marquee completing due diligence to its satisfaction by 15 July 2024 ( Condition Precedent ).

  • The total Option fee payable by Marquee to the vendors upon satisfaction or waiver of the Condition Precedent is: $78,000 cash and 3 million MQR listed shares.

  • The Option Period is 12 months following payment of the Option fee with the option period extended if regulatory delays cause the first drill programme to not commence in the first nine months of the Option period.

  • Upon satisfaction of the Condition Precedent an Italian company (“ Opco ”) will be incorporated. Marquee will determine and oversee all Opco’s activities, assisted by the vendors, and will fund all expenditure associated with those activities via an unsecured non-interest loan to Opco.

  • Opco will lodge an application for a research permit including over the Project area (currently held by an investigation permit that allows low impact exploration activities). The research permit will allow for all exploration activities, including drilling. The research permit application will be

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accompanied by a proposed exploration programme broken into phases, that will be designed by Marquee.

  • To exercise the Options to acquire the Project, Marquee must pay (in total to the vendors) $225,000 cash and issue 17.5 million MQR listed shares and is obliged to pay three contingent milestone payments if milestone hurdles are met. Marquee will also grant the vendors a 1% NSR royalty. The hurdles are:

  • Hurdle 1: Payment of $225,000 in cash and the issue of 17.5 million Shares upon a mineral resource estimate under the current JORC Code being delineated for the Project containing no less than 400,000 ounces of gold equivalent at no less than an average grade of 5 grams of gold equivalent per tonne.

  • Hurdle 2 : Payment of $500,000 in cash upon completion of a study of the economics of the Project or any part of the Project of at least scoping study standard that estimates a net present value for the Project (8% real post tax) of greater than US$90 million. Marquee may, to the extent permissible under the ASX Listing Rules, elect to satisfy up to 50% of the $500,000 amount by the issue of shares at a deemed value/issue price of the higher of $0.014 per Share and the price calculated by reference VWAP for Shares calculated by reference to the 15 Trading Days up to the date of completion of such study.

  • Hurdle 3 Payment of $500,000 in cash upon a Mining Concession being granted to Opco for any part of the Project. The Buyer may, to the extent permissible under the ASX Listing Rules, elect to satisfy up to 50% of the $500,000 amount by the issue of shares at a deemed value/issue price of the higher of $0.014 per Share and the price calculated by reference VWAP for Shares calculated by reference to the 15 Trading Days up to the date of grant of the Mining Concession.

  • Hurdle 2 will be deemed to have been satisfied if a Decision to Mine is made by Opco or Marquee, notwithstanding if that decision is made without an economic study being completed or is made after an economic study that produced a lower NPV outcome than specified above. If Hurdle 2 is achieved, then Hurdle 1 will be deemed to have been achieved on the same date (if Hurdle 1 has not previously been achieved).

  • Satisfaction of Hurdles 1 and 2 must be met or deemed met before Hurdle 3 can be deemed to be satisfied.

  • Royalty : If the Option is exercised, Marquee is obliged pay to the vendors an amount equal to 1% of the net smelter returns of all gold or other minerals derived from mining activities at the Project and sold or otherwise disposed of.

  • Should Marquee decide to not exercise the Option, Marquee will meet all outstanding liabilities and obligations, including any exploration rehabilitation, and will assign its interests and rights it holds in relation to the Project to the Vendors, including assigning any outstanding loan receivables to the vendors for $1.

Next Steps

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Based on its due diligence thus far, Marquee considers the Project to have exceptional upside.

Marquee will complete its due diligence on the Project and then design the proposed exploration programme to be included as part of the application for a research (exploration) permit that will encompass the entire historical Osilo Project mineral resource estimate. The time required for the grant of the research permit and any drilling approvals is estimated to be 4-6 months. During this period, Marquee will focus on various exploration activities, including:

  • Retrieval and analysis of as much historical data and information as possible from various sources including archives held by various Sardinian government bodies and geologists who have previously worked on the Project (several of whom are available to assist in future Project activities). Previous exploration work included comprehensive soil and trench sampling, drilling, geophysics, mapping, mine planning and various associated studies to assist in applying for a mining concession, including hydrology and environmental studies.

  • Undertaking various low impact exploration work (e.g. soil geochemistry, mapping), as permitted by the existing investigation permit.

  • Planning an engagement strategy to govern interaction with Sardinian regulatory authorities, local communities and other stakeholders. The key tenet of the strategy will be to advance and develop the Project by applying best practice ESG principles and in a manner consistent with European and Italian principles for extracting sustainable raw materials.

Following the grant of the research permit and drill programmes and before a decision to exercise the Options needs to be made, a Reverse Circulation (RC) and Diamond drill (DD) campaign will be undertaken with the objectives of providing confidence in the results achieved from historical drilling and to test down dip and extensions of previously drilled veins as well test new veins for mineralisation.

COMPETENT PERSON STATEMENT

The information in this report which relates to Exploration Results is based on information compiled by Dr. James Warren, a Competent Person who is a member of the Australian Institute of Geoscientists. Dr. Warren is the Chief Technical Officer of Marquee Resources Limited. Dr. Warren has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the “Australian Code of Reporting of Exploration Results, Mineral Resources and Ore Reserves”. Dr. Warren consents to the inclusion in this report of the matters based on the information in the form and context in which it appears.

HISTORICAL ESTIMATE

The information in this report that relates to non-JORC Historical Estimates is based on information compiled by Dr James Warren, a Competent Person who is a member of the Australian Institute of Geoscientists. Dr. Warren is the Chief Technical Officer of Marquee Resources Limited. Dr. Warren has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the

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Australian Code of Reporting of Exploration Results, Mineral Resources and Ore Reserves). The information in this announcement provided under ASX Listing Rules 5.12.2 to 5.12.7 is an accurate representation of the available data and studies for the Sa Pedra Deposit.

FORWARD LOOKING STATEMENTS

Statements contained in this release, particularly those regarding possible or assumed future performance, costs, dividends, production levels or rates, prices, resources, reserves or potential growth of Marquee Resources Limited, are, or may be, forward looking statements. Such statements relate to future events and expectations and, as such, involve known and unknown risks and uncertainties. Actual results and developments may differ materially from those expressed or implied by these forward-looking statements depending on a variety of factors.

This ASX Release has been approved by the Board of Directors.

Charles Thomas – Executive Chairman Marquee Resources [email protected]

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JORC Code, 2012 Edition – Table 1 report template

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 No sampling completed by Marquee Resources
techniques cut channels, random chips, or Ltd.
specific specialised industry Prior to September 1995 all the exploration at
standard measurement tools Osilo
had
been
undertaken
under
the
appropriate to the minerals under management of Progemisa. After September
investigation, such as down hole 1995 the work was managed by Sardinia Gold
gamma sondes, or handheld XRF Mining SpA (“GMS”).
instruments, etc). These examples The logging methodologies and the primary and
should not be taken as limiting the check laboratories used have varied with time.
broad meaning of sampling. The data available for use, and the data used, to
Include reference to measures derive the resource estimates given here
taken to ensure sample therefore have been collected from a variety of
representivity and the appropriate sources.
calibration of any measurement The historical data comprises outcrop mapping
tools or systems used. and channel sampling, borehole logging and
Aspects of the determination of assay data, and density determinations carried
mineralisation that are Material to out on drill core.
the Public Report. Historical drilling data was compiled and audited
In cases where ‘industry standard’ by SRK Consulting (UK) Ltd in 2022 by Dr Jamie
work has been done this would be Price.
relatively simple (eg ‘reverse The historical data retrieved comprises collar
circulation drilling was used to (header), survey, lithology, assay, geotech and
obtain 1 m samples from which 3 kg met testwork data.
was pulverised to produce a 30 g These have been compiled in the excel file
charge for fire assay’). In other Osilo_Au_database.xlsx.
cases, more explanation may be The historical drillhole database contains 655
required, such as where there is
coarse gold that has inherent
sampling problems. Unusual
commodities or mineralisation types
(eg submarine nodules) may
warrant disclosure of detailed
holes/channels drilled in 21 areas covering a
total length of 56,429.56m and Assay data for
17,157 samples over a total assayed sample
length of 21,622.80m
Historical Resource
information. Although there is a variety of historical data
available, data specific to the historical resource
estimate was collected by GMS from 1998-2000
and consisted of reverse-circulation (RC) and
diamond drilling (DD).
In some cases, diamond tails were drilled from
an RC collar.
DD = 249 holes for 44,002m
RC = 61 holes for 8,003.5m
RC+DD = 4 holes for 1,066.9m
All the drilling was carried out using a HQ hole
diameter and has been surveyed using Eastman
Single Shot equipment usually after 30m and
thereafter every 50m.
In the case of DD, the core was cut for assaying
using variable sample lengths up to 1m, cut
against geological contacts.
In the case of RC drilling, 1m samples from
which ~3kg was pulverised for fire assay.
The sample preparation and the primary check
assayingwas carried out at three different

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Criteria JORC Code explanation Commentary Commentary
laboratories; Laboratorio Chimico Progemisa
(Progemisa), in Iglesias, Sardinia; Genalysis
Laboratory Services (Genalysis), in Perth,
Australia; and OMAC Laboratories Limited
(OMAC) in Loughrea, Ireland. Some 60% of all
the values used in the estimation procedure, and
over 90% of those at Pala Edra, Bunnari and
Fieldies were prepared and assayed at OMAC.
The entire sample submitted to Progemisa was
crushed to –2mm, a 4.5kg sub-sample was then
pulverised to 90% -75um and a 150 gramme
sub-sample taken from this. Assaying for both
gold and silver was undertaken using AAS after
digestion of 15 gramme sub-samples with Aqua
Regia. All samples assayed at Genalysis were
prepared as above at Progemisa and then 50
gramme fire assayed for gold and ICP assayed
for silver at Genalysis. Samples sent to OMAC
were prepared at OMAC as above except that
150 gramme sub-samples were pulverised to -
100um and 30 gramme charges were fire
assayed. Silver assays were undertaken using
AAS.
Drilling Drill type (eg core, reverse Although there is a variety of historical data
techniques circulation, open-hole hammer, available, data specific to the historical resource
rotary air blast, auger, Bangka, estimate was collected by GMS from 1998-2000
sonic, etc) and details (eg core and consisted of reverse-circulation (RC) and
diameter, triple or standard tube, diamond drilling (DD).
depth of diamond tails, face- In some cases, diamond tails were drilled from
sampling bit or other type, whether an RC collar.
core is oriented and if so, by what DD = 249 holes for 44,002m
method, etc). RC = 61 holes for 8,003.5m
RC+DD = 4 holes for 1,066.9m
All the drilling has been carried out using a HQ
hole diameter and has been surveyed using
Eastman Single Shot equipment usually after
30m and thereafter every 50m.
Drill sample Method of recording and assessing Core loss in veins such as Bunnari and Pala
recovery core and chip sample recoveries Edra was previously identified by GMS as
and results assessed. related to high level of weathering/oxidation of
Measures taken to maximise the softer associated carbonates and sulphates
sample recovery and ensure in the veins, which, once subjected to grinding
representative nature of the and introduction of water, completely
samples. disintegrate. Argillic alteration around the vein
Whether a relationship exists itself also adds to the problem of ground stability
between sample recovery and grade and core loss at the contact of the vein with
and whether sample bias may have surrounding country rock.
occurred due to preferential GMS developed an approach to reconcile these
loss/gain of fine/coarse material. core losses. Within intersections where such
core loss (100% loss) occurs, sections with no
core recovery were assessed the same grade as
the average grade of the whole intersection.
Where partial core recovery occurs (e.g. 70%),
core was assumed to be ‘ground’ i.e. core
recovered was assumed to represent the core
that was lost,in terms of densityandgrade.

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Criteria JORC Code explanation Commentary Commentary
The Company is aware of limitations in the
historical Resource estimate with respect to
core-losses and possible over estimation of
densities in some parts of the vein systems.
The Company proposes to use triple-tubed
diamond drill core in future exploration programs
to effectively sample the argillic altered zones
and minimize/eliminate core loss.
Logging Whether core and chip samples All holes were logged in full and record
have been geologically and geological information such as colour,
geotechnically logged to a level of weathering, lithology, structure, mineralisation
detail to support appropriate Mineral and any other observations of importance.
Resource estimation, mining studies
The Company’s opinion is that further
and metallurgical studies. metallurgical, hydrological and geotechnical data
Whether logging is qualitative or is required to be collected, and mine planning
quantitative in nature. Core (or work needs to be undertaken based on this
costean, channel, etc) photography. data, before any portions of the delineated
The total length and percentage of orebodies could be reported as Ore Reserves.
the relevant intersections logged. The Company is confident that the work
undertaken on all the above aspects is sufficient
to indicate that the delineated veins do have the
potential to be exploited economically.
Sub-sampling
If core, whether cut or sawn and		 In the case of DD, the core was cut for assaying
techniques whether quarter, half or all core using variable sample lengths up to 1m, cut
and sample taken. against geological contacts.
preparation If non-core, whether riffled, tube In the case of RC drilling, 1m samples from
sampled, rotary split, etc and which ~3kg was pulverised for fire assay.
whether sampled wet or dry. The sample preparation and the primary check
For all sample types, the nature, assaying has been carried out at three different
quality and appropriateness of the laboratories; Laboratorio Chimico Progemisa
sample preparation technique. (Progemisa), in Iglesias, Sardinia; Genalysis
Quality control procedures adopted Laboratory Services (Genalysis), in Perth,
for all sub-sampling stages to Australia; and OMAC Laboratories Limited
maximise representivity of samples. (OMAC) in Loughrea, Ireland. Some 60% of all
Measures taken to ensure that the the values used in the estimation procedure, and
sampling is representative of the in over 90% of those at Pala Edra, Bunnari and
situ material collected, including for Fieldies were prepared and assayed at OMAC.
instance results for field The entire sample submitted to Progemisa was
duplicate/second-half sampling. crushed to –2mm, a 4.5kg sub-sample was then
Whether sample sizes are pulverised to 90% -75um and a 150 gramme
appropriate to the grain size of the sub-sample taken from this. Assaying for both
material being sampled. gold and silver was undertaken using AAS after
digestion of 15 gramme sub-samples with Aqua
Regia. All samples assayed at Genalysis were
prepared as above at Progemisa and then 50
gramme fire assayed for gold and ICP assayed
for silver at Genalysis. Samples sent to OMAC
were prepared at OMAC as above except that
150 gramme sub-samples were pulverised to -
100um and 30 gramme charges were fire
assayed. Silver assays were undertaken using
AAS.
Quality of The nature, quality and The quality of the sample preparation and
assay data appropriateness of the assaying and assaying was monitored over time by a
and laboratory procedures used and combination of internal duplicate assaying
laboratory whether the technique is considered and check assaying between Progemisa and
tests partial or total. Genalysis. It is believed that no standards

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Criteria JORC Code explanation Commentary Commentary
For geophysical tools, assaying
was
carried
out
and
no
spectrometers, handheld XRF independent
check
assaying
was
instruments, etc, the parameters undertaken on the samples sent to OMAC.
used in determining the analysis No significant concerns were raised from the
including instrument make and work that was undertaken, other than to
model, reading times, calibrations confirm that the Aqua Regia assaying
factors applied and their derivation, carried out at Progemisa underestimates
etc. grade relative to fire assaying at Genalysis.
Nature of quality control procedures Density determinations were made on
adopted (eg standards, blanks, samples
collected
from
most
of
the
duplicates, external laboratory orebodies. These were all gravimetric
checks) and whether acceptable determinations of short lengths of half core
levels of accuracy (ie lack of bias) coated in wax. Most of the determinations
and precision have been were carried out at Genalysis in Perth and
established. were consistently between 2.2 g/cm3 and
2.7g/cm3.
Verification of
The verification of significant		 The sampling and assaying was independently
sampling and intersections by either independent reviewed by consultancy groups including;
assaying or alternative company personnel.
Steffen, Robertson & Kirsten (UK) Ltd, June
The use of twinned holes. 2000.
Documentation of primary data, data
David M. Rigg, P.Geo, Senior Associate
entry procedures, data verification, Geologist, Mincon International Inc.
data storage (physical and November 2003.
electronic) protocols. The sampling and information pertaining to the
Discuss any adjustment to assay release has been verified by the Competent
data. Person.
Location of Accuracy and quality of surveys All data identified in the historical databases
data points used to locate drill holes (collar and (drilling data, wireframes and block models) are
down-hole surveys), trenches, mine present in a modified version of the WGS 1984
workings and other locations used in Zone 32N co-ordinate system:
Mineral Resource estimation.
X values given as WGS 1984 Zone 32N
Specification of the grid system with the prefix “1” in front of each X co-
used. ordinate.
Quality and adequacy of
Y values correct as per WGS 1984 Zone
topographic control. 32N.

Z values given as elevation in metres, but
with the prefix “10” in front of each Z value.
To convert co-ordinates to WGS 1984 Zone
32N, the following changes have been made to
the drillhole collar file and block model
databases:

X values: 1,000,000 subtracted from each
co-ordinate to give corrected X co-ordinate
(X_WGS84_Z32N_SRK field)

Y values: duplicated as
Y_WGS84_Z32N_SRK field

Z values: 10,000 subtracted from each
value to give corrected Z value (Z_SRK
field)

The X and Z positions of wireframes
retrieved from the historical databases have
been adjusted using the corrections stated
above.

A visual check of a selection of corrected
collar and channel sample locations has
been undertaken using satellite imagery,
where collar co-ordinates were observed to
match the locations of visible remnants of

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Criteria JORC Code explanation Commentary
drillhole collars, and channel sample
locations follow field boundaries and tracks.
•The Competent Person has verified the data
pertaining to the Historical Resource Estimate.
Data spacing Data spacing for reporting of •Independent and Company audits concur that
and Exploration Results. the drillhole spacing has been sufficient to
distribution Whether the data spacing and enable the physical geometry of portions of the
distribution is sufficient to establish Pala Edra, Bunnari and Fieldies orebodies to be
the degree of geological and grade outlined to a reasonable level of confidence.
continuity appropriate for the •However, while we consider that the continuity
Mineral Resource and Ore Reserve of these veins has been reasonably well
estimation procedure(s) and demonstrated, and the overall mean grade
classifications applied. determined for these areas to be reliable, the
Whether sample compositing has spatial variation over smaller distances, such as
been applied. would for example be required to guide mine
planning, is in our opinion not yet known.
•Further infill grade information is therefore
required ahead of detailed mine planning.
Orientation of Whether the orientation of sampling •The veins, the subject of this release, dip
data in achieves unbiased sampling of vertically to sub-vertically and have varying
relation to possible structures and the extent to
orientations.
geological which this is known, considering the
•Angled drillholes (-60o) have been completed
structure deposit type. perpendicular to the strike of the known veins.
If the relationship between the •Due to the steep dipping nature of the veins, the
drilling orientation and the drillhole intercepts do not represent true widths.
orientation of key mineralised •True widths are interpreted to be 30-50% of
structures is considered to have drillhole widths.
introduced a sampling bias, this
should be assessed and reported if
material.
Sample The measures taken to ensure •Sample security measures are unknown for the
security sample security. historical data.
Audits or The results of any audits or reviews •The historical data has been independently
reviews of sampling techniques and data. reviewed by consultancy groups including;

Steffen, Robertson & Kirsten (UK) Ltd, June
2000.

David M. Rigg, P.Geo, Senior Associate
Geologist, Mincon International Inc.
November 2003.

Dr Jamie Price, SRK Consulting (UK) Ltd,
June 2022.
•The Historical data and reports have been
reviewed and verified by the Competent Person.

Section 2 Reporting of Exploration Results

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

Criteria JORC Code explanation Commentary
Mineral Type, reference name/number, •The Investigation Authorisation permit (mining
tenement and
location and ownership including		 title) is named “Sa Pedra Bianca” and was
land tenure agreements or material issues with issued by the Sardinian Department of Industry
status third parties such as joint ventures, by Determination number 775 with protocol
partnerships, overriding royalties, 38034 on 3 October 2022 and as extended for
native title interests, historical sites, an additional year by Determination number 772
wilderness or national park and protocol 47005 on 3 November 2023.
environmental settings.

