TIDMCOBR
RNS Number : 0187Z
Cobra Resources PLC
12 September 2022
THIS ANNOUNCEMENT CONTAINS INSIDE INFORMATION FOR THE PURPOSES
OF ARTICLE 7 OF REGULATION 2014/596/EU WHICH IS PART OF DOMESTIC UK
LAW PURSUANT TO THE MARKET ABUSE (AMMENT) (EU EXIT) REGULATIONS (SI
2019/310) ("UK MAR"). UPON THE PUBLICATION OF THIS ANNOUNCEMENT,
THIS INSIDE INFORMATION (AS DEFINED IN UK MAR) IS NOW CONSIDERED TO
BE IN THE PUBLIC DOMAIN.
NOT FOR RELEASE, PUBLICATION OR DISTRIBUTION, IN WHOLE OR IN
PART, DIRECTLY OR INDIRECTLY IN OR INTO THE UNITED STATES,
AUSTRALIA, CANADA, JAPAN, THE REPUBLIC OF SOUTH AFRICA OR ANY OTHER
JURISDICTION WHERE TO DO SO WOULD CONSTITUTE A VIOLATION OF THE
RELEVANT LAWS OF SUCH JURISDICTION.
12 September 2022
Cobra Resources plc
("Cobra" or the "Company")
Wudinna Project Update
Additional High-Grade Rare Earths Defined Across Regional
Targets
Cobra, a gold, rare earth and IOCG exploration company focused
on the Wudinna Project in South Australia, announces the final
tranche of results from 32 holes that were drilled as part of an
extensive 91-hole, 4,000m aircore drilling programme in June 2022.
The remaining results of this programme have delivered further
extensive clay hosted Rare Earth Elements ("REE") mineralisation
defined across six further target areas.
-- High-grade mineralisation supporting scalable footprints:
o At Thompson, where CBAC0085 intersected 32m at 1,336 ppm Total
Rare Earth Oxide ("TREO") from 8m, with the Magnet Rare Earth Oxide
("MREO"(1) ) equating to 25% of the TREO
o Peripheral to the gold resource at Barns, where CBAC0065
intersected 32m at 920 ppm TREO from 24m, and the MREO equates to
26% of the TREO
o At Anderson, where CBAC0075 intersected 8m at 2,535 ppm TREO
from 18m, and the MREO equates to 29% of the TREO
o At Bradman, where CBAC0059 intersected 10m at 869 ppm TREO
from 32m, and the MREO equates to 24% of the TREO
(Note 1) MREO = Nd(2) O(3) + Pr(6) O(11) + Dy(2) O(3) + Tb(2)
O(3)
-- Regionally extensive mineralisation occurrence: 73 of the 91
holes (80%) drilled return intersections above a 350 ppm TREO
cut-off grade, whilst 61 holes return intersection grades greater
than 500 ppm TREO
-- Desirable lithologies : mineralisation occurs within
weathered saprolite horizons indicative of highly desirable crustal
elution or ionic clay hosted rare earths. Logged mineralisation
coincides with kaolin, montmorillonite and illite clays that have
high adsorption capacities
-- Conditions supportive of ionic adsorption: extensive pH
testing of drill samples demonstrates variable conditions across
prospects, saprolite horizons, and types of clays that are
associated with high REE adsorption capacity. Intersections
elevated in both heavy and magnet rare earths have a strong
correlation to pH 6-7, an environmental condition that results in
increased adsorption potential of clays that yield, low cost, high
metallurgical recoveries
-- Significant REE intersections include:
o 28m at 557 ppm TREO from 22m [CBAC0058]
o 10m at 869 ppm TREO from 32m, including 4m at 1,662 ppm TREO
from 32m [CBAC0059]
o 18m at 701 ppm TREO from 12m, including 4m at 1,047 ppm TREO
from 16m [CBAC0062]
o 32m at 920 ppm TREO from 24m, including 4m at 2,174 ppm TREO
from 24m [CBAC0065]
o 8m at 2,535 ppm TREO from 18m [CBAC0075]
o 19m at 759 ppm TREO from 22m, including 4m at 1,145 ppm TREO
from 30m [CBAC0078]
o 15m at 614 ppm TREO from 32m [CBAC0081]
o 32m at 1,336 ppm TREO from 8m, including 14m at 1,711 ppm TREO
from 8m [CBAC0078]
-- A further 750 assays from 76 historic drillholes are
anticipated from prospective rare earth targets at Thompson and
Anderson. These results are expected to be received during
September
Rupert Verco, CEO of Cobra, commented :
"The aircore programme has been highly successful, demonstrating
grades, widths, and scalability of a highly desirable magnet rare
earths province while confirming further along-strike gold
mineralisation at Clarke.