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Criteria JORC Code explanation Commentary Commentary
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.
Exploration Acknowledgment and appraisal of Prior to September 1995 all the exploration at
done by other
exploration by other parties.		 Osilo
had
been
undertaken
under		 the
parties management of Progemisa. From that time the
work was managed by SGM.
All relevant exploration completed by other
parties has been provided in the text and JORC
Tables.
Although there is a variety of historical data
available, data specific to the historical resource
estimate was collected by GMS from 1998-2000
and consisted of reverse-circulation (RC) and
diamond drilling (DD).
In some cases, diamond tails were drilled from
an RC collar.
DD = 249 holes for 44,002m
RC = 61 holes for 8,003.5m
RC+DD = 4 holes for 1,066.9m
Geology Deposit type, geological setting and The Osilo orebodies comprise low sulphidation
style of mineralisation. epithermal gold and silver vein systems which
outcrop to the south and southeast of the village
of Osilo. The orebodies are hosted by Oligocene
age andesite-basalt-dacite lava flows and flow
domes and rhyo-dacite ignimbrites. These occur
within a ring structure identified by SGM from a
combination of DTM, Landsat and ground
magnetic data.
To date over 20 vein systems have been
identified outcropping over a total area of some
100km2. These are generally oxidised down to
depths of between 20m and 40m though some
degree of partial oxidation is usually visible for
some distance below this. The gold is
considered to be generally free but very fine
grained.
Drill hole A summary of all information Drill hole information has been provided as
Information material to the understanding of the APPENDICES
exploration results including a
tabulation of the following
information for all Material drill holes:
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
o dip and azimuth of the hole
o down hole length and
interception depth
o hole length.
If the exclusion of this information is
justified on the basis that the
information is not Material and this
exclusion does not detract from the
understanding of the report, the

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Criteria JORC Code explanation Commentary
Competent Person should clearly
explain why this is the case.
Data In reporting Exploration Results, •Compositing of each vein intersection over the
aggregation weighting averaging techniques, full width of the vein to derive a single
methods maximum and/or minimum grade intersected vein width, a true vein width and
truncations (eg cutting of high mean gold and silver grades for each
grades) and cut-off grades are intersection.
usually Material and should be •Missing core was assumed to have a grade
stated. equal to the mean grade of the whole
Where aggregate intercepts intersection.
incorporate short lengths of high •In deriving these grades one value of 94 g/t Au
grade results and longer lengths of at Fieldies was considered to be an outlier and
low grade results, the procedure scaled back to 50 g/t Au.
used for such aggregation should be
•In the case of Bunnari outcrop channel samples
stated and some typical examples of
were included in the process along with
such aggregations should be shown borehole intersections. In this case the full width
in detail. of the vein had been exposed and the data was
The assumptions used for any considered to be reliable. This was not the case
reporting of metal equivalent values with the other veins and therefore in these cases
should be clearly stated. only borehole data was used.
•Extrapolated the above mean composited
assays into the block models using inverse
distance weighting.
•Vein intersections outside of the interpreted
orebody limits (for example where intersections
were less than 3 g/t Au over a true width of 1m)
were included in the extrapolation process to
prevent higher grades being given too high a
weighting at the edges of the interpreted
orebodies.
•All vein intersections within the interpreted
outlines were used regardless of whether or not
these satisfied the above conditions regarding
vein width and grade.
Relationship These relationships are particularly •The veins, the subject of this release, dip
between important in the reporting of vertically to sub-vertically and have varying
mineralisation
Exploration Results.		 orientations.
widths and If the geometry of the mineralisation •Angled drillholes (-60o) have been completed
intercept with respect to the drill hole angle is perpendicular to the strike of the known veins.
lengths known, its nature should be •Due to the steep dipping nature of the veins, the
reported. drillhole intercepts do not represent true widths.
If it is not known and only the down •True widths are interpreted to be 30-50% of
hole lengths are reported, there drillhole widths.
should be a clear statement to this
effect (eg ‘down hole length, true
_width not known’). _
Diagrams Appropriate maps and sections (with
•Appropriate diagrams are included in the body of
scales) and tabulations of intercepts the release.
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.
Balanced Where comprehensive reporting of •All relevant information pertaining to the
reporting all Exploration Results is not Historical Resource Estimate has been
practicable, representative reporting released.
of both low and high grades and/or

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Criteria JORC Code explanation Commentary
widths should be practiced to avoid
misleading reporting of Exploration
Results.
Other Other exploration data, if meaningful
•The Company has received an extensive data
substantive and material, should be reported room containing geophysical, geochemical,
exploration including (but not limited to): geological, mapping and sampling datasets.
data geological observations; geophysical
•The Company also has reviewed historical
survey results; geochemical survey resource wireframes and block models.
results; bulk samples – size and •It is the Company’s opinion further metallurgical,
method of treatment; metallurgical hydrological and geotechnical data is required to
test results; bulk density, be collected, and mine planning work needs to
groundwater, geotechnical and rock be undertaken based on this data, before any
characteristics; potential deleterious portions of the delineated orebodies could be
or contaminating substances. reported as Ore Reserves, we are confident that
the work undertaken on all the above aspects is
sufficient to indicate that the delineated veins do
have the potential to be exploited economically.
Further work The nature and scale of planned •The Company plans to continue data review and
further work (eg tests for lateral compilation.
extensions or depth extensions or •Following a site visit, the Company will look to
large-scale step-out drilling). complete diamond drilling to verify the historical
Diagrams clearly highlighting the data.
areas of possible extensions, •The Company will update the market with
including the main geological proposed future work programs.
interpretations and future drilling
areas, provided this information is
not commercially sensitive.

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Details of non-JORC Historical Resource Estimates in relation to ASX LR Chapter 5

Sections 5.10 to 5.12: Requirements applicable to reports of historical estimates and foreign estimates of mineralisation for material mining projects

ASX Listing Rule Reference to previous announcement or compliance in current draft
5.12.1 - The source and date of the historical
estimates or foreign estimates.		 Primary Source
The information on the historical estimate is extracted from an ASX
release code “GMS” created on 27 April 2001 titled “Annual
Report/Top 20” (available on the ASX website).
Secondary Sources
“Technical Report on the Furtei, Osilo and Monte Ollasteddu
Properties, Sardinia Italy” Form 43-101 F1 Technical Report for Full
Rich Investments Ltd completed by David M. Rigg, P.Geo, Senior
Associate Geologist, Micon International Inc., Toronto, Ontario.
November 2003
“Osilo Gold Project, In Situ Resource Audit” prepared for: Sardinia
Gold Mining SpA, Prepared by: Dr Mike Armitage, Principal Resource
Geologist, Steffen, Robertson & Kirsten (UK) Ltd, Cardiff. June 2000.
5.12.2 - Whether the historical estimates or foreign estimates use
categories of mineralisation other than those defined in Appendix 5A
(JORC Code) and if so, an explanation of the differences.		 The reported resource estimates are consistent with the 1999 JORC
Code guidelines and are not reported in accordance with the 2012
JORC Code. A competent person has not completed sufficient work to
accurately classify the historical estimate as a Mineral Resource under
the 2012 JORC Code.
5.12.3 - The relevance and materiality of the historical estimates or
foreign estimates to the
entity.		 The historical estimates for the gold and silver deposits are relevant
and material to MQR’s planned exploration efforts at Sa Pedra, as it
pertains to a project that could potentially be economically viable for
the Company. This data is relevant to ongoing exploration efforts of
the Company.

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5.12.4 - The reliability of the historical estimates or foreign estimates, including by reference to any of the criteria in Table 1 of Appendix 5A (JORC Code) which are relevant to understanding the reliability of the historical estimates or foreign estimates.

5.12.5 - To the extent known, a summary of the work programs on which the historical estimates or foreign estimates are based and a summary of the key assumptions, mining and processing parameters and methods used to prepare the historical estimates or foreign estimates.

The historical estimate referred to at the Project was reported by Gold Mines of Sardinia Ltd (ASX:GMS) and prepared by Steffen, Robertson and Kristen (UK) Limited. The historical estimate is consistent with the 1999 JORC Code guidelines.

To the extent known to the Company, the historic reports indicate the following drilling has occurred on the property and make up the historical resource:

  • Diamond Drilling = 249 holes for 44,002m

  • Reverse Circulation Drilling = 61 holes for 8,003.5m

  • Reverse Circulation Drilling with Diamond Tails = 4 holes for 1,066.9m

  • The data used directly in the estimation process comprises outcrop mapping and channel sampling, borehole logging and assay data, and density determinations carried out on drill core.

  • While in all cases the mapping of the vein outcrops has assisted in developing 3-D models and in giving confidence to the continuity of the vein systems, only at Bunnari has the surface channel sampling data been used directly in the estimation process as only in this case has the full vein been exposed.

  • Prior to 1995 the drilling was managed and carried out inhouse by Progemisa. Since this time drilling was managed and carried out in house by GMS. All the drilling at Pala Edra, Bunnari and Fieldies has been carried out since 1995.

  • All the drilling has been carried out using an HQ hole diameter and all as been surveyed using Eastman Single Shot equipment usually after 30m and thereafter every 50m. Detailed geological logs have been produced and the core halved before assaying. While the terms and detail in the geological

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  • logs has changed with time, each intersection used in the estimation process has been check logged and standardised by the current geological team.

  • The core has been cut for assaying using variable sample lengths up to 1m, cut against geological contacts. These variable lengths have been allowed for in the compositing procedure discussed in Section 6.

  • The sample preparation and the primary and check assaying has been carried out at three different laboratories; Laboratorio Chimico Progemisa (Progemisa), in Iglesias, Sardinia; Genalysis Laboratory Services (Genalysis), in Perth, Australia; and OMAC Laboratories Limited (OMAC) in Loughrea, Ireland. Some 60% of all the values used in the estimation procedure, and over 90% of those at Pala Edra, Bunnari and Fieldies were prepared and assayed at OMAC.

  • The entire sample submitted to Progemisa was crushed to – 2mm, a 4.5kg sub-sample was then pulverised to 90% -75�m and a 150 gramme sub-sample taken from this. Assaying for both gold and silver was undertaken using AAS after digestion of 15 gramme sub-samples with Aqua Regia. All samples assayed at Genalysis were prepared as above at Progemisa and then 50 gramme fire assayed for gold and ICP assayed for silver at Genalysis. Samples sent to OMAC were prepared at OMAC as above except that 150 gramme sub-samples were pulverised to -100�m and 30 gramme charges were fire assayed. Silver assays were undertaken using AAS.

  • • The quality of the sample preparation and assaying has been monitored over time by a combination of internal duplicate assaying and check assaying between Progemisa and Genalysis. No standards assaying has been carried out to date and no independent check assaying has been undertaken on

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the samples sent to OMAC. No significant concerns have been raised from the work that has been undertaken to date, other than to confirm that the Aqua Regia assaying carried out at Progemisa underestimates grade relative to fire assaying at Genalysis.

  • Density determinations have been made on samples collected from most of the orebodies. These are all gravimetric determinations of short lengths of half core coated in wax. Most of the determinations have been carried out at Genalysis in Perth and are consistently between 2.2 g/cm3 and 2.7 g/cm3.

  • The JORC Code requires that Mineral Resources have the potential to be mined and processed at a profit. A certain amount of technical work has already been undertaken by GMS to assess the amenability of the orebodies so far identified at Osilo to exploitation. This has primarily comprised underground mining studies and preliminary metallurgical cyanidation test work.

  • • While the Company’s opinion is further metallurgical, hydrological and geotechnical data is required to be collected, and mine planning work needs to be undertaken based on this data, before any portions of the delineated orebodies could be reported as Ore Reserves, we are confident that the work undertaken on all the above aspects is sufficient to indicate that the delineated veins do have the potential to be exploited economically.

  • • The Company is confident the geometry and grades of the veins is such that they should in our opinion be amenable to selective underground mining and the preliminary metallurgical test work has indicated that the ore should be amenable to processing using some form of cyanidation.

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Overall, therefore, we are confident that the amenability of
portions of the orebodies to exploitation has been sufficiently
demonstrated.
5.12.6 - Any more recent estimates or data relevant to the reported
mineralisation available to the entity.		 To the extent known to the Company, historic reports indicate that no
drilling has occurred on the property since the historical resource
estimate.
5.12.7 - The evaluation and/or exploration
work that needs to be completed to verify the historical estimates or
foreign estimates as mineral resources or ore reserves in accordance
with Appendix 5A (JORC Code)		 Further exploration field work is required including surveying all
historical drillholes and drilling at the deposit. MQR and its
consultants are attempting to source and review historical reports,
core material and information that is also required to verify further
the historical estimates.
The Company is aware of limitations in the current Resource estimate
with respect to core-losses and possible over estimation of densities
in some parts of the vein systems.
The Company proposes to use triple-tubed diamond drill core in
future exploration programs to effectively sample the argillic altered
zones and minimize/eliminate core loss.
5.12.8 - The proposed timing of any evaluation and/or exploration
work that the entity intends to undertake and a comment on how the
entity intends to fund that work.		 MQR is currently in the process of sourcing data and will begin to plan
new drilling to improve geological understanding and controls on of
the mineralisation.
MQR is an ASX-listed Company and will fund exploration work in
compliance with listing rules, its Constitution, market conditions and
appropriate shareholder approval.
5.12.9 - A cautionary statement proximate to, and with equal
prominence as, the reported historical estimates or foreign estimates
stating that: the estimates are historical estimates or foreign
estimates and are not reported in accordance with the JORC Code; a
competent person has not done sufficient work to classify the
historical estimates or foreign estimates as mineral resources or ore		 The following cautionary statement has been inserted in the report
proximal to mention of historical resources:
“This reported estimate is a historical estimate which is not reported in
accordance with the 2012 JORC Code. A competent person has not
done sufficient work to classify the historical estimates as a mineral
resource in accordance with the 2012 JORC Code. It is uncertain that

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reserves in accordance with the JORC Code; and it is uncertain that
following evaluation and/or further exploration work that the
historical estimates or foreign estimates will be able to be reported as
mineral resources or ore reserves in accordance with the JORC Code		 following further exploration work that the historical estimate will be
able to be reported as a mineral resource in accordance with the 2012
JORC Code.”
5.12.10 - A statement by a named competent person or persons that
the information in the market announcement provided under rules
5.12.2 to 5.12.7 is an accurate representation of the available data
and studies for the material mining project. The statement must
include the information referred to in rule 5.22(b) and (c).		 Dr James Warren is the Company’s Chief Technical Officer and is the
Competent Person for this report. The following statement has been
included in the Competent Person section: “The information in this
report that relates to non-JORC Historical Estimates is based on
information compiled by Dr James Warren, a Competent Person who
is a member of the Australian Institute of Geoscientists. Dr. Warren is
the Chief Technical Officer of Marquee Resources Limited. Dr. Warren
has sufficient experience relevant to the style of mineralisation and
type of deposit under consideration and to the activity he is
undertaking to qualify as a Competent Person as defined in the 2012
Edition of the Australian Code of Reporting of Exploration Results,
Mineral Resources and Ore Reserves). The information in this
announcement provided under ASX Listing Rules 5.12.2 to 5.12.7 is an
accurate representation of the available data and studies for the Sa
Pedra Deposit.”

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APPENDIX A – DH ASSAYS

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DH ASSAYS

HOLE-ID FROM TO INT LAB Au_ppm Ag_ppm
OBC01 3.4 3.8 0.3 PRO 6.89
OBC01 2.5 3.1 0.6 PRO 6.893
OBC01 0.5 1.5 1 PRO 9.651
OBC01 3.8 4.45 0.65 OMA 12.44 12.3
OBC01 1.5 2.5 1 PRO 20.88
OBC02 1 2 1 PRO 2.696
OBC02 0 1 1 PRO 2.824
OBC03 5.1 5.6 0.5 PRO 1.155
OBC03 0 1.6 1.6 PRO 1.624
OBC03 3.1 4.1 1 PRO 3.048
OBC03 1.6 2.6 1 PRO 4.113
OBC03 4.1 5.1 1 PRO 5
OBC04 0 1 1 PRO 1.05
OBC04 9.2 10.2 1 PRO 1.09
OBC04 12.7 13.7 1 PRO 1.77
OBC04 8.2 9.2 1 PRO 1.85
OBD01 265 266 1 OMA 1.04 0.5
OBD01 238.1 238.9 0.8 OMA 1.53 3.3
OBD01 231.1 231.3 0.2 OMA 2.46 1.1
OBD01 237.3 238.1 0.8 OMA 4.02 12.7
OBD01 236.35 237.15 0.8 OMA 5.36 4.4
OBD01 231.3 232.3 1 OMA 5.72 2.5
OBD01 234.65 235.35 0.7 OMA 6.32 5.3
OBD01 230.4 231.1 0.7 OMA 7.28 3.6
OBD01 235.35 236.35 1 OMA 7.84 4.4
OBD01 275.2 276 0.8 OMA 7.92 6.7
OBD01 237.15 237.3 0.15 OMA 11.84 11.1
OBD01 233.35 234.65 1.3 OMA 13.24 10.6
OBD01 232.8 233.35 0.55 OMA 14.04 6.8
OBD01 232.3 232.8 0.5 OMA 16.52 7.6
OBD01 229.3 230.4 1.1 OMA 61.44 29.3
OBD02 125 126 0.5 OMA 1.42 39.1
OBD02 124.35 125 0.65 OMA 1.45 64.4
OBD02 117.5 117.65 0.15 OMA 1.69 10.4
OBD02 114 114.95 0.95 OMA 2.66 15.8
OBD02 112 113.3 1.3 OMA 2.72 25.8
OBD02 115.3 115.7 0.4 OMA 3 33.2
OBD02 121.7 122.6 0.9 OMA 4.59 53.3
OBD02 115.7 116.9 1.2 OMA 6.08 53.1
OBD02 128.5 130 1.5 OMA 7.4 80.2
OBD02 119.85 120.5 0.65 OMA 7.99 168
OBD02 118.3 119.1 0.8 OMA 8.47 34
OBD02 123.5 124.35 0.85 OMA 9.59 211
OBD02 118.1 118.3 0.2 OMA 9.63 37.9
OBD02 113.3 114 0.7 OMA 10.84 77.6
OBD02 119.1 119.85 0.75 OMA 11.27 134
OBD02 122.6 123.5 0.9 OMA 11.43 122
OBD03 124.6 125.6 1 OMA 1.15 14.5
OBD03 116.65 117.65 1 OMA 1.7 1.6
OBD03 120.6 121.6 1 OMA 2.42 9.9
OBD03 118.65 119.6 0.95 OMA 7.32 34.2
OBD03 119.6 120.6 1 OMA 7.4 24.8
OBD03 117.65 118.65 1 OMA 28 137
OBD04 35 36 1 OMA 1.04 1.1
OBD04 33 34 1 OMA 1.08 2.2
OBD04 168 169.3 1.3 OMA 1.16 5.1
OBD04 171.3 172.3 1 OMA 1.49 7.5
OBD04 172.3 173.2 0.9 OMA 2.09 11.5
OBD04 170.3 171.3 1 OMA 3.47 10.5
OBD04 169.3 170.3 1 OMA 4.97 12.7
OBD04 142.3 143.3 1 OMA 8.56 36.5
OBD04 173.2 174.15 0.95 OMA 9.04 31.6
OBD05 112.4 113.4 1 OMA 1.19 2.1
OBD06 187.55 188 0.45 OMA 1.18 6.4
OBD06 233.9 235 1.1 OMA 1.27 2.1
OBD06 185.75 186.75 1 OMA 2.02 8.7
OBD06 184.75 185.75 1 OMA 3.59 46.7
OBD06 231.85 232.85 1 OMA 4.4 22.3
OBD06 188 189.1 1.1 OMA 4.52 26.7
OBD06 183.75 184.75 1 OMA 6.4 25.2
OBD06 186.75 187.55 0.8 OMA 8.44 10.1
OBD06 232.85 233.9 1.05 OMA 17.88 37.2
OBD07 119.2 120.2 1 OMA 1.55 46.1
OBD07 120.2 120.75 0.55 OMA 1.62 55.3
OBD07 118.2 119.2 1 OMA 5.96 62.2
OBD07 117.2 118.2 1 OMA 6.52 29.2
OBD08 228 229 1 OMA 2.25 3.1
OBD08 223.8 224.5 0.7 OMA 2.43 7.4
OBD08 223.05 223.5 0.45 OMA 2.92 5.6
OBD08 224.5 225.3 0.8 OMA 10.08 5.2
OBD08 227.9 228 0.1 OMA 20.32 12.6
OBD08 226.8 227.3 0.5 OMA 30.56 21.9
OBD08 226.1 226.4 0.3 OMA 57.12 37.2
OBD09 219 220 1 OMA 1.02 1.6
OBD09 213 214 1 OMA 1.15 2.8
OBD09 222 223 1 OMA 1.3 1.1
OBD09 216 217 1 OMA 1.81 1.7
OBD09 214 215 1 OMA 1.95 1.6
OBD09 215 216 1 OMA 3.55 3.2
OBD09 209.5 210.5 1 OMA 7.45 8.6
OBD09 206.5 207.5 1 OMA 7.8 10.8
OBD09 208.5 209.5 1 OMA 14.28 36.8
OBD09 207.5 208.5 1 OMA 16.68 18.7
OBD09 210.5 211 0.5 OMA 20.8 11.8
OBD09 205.5 206.5 1 OMA 47.8 24.3
OBD11 277.65 278.2 0.55 OMAC 1.1 3.4
OBD11 278.2 279.2 1 OMAC 1.31 10.5
OBD11 279.4 280.2 0.8 OMAC 3.35 5.2
OBD11 280.2 280.9 0.7 OMAC 6.36 6.6
OBD12 267.9 270.3 2.4 OMA 1.67 5.1
OBD13 259.3 259.8 0.5 OMA 1.07 3.8
OBD13 258.3 259.3 1 OMA 2.18 6.8
OBD13 259.8 260.3 0.5 OMA 3.22 4.1
OBD13 257.3 258.3 1 OMA 3.35 6.8
OBD13 254.8 255.3 0.5 OMA 3.69 7.7
OBD13 256.3 257.3 1 OMA 4.14 7.2
OBD13 255.3 256.3 1 OMA 5.87 12.5
OBD14 301 302.2 1.2 OMA 1.09 7.3
OBR01 56 57 1 PRO 2.304
OBR01 57 58 1 PRO 3.107
OBR01 60 61 1 PRO 3.37
OBR01 61 62 1 PRO 3.737
OBR01 59 60 1 PRO 11.42
OBR01 58 59 1 PRO 12.06
OBR02 27 28 1 PRO 2.209
OBR02 28 29 1 PRO 3.221
OBR03 40 41 1 PRO 1.284
OBR03 41 42 1 PRO 1.645
OBR03 42 43 1 PRO 4.987
OCR02 138 139 1 PRO 1.299
OCR02 189 190 1 PRO 1.36
OCR02 190 191 1 PRO 5.049
OD01 64.55 65 0.45 1.2 3.2
OD01 65 65.6 0.6 1.85 10.2
OD01 50.45 50.8 0.35 1.9 6.9
OD01 51.6 52.3 0.7 2.9 9.9
OD01 48.15 48.55 0.4 3.5 30
OD02 107.95 108.35 0.4 1 2.2
OD02 104.4 105.4 1 1.2 7.2
OD02 98.4 99.45 1.05 2.1 52
OD02 101.65 102.65 1 3.75 16.1
OD03 95.75 96.55 0.8 1.13 4.3
OD03 121.2 121.9 0.7 1.19 8.1
OD03 116.9 117.7 0.8 1.22 20.7
OD03 120.3 120.85 0.55 1.52 5.6
OD03 114.5 115.9 1.4 43.6 840.7
OD04 175 176 1 1.89 8
OD04 176 176.75 0.75 3.49 5.7
OD05 81.6 83.6 2 1.07 11.4
OD05 71.6 72.6 1 1.1 9.8
OD05 100.6 102.6 2 1.2 5.1
OD05 76.3 77.8 1.5 1.43 10.2
OD05 70.2 71.2 1 1.81 8.4
OD05 73.4 74.3 0.9 2.25 10.4
OD05 102.6 104 1.4 2.6 4.5
OD05 74.3 76.3 2 2.88 10.7
OD05 72.6 73.4 0.8 4.16 17.3
OD06 95.4 96.3 0.9 1.13 4.7
OD06 99.6 100.6 1 1.27 8.4
OD06 97.3 98.5 1.2 2.17 14.5
OD06 94.4 95.4 1 2.36 6
OD06 96.3 97.3 1 4.18 12.4
OD07 99 100.6 1.6 1.47 5.6
OD07 101 102 1 1.78 5.9
OD07 91.15 92 0.85 1.84 8.8
OD07 95.1 96.2 1.1 1.87 7.4
OD07 86.4 87.7 1.3 2.06 4.9
OD07 104 105 1 2.31 7.3
OD07 103 104 1 5.27 9
OD07 100.6 101 0.4 6.27 7.3
OD07 107 108.2 1.2 7.27 47.6
OD07 105 106 1 27.3 177.5
OD07 102 103 1 37.8 22.7
OD07 106 107 1 40.4 284.1
OD08 137.3 139 1.7 1.27 5.5
OD08 155 156.2 1.2 4.94 278.4
OD08 156.6 157.8 1.2 6.67 345.7
OD11 101.2 102.1 0.9 1.2 14.3
OD11 97 97.7 0.7 1.8 4.1
OD11 98.4 101.2 2.8 2 6.8
OD11 103.7 104.6 0.9 2.67 12.8
OD11 102.1 103.7 1.6 14 14.6
OD12 149.5 150.6 1.1 1.1 3.2
OD12 147.9 148.7 0.8 9.1 47.2
OD13 112.5 113.5 1 1.7 5.2
OD13 113.5 114.35 0.85 2.9 8
OD13 110.3 110.9 0.6 3.9 13.6
OD13 109.25 110.3 1.05 4 8.4
OD13 110.9 111.55 0.65 4.3 16.2
OD13 111.55 112.5 0.95 21 62.6
OD14 149.9 150.6 0.7 1.07 6.5
OD14 152.6 153.6 1 2.4 28.2
OD14 151.6 152.6 1 2.9 27.7
OD14 150.6 151.6 1 12.1 177.2
OD15 98.9 100.15 1.25 1.1 21.56
OD15 100.15 101.5 1.35 3.78 28.88
OD16 127.3 128.2 0.9 1.01 36.16
OD16 124.8 125.65 0.85 1.21 28
OD17 73.1 74.2 1.1 OMA 1.31 16
OD17 69.7 71.1 1.4 OMA 2.28 71
OD17 71.1 73.1 2 OMA 2.89 10
OD17 74.2 75.5 1.3 OMA 2.94 59
OD18 110.8 111.3 0.5 OMA 1.07 10
OD18 108.1 109.2 1.1 OMA 1.25 21.2
OD18 111.3 113.25 1.95 OMA 1.71 34.3
OD18 113.25 113.75 0.5 OMA 2.96 11.7
OD19 67.9 69.1 1.2 1.24 70.2
OD19 72.6 73.6 1 1.73 3.7
OD19 66.3 67.9 1.6 2.63 12
OD20 78.5 79.7 1.2 OMA 1.24 10.1
OD22 141.7 142.4 0.7 OMA 1.04 3.8
OD22 144.2 146 1.8 OMA 2.56 33
OD22 146 146.7 0.7 OMA 2.64 63
OD24 115.1 116.3 1.2 5.65 19.4
OD24 114.1 115.1 1 10.5 23
OD27 64.9 67.9 3 1.2 3
OD28 129.8 130.9 1.1 1.01 3.2
OD28 126.6 128.5 1.9 1.39 3.9
OD28 150.4 151.8 1.4 1.41 3.1
OD28 128.5 129.8 1.3 2.39 4.7
OD28 126.1 126.6 0.5 2.42 7.9
ODD01 15.2 15.7 0.5 OMA 2.09 270
ODD01 13.56 14.16 0.6 OMA 2.16 92
ODD01 15.7 16.3 0.6 OMA 3.29 157.8
ODD01 14.74 15.2 0.46 OMA 7.68 424
ODD01 12.96 13.56 0.6 OMA 11.76 386
ODD01 14.16 14.74 0.58 OMA 30.72 1290
ODD02 80.8 81.76 0.96 OMA 3.46 100.9
ODD03 118 118.2 0.2 OMA 3.41 95.3
ODD03 121.06 121.45 0.39 OMA 6.24 211
ODD05 57.8 58.9 1.1 OMA 1.45 28.1
ODD06 161.35 161.67 0.32 OMA 1.57 79.2
ODD06 160.95 161.25 0.3 OMA 2.01 149.2
OED-BMK1 148.25 148.75 0.5 OMA 1.92 19.4
OED-BMK1 149.25 149.75 0.5 OMA 1.93 29.4
OED-BMK1 150.25 150.8 0.55 OMA 4.04 14.1
OED-BMK1 85 85.7 0.7 OMA 6.52 4
OED-BMK1 148.75 149.25 0.5 OMA 7.92 33
OED-BMK1 149.75 150.25 0.5 OMA 9.32 26
OED01 52.5 53.1 0.6 OMA 3.06 40.6
OED01 58.45 58.9 0.45 OMA 3.16 52.9
OED01 53.1 54.1 1 OMA 5.52 43.2
OED01 55.1 55.5 0.4 OMA 5.91 185
OED01 54.1 54.6 0.5 OMA 6.2 135
OED01 54.6 55.1 0.5 OMA 7.22 81.5
OED02 44 44.93 0.93 OMA 1.25 0.6
OED02 44.93 45.37 0.44 OMA 1.59 8.1
OED02 51.68 52.2 0.52 OMA 2.26 15.5
OED02 54.9 55.4 0.5 OMA 4.29 5.8
OED02 53.9 54.4 0.5 OMA 4.81 7.7
OED02 52.2 52.9 0.7 OMA 6.05 2.3
OED02 52.9 53.4 0.5 OMA 11.24 3.9
OED02 53.4 53.9 0.5 OMA 11.37 2.6
OED02 54.4 54.9 0.5 OMA 12.03 2.1
OED03 70.63 71.6 0.97 OMA 1.03 26.4
OED03 78.9 82.8 3.9 OMA 1.47 16.1
OED03 83.65 84.48 0.83 OMA 4.85 106
OED03 85.5 86 0.5 OMA 5.47 57.9
OED03 86 87 1 OMA 6.37 58
OED03 82.8 83.65 0.85 OMA 7.25 254
OED03 84.48 85.5 1.02 OMA 8.28 29
OED03 37.4 37.7 0.3 OMA 10.34 22.6
OED03A 87.5 88 0.5 OMA 1.28 21.7
OED03A 88 88.6 0.6 OMA 1.51 9.9
OED03A 37.65 38.1 0.45 OMA 2.05 20.5
OED03A 84.5 85 0.5 OMA 2.05 33.6
OED03A 70.65 71.4 0.75 OMA 2.23 26.5
OED03A 87 87.5 0.5 OMA 2.66 80.5
OED03A 84 84.5 0.5 OMA 2.84 160
OED03A 81 82 1 OMA 4 22.6
OED03A 85 85.5 0.5 OMA 4.78 68.7
OED03A 38.1 38.55 0.45 OMA 5.05 29.9
OED03A 83.5 84 0.5 OMA 5.88 154
OED03A 83 83.5 0.5 OMA 8.68 120
OED03A 86.5 87 0.5 OMA 18.8 76.6
OED03A 86 86.5 0.5 OMA 73.6 58.8
OED04 86.12 86.68 0.56 OMA 1.76 22.8
OED04 84.57 85.2 0.63 OMA 1.86 61.7
OED04 89 89.35 0.35 OMA 4.48 56.6
OED04 85.2 86.12 0.92 OMA 4.77 36.7
OED04 97.22 97.54 0.32 OMA 6.74 9.6
OED04 87.59 88.5 0.91 OMA 7.12 56.7
OED04 88.5 89 0.5 OMA 9.98 526
OED04 87.29 87.59 0.3 OMA 11.56 124
OED04 86.68 87.29 0.61 OMA 14.41 26.2
OED05 168.27 168.77 0.5 OMA 2.73 5.7
OED05 173.7 174.26 0.56 OMA 3.1 34.9
OED05 172.5 173.1 0.6 OMA 3.61 9
OED05 173.1 173.7 0.6 OMA 4.9 21.5
OED05 168.77 169.27 0.5 OMA 6.44 26.9
OED05 166.7 167.2 0.5 OMA 6.48 6.2
OED05 169.27 169.77 0.5 OMA 9.28 20.5
OED05 170.27 170.75 0.48 OMA 12.08 37.2
OED05 169.77 170.27 0.5 OMA 26.4 54.4
OED06 212.4 212.85 0.45 OMA 1.35 11.3
OED06 216.65 217.25 0.6 OMA 1.49 6
OED06 221.65 222.25 0.6 OMA 1.5 21.3
OED06 231.3 231.8 0.5 OMA 1.62 10.6
OED06 227.08 227.53 0.45 OMA 1.65 18.7
OED06 227.53 227.95 0.42 OMA 1.71 14.9
OED06 226.13 226.58 0.45 OMA 1.74 6
OED06 230 230.8 0.8 OMA 2.01 14.1
OED06 226.58 226.93 0.35 OMA 2.12 7.9
OED06 219.85 220.45 0.6 OMA 2.26 7.4
OED06 217.25 217.85 0.6 OMA 2.42 8.1
OED06 220.45 221.05 0.6 OMA 2.49 9.4
OED06 213.2 213.85 0.65 OMA 2.78 16.2
OED06 225.68 226.13 0.45 OMA 3.04 12.4
OED06 225.07 225.53 0.46 OMA 3.68 12.7
OED06 222.85 223.45 0.6 OMA 3.83 8.7
OED06 216.05 216.65 0.6 OMA 4.27 16.8
OED06 219.05 219.75 0.7 OMA 4.33 25.3
OED06 217.85 218.45 0.6 OMA 4.53 12.1
OED06 218.45 219.05 0.6 OMA 4.84 13.2
OED06 215.15 215.88 0.73 OMA 5.79 19.6
OED06 214.5 215.15 0.65 OMA 6.49 22.3
OED06 224.57 225.07 0.5 OMA 6.58 40.3
OED06 208.15 208.65 0.5 OMA 6.65 24.5
OED06 208.65 209.25 0.6 OMA 6.69 22
OED06 211.55 212.1 0.55 OMA 7 19.7
OED06 210.45 210.93 0.48 OMA 7.68 18.9
OED06 206.65 207.15 0.5 OMA 8.14 20.5
OED06 222.25 222.85 0.6 OMA 8.98 31.2
OED06 224.05 224.5 0.45 OMA 11.11 50.7
OED06 223.45 224.05 0.6 OMA 11.44 26
OED06 207.15 207.65 0.5 OMA 11.62 29
OED06 213.85 214.5 0.65 OMA 11.65 34.1
OED06 221.05 221.65 0.6 OMA 12.95 21.2
OED06 207.65 208.15 0.5 OMA 15.41 30
OED06 206.1 206.56 0.46 OMA 19.43 21.7
OED06 211 211.55 0.55 OMA 19.7 21.4
OED06 209.35 209.65 0.3 OMA 32.22 76.7
OED06 210 210.45 0.45 OMA 54.93 55.2
OED07 93.58 94.08 0.5 OMA 1.7 10.8
OED07 95.58 96.08 0.5 OMA 2.52 17
OED07 76.05 76.6 0.55 OMA 2.69 33.7
OED07 97.08 97.4 0.32 OMA 2.93 6.9
OED07 94.58 95.08 0.5 OMA 3.38 22.2
OED07 96.58 97.08 0.5 OMA 4.65 40.8
OED07 83.4 84.2 0.8 OMA 6.8 25.5
OED07 95.08 95.58 0.5 OMA 7.24 26.7
OED07 96.08 96.58 0.5 OMA 8.04 48.8
OED08 70 70.4 0.4 OMA 1.44 31.3
OED08 83.5 84 0.5 OMA 1.51 53.7
OED08 95.05 96.05 1 OMA 1.54 13.1
OED08 83 83.5 0.5 OMA 1.55 70.7
OED08 79.5 80 0.5 OMA 1.57 21.1
OED08 85 85.3 0.3 OMA 1.6 19.8
OED08 78.5 79 0.5 OMA 2.52 142
OED08 79 79.5 0.5 OMA 2.53 52.2
OED08 77.3 77.85 0.55 OMA 2.69 98.6
OED08 73.65 74.15 0.5 OMA 2.74 13.9
OED08 84 84.5 0.5 OMA 3.1 355
OED08 76.75 77.3 0.55 OMA 3.52 55.3
OED08 80 80.5 0.5 OMA 7.08 62.2
OED08 82 82.5 0.5 OMA 9.48 55.1
OED08 82.5 83 0.5 OMA 9.52 65.9
OED08 73.2 73.65 0.45 OMA 10.36 14.6
OED08 75.06 75.6 0.54 OMA 11.84 27.6
OED08 81.5 82 0.5 OMA 12.6 33.5
OED08 84.5 85 0.5 OMA 15 134
OED08 81 81.5 0.5 OMA 20.32 41.5
OED08 80.5 81 0.5 OMA 24.48 75.3
OED09 173.65 174.15 0.5 OMA 1.13 21.1
OED09 165.86 166.15 0.29 OMA 1.16 2.9
OED09 172.15 172.65 0.5 OMA 2.23 32.2
OED09 175.15 175.65 0.5 OMA 2.82 18.4
OED09 174.15 174.65 0.5 OMA 2.99 26.7
OED09 172.65 173.15 0.5 OMA 6.08 42.3
OED09 169.48 169.85 0.37 OMA 8.04 6.4
OED09 173.15 173.65 0.5 OMA 8.08 37.9
OED09 174.65 175.15 0.5 OMA 11.8 40.4
OED09 175.85 176.23 0.38 OMA 13.64 30.5
OED10 114.75 115.05 0.3 OMA 1.03 23.6
OED10 117.25 118.2 0.95 OMA 1.49 82.8
OED10 116.35 117.15 0.8 OMA 1.68 142
OED10 116 116.35 0.35 OMA 2.06 102
OED12 182.15 182.57 0.42 OMA 2.98 19.5
OED12 181.75 182.15 0.4 OMA 3.28 29.3
OED12 163.65 164.04 0.39 OMA 3.62 6.3
OED12 177.25 177.75 0.5 OMA 3.96 4.6
OED12 162.65 163.15 0.5 OMA 4.19 15.1
OED12 179.25 179.75 0.5 OMA 4.6 15.2
OED12 179.75 180.25 0.5 OMA 6.36 16.6
OED12 180.25 180.75 0.5 OMA 6.44 37.4
OED12 163.15 163.65 0.5 OMA 7.4 18.9
OED12 178.25 178.75 0.5 OMA 7.84 9.4
OED12 180.75 181.25 0.5 OMA 10.08 35.3
OED12 177.75 178.25 0.5 OMA 22.72 17.7
OED12 161.8 162.65 0.85 OMA 24.8 21.7
OED12 178.75 179.25 0.5 OMA 81.92 64.9
OED13 64.73 65.57 0.84 OMA 1.05 3.7
OED13 70.11 70.64 0.53 OMA 1.2 4.3
OED13 65.57 66.02 0.45 OMA 1.31 5.3
OED13 66.02 66.48 0.46 OMA 1.76 14.6
OED13 66.48 67.5 1.02 OMA 1.82 18.3
OED14 85.2 85.35 0.15 OMA 2.6 11.8
OED14 84.4 84.98 0.58 OMA 2.61 8.5
OED14 84.25 84.4 0.15 OMA 4.73 12.4
OED14 85.35 86.45 1.1 OMA 9.88 26.5
OED14 83.02 83.5 0.48 OMA 15.8 231
OED14 84.98 85.2 0.22 OMA 32.8 50.1
OED15 156.76 157.4 0.64 OMA 1.02 9.7
OED15 163.7 164 0.3 OMA 1.9 22.7
OED15 164 164.58 0.58 OMA 2.1 25.3
OED15 146.37 146.65 0.28 OMA 3.7 367
OED15 145.6 146.12 0.52 OMA 5.12 1260
OED15 165.58 166.09 0.51 OMA 5.64 8.9
OED15 151.85 152.45 0.6 OMA 5.72 220
OED15 151.48 151.58 0.1 OMA 9.48 2820
OED15 151.58 151.7 0.12 OMA 11.68 1581
OED15 164.58 165.08 0.5 OMA 13.68 20.7
OED15 165.08 165.58 0.5 OMA 27.04 17.8
OED17 426 426.65 0.65 OMA 3.06 22.4
OED18 337.95 338.85 0.9 OMA 4.07 12.4