As we extend our knowledge of rare earth mineralisation at the
Wudinna Project, there are further positive indications for ionic
style mineralisation which lends itself to low-cost metallurgical
extraction. We eagerly anticipate further rare earth results from
the Thompson and Anderson pulp and drillhole re-analyses.
We are excited to commence RC drilling later this month aimed at
adding gold ounces to our existing resource and defining a
potentially significant maiden rare earth resource."
Forthcoming Newsflow
September 2022
-- Rare earth assays from 750 pulps from 76 drillholes from the Thompson and Anderson prospects
-- Results of Accelerated Discovery Initiative ("ADI") co-funded Loupe TEM survey
-- Interim financial results
-- Reverse Circulation ("RC") drilling to commence
October 2022
-- Project JV earn-in milestone
-- RC drilling results (initial)
-- Project JV 75% earn-in milestone
November 2022
-- RC drilling results (remainder)
-- Results of ADI co-funded Controlled Source Audio-frequency
Magneto-tellurics ("CSAMT") EM survey
December 2022
-- Maiden rare earth resource estimate
-- Updated gold mineral resource estimate
Further discussion and analysis of results follows in the
appendix below.
Enquiries:
Cobra Resources plc via Vigo Consulting
Rupert Verco (Australia) +44 (0)20 7390 0234
Dan Maling (UK)
SI Capital Limited (Joint Broker)
Nick Emerson
Sam Lomanto +44 (0)1483 413 500
Peterhouse Capital Limited (Joint
Broker)
Duncan Vasey
Lucy Williams +44 (0)20 7469 0932
Vigo Consulting (Financial Public
Relations)
Ben Simons
Charlie Neish
Kendall Hill +44 (0)20 7390 0234
The person who arranged for the release of this announcement was
Rupert Verco, Managing Director of the Company.
About Cobra
Cobra is defining a unique multi-mineral resource at the Wudinna
Project in South Australia's Gawler Craton, a tier one mining and
exploration jurisdiction which hosts several world-class mines.
Cobra's Wudinna tenements, totalling 3,261 km(2) , contain
extensive orogenic gold mineralisation and are characterised by
potentially open-pitable, high-grade gold intersections, with ready
access to infrastructure. Cobra has 22 orogenic gold targets
outside of a current 211,000 Oz JORC Mineral Resource Estimate. In
2021, Cobra discovered rare earth mineralisation proximal to and
above gold mineralisation. The grades, style of mineralogy and
intersect widths are highly desirable while the mineralisation has
been demonstrated to be regionally scalable. The Company is also
advancing a pipeline of IOCG targets.
Follow us on social media:
LinkedIn: https://www.linkedin.com/company/cobraresourcesplc
Twitter: https://twitter.com/Cobra_Resources
Subscribe to our news alert service:
https://cobraplc.com/news/
Competent Persons Statement
Information and data presented within this announcement has been
compiled by Mr Robert Blythman, a Member of the Australian
Institute of Geoscientists ("MAIG"). Mr Blythman is a Consultant to
Cobra Resources Plc and has sufficient experience, which is
relevant to the style of mineralisation, deposit type and to the
activity which he is undertaking to qualify as a Competent Person
defined by the 2012 Edition of the Australasian Code for Reporting
Exploration Results, Mineral Resources and Ore Reserves (the "JORC"
Code). This includes 10 years of Mining, Resource Estimation and
Exploration relevant to the style of mineralisation.
Information in this announcement has been assessed by Mr Rupert
Verco, a Fellow of the Australasian Institute of Mining and
Metallurgy ("FAusIMM"). Mr Verco an employee of Cobra Resources Plc
has more than 16 years relevant industry experience, which is
relevant to the style of mineralisation, deposit type and to the
activity which he is undertaking to qualify as a Competent Person
as defined in the 2012 Edition of the Australasian Code for
Reporting Exploration Results, Mineral Resources and Ore Reserves
(the "JORC" Code). This includes 10 years of Mining, Resource
Estimation and Exploration relevant to the style of
mineralisation.