OED18 336.7 337.35 0.65 OMA 5.6 18.2
OED20 64.76 65.35 0.59 OMA 1.09 12.4
OED20 63.56 64.16 0.6 OMA 1.41 15.5
OED20 64.16 64.76 0.6 OMA 6.28 40.6
OED23 78.45 79.15 0.7 OMA 2.22 84.8
OED23 79.6 80.25 0.65 OMA 4.49 36.7
OED23 80.9 81.55 0.65 OMA 4.72 39.5
OED23 80.25 80.9 0.65 OMA 5.32 14.1
OED23 77.82 78.45 0.63 OMA 5.96 50.4
OED24 87 87.7 0.7 OMA 2.26 51
OED24 86 86.5 0.5 OMA 2.8 87
OED24 85.5 86 0.5 OMA 3.03 1.1
OED24 86.5 87 0.5 OMA 5.48 31.2
OED24 84.5 85 0.5 OMA 5.6 36.8
OED24 85 85.5 0.5 OMA 5.64 33.4
OED26 201.7 202.13 0.43 OMA 1.7 11.6
OED26 199.4 199.85 0.45 OMA 1.72 8.9
OED26 200.55 201 0.45 OMA 3.28 13.9
OED26 201 201.7 0.7 OMA 3.7 13.2
OED26 199.85 200.55 0.7 OMA 17.2 25.7
OED27 78.77 79.45 0.68 OMA 1.3 5.8
OED28 75.02 75.33 0.31 OMA 1.73 11.3
OED28 76.4 76.9 0.5 OMA 3.4 15.5
OED28 76.9 77.42 0.52 OMA 22.88 38.1
OED29 68 68.95 0.95 OMA 4.34 8.9
OED30 209.08 209.65 0.57 OMA 2.51 14.8
OED30 207.43 207.98 0.55 OMA 4.48 12.3
OED30 207.98 208.53 0.55 OMA 5.88 12.8
OED30 208.53 209.08 0.55 OMA 8.92 16.3
OED32 137.6 137.8 0.2 OMA 2.55 25.3
OED32 136.92 137.06 0.14 OMA 14.52 66.1
OED33 141.4 142 0.6 OMA 1.14 6.3
OED33 144.85 145.5 0.65 OMA 1.74 5.3
OED33 143.85 144.35 0.5 OMA 2.24 4.7
OED33 143.35 143.85 0.5 OMA 4.11 45.7
OED33 144.35 144.85 0.5 OMA 6.96 7.8
OED34 298.5 299 0.5 OMA 1.85 3.3
OED34 296.3 297.3 1 OMA 2.02 23.6
OED34 299 299.65 0.65 OMA 3.25 15.2
OED34 301.47 301.71 0.24 OMA 5.96 53.8
OED34 295.4 296.3 0.9 OMA 7.36 11.5
OED34 297.3 298 0.7 OMA 7.68 7
OED34 299.65 300.3 0.65 OMA 7.92 19
OED36 317.55 318.15 0.6 OMA 3 60.7
OED36 340.45 340.92 0.47 OMA 3.35 4.4
OED36 318.15 318.75 0.6 OMA 4.31 33.8
OED36 317.15 317.55 0.4 OMA 5.4 46.3
OED36 318.75 319.27 0.52 OMA 7.56 20.5
OED38 153.9 154 0.1 OMA 5 3.6
OED39 158.45 159 0.55 OMA 1.19 7.2
OED39 162.75 163.2 0.45 OMA 1.22 3.9
OED39 158.1 158.45 0.35 OMA 5.27 7.8
OED39 161 161.4 0.4 OMA 21.2 15.6
OED39 161.4 162.1 0.7 OMA 22.08 20.6
OFD01 73.55 74.15 0.6 OMA 1.2 39.2
OFD01 83.07 83.65 0.58 OMA 1.8 14.5
OFD01 83.65 84.35 0.7 OMA 5 193.6
OFD01 86.05 86.7 0.65 OMA 6.12 84
OFD01 85.6 86.05 0.45 OMA 9.68 26.6
OFD01 84.9 85.6 0.7 OMA 35.68 56.4
OFD01 84.35 84.9 0.55 OMA 37.12 290.4
OFD02 117.8 118.5 0.7 OMA 1.7 23.9
OFD02 120.2 120.4 0.2 OMA 2.45 12.8
OFD02 113.7 114.55 0.85 OMA 2.64 10.6
OFD02 117.3 117.8 0.5 OMA 3.38 96.8
OFD02 122.4 122.88 0.48 OMA 4.15 3.8
OFD02 120.5 121.05 0.55 OMA 5.32 5.1
OFD02 116.58 117 0.42 OMA 14.52 20.4
OFD02 118.5 119.3 0.8 OMA 15.28 19.6
OFD02 114.55 115.5 0.95 OMA 17.72 23.6
OFD02 119.3 120.2 0.9 OMA 27.2 37.2
OFD02 115.75 116.4 0.65 OMA 112 81.9
OFD03 74.15 74.5 0.35 OMA 1.01 5.8
OFD03 71.2 71.5 0.3 OMA 1.43 7.4
OFD03 73 73.5 0.5 OMA 2.55 7.8
OFD03 73.5 73.9 0.4 OMA 5.88 33.9
OFD03 72.45 73 0.55 OMA 9.56 40.9
OFD03 73.9 74.15 0.25 OMA 11.28 46.3
OFD04 130.65 131.25 0.6 OMA 1.42 6
OFD04 130 130.65 0.65 OMA 1.93 8.6
OFD04 19.55 19.73 0.18 OMA 2.18 3.2
OFD04 126.23 126.6 0.37 OMA 2.18 17.6
OFD04 132 132.58 0.58 OMA 2.36 3.3
OFD04 128.7 129.2 0.5 OMA 2.41 7.9
OFD04 126.6 127.6 1 OMA 6.12 12.2
OFD04 125.95 126.23 0.28 OMA 12.56 31.5
OFD04 127.6 128.7 1.1 OMA 21.44 26.8
OFD05 41.5 42.55 1.05 OMA 2.43 54.3
OFD05 40 40.7 0.7 OMA 4.79 30.4
OFD05 40.7 41.5 0.8 OMA 14.52 61.2
OFD06 111 111.6 0.6 OMA 1.4 3
OFD06 110 110.5 0.5 OMA 1.64 2.6
OFD06 39.92 40.5 0.58 OMA 1.76 9.1
OFD06 112.9 113.45 0.55 OMA 4.7 23.2
OFD06 112.3 112.9 0.6 OMA 5.84 15.2
OFD06 113.45 114.4 0.95 OMA 11.04 18.2
OFD07A 111.75 112.25 0.5 OMA 1.15 2.5
OFD07A 110.4 110.85 0.45 OMA 3.24 6.2
OFD07A 111 111.75 0.75 OMA 12.88 12.6
OFD09 82 82.45 0.45 OMA 1.89 8.3
OFD09 81.45 82 0.55 OMA 2.23 12.4
OFD09 83.6 84.4 0.8 OMA 9.6 13
OFD10 251.2 252 0.8 OMA 1.83 7.5
OFD10 252 253 1 OMA 4.64 3.3
OFD11 157.4 157.85 0.45 OMA 1.15 1.8
OFD11 230.07 230.8 0.73 OMA 7.04 9.2
OFD12 210 211 1 OMA 1.17 2.1
OFD12 78 79 1 OMA 1.72 3.9
OFD12 203.5 204 0.5 OMA 2.57 29.6
OFD12 209 210 1 OMA 16.4 12.3
OFD13 182.28 183.3 1.02 OMA 1.52 1.7
OFD13 183.3 184.35 1.05 OMA 1.88 2.6
OFD13 213.05 214 0.95 OMA 2.74 6.2
OFD13 214 214.92 0.92 OMA 6.3 12.3
OFD14 101.63 102.45 0.82 OMA 2.4 8.8
OLB12B 1.5 3 1.5 OMA 1.67 34.8
OLB12B 0 1.5 1.5 OMA 3.63 29
OLB14 6.4 7.7 1.3 OMA 2.83 64.3
OLB14 3.9 5.2 1.3 OMA 3.63 116
OLB14 5.2 6.4 1.2 OMA 3.92 68.3
OLB16 7.6 8.6 1 OMA 1.37 2.1
OLB16 8.6 9.6 1 OMA 1.89 6.5
OLB16 10.6 11.6 1 OMA 2.56 17.2
OLB16 4.6 5.6 1 OMA 5.05 37.3
OLB16 5.6 6.6 1 OMA 10.8 132
OLB17 4.1 5.1 1 OMA 2.16 42
OLB17 0 1.3 1.3 OMA 2.42 18.1
OLB17 1.3 2.3 1 OMA 4.99 25.2
OLB18 0.5 1.2 0.7 OMA 1.25 27.6
OLB18 1.2 2.3 1.1 OMA 1.26 7.3
OLB18 3.3 4.3 1 OMA 7.32 117
OLB18 2.3 3.3 1 OMA 8.04 126
OLB19 4.6 5.5 0.9 OMA 1.13 14.1
OLB19 2.3 3.2 0.9 OMA 13.6 38.2
OLB19 3.2 4.6 1.4 OMA 21.28 22.6
OLB20 4 5.2 1.2 OMA 5.03 9.4
OLB20 3 4 1 OMA 19.28 47.5
OLB21 8.4 9.5 1.1 OMA 8.6 63.4
OMC01 2 3 1 OMA 8.92 28.7
OMC01 3 4.4 1.4 OMA 10.6 24.3
OMC02 0 0.45 0.45 OMA 1.2 8.3
OMC04 0 0.8 0.8 OMA 2.32 40.7
OMC05 0 1.3 1.3 OMA 1.25 121
OMC05 1.6 2.6 1 OMA 86.4 2660
OMC06 1.3 2.4 1.1 OMA 1.49 42.5
OMC06 0 1.3 1.3 OMA 3.87 82.9
OMC06 2.4 3.6 1.2 OMA 4.66 174
OMC06 3.6 5.2 1.6 OMA 11.92 39.5
OMT03 89.6 90.6 1 OMA 1.5 0.3
OP01 26.3 27.1 0.8 PRO 5.1 4
OP01 29.1 30.2 1.1 PRO 9.8 3
OP01 24.8 26.3 1.5 PRO 10.5 3
OP01 56.2 56.6 0.4 PRO 40 46
OP02 58 59.4 1.4 PRO 1.47 3.07
OP02 90.5 92 1.5 PRO 4.37 4.07
OP02 60.1 61.3 1.2 PRO 6.18 3.95
OP02 89.2 90.5 1.3 PRO 8.33 5.27
OP02 56.2 57.1 0.9 PRO 9.05 9.64
OP02 55 56.2 1.2 PRO 10.94 9.05
OP03 54.2 54.4 0.2 PRO 2.7 2
OP05 47.45 49.45 2 PRO 1.2
OP06 84.8 85.7 0.9 PRO 1.56 6
OP06 85.7 86.4 0.7 PRO 1.98 5
OP06 75.2 76.5 1.3 PRO 2.13 4
OP06 84.2 84.8 0.6 PRO 4.04 5
OP07 106.9 109.1 2.2 PRO 1.24 3
OP07 32 33.5 1.5 PRO 1.39 0.5
OP07 103.9 104.3 0.4 PRO 2.61 1
OP07 104.3 105.3 1 PRO 7.54 1
OP08 52.2 52.6 0.4 PRO 1.03 1
OP08 101.05 103.05 2 PRO 1.12 2.1
OP08 99.05 101.05 2 PRO 1.2 2.8
OP08 94.3 95 0.7 PRO 1.25 3.1
OP08 97.3 99.05 1.75 PRO 1.33 2.3
OP08 104.2 105.5 1.3 PRO 2.12 2.4
OP08 93.3 94.3 1 PRO 2.96 7.2
OP08 105.5 106.9 1.4 PRO 4.42 4.3
OP08 106.9 107.45 0.55 PRO 4.81 5.7
OPB03 1.2 2.1 0.9 SOL 4.59
OPB03 2.1 2.7 0.6 SOL 4.84
OPB03 0 0.6 0.6 SOL 18.1
OPB03 0.6 1.2 0.6 SOL 22.5
OPB05 0 0.7 0.7 SOL 7.4 22.3
OPB09 10.35 10.95 0.6 PRO 1.26 4.8
OPB09 12.15 12.65 0.5 PRO 1.42 8.9
OPB09 10.95 11.35 0.4 PRO 1.49 7.6
OPB09 10 10.35 0.35 PRO 1.76 6.8
OPB10 10 10.25 0.25 PRO 2.82 2.8
OPB11 4.8 5.3 0.5 PRO 1.85 1.7
OPB12 10.5 11.2 0.7 PRO 1.67 4.1
OPB12 11.85 12.75 0.9 PRO 1.81 2.6
OPB12 11.6 11.85 0.25 PRO 2.05 4.6
OPB12 11.2 11.6 0.4 PRO 2.14 7.1
OPB12 9 10.5 1.5 PRO 3.4 1.3
OPB17 10 10.6 0.6 PRO 16.1 26
OPB17 10.6 10.95 0.35 PRO 18.2 167
OPC02 59.35 59.95 0.6 OMA 3 -0.2
OPD101 54.4 55 0.6 GEN 1.2 6.5
OPD101 50.7 51 0.3 GEN 1.4 4.5
OPD101 50 50.7 0.7 GEN 2.05 6
OPD101 53 54.4 1.4 GEN 2.45 5.5
OPD102 7 8 1 GEN 60 60
OPD103 79 80 1 GEN 1 -1
OPD103 64 65 1 PRO 1.09 1.9
OPD103 81 82 1 GEN 1.95 3.5
OPD103 75 76 1 GEN 2.6 5.5
OPD103 82 82.9 0.9 GEN 4.3 3.5
OPD103 78 79 1 GEN 4.49 2.5
OPD103 82.9 83.3 0.4 GEN 7.4 5
OPD104 41 42.7 1.7 PRO 1.08 1.7
OPD104 26 27 1 GEN 1.1 8
OPD104 17 18 1 GEN 1.6 4.5
OPD104 28 29 1 GEN 3.3 9.5
OPD104 10 11 1 PRO 3.63 25.36
OPD104 0 1 1 PRO 3.68 1
OPD104 29 30 1 GEN 3.9 6
OPD104 27 28 1 GEN 4 21
OPD104 16 17 1 GEN 4.5 4
OPD104 34.6 35.3 0.7 GEN 12.5 21
OPD104 33.6 34.6 1 GEN 21.75 26
OPD105 16 17 1 GEN 14 5
OPD107 17 18 1 GEN 1.07 8
OPD107 22 23 1 GEN 1.08 3
OPD107 7 8 1 PRO 1.2 2.4
OPD107 15.7 17 1.3 GEN 1.21 5
OPD107 21 22 1 GEN 1.5 3.5
OPD107 14 14.5 0.5 GEN 2.04 8
OPD107 13 14 1 GEN 2.25 8.5
OPD107 18 19 1 GEN 2.6 9
OPD107 51.1 53 1.9 GEN 15.5 10.5
OPD107 14.5 15.7 1.2 GEN 17.01 27
OPD108 21 22.4 1.4 GEN 1 6
OPD108 12 13 1 GEN 1.65 11
OPD108 10 11 1 GEN 1.7 5.5
OPD108 17 18 1 PRO 1.79 1.2
OPD108 8.35 9 0.65 GEN 2.18 5.5
OPD108 53.2 54.6 1.4 GEN 2.25 3.5
OPD108 9 10 1 GEN 2.63 5
OPD108 54.6 55 0.4 GEN 2.8 3
OPD108 22.4 23.2 0.8 GEN 3.15 4.5
OPD108 7.5 8.35 0.85 GEN 17.73 21.5
OPD108 25 26 1 GEN 31.87 22.5
OPD108 6 7 1 GEN 38.21 24
OPD110 28 29 1 PRO 1.08 1.7
OPD110 33 34 1 PRO 1.09 1.2
OPD110 42 42.5 0.5 GEN 1.6 2.5
OPD110 38.45 39 0.55 GEN 4.35 15.5
OPD110 39 40 1 GEN 6.4 7
OPD110 41 42 1 GEN 8.8 6
OPD110 40 41 1 GEN 10.3 7
OPD111 27 28 1 GEN 1.1 2.5
OPD111 22 23 1 GEN 1.4 5
OPD111 5.3 6 0.7 GEN 2.35 7
OPD111 23 24 1 GEN 5 18
OPD111 26 27 1 GEN 5.2 4.5
OPD111 3 4.2 1.2 GEN 9.58 14.5
OPD111 4.7 5.3 0.6 GEN 10.47 22
OPD111 4.2 4.7 0.5 GEN 32.49 56
OPD112 77.3 78.4 1.1 GEN 1.05 3
OPD112 25 26 1 GEN 1.12 4
OPD112 82.7 83.6 0.9 GEN 1.3 2.5
OPD112 30 31 1 GEN 1.5 7.5
OPD112 26 27 1 GEN 2.45 10
OPD112 34.1 34.65 0.55 GEN 2.7 23.5
OPD112 33.3 34.1 0.8 GEN 3.14 28.5
OPD112 79.3 80.3 1 GEN 6.08 90
OPD112 40.75 41.45 0.7 GEN 6.4 31
OPD112 32.4 33.3 0.9 GEN 6.59 41
OPD112 34.65 34.9 0.25 GEN 7.88 62
OPD112 35.9 36.55 0.65 GEN 11.95 40
OPD113 156 157 1 PRO 1.18 12
OPD113 74 75 1 PRO 1.48 2.7
OPD114 150 150.35 0.35 PRO 1.03 5.3
OPD114 63.35 64 0.65 GEN 1.04 9
OPD114 147 147.55 0.55 PRO 1.27 3.1
OPD114 62 63 1 GEN 1.4 7
OPD114 63 63.35 0.35 GEN 3.85 44
OPD115 60.3 61.3 1 GEN 1.73 8.5
OPD115 45 46 1 PRO 1.78 0.37
OPD115 50 51 1 PRO 1.97 1.2
OPD115 63.85 64.55 0.7 GEN 2.67 4.5
OPD115 105 106 1 PRO 3.25 2.5
OPD115 26.55 26.95 0.4 PRO 4 1.33
OPD115 63.2 63.85 0.65 GEN 8 5
OPD115 62.3 63.2 0.9 GEN 12.99 10
OPD115 79 80 1 GEN 21 18.5
OPD116 16 17 1 GEN 1.02 1
OPD116 20.1 20.5 0.4 GEN 1.15 23.5
OPD116 19 19.55 0.55 GEN 1.35 3
OPD116 19.55 20.1 0.55 GEN 1.6 17
OPD116 20.5 21.5 1 GEN 1.72 9
OPD116 25 26 1 GEN 1.75 16
OPD116 21.5 22.5 1 GEN 2.95 35
OPD116 23 24 1 GEN 3.14 7.5
OPD116 18 19 1 GEN 3.5 10.5
OPD117 130 131 1 GEN 1.18 10
OPD117 145.6 146.2 0.6 PRO 1.67 2.7
OPD117 124 124.5 0.5 GEN 2.12 7
OPD117 122 123 1 GEN 2.3 6
OPD117 129 130 1 GEN 2.91 14.5
OPD117 125.7 127.3 1.6 GEN 7.47 35
OPD117 128 129 1 GEN 11.77 21
OPD117 124.5 125.7 1.2 GEN 17.94 160
OPD117 127.3 128 0.7 GEN 21.45 30
OPD118 107.2 107.65 0.45 PRO 1.38 1.7
OPD118 108.2 108.6 0.4 PRO 2.01 29.9
OPD118 107.65 108.2 0.55 PRO 2.1 8.6
OPD119 107.3 108 0.7 OMA 2.11 5.7
OPD120 71.65 72.6 0.95 OMA 1.12 6.3
OPD120 71 71.65 0.65 OMA 5.28 11.7
OPD120 69.95 71 1.05 OMA 5.29 25.5
OPD122 159 160 1 OMA 1.51 31.1
OPD122 61 62 1 OMA 2.09 2.6
OPD122 59 60 1 OMA 2.15 6.2
OPD123 203 204 1 OMA 1.1 28.5
OPD123 198.5 199.5 1 OMA 1.29 1.1
OPD124 196 197 1 OMA 1.04 2.3
OPD124 219.5 220 0.5 OMA 1.22 15.7
OPD124 207 208 1 OMA 1.28 1.9
OPD124 218.5 219 0.5 OMA 1.41 6.4
OPD124 219 219.5 0.5 OMA 3.54 23
OPD125 176 177.8 1.8 OMA 1.39 3.3
OPD125 179.3 180.3 1 OMA 1.39 3.5
OPD126 148 149 1 OMA 1.01 3
OPD126 146 147 1 OMA 1.04 6.1
OPD126 121 122 1 OMA 1.14 6.5
OPD126 144.35 145 0.65 OMA 1.31 3.2
OPD126 143.7 144.35 0.65 OMA 1.57 2.9
OPD126 120 121 1 OMA 2.58 5.5
OPD128 74.9 76 1.1 PRO 1.98 0.74
OPD129 9.85 10.85 1 PRO 1.07 4.14
OPD129 225.6 226.1 0.5 PRO 1.63 4.39
OPD129 227.6 228.1 0.5 PRO 1.65 4.26
OPD129 227.1 227.6 0.5 PRO 2.15 3.13
OPD130 28 28.4 1 OMA 1.03 1.8
OPD130 22.92 24 1.08 PRO 1.23 1.7
OPD130 29 30 1 PRO 1.38 0.95
OPD130 22.74 22.92 0.18 PRO 1.41 6
OPD130 28.4 29 0.6 PRO 1.74 1.25
OPD130 30 31 1 PRO 1.78 1.38
OPD130 31 32 1 PRO 1.78 1.51
OPD130 139.64 140.35 0.71 PRO 2.81 3.15
OPD130 136 137.2 1.2 PRO 4.01 3.9
OPD131 170.25 170.7 0.45 OMA 7.64 8.5
OPD132 75.7 76.06 0.36 OMA 1.05 6.3
OPD132 74.9 75.7 0.8 OMA 1.18 17.4
OPD132 74.31 74.9 0.59 OMA 1.72 11.7
OPD132 86.3 87 0.7 OMA 3.82 21.8
OPD133 110.4 110.95 0.55 OMA 1.33 4.6
OPD133 109.4 109.9 0.5 OMA 1.63 9.4
OPD133 123.03 123.4 0.37 OMA 4.93 29.3
OPD134 120.58 121.58 1 OMA 1.06 2.3
OPD134 125.58 126.58 1 OMA 1.06 5.3
OPD134 119.58 120.58 1 OMA 1.16 2.1
OPD134 62.9 63.9 1 OMA 1.31 1.3
OPD134 122.58 123.58 1 OMA 1.36 2.7
OPD134 10.15 11.15 1 OMA 1.57 1.9
OPD134 117.58 118.58 1 OMA 1.6 3.7
OPD134 116.58 117.58 1 OMA 1.7 3.5
OPD134 123.58 124.58 1 OMA 1.97 7.2
OPD134 118.58 119.58 1 OMA 2.12 3.7
OPD134 107.97 108.58 0.61 OMA 2.18 10.1
OPD134 107.6 107.97 0.37 OMA 9.04 12.8
OPD136 42.7 43.2 0.5 OMA 1.51 2.4
OPD136 43.2 43.6 0.4 OMA 2.43 5.2
OPD136 36.2 36.7 0.5 OMA 3.48 1.3
OPD136 41.7 42.2 0.5 OMA 3.94 2.2
OPD136 38.2 38.7 0.5 OMA 4.41 2.9
OPD136 36.7 37.2 0.5 OMA 4.81 2.3
OPD136 42.2 42.7 0.5 OMA 5.64 6.7
OPD136 37.2 37.7 0.5 OMA 5.76 7.3
OPD136 38.7 39.2 0.5 OMA 6.08 2.2
OPD136 41.2 41.7 0.5 OMA 6.16 2.9
OPD136 37.7 38.2 0.5 OMA 10.2 6.4
OPD136 40.7 41.2 0.5 OMA 12.48 7.6
OPD136 39.7 40.2 0.5 OMA 12.52 5.8
OPD136 40.2 40.7 0.5 OMA 12.72 9.3
OPD136 39.2 39.7 0.5 OMA 17.6 5.5
OPD137 39.4 39.9 0.5 OMA 1.22 0.8
OPD137 37.4 37.9 0.5 OMA 1.39 2.1
OPD137 38.9 39.4 0.5 OMA 1.58 0.7
OPD137 181 181.56 0.56 OMA 1.88 1.7
OPD137 37.9 38.4 0.5 OMA 2.41 2.6
OPD137 38.4 38.9 0.5 OMA 3.2 1.6
OPD137 75.95 76.75 0.8 OMA 3.97 2.9
OPD137 41.27 42.27 1 OMA 5.16 0.8
OPD137 106.35 107.35 1 OMA 157.44 55.7
OPD138 49.1 49.6 0.5 OMA 1.22 2.2
OPD138 24.45 25.45 1 OMA 1.47 1.4
OPD138 84.25 84.8 0.55 OMA 1.65 2.6
OPD138 49.6 50.1 0.5 OMA 1.8 5.5
OPD138 83.7 84.25 0.55 OMA 2.4 2.4
OPD138 84.8 85.25 0.45 OMA 2.5 3.2
OPD138 50.1 50.6 0.5 OMA 2.84 6
OPD138 83.15 83.7 0.55 OMA 3.15 4.5
OPD138 31.2 32.2 1 OMA 3.52 2.6
OPD143 123.35 123.94 0.59 OMA 1.04 6.9
OPD143 124.53 125.12 0.59 OMA 1.09 4.2
OPD143 125.12 125.7 0.58 OMA 1.2 5.2
OPD143 109.9 110.8 0.9 OMA 2.13 2.9
OPD143 127.08 127.73 0.65 OMA 2.56 8.8
OPD143 125.7 126.42 0.72 OMA 4.26 7.7
OPD143 126.42 127.08 0.66 OMA 13.6 30.2
OPD144 50 51 1 OMA 1.14 2.4
OPD144 155 156 1 OMA 1.25 -0.2
OPD145 93.05 93.25 1.3 OMA 1.05 1.7
OPD145 88 89.15 1 OMA 1.4 1.3
OPD145 90 90.5 0.5 OMA 1.68 3.3
OPD145 93.25 93.5 0.25 OMA 1.69 7.4
OPD145 92.3 93.05 0.75 OMA 2.1 4.7
OPD145 90.5 91 0.5 OMA 2.28 5.8
OPD145 89.15 90 0.85 OMA 4.95 6.2
OPD146 127.5 128 0.5 OMA 1.06 6.3
OPD146 223.35 224.25 0.9 OMA 1.82 13.7
OPD146 27.5 28 0.5 OMA 1.83 12.3
OPD146 221.5 222 0.5 OMA 2.03 14.8
OPD146 222 222.7 0.7 OMA 3.08 12.3
OPD146 222.7 223.35 0.65 OMA 3.27 14.9
OPI03 2 2.8 0.8 OMA 1.26 530
OPI03 1 2 1 OMA 1.51 656
OPI04 0 1 1 OMA 1.39 80.2
OPI05 9 10 1 OMA 19.75 1397
OPI06 0 1 1 OMA 1.27 90.2
OPI09 5 6.7 1.7 OMA 1.33 39.2
OPI10 0 1 1 OMA 8.2 390
OPR01 84 85 1 PRO 1.07 1.9
OPR01 83 84 1 PRO 1.11 2
OPR01 16 17 1 GEN 1.12 17
OPR01 82 83 1 PRO 1.36 2.1
OPR01 81 82 1 PRO 1.98 4.3
OPR01 80 81 1 PRO 11.8 9.8
OPR02 39 40 1 PRO 1.37 0.74
OPR02 36 37 1 PRO 1.57 0.38
OPR02 59 60 1 PRO 1.59 1.4
OPR02 38 39 1 PRO 1.67 0.28
OPR02 16 17 1 PRO 3.35 4.9
ORC03 14 15 1 SGS 1.5 70.9
ORC03 13 14 1 SGS 2.13 74.5
ORC03 12 13 1 SGS 6.35 100
ORC03 11 12 1 SGS 6.37 100
ORC04 68 69 1 SGS 2.3 40.2
ORC04 67 68 1 SGS 3.17 48.8
ORC14 57 58 1 SGS 2.1 46.1
ORL03 60 61 1 OMA 3.11 55.4
ORL03 61 62 1 OMA 3.85 83.7
OSC02 3 3.5 0.5 OMA 1.02 13
OSC02 3.5 4.3 0.8 OMA 1.28 6.3
OSC02 0 1 1 OMA 1.3 10
OSC02 2 3 1 OMA 5.8 29.6
OSC03 3.6 4.6 1 OMA 2.06 3.2
OSC03 2.4 3.2 0.8 OMA 3.54 6.3
OSC03 4.6 5.6 1 OMA 4.25 6.4
OSC03 1.8 2.4 0.6 OMA 5.6 7.7
OSC03 5.6 6.6 1 OMA 6.4 12.8
OSC03 6.6 7.15 0.55 OMA 10.24 8.5
OSC04 0 0.9 0.9 OMA 1.12 1.7
OSC06 2 3 1 PRO 1.186
OSC06 3 4 1 PRO 1.308
OSC06 9.2 11 1.8 PRO 1.579
OSC07 6 7 1 PRO 1.472
OSC07 8 10 2 PRO 1.55
OSC07 5 6 1 PRO 2.52
OSC07 4 5 1 PRO 3.107
OSC08 0 1 1 PRO 1.144
OSC08 2.8 3.8 1 PRO 1.327
OSC09 1.7 2.7 1 PRO 1.151
OSC09 2.7 3.7 1 PRO 1.37
OSC10 3.2 4.2 1 PRO 1.699
OSC11 1 2 1 PRO 1.134
OSC11 5 6 1 PRO 1.83
OSC12 1 2 1 OMA 3.54 11.6
OSC12 3.8 4.8 1 OMA 3.562 25.9
OSC12 2 3 1 OMA 6.77 9.7
OSC13 0 1 1 OMA 2.48 16.1
OSC13 4.25 5.25 1 OMA 3.49 35.9
OSC13 2 3 1 OMA 3.88 106.7
OSC13 1 2 1 OMA 4.19 47.5
OSC13 3 3.7 0.7 OMA 4.81 201
OSC14 4 5 1 PRO 2.959
OSC14 3 4 1 OMA 8.72 18.8
OSC15 4 5 1 PRO 1.634
OSC15 3 4 1 OMA 3.906 13.6
OSD01 16 17 1 PRO 1.03 10
OSD01 32 32.6 0.6 GEN 1.18 8
OSD01 27.5 28.8 1.3 GEN 1.18 27
OSD01 31 32 1 GEN 1.2 10.5
OSD01 84 85 1 PRO 1.29 0.5
OSD01 28.8 29.7 0.9 GEN 1.65 11.5
OSD01 19.6 20.65 1.05 GEN 1.75 16.5
OSD01 65.6 66.6 1 GEN 1.98 4.5
OSD01 79 80 1 PRO 2.47 6.9
OSD01 26.6 27.5 0.9 GEN 3.15 8.5
OSD02 46 47 1 PRO 1.01 2.1
OSD02 59.1 60 0.9 GEN 1.7 10.5
OSD02 60 61 1 GEN 2.75 9.5
OSD02 61 62 1 GEN 3.5 11.5
OSD02 45 46 1 PRO 4.46 6.3
OSD02 62 63.5 1.5 GEN 5.98 125
OSD03 92 93.2 1.2 GEN 1.02 9.5
OSD03 85.5 86.5 1 GEN 1.19 11
OSD03 83 84 1 GEN 1.25 22
OSD03 52.35 53 0.65 PRO 1.65 2.94
OSD03 86.5 87.5 1 GEN 1.69 11
OSD03 84 85.5 1.5 GEN 2.5 14.5
OSD03 90 91 1 GEN 2.8 12.5
OSD03 87.5 88.2 0.7 GEN 2.9 18
OSD03 89 90 1 GEN 8.28 37
OSD03 88.2 89 0.8 GEN 9.79 23
OSD04 116 117 1 GEN 1.16 3
OSD04 43 44.1 1.1 GEN 1.42 7.5
OSD04 48 48.6 0.6 GEN 1.6 14
OSD04 47 48 1 GEN 1.6 31
OSD04 48.6 49.1 0.5 GEN 1.67 74
OSD04 45.8 47 1.2 GEN 2.23 90
OSD04 92 93 1 GEN 2.95 8
OSD04 52.7 53 0.3 GEN 3.45 35
OSD04 50 50.8 0.8 GEN 4.3 13
OSD04 51 52 1 GEN 4.35 23.5
OSD04 42 43 1 GEN 4.6 5.5
OSD04 44.1 44.6 0.5 GEN 5.1 47
OSD04 50.8 51 0.2 GEN 5.4 16
OSD04 114.6 115 0.4 GEN 7.1 4.5
OSD04 52 52.7 0.7 GEN 10.19 100
OSD05 90 91 1 GEN 1.37 6.5
OSD05 66 67 1 PRO 1.4 2.1
OSD05 93.8 94.8 1 GEN 2.89 130
OSD05 88 89 1 GEN 4.3 15
OSD05 84.2 84.8 0.6 GEN 5.8 90
OSD05 87 88 1 GEN 6.19 10
OSD05 84.8 85.4 0.6 GEN 9.91 165
OSD05 86 87 1 GEN 14.24 140
OSD05 85.4 86 0.6 GEN 17.58 98
OSD06 9.9 11 1.1 GEN 1.5 4.5
OSD06 28 29 1 GEN 1.6 8.5
OSD06 25.25 26 0.75 GEN 1.6 12
OSD06 29 29.75 0.75 GEN 1.65 27.5
OSD06 31 31.9 0.9 GEN 2.27 18.5
OSD06 26 27 1 GEN 2.4 20.5
OSD06 30.1 31 0.9 GEN 2.8 9.5
OSD06 27 28 1 GEN 3.3 21.5
OSD06 29.75 30.1 0.35 GEN 6.6 43
OSD07 16 17.35 1.35 GEN 1.5 19
OSD07 17.8 18.25 0.45 GEN 1.5 28
OSD07 17.35 17.8 0.45 GEN 2.3 10.5
OSD07 14 15.25 1.25 GEN 3.4 116
OSD07 12.65 14 1.35 GEN 5.77 8
OSD07 11.75 12.65 0.9 GEN 7.5 9
OSD08 54 54.55 0.55 GEN 1.14 116
OSD08 56 57 1 GEN 2.1 6
OSD09 35.5 36.2 0.7 GEN 1 11.5
OSD09 40.75 41.1 0.35 GEN 1.12 6.5
OSD09 36.2 37 0.8 GEN 1.25 40
OSD09 37 38 1 GEN 1.5 7
OSD09 35 35.5 0.5 GEN 1.8 8.5
OSD09 40 40.75 0.75 GEN 2.7 3.5
OSD09 39.45 40 0.55 GEN 2.75 3.5
OSD11 64 65 1 GEN 1.02 4
OSD11 62 63 1 GEN 1.06 10.5
OSD11 46 47.4 1.4 GEN 1.06 11.5
OSD11 53 54 1 GEN 1.27 8
OSD11 60.35 61.1 0.75 GEN 1.65 16
OSD11 66 67 1 GEN 1.95 8
OSD11 50.5 51.7 1.2 GEN 2.15 9
OSD11 56 57 1 GEN 2.25 15.5
OSD11 55 56 1 GEN 2.3 8.5
OSD11 67 68 1 GEN 2.4 11
OSD11 51.7 53 1.3 GEN 2.77 10
OSD11 61.1 62 0.9 GEN 2.95 21.5
OSD11 57 58 1 GEN 3.4 19
OSD11 49.4 50.5 1.1 GEN 3.59 26.5
OSD11 54 55 1 GEN 5.79 14
OSD12 82 83 1 PRO 1.38 13.7
OSD12 89 90 1 PRO 2.89 6
OSD13 88.5 89.2 0.7 OMA 1.08 7
OSD13 87.1 88 0.9 OMA 1.59 11.1
OSD13 86.3 87.1 0.8 OMA 4.62 4.1
OSD14 72 73 1 OMA 1.13 4.4
OSD14 77 77.75 0.75 OMA 1.19 1.7
OSD14 69 70 1 OMA 1.35 6
OSD14 68 69 1 OMA 1.95 19.1
OSD14 109 110 1 OMA 2.15 0.4
OSD14 70 71 1 OMA 2.59 10.2
OSD14 71 72 1 OMA 4.75 14
OSD14 107 108 1 OMA 60.61 26.02
OSD15 177 178.2 1.2 OMA 1.16 15.9
OSD15 178.2 179.3 1.1 OMA 1.21 4.7
OSD15 181.7 182.3 0.6 OMA 1.27 3.3
OSD15 171 172 1 OMA 1.49 23.3
OSD15 180 180.9 0.9 OMA 1.51 6.7
OSD15 184 184.5 0.5 OMA 1.71 65.8
OSD15 179.3 180 0.7 OMA 1.88 14.3
OSD15 175 176 1 OMA 1.94 17.2
OSD15 180.9 181.7 0.8 OMA 2.49 4.5
OSD15 176 177 1 OMA 2.6 13.9
OSD16 89 90 1 OMA 1.16 7.1
OSD16 90 91.15 1.15 OMA 1.17 6.7
OSD16 92 93 1 OMA 1.18 7.7
OSD16 85 86 1 OMA 1.33 7.5
OSD16 84 85 1 OMA 1.35 10.6
OSD16 86 87 1 OMA 1.42 7.3
OSD16 81.2 82.4 1.2 OMA 3.31 11.8
OSD16 83 84 1 OMA 6.4 96.2
OSD16 82.4 83 0.6 OMA 9.58 83.4
OSD17 94 95 1 OMA 1.14 12
OSD17 19.45 20.15 0.7 OMA 1.86 9.5
OSD17 95 96 1 OMA 3.16 42.2
OSD17 19.2 19.45 0.25 OMA 5.89 30.2
OSD17 96 97 1 OMA 7.27 72.6
OSD18 184.3 185 0.7 OMA 1.28 4.8
OSD18 182.45 183 0.55 OMA 3.03 24.7
OSD18 181.9 182.45 0.55 OMA 4.14 19.9
OSD18 183.75 184.3 0.55 OMA 4.69 12.6
OSD18 183 183.75 0.75 OMA 5.5 14
OSD19 93 94 1 OMA 1.03 28.9
OSD19 223 223.85 0.85 OMA 1.06 7.8
OSD19 251 252 1 OMA 1.08 34.9
OSD19 248.2 249.2 1 OMA 1.39 40.2
OSD19 92 93 1 OMA 1.4 10.1
OSD19 227 228 1 OMA 1.45 52.6
OSD19 208 209 1 OMA 1.46 1.4
OSD19 232 233 1 OMA 1.52 63.5
OSD19 238.4 239 0.6 OMA 1.81 39.8
OSD19 223.85 224.9 1.05 OMA 2.24 14.2
OSD19 222.35 223 0.65 OMA 3.22 15.8
OSD20 115 116 1 OMA 1.48 19.4
OSD20 111.2 112 0.8 OMA 1.93 14.8
OSD20 117 118 1 OMA 2.65 23.1
OSD20 116 117 1 OMA 2.9 83.7
OSD20 118 118.8 0.8 OMA 4.45 29.3
OSD21 95.65 96.6 0.95 OMA 1 66.8
OSD21 101.6 102.6 1 OMA 1.07 23.5
OSD21 100.4 101.6 1.2 OMA 3.76 57.1
OSD21 99.5 99.9 0.4 OMA 7.36 175
OSD21 98.55 99.5 0.95 OMA 9.15 27
OSD22 93 94.1 1.1 OMA 1 12.2
OSD22 78.6 79.8 1.2 OMA 1.17 4.4
OSD22 84 85 1 OMA 1.8 13.8
OSD22 96.8 97.55 0.75 OMA 2.61 20.8
OSD22 96 96.8 0.8 OMA 3.27 23.9
OSD22 95 96 1 OMA 5.28 25.8
OSD22 94.1 95 0.9 OMA 12.46 51.4
OSD23 56.2 56.9 0.7 OMA 1.28 143
OSD24 202 202.55 0.55 OMA 1.34 11.5
OSD24 200.2 201.15 0.95 OMA 1.68 20.1
OSD24 213 214 1 OMA 3.52 4.1
OSD24 201.15 202 0.85 OMA 5.03 7.1
OSD24 198.95 200.2 1.25 OMA 8.15 40.9
OSD25 36 37 1 OMA 1.05 3.9
OSD25 45.1 46.2 1.1 OMA 1.25 3.9
OSD25 157.7 158 0.3 OMA 1.42 8.7
OSD25 44.1 45.1 1 OMA 1.48 8
OSD25 43.2 44.1 0.9 OMA 2.48 13.9
OSD25 42.1 43.2 1.1 OMA 3.17 14
OSD25 168 169.05 1.05 OMA 3.38 5
OSD26 259 260 1 OMA 1.83 5.8
OSD28 80 81 1 OMA 1.2 20.7
OSD28 94.5 95 0.5 OMA 1.34 8.3
OSD28 79 80 1 OMA 1.36 8.3
OSD28 82 83 1 OMA 1.38 6.7
OSD28 83 84 1 OMA 2.22 12.9
OSD29 123.3 124 0.7 OMA 1 8.6
OSD29 125 126 1 OMA 1.08 22
OSD29 120 121 1 OMA 2.04 51.6
OSD29 107 108 1 OMA 2.09 14.9
OSD30 27 28 1 PRO 1.05 2.04
OSD31 179 180 1 OMA 1.03 10.8
OSD31 160 161 1 OMA 1.07 4.8
OSD31 172 173 1 OMA 1.13 8.6
OSD31 181 182 1 OMA 1.29 16.4
OSD31 152 152.5 0.5 OMA 1.36 5.2
OSD31 152.5 153.5 1 OMA 1.97 7.1
OSD31 177 178 1 OMA 2.51 27.1
OSD31 178 179 1 OMA 2.98 45.6
OSD31 176 177 1 OMA 8.94 23.3
OSD31 174 175 1 OMA 10.1 195
OSD31 173 174 1 OMA 13.58 102
OSD31 175 176 1 OMA 15.3 30.2
OSD33 200.5 201 0.5 OMA 1.56 5.8
OSD34 198 199 1 OMA 1.04 28.6
OSD34 197 198 1 OMA 1.4 6.4
OSD35 172.5 173 0.5 OMA 2.52 12.7
OSD35 170.7 171 0.3 OMA 2.8 15.4
OSD35 172 172.5 0.5 OMA 4.33 53.6
OSD35 171.5 172 0.5 OMA 5.3 18.4
OSD35 146 147 1 OMA 5.35 7.9
OSD35 171 171.5 0.5 OMA 5.6 15.1
OSD36 185 186 1 OMA 1 5.3
OSD36 183 184 1 OMA 1.17 8
OSD36 182 182.5 0.5 OMA 1.22 9.9
OSD36 186 187 1 OMA 1.58 6.5
OSD36 182.5 183 0.5 OMA 1.61 10.6
OSD36 190 191 1 OMA 2.08 4.5
OSD36 191 192 1 OMA 2.12 5.2
OSD36 192 193 1 OMA 3.01 3.8
OSD36 189 190 1 OMA 3.16 7.6
OSD36 187 188 1 OMA 3.65 13.1
OSD36 188 189 1 OMA 5.62 7.8
OSD37 200 201 1 OMA 1.59 5.7
OSD37 201 202 1 OMA 1.78 4.2
OSD38 151 152 1 OMA 1 3.5
OSD39 136.2 137.2 1 OMA 2.91 4.6
OSD40 175 176 1 OMA 1.04 10.3
OSD40 184 185 1 OMA 1.06 10.5
OSD40 183 184 1 OMA 1.26 7.8
OSD40 182 183 1 OMA 1.92 9
OSD40 181 182 1 OMA 2.91 8
OSD40 185 186 1 OMA 5.08 148
OSD41 169.5 170 0.5 OMA 1.03 3.8
OSD41 164 165 1 OMA 1.27 5.7
OSD41 163 164 1 OMA 1.4 8.7
OSD41 139.95 140.35 0.4 OMA 2.07 19.9
OSD41 161 162 1 OMA 2.16 3
OSD41 169 169.5 0.5 OMA 2.51 6.4
OSD41 162 163 1 OMA 3.21 34.4
OSD42 163 164 1 OMA 1.33 3.6
OSD43 235 236 1 OMA 4.67 14.2
OSD44 90 91 1 OMA 1.18 48.9
OSD44 97 98 1 OMA 1.23 10.2
OSD44 110 111 1 OMA 1.72 12.2
OSD44 109 110 1 OMA 2.3 13.5
OSD44 113 113.8 0.8 OMA 2.71 15.3
OSD44 112 113 1 OMA 2.73 14.5
OSD45 173 174 1 OMA 1.98 3.4
OSD45 184 185 1 OMA 2.58 305
OSD45 174 175 1 OMA 3.84 11.4
OSD45 175 176 1 OMA 4.07 61.2
OSD47 392 393 1 OMA 1.21 11.9
OSD47 391.75 392 0.25 OMA 1.36 13.7
OSD47 249 250 1 PRO 1.66 0.97
OSD47 393 394 1 OMA 1.9 16.5
OSD49 100 101 1 PRO 1.02 3.8
OSD49 92.4 92.7 0.3 OMA 1.16 50.8
OSD49 92.7 93.1 0.4 OMA 1.17 20.5
OSD49 93.1 94 0.9 OMA 1.3 22.4
OSD49 87.35 87.75 0.4 OMA 3.33 20
OSD49 94 94.5 0.5 OMA 4.57 168
OSD50 172 172.5 0.5 OMA 1.25 13.5
OSD50 204.8 205.3 0.5 OMA 1.46 41.5
OSD50 179 179.7 0.7 OMA 1.47 16.5
OSD50 174.7 175.8 1.1 OMA 1.48 11.5
OSD50 230 231 1 PRO 1.56 1.6
OSD50 212 212.5 0.5 OMA 1.87 7.7
OSD50 183 183.55 0.55 OMA 2.07 15.7
OSD50 174 174.7 0.7 OMA 2.15 35.2
OSD50 205.3 206 0.7 OMA 2.6 17.7
OSD50 173.7 174 0.3 OMA 2.7 79.2
OSD50 172.5 173 0.5 OMA 7.36 94.3
OSD50 173 173.7 0.7 OMA 13.2 255
OSD51 144.5 145.5 1 OMA 1.62 6.4
OSD51 90 90.8 0.8 OMA 1.66 6
OSD51 144 144.5 0.5 OMA 4.78 4.5
OSD51 92.95 93.7 0.75 OMA 8.12 29.1
OSD51 91.8 92.95 1.15 OMA 12 21
OSD51 90.8 91.8 1 OMA 42.56 79.1
OSD52 203 203.8 0.8 OMA 1.66 26.6
OSD56 125 126 1 OMA 1
OSD56 126 127 1 OMA 1.6
OSD56 124.8 125 0.2 OMA 2.21
OSD57 192.8 193.15 0.35 OMA 1.07 9.2
OSD58 300.5 301 0.5 OMA 3.25 25
OSD58 300 300.5 0.5 OMA 3.46 14.7
OSD60 139 140 1 OMA 1 6.1
OSD60 142 142.5 0.5 OMA 1.02 8.4
OSD60 142.5 143 0.5 OMA 2.03 19.2
OSD60 141.5 142 0.5 OMA 2.33 10
OSD60 138.3 139 0.7 OMA 3.05 9.4
OSD64 144 145 1 PRO 1.57 1.6
OSD69 208 209 1 OMA 1.67 7
OSD69 218 218.9 0.9 OMA 5.28 6
OSD70 186.25 187 0.75 OMA 1.08 1401
OSD71 203 203.5 0.5 OMA 3.21 4
OSD71 171.1 171.9 0.8 OMA 42.88 46.3
OSD72 84.25 84.75 0.5 OMA 1.49 8
OSD72 83.75 84.25 0.5 OMA 7.67 18.1
OSD73 150.1 150.6 0.5 OMA 1.09 11.3
OSD73 151.6 152.1 0.5 OMA 1.15 14.3
OSD73 153.1 153.6 0.5 OMA 1.33 23.4
OSD73 152.1 152.6 0.5 OMA 1.56 18.2
OSD73 143.6 144.6 1 OMA 1.89 8.8
OSD73 150.6 151.1 0.5 OMA 2.49 5.9
OSD73 142.6 143.6 1 OMA 2.9 6.6
OSD73 141.15 141.6 0.45 OMA 3.67 62.2
OSD73 141.6 142.6 1 OMA 5.1 21.9
OSD73 152.6 153.1 0.5 OMA 5.71 307
OSD74 146.35 146.7 0.35 OMA 2.04 7.9
OSD74 143.95 144.53 0.58 OMA 2.24 11.6
OSD74 141.45 141.95 0.5 OMA 2.51 21.3
OSD74 141.95 142.45 0.5 OMA 2.93 14.3
OSD74 142.45 142.95 0.5 OMA 4.51 35.6
OSD74 143.45 143.95 0.5 OMA 4.97 19.6
OSD74 147.2 147.7 0.5 OMA 5 10.7
OSD74 142.95 143.45 0.5 OMA 5.88 25
OSD74 148.2 148.97 0.77 OMA 29.87 60.7
OSD74 147.7 148.2 0.5 OMA 40.15 40.5
OSD76 53.61 54.31 0.7 OMA 1.11 19.2
OSD76 41.95 42.61 0.66 OMA 1.65 8.5
OSD76 45 45.66 0.66 OMA 2.2 6
OSD76 47.75 48.02 0.27 OMA 4.08 18
OSD77 25.85 26.3 0.45 OMA 1.08 7.2
OSD77 30.16 30.76 0.6 OMA 1.18 14.4
OSD77 28.33 29.19 0.86 OMA 1.29 12.2
OSD77 23.45 23.75 0.3 OMA 1.36 15.7
OSD77 26.75 27.17 0.42 OMA 1.77 8.3
OSD77 26.3 26.75 0.45 OMA 1.8 24.5
OSD77 34.76 35.76 1 OMA 2.13 10.5
OSD77 29.19 29.56 0.37 OMA 4.75 19.5
OSM01 4.2 4.7 0.5 SOL 1.6 2.4
OSM01 4.7 5.85 1.15 SOL 2.8 7.2
OSM01 18.1 18.75 0.65 SOL 3 15.9
OSM01 0 0.65 0.65 SOL 7.5 2.3
OSM08 2.35 4.1 1.75 SOL 4.75 48.7
OSM09 60.4 61.25 0.85 SOL 1.1 5.8
OSM09 67.55 68.55 1 SOL 1.2 4.7
OSM19 5.35 6.35 1 SOL 1.2 10.1
OSM19 10.5 11.2 0.7 SOL 1.3 15.4
OSM19 11.2 12.1 0.9 SOL 1.5 15.1
OSM19 13.6 14.7 1.1 SOL 2.3 8.2
OSM24 9.5 10.4 0.9 PRO 1.06 7
OSM24 10.4 11.4 1 PRO 2.77 8
OSM24 1 1.4 0.4 PRO 4.62 1
OSM25 11.8 12.8 1 PRO 2.16 6
OSM25 17.9 19.7 1.8 PRO 2.47 4
OSM31 10.3 11.1 0.8 PRO 3.25 19
OSM40 3.4 4 0.6 PRO 1.37 3
OSM40 2.1 2.75 0.65 PRO 3.61 8
OSM40 1.3 2.1 0.8 PRO 3.68 4
OSM41 2 2.8 0.8 PRO 2.13 4
OSM41 1 2 1 PRO 2.17 4
OSM41 0.4 1 0.6 PRO 19.4 24
OSM41 0 0.4 0.4 PRO 22.8 31
OSM42 2.7 4.1 1.4 PRO 1.86 9
OSM42 4.9 5.6 0.7 PRO 4.8 19
OSM42 4.1 4.9 0.8 PRO 20.8 41
OSM42 1.2 2.7 1.5 PRO 157 183
OSM54 4.5 5.8 1.3 PRO 1.31 2.16
OSM54 0 0.6 0.6 PRO 2.29 72.96
OSM54 2.4 3.4 1 PRO 5.54 57.47
OSM55 0.7 1.6 0.9 PRO 1.03 7.59
OSM56 0 1 1 PRO 2.36 12.1
OSM56 2.7 3.4 0.7 PRO 4.45 77
OSM56 2 2.7 0.7 PRO 7.87 271
OSM56 1 2 1 PRO 7.99 59
OSR08 1.5 2.2 0.7 2.3
OSR09 1.2 2 0.8 1.07
OSR09 3 3.6 0.6 4.3
OSR15 0 1.1 1.1 1.7
OSS05 2.1 3.1 1 SOL 2.1 28.8
OSS06 0 1.9 1.9 SOL 2.6 36.8
OSS06 7.9 8.6 0.7 SOL 3.7 13.1
OSS06 8.6 9.6 1 SOL 6.6 13.5
OUR02 89 90 1 OMA 1.04 9.1
OUR02 82 83 1 OMA 1.52 5.1
OUR02 79 80 1 OMA 3.5 11.4
OUR02 81 82 1 OMA 4.92 6.6
OUR02 80 81 1 OMA 5.08 9.4
OUR02 86 87 1 OMA 7.04 6.8
OUR02 88 89 1 OMA 7.76 7.5
OUR02 87 88 1 OMA 18.4 12.3
OUR03 103 104 1 OMA 1.51 4
OUR03 98 99 1 OMA 1.6 2.1
OUR03 104 105 1 OMA 1.9 4.1
OUR03 105 106 1 OMA 2.06 5.3
OUR03 101 102 1 OMA 3.22 6.4
OUR03 100 101 1 OMA 3.8 8.7
OUR03 102 103 1 OMA 6 6.5
OUR05 149 150 1 OMA 1.28 2.4
OUR05 148 149 1 OMA 6.04 6.6