Information in this announcement relates to exploration results
that have been reported in the following announcements:
"Wudinna Project Update - Initial Gold and Rare Earth Results",
dated 14 December 2021
"Wudinna Project Update - Re-Analysis Defines Large Rare Earth
Mineralisation Footprint Above Baggy Green and Clarke Gold
Mineralisation", dated 4 May 2022
"Wudinna Project Update - Northern Drillholes at Clarke
Intersect Additional Gold Mineralisation, Additional Rare Earth
Intersections Directly Above Gold Zones", dated 7 February 2022
"Wudinna Project Update - Stage 4 Re-Analysis Demonstrates Large
Scalability of Rare Earth Mineralisation, Preliminary Metallurgical
Testing Provides Encouraging Recovery Potential", dated 20 June
2022
"Wudinna Project Update - Aircore Drilling Yields exceptional
Gold and Rare Earth Results at Clarke", dated 16 August 2022
"Wudinna Project Update - Further Aircore Drilling Results
Demonstrate Regional Scalability of Rare Earths", dated 31 August
2022
APPIX
Further information
The growing strategic, environmental, and economic importance of
rare earth metals - particularly the magnet rare earth metals -
last year prompted the Company to submit pulps from drilling at its
Wudinna Project for REE analysis. Significant intersections of TREO
assays in excess of 500 ppm were recognised within the kaolinised
clays of the saprolite across all 14 RC drillholes.
Prior to commencing the 2022 field programme, a comprehensive
re-analysis programme defined extensive REE mineralisation over a 4
km(2) footprint, where:
-- Elevated REE mineralisation occurs within the weathered
saprolite zone, above and proximal to gold mineralisation across
the Clarke and Baggy Green prospects
-- X-Ray Diffraction analysis performed by the Commonwealth
Scientific and Industrial Research Organisation supports that a
component of REE bursary is adsorbed to the primary clay particles,
being kaolin and montmorillonite, in similar fashion to the highly
desirable Ion Adsorbed Clay ("IAC") hosted deposits of southern
China
-- Preliminary metallurgical test work focusing on extraction techniques adopted to ionic phase mineralisation using H(2) SO(4) as a lixiviant, and performed by Australia's Nuclear Science and Technology Organisation, yielded recoveries of up to 34% Total Rare Earth Element ("TREE") from samples across two holes at Clarke
-- The footprint is unconstrained in all directions
-- The potential for REE crustal elution style mineralisation
has been demonstrated at several regional targets across the 1,832
km(2) land tenure
The 2022 aircore programme was designed with dual gold and rare
earth discovery objectives and several locations were drilled with
the sole objective of exploring for rare earth minerals. The
results of this work provide the outline of an emerging rare earth
mineral province.
Nature of mineralisation
-- Rare earth mineralisation is regionally extensive in
weathered (saprolite) zones developed on basement rocks
-- Rare earth element content, mineralisation thickness, magnet
rare earth abundance, and the relationship between REEs and gold
occurrences varies across the area investigated
-- The nature of controlling structures that act as conduits for
gold mineralisation are also thought to act as catalysts for the
secondary processes that promote weathering and subsequent
mobilisation of REEs to the saprolite
-- Further work is designed to identify the lithotypes and
structural features which underlie the mineralisation of greatest
economic interest
-- Post drilling interpretation, follow-up geophysical and
geochemical characterisation will assist in the recognition of
further prospective locations
Recovery characteristics of mineralisation
-- Preliminary metallurgical testwork has provided positive
indications that REE bursary is bound to clay particles. The
identification of a technique or techniques to optimally recover
rare earth metals from the saprolite mineralisation requires
further testing
-- pH testing of drill samples demonstrates variable conditions
across prospects, saprolite horizons, and types of clays that are
associated with high REE adsorption capacity
-- The nature of the bonds which adsorb the REEs within
enclosing clay appear dependent upon the local chemical
environment:
o Where local pH is greater than optimal (moderately alkaline),
colloidal bonding is more abundant and a positive cerium anomaly is
generally present
o Where local pH is in an optimal range, ionic bonding appears
favoured, the valuable MREO mineral suite is enhanced (pH 5-6.8),
and REE baskets generate negative cerium anomalies
o Where local pH is lower than optimal (acidic), REEs appear to
have remained mobile and enhanced grades are not retained within
the saprolite zone
Further work
Geophysical processing : Loupe TEM data is currently being
processed from the Clarke prospect, where results are hoping to
demonstrate a cost effective and efficient approach to determining
the prospectivity of the saprolite conditions for both gold and
rare earth mineralisation. A secondary CSAMT survey is planned for
later in the year to better understand the deeper structural
controls on both gold and REE mineralisation.