==> picture [102 x 54] intentionally omitted <==

APPENDIX B – DH COLLARS

==> picture [109 x 49] intentionally omitted <==

WWW.MARQUEERESOURCES.COM.AU | ABN: 94 616 200 312

DH COLLARS

HOLE-ID **X_WGS84_Z32N_SRK ** Y_WGS84_Z32N_SRK RL LENGTH TYPE AREA_DRLLD
OBD01 470276.65 4507935.133 392.823 350.3 DD Bunnari
OBD02 470276.184 4507932.798 392.707 180.5 DD Bunnari
OBD03 470373.103 4507970.026 399.059 150.5 DD Bunnari
OBD04 470371.938 4507969.661 399.049 201.5 DD Bunnari
OBD05 470372.907 4507969.463 399.07 156.5 DD Bunnari
OBD06 470275.757 4507934.315 392.536 260.7 DD Bunnari
OBD07 470280.588 4507935.178 392.847 180.1 DD Bunnari
OBD08 470362.706 4508021.326 383.95 267.4 DD Bunnari
OBD09 470274.429 4507979.165 383.522 255.1 DD Bunnari
OBD10 470448.611 4508045.938 387.374 281.7 DD Bunnari
OBD12 470254.159 4507977.084 380.322 302.7 DD Bunnari
OBD13 470208.314 4507963.394 375.149 273.4 DD Bunnari
OBD14 470207.189 4507964.211 375.286 307.6 DD Bunnari
OD01 471391.1 4505550.74 388.526 146.6 DD Sa Pala
OD02 471389.86 4505551.64 388.604 172 DD Sa Pala
OD03 471920 4505813 366 131.85 DD Sa Pala
OD04 471920 4505812 366 190.8 DD Sa Pala
OD05 471663.26 4505693.72 373.855 138 DD Sa Pala
OD06 471663 4505694 374 134.5 DD Sa Pala
OD07 472225.543 4505795.257 445.409 133.4 DD Sa Pala
OD08 472225.363 4505796.16 445.499 167.1 DD Sa Pala
OD09 472506.67 4505842.63 479.619 148.75 DD Sa Pala
OD10 472507.12 4505843.73 479.575 198 DD Sa Pala
OD11 472025.27 4505794.01 385.512 108.3 DD Sa Pala
OD12 472027.59 4505827.74 381.452 172 DD Sa Pala
OD13 472118.262 4505754.913 425.285 117.3 DD Sa Pala
OD14 472112.844 4505806.172 432.983 182.65 DD Sa Pala
OD15 471818 4505768 374 115.7 DD Sa Pala
OD16 471804 4505792 381 137.65 DD Sa Pala
OD17 471879 4505777 361 87.9 DD Sa Pala
OD18 471880 4505776 360 124.7 DD Sa Pala
OD19 471978.82 4505763.092 368.128 78.1 DD Sa Pala
OD20 471971.06 4505798.98 361.724 160.95 DD Sa Pala
OD21 472068.981 4505772.602 415.059 120.95 DD Sa Pala
OD22 472072.395 4505785.65 414.431 204.15 DD Sa Pala
OD23 472169.242 4505768.614 435.277 112 DD Sa Pala
OD24 472158.2 4505787.184 436.184 181.8 DD Sa Pala
OD25 472272.762 4505768.322 433.501 86 DD Sa Pala
OD26 472266.87 4505807.413 450.59 174.1 DD Sa Pala
OD27 472321.515 4505778.566 438.945 138 DD Sa Pala
OD28 472322.74 4505812.271 454.986 179 DD Sa Pala
ODD01 475378.704 4509690.237 433.867 51.3 DD Pianoldotti
ODD02 475379.806 4509658.08 432.43 96.5 DD Pianoldotti
ODD03 475476.593 4509626.175 417.129 132.3 DD Pianoldotti
ODD04 475491.792 4509589.85 417.88 219.3 DD Pianoldotti
ODD05 475598.717 4509706.376 387.549 84.4 DD Pianoldotti
ODD06 475600.12 4509616.419 411.413 183.1 DD Pianoldotti
OED01 474194.309 4509439.023 519.665 103.3 DD Pala Edra
OED02 474133.166 4509436.738 504.7 86.65 DD Pala Edra
OED03 474133.009 4509437.587 505.037 103.15 DD Pala Edra
OED03A 474131.698 4509437.717 504.648 94.85 DD Pala Edra
OED04 474195.878 4509440.772 519.438 100.85 DD Pala Edra
OED05 474104.888 4509513.265 491.134 210.8 DD Pala Edra
OED06 474246.94 4509509.594 532.913 244.5 DD Pala Edra
OED07 474085.298 4509465.683 497.438 127.2 DD Pala Edra
OED08 474252.545 4509439.089 536.221 110 DD Pala Edra
OED09 474246.867 4509509.602 532.902 200.15 DD Pala Edra
OED10 473794 4509429 582 140 DD Pala Edra
OED11 473794.885 4509429.474 582.787 305.6 DD Pala Edra
OED12 474103.669 4509513.085 491.255 200.05 DD Pala Edra
OED13 473882.469 4509410.442 568.495 150.65 DD Pala Edra
OED14 474033.871 4509455.184 514.322 123.5 DD Pala Edra
OED15 474032.509 4509506.973 516.699 190.8 DD Pala Edra
OED16 474032.186 4509508.411 516.672 241.5 DD Pala Edra
OED17 474103.069 4509760.043 455.293 582.1 DD Pala Edra
OED18 474114.643 4509621.2 475.215 401.5 DD Pala Edra
OED19 473884.337 4509411.616 568.363 130.8 DD Pala Edra
OED20 473812.147 4509402.613 585.182 100.1 DD Pala Edra
OED21 473809.912 4509403.094 585.344 118.5 DD Pala Edra
OED22 473811.416 4509403.726 585.192 121.65 DD Pala Edra
OED23 474324.614 4509439.829 548.509 105.55 DD Pala Edra
OED24 474368.276 4509445.642 544.594 106.3 DD Pala Edra
OED25 474428.858 4509448.551 527.765 120 DD Pala Edra
OED26 474309.357 4509516.321 548.005 237.55 DD Pala Edra
OED27 474491.137 4509468.133 504.659 85.1 DD Pala Edra
OED28 474549.746 4509479.25 486.635 91 DD Pala Edra
OED29 474585.389 4509478.673 477.092 73.45 DD Pala Edra
OED30 474369.73 4509527.489 547.06 240 DD Pala Edra
OED31 474428.465 4509537.661 531.874 233.55 DD Pala Edra
OED32 474484.22 4509503.587 512.061 183.1 DD Pala Edra
OED33 474481.893 4509498.595 512.082 159.4 DD Pala Edra
OED34 474252.168 4509587.71 530.08 318.5 DD Pala Edra
OED35 474309.07 4509594.292 535.239 331.75 DD Pala Edra
OED36 474369.06 4509607.187 525.23 345.6 DD Pala Edra
OED37 473974.504 4509458.679 535.953 126.5 DD Pala Edra
OED38 474668.063 4509372.582 453.461 225.5 DD Pala Edra
OED39 474668.168 4509371.341 453.401 192.6 DD Pala Edra
OED40 474667.423 4509373.015 453.61 198.6 DD Pala Edra
OED41 474710.784 4509382.859 444.221 230.6 DD Pala Edra
OED42 474428.384 4509615.825 507.294 333.3 DD Pala Edra
OED-BMK1 474164.991 4509500.006 503.186 183.6 DD Pala Edra
OFD01 474952.216 4508624.072 477.32 96.1 DD Fieldies
OFD02 474952.253 4508624.915 477.306 132.5 DD Fieldies
OFD03 474895.673 4508518.918 460.473 93.2 DD Fieldies
OFD04 474895.628 4508484.83 462.481 147.6 DD Fieldies
OFD05 474850.685 4508550.787 472.238 93.3 DD Fieldies
OFD06 474966.919 4508480.224 463.561 134.8 DD Fieldies
OFD07 475044.969 4508489.995 456.52 36.3 DD Fieldies
OFD07A 475045.683 4508487.225 456.466 153.3 DD Fieldies
OFD08 475047.853 4508486.439 456.524 171.3 DD Fieldies
OFD09 474892.886 4508518.062 460.687 102.5 DD Fieldies
OFD10 474877.609 4508385.136 477.258 297.3 DD Fieldies
OFD11 474976.611 4508397.401 472.693 264.5 DD Fieldies
OFD12 474780.115 4508397.424 467.725 267.4 DD Fieldies
OFD13 474701.673 4508392.12 469.135 300.4 DD Fieldies
OFD14 474799.757 4508493.592 470.019 129.4 DD Fieldies
OFD15 474725.705 4508491.388 474.699 120.4 DD Fieldies
OMT01 469746.05 4505759.343 296.258 180.2 DD Mte Trobes
OMT02 469596.195 4505646.505 250.228 174.1 DD Mte Trobes
OMT03 469804.427 4505631.497 284.01 131.4 DD Mte Trobes
OP01 471077.72 4506453.41 467.441 58.7 DD Pedra Bianca
OP02 471046.19 4506528.65 455.527 161.5 DD Pedra Bianca
OP03 470963.08 4506472.11 430.853 140.7 DD Pedra Bianca
OP04 470900.3 4506448.6 417.655 138 DD Pedra Bianca
OP05 470810.84 4506431.82 435.056 86.45 DD Pedra Bianca
OP06 471143.52 4506557.93 457.071 125.35 DD Pedra Bianca
OP07 470960 4506308 465 150.5 DD Pedra Bianca
OP08 470820 4506318 464 136 DD Pedra Bianca
OPC01 473614.871 4503866.629 255.321 159.3 DD Pedra Canarza
OPC02 473508.649 4503959.897 266.535 129.5 DD Pedra Canarza
OPC03 473209.467 4504368.804 300.556 147.5 DD Pedra Canarza
OPD101 470931.84 4506357.265 453.678 65.2 DD Pedra Bianca
OPD102 470949.65 4506332.105 460.204 107.4 DD Pedra Bianca
OPD103 470899.044 4506316.567 464.886 102 DD Pedra Bianca
OPD104 470880.75 4506345.897 458.609 51.4 DD Pedra Bianca
OPD105 470853.667 4506319.507 460.504 74.35 DD Pedra Bianca
OPD106 470485.045 4506120.026 412.048 150 DD Pedra Bianca
OPD107 471013.053 4506461.496 448.862 128.5 DD Pedra Bianca
OPD108 471013.214 4506460.974 448.686 70 DD Pedra Bianca
OPD109 471004.37 4506493.433 446.657 131.4 DD Pedra Bianca
OPD110 471045.066 4506484.521 461.324 57.4 DD Pedra Bianca
OPD111 471045.639 4506483.181 461.298 58 DD Pedra Bianca
OPD112 471035.309 4506497.505 457.828 103.2 DD Pedra Bianca
OPD113 471029.181 4506518.543 454.349 170.3 DD Pedra Bianca
OPD114 471049.178 4506530.861 456.205 170.4 DD Pedra Bianca
OPD115 471051.131 4506508.298 462.037 106 DD Pedra Bianca
OPD116 470710.486 4506334.047 469.039 62.3 DD Pedra Bianca
OPD117 470753.858 4506262.27 455.544 164.4 DD Pedra Bianca
OPD118 470699.116 4506230.244 452.082 166.5 DD Pedra Bianca
OPD119 470616.34 4506168.151 439.159 157 DD Pedra Bianca
OPD120 470534.025 4506155.768 432.546 133.5 DD Pedra Bianca
OPD121 470583.724 4506114.094 409.944 158.4 DD Pedra Bianca
OPD122 470901.288 4506247.436 449.203 203.4 DD Pedra Bianca
OPD123 470965.984 4506261.949 453.515 221.4 DD Pedra Bianca
OPD124 471065.348 4506289.603 457.569 236.2 DD Pedra Bianca
OPD125 470791.983 4506208.346 439.961 200.2 DD Pedra Bianca
OPD126 470792.011 4506207.659 439.71 280.4 DD Pedra Bianca
OPD127 470352.611 4506032.284 346.899 122.5 DD Pedra Bianca
OPD128 470424.933 4506092.354 387.91 111.3 DD Pedra Bianca
OPD129 470848.508 4506263.856 452.727 236 DD Pedra Bianca
OPD130 470959.962 4506300.105 462.817 200.85 DD Pedra Bianca
OPD131 470744.024 4506197.1 436.898 193.8 DD Pedra Bianca
OPD132 470639.975 4506209.954 461.816 133.85 DD Pedra Bianca
OPD133 470570.036 4506115.013 410.353 150 DD Pedra Bianca
OPD134 470752.955 4506262.03 455.495 145.1 DD Pedra Bianca
OPD135 471210.038 4506509.976 471.528 105.45 DD Pedra Bianca
OPD136 471136.979 4506471.995 468.7 134.1 DD Pedra Bianca
OPD137 471114.94 4506405.007 457.258 211.75 DD Pedra Bianca
OPD138 471044.981 4506399.995 446.472 150 DD Pedra Bianca
OPD139 469980.131 4505773.723 271.304 138.1 DD Pedra Bianca
OPD140 470039.909 4505829.858 275.386 165.3 DD Pedra Bianca
OPD141 470160.015 4505935.004 341.887 126.5 DD Pedra Bianca
OPD142 470100.011 4505880.006 313.842 87 DD Pedra Bianca
OPD143 470792.412 4506260.816 452.984 194.8 DD Pedra Bianca
OPD144 470792.225 4506261.178 452.954 187.2 DD Pedra Bianca
OPD145 471161.765 4506443.441 461.925 114.4 DD Pedra Bianca
OPD146 471125.814 4506345.428 457.962 240.5 DD Pedra Bianca
OSD01 471898.193 4505740.643 347.139 87.15 DD Sa Pala
OSD02 471898.006 4505763.949 352.198 96.45 DD Sa Pala
OSD03 471898.062 4505764.738 352.287 122.5 DD Sa Pala
OSD04 471923.631 4505762.138 352.717 129.5 DD Sa Pala
OSD05 471924.163 4505784.482 358.674 144.8 DD Sa Pala
OSD06 471846.991 4505724.251 358.966 102.75 DD Sa Pala
OSD07 471798.822 4505696.584 371.446 110.5 DD Sa Pala
OSD08 471790.386 4505726.387 372.764 99.75 DD Sa Pala
OSD09 471740.074 4505689.876 366.944 87.45 DD Sa Pala
OSD10 471721.76 4505740.703 375.56 132.45 DD Sa Pala
OSD11 471683.756 4505640.387 356.712 105.45 DD Sa Pala
OSD12 471552.712 4505638.279 345.313 156.45 DD Sa Pala
OSD13 471527.421 4505698.15 350.707 185.3 DD Sa Pala
OSD14 471454.284 4505600.07 360.306 142.55 DD Sa Pala
OSD15 471498.827 4505777.038 356.66 211 DD Sa Pala
OSD16 471439.545 4505681.517 352.606 135.45 DD Sa Pala
OSD17 471310.794 4505548.745 407.362 162.45 DD Sa Pala
OSD18 471282.293 4505612.936 400.671 232.1 DD Sa Pala
OSD19 471130.245 4505552.697 464.326 275.4 DD Sa Pala
OSD20 471162.189 4505478.34 459.051 137.4 DD Sa Pala
OSD21 471241.281 4505506.587 435.35 129.6 DD Sa Pala
OSD22 472118.397 4505755.961 425.549 152.3 DD Sa Pala
OSD23 472080.517 4505742.186 422.988 152.2 DD Sa Pala
OSD24 471214.802 4505586.733 424.887 243.45 DD Sa Pala
OSD25 471973.299 4505749.704 369.232 187.9 DD Sa Pala
OSD26 472228.274 4505954.018 420.897 304.4 DD Sa Pala
OSD27 472228.283 4505954.512 420.85 321.5 DD Sa Pala
OSD28 471454.758 4505599.072 360.485 180.65 DD Sa Pala
OSD29 471440.066 4505680.374 352.588 151.6 DD Sa Pala
OSD30 472118.718 4505753.481 425.415 255.25 DD Sa Pala
OSD31 472163.783 4505828.158 435.204 210.55 DD Sa Pala
OSD32 472099.325 4505905.444 392.42 332.45 DD Sa Pala
OSD33 472163.692 4505828.767 435.27 272.55 DD Sa Pala
OSD34 471999.792 4505873.358 383.302 302.05 DD Sa Pala
OSD35 471916.915 4505853.883 381.199 283 DD Sa Pala
OSD36 472174.034 4505856.9 434.758 294.65 DD Sa Pala
OSD37 471916.831 4505854.489 381.252 329.15 DD Sa Pala
OSD38 471872.985 4505824.682 368.583 250 DD Sa Pala
OSD39 472082.826 4505802.918 419.889 176.05 DD Sa Pala
OSD40 471858.911 4505845.435 378.283 221.85 DD Sa Pala
OSD41 472082.696 4505803.415 419.832 204.75 DD Sa Pala
OSD42 471765.612 4505812.787 386.71 200 DD Sa Pala
OSD43 471214.863 4505588.951 424.898 256.85 DD Sa Pala
OSD44 471457.565 4505597.853 360.411 185.6 DD Sa Pala
OSD45 472118.39 4505843.246 418.936 265 DD Sa Pala
OSD45A 471454 4505600 360 59.6 DD Sa Pala
OSD46 471180.372 4505671.016 441.324 410.15 DD Sa Pala
OSD47 471123.475 4505799.611 447.496 514.85 DD Sa Pala
OSD48 472169.405 4505950.111 414.035 420.45 DD Sa Pala
OSD49 471079.271 4505455.792 445.42 173 DD Sa Pala
OSD50 471051.145 4505516.927 451.937 245.45 DD Sa Pala
OSD51 472360.584 4505819.682 460.447 155.4 DD Sa Pala
OSD52 472350.344 4505897.304 479.509 255.65 DD Sa Pala
OSD53 472584.836 4505803.736 476.351 144.1 DD Sa Pala
OSD54 472918.752 4505898.296 496.308 129.5 DD Sa Pala
OSD55 472880.232 4505877.149 506.105 126.1 DD Sa Pala
OSD56 470992.884 4505454.652 416.517 143.3 DD Sa Pala
OSD57 470967.871 4505507.731 420.147 240.4 DD Sa Pala
OSD58 471020.723 4505594.13 451.205 351.5 DD Sa Pala
OSD59 472823.028 4505871.758 519.666 105.5 DD Sa Pala
OSD60 470921.38 4505458.81 391.42 203.2 DD Sa Pala
OSD61 472822.949 4505871.734 519.719 155 DD Sa Pala
OSD62 472743.098 4505836.937 515.295 123.1 DD Sa Pala
OSD63 472666.599 4505867.64 522.532 152.8 DD Sa Pala
OSD64 472578.263 4505872.189 507.564 222.5 DD Sa Pala
OSD65 472749.033 4505770.213 490.946 147 DD Sa Pala
OSD66 472748.681 4505766.255 490.844 266.8 DD Sa Pala
OSD67 472754.049 4505726.618 485.108 221 DD Sa Pala
OSD68 471075.459 4505673.807 468.888 417.7 DD Sa Pala
OSD69 472396.908 4505902.111 494.287 246.5 DD Sa Pala
OSD70 472397.481 4505901.865 494.178 201.3 DD Sa Pala
OSD71 472311.767 4505882.37 470.674 248.7 DD Sa Pala
OSD72 472403.004 4505832.981 468.736 135.3 DD Sa Pala
OSD73 472226.742 4505855.023 445.438 200 DD Sa Pala
OSD74 471256.003 4505563.977 416.45 204.6 DD Sa Pala
OSD75 471350.027 4505547.012 400.724 97.65 DD Sa Pala
OSD76 471334.638 4505509.227 418.83 117.25 DD Sa Pala
OSD77 471715.028 4505664.961 361.741 104.25 DD Sa Pala
OSD78 470870.045 4505349.96 379.297 349.85 DD Sa Pala
OTD01 473571.552 4521657.007 398.867 213.2 DD Punta Tinteri
OTD02 474186.245 4521465.712 349.555 255.5 DD Punta Tinteri
OTD03 473390 4521540 400 99.9 DD Punta Tinteri
OBDA 470142 4507843 340 120 DIA NULL
OBDB 470116 4507904 365 270 DIA NULL
OBDC 470205 4507960 375 330 DIA NULL
OBDD 470228 4507922 385 200 DIA NULL
OBDG 470316 4507960 395 220 DIA NULL
OMD01 473535 4506225 595 0.1 NULL Sa Maddalena
OMD02 473735 4506305 620 0.1 NULL Sa Maddalena
OMD03 473380 4506125 608 0.1 NULL Sa Maddalena
OAR01 471632.064 4507125.149 410.25 25 RC Serra Almuttu
OAR02 471639.225 4507143.934 407.641 20 RC Serra Almuttu
OAR03 471649.054 4507160.991 402.703 30 RC Serra Almuttu
OAR04 471658.433 4507178.176 399.93 30 RC Serra Almuttu
OAR05 471667.147 4507196.172 396.848 35 RC Serra Almuttu
OAR06 471678.315 4507217.707 393.007 30 RC Serra Almuttu
OBR01 470346 4507920 404 105 RC Bunnari
OBR02 470399 4507927 405.5 60 RC Bunnari
OBR03 470399 4507927 405.5 81 RC Bunnari
OBR04 470434.5 4507950 403.8 81 RC Bunnari
OBR05 470475 4507977 403 150 RC Bunnari
OBR06 470514 4508020 398.5 150 RC Bunnari
OBR07 470563 4508040 398.5 150 RC Bunnari
OBR08 470186 4507886 377 150 RC Bunnari
OBR09 470236 4507890 385 150 RC Bunnari
OCR01 478132.005 4509785.2 413.952 175 RC Cherena
OCR02 478131.308 4509923.152 378.177 193 RC Cherena
OCR03 478277.344 4509908.294 373.388 197 RC Cherena
OCR04 478471.706 4509876.302 405.533 196 RC Cherena
OCR05 478530.566 4509968.809 437.946 196 RC Cherena
OMR 2.000 480520 4516825 500 210 RC Sa Marchesa
OMR 3.000 479905.988 4517148.774 541.256 222 RC Sa Marchesa
OMR 4.000 481229.415 4516623.016 435.579 171 RC Sa Marchesa
OPC04 473488 4503968 268 61 RC Pedra Canarza
OPR01 470907.838 4506298.168 461.663 140 RC Pedra Bianca
OPR02 470959.43 4506307.598 463.784 113 RC Pedra Bianca
ORC01 475277.633 4509663.677 432.04 59 RC Pianoldotti
ORC02 475344.504 4509662.953 434.759 113 RC Pianoldotti
ORC03 475376.937 4509693.821 434.264 59 RC Pianoldotti
ORC04 475401.998 4509664.793 429.341 95 RC Pianoldotti
ORC05 475402.459 4509661.447 429.116 86 RC Pianoldotti
ORC06 475277.822 4509661.092 431.745 83 RC Pianoldotti
ORC07 475215.557 4509656.502 427.151 80 RC Pianoldotti
ORC08 475167.444 4509634.62 421.774 90 RC Pianoldotti
ORC09 475107 4509628.06 410.729 98 RC Pianoldotti
ORC10 475476.662 4509687.153 408.519 65 RC Pianoldotti
ORC11 475485.106 4509646.606 412.545 89 RC Pianoldotti
ORC12 475496.346 4509618.188 414.337 65 RC Pianoldotti
ORC13 475551.926 4509693.663 392.442 83 RC Pianoldotti
ORC14 475599.404 4509707.619 387.298 69 RC Pianoldotti
ORC15 475385.128 4509660.576 431.671 79 RC Pianoldotti
ORL01 478046.461 4510674.338 425.178 153 RC Mte Luju
ORL02 477948.974 4510600.066 414.581 191 RC Mte Luju
OUR01 475269.344 4506963.983 530.86 197 RC Mte Pireddu
OUR02 475376.427 4507018.547 528.528 181 RC Mte Pireddu
OUR03 475610.613 4506992.09 509.849 196 RC Mte Pireddu
OUR04 475615.824 4506983.378 509.966 192 RC Mte Pireddu
OUR05 475374.609 4507022.961 528.637 181 RC Mte Pireddu
RCT01 472790.079 4505154.181 358.472 159.5 RC Calchettanos
RCT02 472886.906 4505095.201 354.198 120 RC Calchettanos
RCT03 473223 4505428 402 181 RC Calchettanos
RCT04 473105.459 4505369.331 359.126 205 RC Calchettanos
RCT05 473256.85 4505298.424 351.329 199 RC Calchettanos
RCT06 473171.477 4505262.867 343.069 187 RC Calchettanos
RCT07 472721.032 4505409.782 405.202 205 RC Calchettanos
RCT08 472806.283 4505318.756 396.404 187 RC Calchettanos
RCT09 472810.13 4505319.067 396.557 199 RC Calchettanos
RCT10 472717.32 4505408.884 405.221 205 RC Calchettanos
RCT11 472641.06 4505487.307 420.144 193 RC Calchettanos
RCT12 472700.516 4505594.467 465.489 187 RC Calchettanos
RCT13 472770.414 4505515.305 451.464 151 RC Calchettanos
OBD11 470317.189 4507989.508 387.725 300 RC+DD Bunnari
OMR 1.000 480362.764 4517164.683 530.631 322.3 RC+DD Sa Marchesa
ORL03 477850.517 4510597.103 384.228 231 RC+DD Mte Luju
ORL04 477854.449 4510509.329 371.52 213.6 RC+DD Mte Luju
PETR01 474068.573 4509373.01 512.578 45.37 TR Pala Edra
FWB01 474874.354 4508504.466 462.084 3 WB Fieldies
FWB02 474863.746 4508520.962 467.381 75.6 WB Fieldies
NCRC01 471768.948 4506360.222 462.156 74 WB
NCRC02 471867.229 4506158.843 446.595 74 WB

==> picture [102 x 54] intentionally omitted <==

APPENDIX C – DH SURVEY

==> picture [109 x 49] intentionally omitted <==

WWW.MARQUEERESOURCES.COM.AU | ABN: 94 616 200 312

DH SURVEY

HOLE-ID DISTANCE AZIMUTH DIP
OAC01 0 145 -15
OAC01 1 160 -30
OAC01 1.55 160 -10
OAC01 2 165 0
OAC01 2.7 160 -25
OAC02 0 145 -30
OAC02 0.5 150 0
OAC02 1.5 150 -15
OAC03 0 140 0
OAC03 0.35 150 0
OAC03 0.7 160 -75
OAC03 1.4 160 -90
OAC03 1.55 150 0
OAC03 2.25 150 -15
OAR01 0 200 -60
OAR01 25 200 -60
OAR02 0 200 -60
OAR02 20 200 -60
OAR03 0 200 -60
OAR03 30 200 -60
OAR04 0 200 -60
OAR04 30 200 -60
OAR05 0 210 -60
OAR05 35 210 -60
OAR06 0 195 -60
OAR06 30 195 -60
OBC01 0 10 0
OBC01 0.25 10 -45
OBC01 0.5 10 -15
OBC01 1.5 340 -20
OBC01 2.5 360 -25
OBC01 3.1 260 0
OBC01 3.4 360 0
OBC01 3.8 360 -10
OBC02 0 350 -30
OBC02 0.7 350 0
OBC02 1 340 -55
OBC02 1.3 320 -55
OBC02 2 320 -15
OBC03 0 350 -20
OBC03 1.6 355 0
OBC03 2.1 355 -30
OBC03 2.6 340 -10
OBC03 3.1 345 0
OBC03 4.1 350 -35
OBC03 5.1 350 -15
OBC04 0 340 0
OBC04 0.7 330 -30
OBC04 1 330 -15
OBC04 2.2 320 -10
OBC04 3.2 325 0
OBC04 3.9 300 0
OBC04 4.2 300 -15
OBC04 5.2 320 -70
OBC04 5.7 300 15
OBC04 6.2 320 -40
OBC04 6.7 330 -15
OBC04 7.1 310 -10
OBC04 7.7 310 -15
OBC04 8.2 310 0
OBC04 8.5 300 -35
OBC04 9.2 300 0
OBC04 9.4 320 -10
OBC04 9.9 330 -45
OBC04 10.2 345 -15
OBC04 10.5 320 -15
OBC04 11.1 345 -15
OBC04 11.7 5 -20
OBC04 12.7 330 -20
OBC04 13.7 310 -20
OBC05 0 360 0
OBC05 6.75 360 0
OBC06 0 330 0
OBD01 0 215 -55
OBD01 54.4 216 -56
OBD01 102.5 214 -56.5
OBD01 150.5 212 -57
OBD01 201.5 211 -57.5
OBD01 249.5 211 -58
OBD01 300.5 211 -59
OBD01 344.2 210 -60
OBD01 350.3 210 -60
OBD02 0 180 -50
OBD02 51.5 180 -51
OBD02 102.5 180 -51
OBD02 150.5 179 -52.5
OBD03 0 167 -55
OBD03 51.5 166 -56
OBD03 102.5 165 -57
OBD03 150.5 164 -58
OBD04 0 197 -50
OBD04 51.5 197 -51.5
OBD04 102.5 196 -53
OBD04 150.5 196 -53
OBD04 201.5 196 -53.5
OBD05 0 145 -50
OBD05 51.5 145 -51
OBD05 98.15 144 -52
OBD05 156.5 144 -52.5
OBD06 0 216 -45
OBD06 51.1 217 -44.5
OBD06 102.1 218 -44
OBD06 150 218 -46
OBD06 201 217 -47
OBD06 260.7 216 -48
OBD07 0 145 -50
OBD07 55 144 -51
OBD07 105.1 143 -52
OBD07 150.1 143 -53
OBD08 0 167 -55
OBD08 51.4 165 -54
OBD08 109.4 165 -55
OBD08 153.1 164 -55
OBD08 201.4 164 -55
OBD09 0 165 -50
OBD09 57.1 163 -52.7
OBD09 102.1 163 -53.8
OBD09 150.1 160.05 -55
OBD09 202.1 159.5 -55.5
OBD09 249.1 159 -56.2
OBD10 0 165 -50
OBD10 51.1 163 -51.2
OBD10 102.1 162 -52.7
OBD10 150.1 160 -53.2
OBD10 201.1 159 -54.2
OBD10 252.1 157 -55.2
OBD10 281.7 155 -55.8
OBD11 0 155 -60
OBD11 147.4 156.5 -64.5
OBD11 201.4 154 -65.7
OBD11 252.5 151.5 -67
OBD12 0 160 -60
OBD12 30.4 159.5 -60
OBD12 81.4 160 -61.5
OBD12 132.4 160 -61.5
OBD12 180.4 158 -61.5
OBD12 231.4 157 -61.5
OBD12 278.4 156 -62
OBD12 302.7 155 -62.5
OBD13 0 160 -57
OBD13 30.3 161 -57
OBD13 81.3 161 -58
OBD13 132.3 161 -58
OBD13 180.3 160 -58
OBD13 231.3 161 -59
OBD13 273.4 160.5 -59.5
OBD14 0 186 -59
OBD14 32.9 185.5 -59
OBD14 81 185.5 -59.75
OBD14 132 185.5 -60
OBD14 180 184 -60.75
OBD14 231 184 -61
OBD14 279 184 -61.25
OBD14 307.6 184.5 -62
OBDA 0 155 -60
OBDB 0 155 -60
OBDC 0 180 -58
OBDC 50 180 -59
OBDC 100 180 -60
OBDC 150 179 -60
OBDC 200 178 -61
OBDC 250 177 -62
OBDC 300 176 -62
OBDC 330 175 -63
OBDD 0 155 -60
OBDG 0 155 -60
OBR01 0 155 -55
OBR02 0 155 -55
OBR03 0 155 -65
OBR04 0 155 -55
OBR05 0 155 -55
OBR06 0 155 -55
OBR07 0 155 -55
OBR08 0 155 -55
OCR01 0 180 -50
OCR01 175 180 -50
OCR02 0 180 -50
OCR02 120 180 -55
OCR03 0 180 -50
OCR03 197 180 -50
OCR04 0 180 -50
OCR04 196 180 -50
OCR05 0 180 -50
OCR05 196 180 -50
OD01 0 155 -40
OD01 25 152 -40
OD01 100 154 -45
OD01 125 155 -46
OD01 146.6 155 -46
OD02 0 170 -90
OD02 25 170 -90
OD02 50 170 -90
OD02 75 170 -90
OD02 100 170 -90
OD02 125 170 -89
OD02 150 170 -88
OD02 172 170 -88
OD03 0 180 -50
OD03 25 182 -54
OD03 50 184 -55
OD03 75 185 -56
OD03 100 185 -57
OD03 125 187 -58
OD03 131.85 187 -58
OD04 0 180 -70
OD04 50 180 -72
OD04 75 179 -72
OD04 125 179 -74
OD04 190 176 -74
OD04 190.8 176 -74
OD05 0 156 -50
OD05 25 156 -51
OD05 50 157 -52
OD05 75 159 -54
OD05 100 162 -55
OD05 125 165 -55
OD05 138 165 -55
OD06 0 155 -70
OD06 25 155 -70
OD06 50 157 -70
OD06 75 160 -71
OD06 100 162 -72
OD06 125 165 -74
OD06 134.5 165 -74
OD07 0 181 -60
OD07 25 181 -60
OD07 50 183 -61
OD07 75 184 -63
OD07 100 185 -64
OD07 125 187 -65
OD07 133.4 187 -65
OD08 0 180 -80
OD08 25 180 -80
OD08 50 180 -80
OD08 75 180 -80
OD08 100 180 -79
OD08 125 180 -78
OD08 150 180 -80
OD08 167.1 180 -80
OD09 0 187 -60
OD09 25 187 -58
OD09 50 189 -58
OD09 75 190 -58
OD09 148 193 -60
OD09 148.75 193 -60
OD10 0 0 -90
OD10 25 0 -90
OD10 50 0 -90
OD10 75 0 -90
OD10 100 0 -90
OD10 125 0 -90
OD10 150 0 -90
OD10 175 0 -90
OD10 198 0 -90
OD11 0 180 -50
OD11 25 181 -50
OD11 50 182 -49
OD11 75 179 -50
OD11 108 177 -51
OD11 108.3 177 -51
OD12 0 184 -55
OD12 75 184 -53
OD12 150 184 -57
OD12 172 184 -57
OD13 0 180 -75
OD13 25 180 -75
OD13 50 182 -75
OD13 75 182 -75
OD13 117 183 -75
OD13 117.3 183 -75
OD14 0 180 -60
OD14 50 179 -62
OD14 100 178 -63
OD14 182 176.5 -64
OD14 182.65 176.5 -64
OD15 0 168 -63
OD15 2.5 168 -63.2
OD15 25 164 -63
OD15 50 163 -63.2
OD15 75 158 -63.5
OD15 85 162 -63.5
OD15 115.7 162 -63.5
OD16 0 165 -60
OD16 2.5 164 -57
OD16 137.65 164 -57
OD17 0 180 -50
OD17 2.5 179 -50
OD17 87.9 179 -50
OD18 0 180 -75
OD18 124.7 180 -75
OD19 0 180 -60
OD19 2.5 183 -59
OD19 25 183 -60
OD19 50 181 -60.2
OD19 78 183 -60
OD19 78.1 183 -60
OD20 0 180 -75
OD20 160.95 180 -75
OD21 0 174 -55
OD21 2.5 174 -54
OD21 25 177 -54.2
OD21 50 176 -55
OD21 75 178 -55.2
OD21 100 180 -56
OD21 118 178 -56
OD21 120.95 178 -56
OD22 0 185 -70
OD22 2.5 185 -69
OD22 25 187 -69.4
OD22 50 186 -69.5
OD22 75 185 -69.2
OD22 100 185 -69.2
OD22 125 184 -69.2
OD22 150 185 -69.8
OD22 175 184 -69
OD22 204.15 183 -69.1
OD23 0 181 -45
OD23 2.5 181 -45.8
OD23 25 178 -46.2
OD23 50 178 -46.5
OD23 75 179 -47.9
OD23 100 179 -47
OD23 110 179 -47.2
OD23 112 179 -47.2
OD24 0 178 -47
OD24 2.5 178 -46.8
OD24 25 180 -46.8
OD24 50 185 -47
OD24 75 186 -47.2
OD24 100 184 -47.4
OD24 125 183 -48
OD24 150 179 -48
OD24 178 177 -47.8
OD24 181.8 177 -47.8
OD25 0 175 -50
OD25 2.5 175 -51.2
OD25 25 174 -51.4
OD25 33 174 -51.2
OD25 86 174 -51.2
OD26 0 179 -60
OD26 2.5 179 -59
OD26 25 176 -59
OD26 42 176 -59.1
OD26 174.1 176 -59.1
OD27 0 178 -67
OD27 2.5 178 -66.7
OD27 25 179 -66.9
OD27 50 179 -67
OD27 75 178 -67.2
OD27 81 178 -67
OD27 138 178 -67
OD28 0 182 -75
OD28 2.5 182 -74.9
OD28 25 180 -75
OD28 50 177 -75.1
OD28 75 175 -75.1
OD28 100 170 -75.5
OD28 125 175 -75.8
OD28 150 180 -76
OD28 167 183 -76
OD28 179 183 -76
ODD01 0 350 -45
ODD01 51.3 351 -45
ODD02 0 350 -60
ODD02 51.5 351 -61
ODD02 96.5 349 -61
ODD03 0 340 -45
ODD03 51.3 339.5 -46
ODD03 105.3 339 -47.5
ODD03 132.3 339 -47
ODD04 0 340 -45
ODD04 51.3 341 -45.5
ODD04 102.3 341 -47
ODD04 150.3 340 -47
ODD04 201.05 339.5 -48
ODD04 219.3 337 -48
ODD05 0 350 -60
ODD05 51.5 351 -60
ODD05 84.4 351 -60
ODD06 0 350 -45
ODD06 51.1 350 -45
ODD06 102.1 350 -45
ODD06 150.1 349.5 -46
ODD06 183.1 349.5 -46.2
OEC01 0 175 0
OEC01 1 180 -60
OEC01 2 180 0
OEC01 2.4 180 -40
OEC02 0 180 0
OEC02 1 200 -90
OEC02 1.45 180 -90
OEC02 2 190 0
OED01 0 180 -45
OED01 54.1 181 -46
OED01 103.3 181 -47
OED02 0 180 -45
OED02 50.2 180 -45
OED02 81.1 179 -45
OED03 0 180 -65
OED03 50.25 181 -66
OED03 100 180.5 -66
OED03A 0 180 -65
OED03A 50 181.8 -65
OED03A 94.85 182 -65
OED04 0 180 -65
OED04 50 180.5 -65
OED04 100.5 181 -65
OED05 0 170 -50
OED05 50 166 -50
OED05 100 166 -51
OED05 151 168 -51
OED05 210 166 -51.5
OED06 0 210 -55
OED06 50 204 -56
OED06 100 207 -56
OED06 150 207.5 -56
OED06 203.5 208 -55.5
OED06 243 206 -58
OED07 0 180 -50
OED07 50 178 -50
OED07 101 177 -50
OED07 127 179.5 -49
OED08 0 180 -50
OED08 50 175 -51
OED08 105 170 -52.5
OED09 0 180 -50
OED09 51 179 -50.5
OED09 100 179 -51.5
OED09 150 180 -51
OED09 199.5 180 -51
OED10 0 180 -45
OED10 50 175.5 -44
OED10 105 178 -44
OED10 140 179 -45
OED11 0 150 -60
OED11 52 149.5 -60
OED11 100 149 -61
OED11 150 149 -60
OED11 200 149.5 -61
OED11 250 150 -62
OED11 300 148.5 -61
OED12 0 190 -50
OED12 50 192 -50
OED12 100 192 -52
OED12 150 192 -51
OED12 200 192 -52
OED13 0 180 -50
OED13 50 178.5 -50
OED13 100 176 -50
OED13 150 176.5 -50
OED14 0 180 -50
OED14 50 177 -50
OED14 100.6 177 -50
OED15 0 180 -50
OED15 51.5 182 -51
OED15 100 183 -50
OED15 150 182 -51
OED15 189 182 -51
OED16 0 210 -55
OED16 52 205 -56
OED16 104 209 -56
OED16 150 209 -56
OED16 209 209 -56.5
OED16 241 208 -56
OED17 0 180 -55
OED17 51.5 179.5 -55.3
OED17 102.5 179 -56
OED17 156.5 177 -57.1
OED17 201.2 178 -57.1
OED17 252.55 180 -57
OED17 303 179.5 -55
OED17 351.55 178 -53.8
OED17 398.85 179.8 -52
OED17 450.55 179.8 -50
OED17 504.55 180 -47
OED18 0 180 -50
OED18 51.5 176 -50
OED18 102.55 176 -51
OED18 153.55 175.5 -51.1
OED18 204.55 176 -52
OED18 252.55 175 -52
OED18 300.55 175 -53
OED18 351.7 175 -52.8
OED18 401.5 175.5 -52.3
OED19 0 150 -50
OED19 50 149 -50
OED19 100 150 -50
OED19 130 148.5 -50
OED20 0 180 -45
OED20 50 176 -44
OED20 100 181 -47
OED21 0 195 -45
OED21 53 190 -45
OED21 118 190.5 -46
OED22 0 165 -45
OED22 50 161 -45
OED22 121 158.5 -45
OED23 0 180 -45
OED23 50.3 178.5 -45
OED23 105 177 -45
OED24 0 180 -45
OED24 50.6 175 -46
OED24 105 174 -46
OED25 0 180 -45
OED25 50 178 -45
OED25 100 175 -46
OED26 0 180 -50
OED26 51.55 177 -51
OED26 102.55 178 -51.7
OED26 150.55 179 -52
OED26 204.55 177 -52.2
OED27 0 180 -45
OED27 52.65 174 -46
OED27 85.1 176 -46
OED28 0 180 -45
OED28 50 175.5 -46
OED28 91 177 -46.5
OED29 0 150 -45
OED29 50 144 -46
OED29 73.45 144 -46
OED30 0 180 -50
OED30 50.55 175 -50
OED30 150 175 -50
OED31 0 180 -50
OED31 51.5 183 -50
OED31 102.55 181 -50.3
OED31 150.8 180 -51
OED31 204.55 176.5 -51.1
OED31 233.55 175.5 -51.1
OED32 0 180 -50
OED32 51.1 174.9 -50
OED32 102.1 174.9 -51
OED32 150.1 175 -51.2
OED32 183.1 175 -52
OED33 0 150 -50
OED33 51.4 144 -50
OED33 102.4 142 -49
OED33 153.4 141.5 -49
OED34 0 180 -50
OED34 51.5 180 -50.5
OED34 102.5 180 -51
OED34 150.5 179.5 -51.3
OED34 201.5 177.5 -52
OED34 252.5 179.5 -51.5
OED34 306.5 179 -50.5
OED35 0 180 -50
OED35 51.5 179 -50.5
OED35 102.5 176 -51.2
OED35 150.2 176 -52
OED35 201.5 175 -52.8
OED35 252.5 174.5 -52.8
OED35 303.5 175.5 -51.5
OED35 331.75 176 -51.2
OED36 0 180 -50
OED36 51.5 180 -50.8
OED36 102.5 179.5 -51
OED36 150.6 177 -52
OED36 201.6 175.5 -52
OED36 252.6 176 -52.7
OED36 300.6 176 -53
OED36 345.6 177 -52.2
OED37 0 180 -50
OED37 51.5 180 -50
OED37 102.5 179 -51
OED37 126.5 180.5 -51
OED38 0 0 -45
OED38 51.5 358 -45
OED38 105.5 356 -46
OED38 151.1 355.5 -47.2
OED38 201.5 354 -47
OED38 225.5 354 -46.8
OED39 0 335.5 -55
OED39 51.6 335.5 -55
OED39 102.6 333 -55
OED39 150.6 335 -56
OED39 192.6 335 -56
OED40 0 0 -55
OED40 51.6 356 -56
OED40 102.6 355.5 -56.5
OED40 150.6 353 -57.7
OED40 198.6 352 -58
OED41 0 360 -45
OED41 51.3 358 -45.5
OED41 102.3 355.5 -45.3
OED41 150.3 354.5 -46.5
OED41 201.3 353 -47
OED41 230.6 352 -47
OED42 0 180 -50
OED42 51.3 183.5 -50.7
OED42 103.3 179 -50.7
OED42 150.3 177 -51.1
OED42 201.3 179 -51.3
OED42 255.3 179 -51
OED42 300.3 176 -50
OED42 330.3 176 -49
OED-BMK1 0 180 -50
OED-BMK1 51.6 182 -50
OED-BMK1 102.6 181.5 -50.5
OED-BMK1 159.6 180 -51
OFD01 0 190 -45
OFD01 51.1 189.5 -45
OFD01 96.1 186 -44
OFD02 0 190 -55
OFD02 51.5 189 -56
OFD02 102.5 187 -57
OFD02 132.5 186 -58
OFD03 0 10 -45
OFD03 51.2 13.5 -45
OFD03 93.2 12 -46
OFD04 0 10 -55
OFD04 51.6 15.5 -55.5
OFD04 102.6 15 -55.7
OFD04 147.6 14.5 -55
OFD05 0 10 -45
OFD05 51.3 9 -46
OFD05 93.3 6.5 -47
OFD06 0 10 -45
OFD06 51.3 9.5 -45.8
OFD06 102.3 8 -46
OFD06 134.8 6.5 -46
OFD07 0 10 -45
OFD07A 0 345 -45
OFD07A 51.3 343.5 -46.2
OFD07A 100.5 341 -47.5
OFD07A 153.3 344 -49
OFD08 0 40 -45
OFD08 51.3 37 -46
OFD08 102.3 35.5 -47.3
OFD08 153.3 34 -48
OFD08 171.3 35 -49
OFD09 0 330 -50
OFD09 51.5 329.5 -50
OFD09 102.5 333.5 -51
OFD10 0 11 -55
OFD10 51.3 14.8 -54
OFD10 102.3 15 -54
OFD10 150.3 22 -56
OFD10 201.3 19.5 -53
OFD10 252.3 14.5 -50.5
OFD10 282.3 16 -49.5
OFD11 0 11 -55
OFD11 51.5 12 -55
OFD11 102.5 9.5 -55.5
OFD11 150.5 9.5 -56
OFD11 201.5 9 -55
OFD11 264.5 9 -55
OFD12 0 11 -55
OFD12 51.4 12 -55
OFD12 102.4 13 -55.5
OFD12 150.4 14.5 -56.5
OFD12 201.4 14.5 -54.5
OFD12 252.4 14.5 -52
OFD13 0 11 -55
OFD13 51.2 8 -55.5
OFD13 102.4 10.5 -54.5
OFD13 150.4 7 -56
OFD13 201.2 9 -56
OFD13 252.4 9 -56.5
OFD13 300.4 9 -56.5
OFD14 0 11 -55
OFD14 51.4 11.5 -55
OFD14 102.4 11 -57
OFD14 129.4 11 -57
OFD15 0 11 -55
OFD15 51.4 9.5 -56
OFD15 102.4 9 -57
OFD15 120.4 8 -58
OLB12B 0 115 20
OLB12B 3 115 20
OLB14 0 155 10
OLB14 7.7 130 10
OLB14 11.6 130 10
OLB15 0 150 -20
OLB15 9.7 150 -20
OLB16 0 135 -23
OLB16 6.6 165 -23
OLB16 12.6 165 -23
OLB17 0 160 -27
OLB17 11 160 -27
OLB18 0 200 -27
OLB18 10.2 200 -27
OLB19 0 180 -25
OLB19 5.5 180 -25
OLB20 0 150 -26
OLB20 8.4 150 -26
OLB21 0 145 -20
OLB21 13.2 145 -20
OMC01 0 20 45
OMC01 0.3 20 30
OMC01 0.7 20 10
OMC01 1 20 20
OMC01 1.5 20 35
OMC01 2 350 25
OMC01 2.6 20 35
OMC01 3.7 20 -10
OMC01 4 20 25
OMC01 4.4 20 25
OMC02 0 340 10
OMC02 0.45 320 65
OMC02 1.35 320 45
OMC02 1.8 320 45
OMC03 0 350 45
OMC03 0.5 350 -40
OMC03 0.75 355 40
OMC03 1.5 5 0
OMC03 1.8 10 60
OMC03 2.5 40 40
OMC03 2.8 350 25
OMC03 3 320 -5
OMC03 3.2 320 -5
OMC04 0 350 40
OMC04 0.8 350 40
OMC05 0 30 30
OMC05 1.3 30 90
OMC05 1.6 5 35
OMC05 2.2 350 5
OMC05 2.6 350 5
OMC06 0 30 75
OMC06 0.45 350 45
OMC06 0.95 350 10
OMC06 1.3 10 5
OMC06 1.8 340 -35
OMC06 2 340 10
OMC06 3 340 80
OMC06 3.3 340 0
OMC06 3.9 340 -85
OMC06 4 345 15
OMC06 4.25 345 -5
OMC06 4.6 310 70
OMC06 4.9 20 0
OMC06 5.2 20 0
OMC07 0 300 40
OMC07 0.4 300 15
OMC07 1.1 300 50
OMC07 1.7 300 -5
OMC07 1.8 225 0
OMC07 2.5 290 35
OMC07 3 290 55
OMC07 3.3 290 55
OMC08 0 330 25
OMC08 1.6 320 -5
OMC08 1.9 330 35
OMC08 2.5 300 50
OMC08 2.9 340 0
OMC08 3.3 330 20
OMC08 4.5 310 80
OMC08 4.85 350 10
OMC08 5 350 10
OMC09 0 10 45
OMC09 1 10 60
OMC09 2 10 40
OMC09 2.6 10 15
OMC09 3 60 35
OMC09 3.4 10 20
OMC09 4.4 350 75
OMC09 4.7 10 0
OMC09 5.1 50 0
OMC09 6 330 40
OMC09 7.3 310 25
OMC09 7.8 310 25
OMC10 0 340 0
OMC10 0.6 355 -5
OMC10 2 355 90
OMC10 2.2 45 10
OMC10 2.6 40 90
OMC10 3.6 360 -15
OMC10 4.2 310 30
OMC10 5 345 0
OMC10 6.4 260 -30
OMC10 7.1 360 35
OMC10 7.4 340 5
OMC10 8.1 260 0
OMC10 9.1 340 0
OMC10 9.7 330 -35
OMC10 10.2 330 -35
OMC11 0 300 15
OMC11 1.4 300 35
OMC11 2.2 300 0
OMC11 3 330 20
OMC11 5.2 330 30
OMC11 6.3 15 10
OMC11 7 350 20
OMC11 8.9 350 35
OMC11 9.2 340 10
OMC11 10.5 340 10
OMR 1.000 0 200 -50
OMR 1.000 240 207 -54.1
OMR 1.000 303 206 -54
OMR 2.000 0 45 -50
OMR 2.000 210 45 -50
OMR 3.000 0 50 -50
OMR 3.000 222 50 -50
OMR 4.000 0 180 -55
OMR 4.000 171 180 -55
OMT01 0 155 -50
OMT01 51.2 154 -50
OMT01 102.2 151 -51.5
OMT01 150.2 152.5 -52
OMT01 180.2 150.5 -53
OMT02 0 155 -45
OMT02 66.1 153 -46
OMT02 102.1 155 -46.5
OMT02 150.1 149 -48
OMT02 174.1 149 -48
OMT03 0 335 -50
OMT03 52.4 334 -51.5
OMT03 105.4 334 -53
OMT03 131.4 334 -53
OP01 0 330 -40
OP01 58.7 330 -40
OP02 0 155 -45
OP02 161.5 155 -45
OP03 0 155 -50
OP03 140.7 155 -50
OP04 0 155 -45
OP04 138 155 -45
OP05 0 140 -45
OP05 86.45 140 -45
OP06 0 165 -45
OP06 125.35 165 -45
OP07 0 335 -40
OP07 150.5 335 -40
OP08 0 320 -50
OP08 136 320 -50
OPB03 0 325 0
OPB03 2.7 325 0
OPB05 0 340 0
OPB05 0.7 340 0
OPB08 0 155 0
OPB08 22.35 155 0
OPB09 0 160 0
OPB09 22.65 160 0
OPB10 0 155 0
OPB10 21.9 155 0
OPB11 0 140 0
OPB11 16.1 140 0
OPB12 0 135 0
OPB12 22.75 135 0
OPB17 0 155 0
OPB17 19.45 155 0
OPC01 0 30 -45
OPC01 51.5 30 -43
OPC01 102.5 29 -44
OPC01 150.3 27.5 -45.7
OPC02 0 30 -50
OPC02 51.3 30 -50
OPC02 102.5 30 -50
OPC02 129.5 30.5 -50.3
OPC03 0 30 -50
OPC03 51.5 30.5 -50.5
OPC03 102.5 30 -52
OPC03 144.5 29.5 -52
OPC04 0 30 -55
OPD101 0 335 -60
OPD101 54.8 332.5 -60.5
OPD101 65.2 332.5 -60.5
OPD102 0 335 -60
OPD102 62.4 337 -59.9
OPD102 102.4 336 -60.5
OPD102 107.4 336 -60.5
OPD103 0 330 -60
OPD103 102 330 -60
OPD104 0 320 -70
OPD104 23 329 -69.2
OPD104 51.4 329 -69.2
OPD105 0 335 -45
OPD105 23.2 332.5 -45.1
OPD105 74.35 332.5 -45.1
OPD106 0 310 -60
OPD106 55 306 -60
OPD106 101 306 -60
OPD106 150 306 -60
OPD107 0 155 -70
OPD107 47.5 155.5 -69.2
OPD107 125.2 154 -70.4
OPD107 128.5 154 -70.4
OPD108 0 155 -55
OPD108 70 154 -55.2
OPD109 0 165 -55
OPD109 56 168 -56
OPD109 104 167 -57
OPD109 131.4 165.5 -52.4
OPD110 0 155 -60
OPD110 57.4 155 -60
OPD111 0 155 -42
OPD111 56.1 151.5 -43.9
OPD111 58 151.5 -43.9
OPD112 0 150 -60
OPD112 50.4 148 -60.5
OPD112 103.2 148.5 -61.3
OPD113 0 155 -60
OPD113 50.2 156 -61
OPD113 119.4 157 -62
OPD113 155.4 147.5 -62
OPD113 170.3 147.5 -62
OPD114 0 155 -60
OPD114 5 141.5 -58.5
OPD114 49 154.5 -59.1
OPD114 101.4 144 -59.8
OPD114 120.4 145.5 -60.5
OPD114 152.2 144.5 -60
OPD114 170.4 144.5 -60
OPD115 0 155 -50
OPD115 53.3 156 -50.2
OPD115 106 155 -50.8
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OPD116 62.3 328.5 -56.5
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OSD65 51.3 348 -51
OSD65 102.3 348 -52.5
OSD65 147 345.5 -52.6
OSD66 0 222 -55
OSD66 51.2 223.5 -56
OSD66 102.5 222 -57
OSD66 153.5 222 -58
OSD66 200 221.9 -57
OSD66 253 218.5 -57
OSD66 266.8 218.5 -57
OSD67 0 222 -55
OSD67 51.5 221 -56.5
OSD67 102.5 222 -57.5
OSD67 150.5 222.2 -57.8
OSD67 201.5 222 -58
OSD67 221 222 -59
OSD68 0 156 -60
OSD68 50.15 154 -62
OSD68 99.8 154 -63
OSD68 150.3 153.5 -63
OSD68 200 153.5 -64
OSD68 250 154 -64
OSD68 302 154 -63.5
OSD68 352 153 -64.8
OSD68 400 153 -64
OSD68 417.7 153 -64
OSD69 0 170 -60
OSD69 51.5 170 -61
OSD69 102.5 171 -62
OSD69 150.3 172 -62
OSD69 200 170 -62
OSD69 246.5 169.5 -62.7
OSD70 0 170 -45
OSD70 51.3 169.5 -47
OSD70 102.3 169.5 -47.3
OSD70 149.9 169 -47
OSD70 201.3 169 -47
OSD71 0 172 -60
OSD71 54.5 175.5 -61
OSD71 102.5 175.5 -61.5
OSD71 153.3 175 -62
OSD71 204.5 176 -62
OSD71 243.5 175 -62
OSD71 248.7 175 -62
OSD72 0 170 -45
OSD72 51.3 166 -45.5
OSD72 102.3 167 -45
OSD72 135.3 166 -44
OSD73 0 170 -50
OSD73 51.5 169 -51
OSD73 102.5 169.8 -51
OSD73 156.5 169 -50.3
OSD73 200 165.5 -50
OSD74 0 156 -60
OSD74 49.9 153 -60.5
OSD74 100 153 -59
OSD74 150 153 -60.5
OSD74 199.7 152 -62
OSD74 204.6 152 -62
OSD75 0 156 -60
OSD75 50 150 -60
OSD75 97 149 -62
OSD75 97.65 149 -62
OSD76 0 156 -60
OSD76 50 149 -61
OSD76 100 150 -61
OSD76 117.25 150 -61
OSD77 0 156 -60
OSD77 52 150 -61
OSD77 100 150 -61
OSD77 104.25 150 -61
OSD78 0 195 -60
OSD78 51 188 -60.5
OSD78 101 188 -61
OSD78 163 189 -62.1
OSD78 206 191 -61
OSD78 260 191 -61
OSD78 302.2 189.7 -61.2
OSD78 349.7 192 -61.1
OSD78 349.85 192 -61.1
OSM01 0 160 0
OSM01 1.3 160 0
OSM01 4.2 250 0
OSM01 8.5 175 0
OSM01 21.35 170 0
OSM01 22.65 260 0
OSM01 25.05 170 0
OSM01 28.05 270 0
OSM01 29.2 155 0
OSM01 32 85 0
OSM01 34.15 160 0
OSM01 35.1 80 0
OSM01 42.7 160 0
OSM08 0 170 0
OSM08 4.1 170 0
OSM09 0 155 0
OSM09 4.9 155 0
OSM09 6.3 81 0
OSM09 10 70 0
OSM09 12.9 150 0
OSM09 14.8 90 0
OSM09 16.8 151 0
OSM09 20.5 169 0
OSM09 21.5 179 0
OSM09 26.35 179 0
OSM09 30.85 169 0
OSM09 31.65 77 0
OSM09 31.66 162 0
OSM09 42.4 162 0
OSM09 43.4 260 0
OSM09 43.41 161 0
OSM09 47.05 161 0
OSM09 52.05 170 0
OSM09 52.06 170 0
OSM09 61.25 170 0
OSM09 66.55 169 0
OSM09 72.35 169 0
OSM09 72.65 88 0
OSM09 73.08 179 0
OSM09 74.8 162 0
OSM09 75.45 162 0
OSM19 0 165 0
OSM19 6.35 65 0
OSM19 7.85 160 0
OSM19 9.8 80 0
OSM19 10.5 160 0
OSM19 12.1 85 0
OSM19 13.6 180 0
OSM19 14.7 60 0
OSM19 17.2 180 0
OSM19 19.2 180 0
OSM24 0 160 0
OSM24 11.4 160 0
OSM25 0 165 0
OSM25 19.7 165 0
OSM29 0 170 0
OSM29 15.7 170 0
OSM30 0 170 0
OSM30 16.1 170 0
OSM31 0 175 0
OSM31 21.3 175 0
OSM40 0 170 0
OSM40 8.7 170 0
OSM41 0 140 0
OSM41 4.8 140 0
OSM42 0 170 0
OSM42 11.2 170 0
OSM54 0 160 0
OSM54 7.8 160 0
OSM55 0 160 0
OSM55 2.3 160 0
OSM56 0 140 0
OSM56 5.4 140 0
OSR08 0 130 0
OSR08 1.1 130 0
OSR08 1.5 49 0
OSR08 2.2 140 0
OSR09 0 320 0
OSR09 3 340 0
OSR09 5.3 340 0
OSR10 0 310 0
OSR10 1.8 310 0
OSR11 0 325 0
OSR11 3.3 325 0
OSR12 0 325 0
OSR12 3.6 325 0
OSR13 0 325 0
OSR13 4 325 0
OSR15 0 325 0
OSR15 1.1 325 0
OSS05 0 180 0
OSS05 4.6 180 0
OSS06 0 60 0
OSS06 1.9 80 0
OSS06 6.9 160 0
OSS06 9.6 160 0
OSS06 13.1 179 0
OTC01 0 255 25
OTC01 0.65 150 -40
OTC01 1.2 240 30
OTC01 2 20 -10
OTC01 2.8 0 -90
OTC01 3.6 260 0
OTC01 4.6 260 -45
OTC02 0 90 0
OTC02 0.3 90 0
OTC03 0 60 -25
OTC03 1 70 -35
OTC04 0 50 -25
OTC04 1 65 -25
OTC04 2 75 0
OTC05 0 270 0
OTC05 0.4 270 0
OTC06 0 60 -5
OTC06 1.8 60 -5
OTC07 0 30 0
OTC07 0.9 30 0
OTC08 0 0 -20
OTC08 1 225 -50
OTC08 1.9 40 0
OTC08 2.3 40 -20
OTC08 4.2 0 -25
OTC08 5.5 350 -40
OTC09 0 50 -10
OTC09 0.7 50 -40
OTC09 1.7 30 -35
OTC10 0 60 0
OTC11 0 50 -5
OTC11 0.55 90 0
OTC11 1.65 60 0
OTC12 0 20 0
OTC13 0 60 -5
OTC14 0 60 5
OTC15 0 70 0
OTC15 1.5 120 -5
OTC15 3.8 60 5
OTC16 0 60 0
OTC17 0 70 10
OTC18 0 220 -30
OTC18 1.5 230 -20
OTC19 0 240 -10
OTC19 1.1 240 -30
OTC19 2.4 130 0
OTC19 3.7 240 -30
OTC20 0 240 -30
OTD01 0 240 -45
OTD01 53.7 243 -45.5
OTD01 102.2 244 -46.5
OTD01 150.2 240 -47.5
OTD01 213.2 240 -49
OTD02 0 200 -60
OTD02 51.5 204 -60.3
OTD02 102.5 202.5 -60.5
OTD02 150.5 200.5 -60.2
OTD02 207.5 201 -61
OTD02 255.5 200.5 -62
OTD03 0 60 -45
OTD03 51.4 57.5 -47
OTD03 98.9 54 -50
OUR01 0 160 -70
OUR01 197 160 -70
OUR02 0 160 -65
OUR02 181 160 -65
OUR03 0 340 -50
OUR03 196 340 -50
OUR04 0 160 -55
OUR04 192 160 -55
OUR05 0 160 -80
OUR05 181 160 -80

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