Drilling and assay: the selection of drill locations for the
September planned RC programme is being assisted by the results of
the aircore drilling and Loupe TEM survey. The primary objective of
the upcoming RC drilling is to further define both additional gold
and rare earth mineralisation. At the appropriate time, these
results will be incorporated into an updated gold mineral resource
and a maiden rare earth resource.
Drilling at Clarke has been designed to:
1. Best inform a resource estimation. Approximately 14-16 holes
are planned to be drilled for 2,000m, where the northern continuity
defined in aircore drilling will be the primary focus for adding
ounces
2. Provide high-grade REE samples from areas containing optimal
lithologies and pH conditions that promote and retain ionic REE
adsorption
Mineral speciation and recovery testwork: both components will
be iterative processes. As both the extent and nature of
mineralisation is better defined, processes and techniques will be
studied to understand how to most efficiently and cost effectively
recover the most valuable rare earth minerals from different clay
bonding associations.
Figure 1: significant intersections and collar locations from
aircore holes drilled at Bradman, Barns, Benaud and White Tank
prospects
Figure 2: significant intersections and collar locations from
aircore holes drilled at Anderson and Ponting
Figure 3: reported rare earth significant intersections and
collar locations from holes reported at the Thompson prospect
Table 1 : significant rare earth oxide intersections, reported
as downhole and true width
Location BHID DH DH DH TREO Neodymium Praseodymium Terbium Dysprosium MREO% Scandium
From To Int + Y
(m) (m) (m) (ppm)
Nd2O3 Pr6O11 Tb4O7 Dy2O3 Sc2O3
============ =============== ============= ============= =========
ppm % ppm % ppm % TREO ppm % TREO ppm
TREO TREO
Bradman CBAC0059 32 42 10 869 151 17.3% 40 4.6% 2.5 0.3% 13 1.5% 24% 17
========== ===== ==== ==== ======
inc 32 36 4 1,662 290 17.5% 76 4.6% 5.1 0.3% 27 1.6% 24% 20
===================== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0061 24 32 8 687 136 19.8% 36 5.2% 3.1 0.5% 18 2.6% 28% 26
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0062 12 30 18 701 117 16.7% 32 4.5% 2.1 0.3% 12 1.7% 23% 51
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
inc 16 20 4 1,047 180 17.2% 50 4.8% 2.7 0.3% 14 1.4% 24% 53
===================== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0065 24 56 32 920 174 18.9% 47 5.1% 2.7 0.3% 15 1.6% 26% 24
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
inc 24 28 4 2,174 473 21.8% 132 6.1% 7.8 0.4% 40 1.8% 30% 21
===================== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0066 12 20 8 560 93 16.7% 26 4.7% 1.9 0.3% 10 1.7% 23% 28
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0068 28 36 8 450 66 14.6% 19 4.3% 1.6 0.4% 10 2.2% 21% 11
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Barns CBAC0069 16 28 12 572 82 14.4% 26 4.6% 0.7 0.1% 3 0.6% 20% 24
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Anderson CBAC0071 12 20 8 420 50 11.9% 17 4.0% 0.6 0.1% 3 0.8% 17% 19
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Anderson CBAC0075 18 26 8 2,535 559 22.0% 136 5.4% 8.2 0.3% 38 1.5% 29% 221
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0079 22 41 19 759 150 19.7% 39 5.1% 2.5 0.3% 12 1.5% 27% 28
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0080 22 30 8 416 71 17.1% 21 5.0% 0.9 0.2% 4 1.0% 23% 17
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0081 32 47 15 614 104 16.9% 30 4.9% 1.0 0.2% 4 0.7% 23% 12
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0082 12 24 12 493 83 16.8% 23 4.7% 1.2 0.2% 6 1.2% 23% 18
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0084 30 37 7 492 92 18.7% 24 4.8% 1.7 0.3% 8 1.6% 25% 22
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0085 8 40 32 1,336 237 17.7% 58 4.4% 6.0 0.5% 32 2.4% 25% 56
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
inc 8 22 14 1,711 323 18.9% 83 4.9% 5.8 0.3% 26 1.5% 26% 46
===================== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0086 14 30 16 597 94 15.8% 28 4.6% 1.0 0.2% 5 0.8% 21% 21
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Thompson CBAC0087 34 38 4 823 153 18.6% 38 4.7% 2.5 0.3% 11 1.3% 25% 25
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Empire CBAC0054 14 38 24 401 68 16.9% 18 4.4% 1.8 0.5% 10 2.5% 24% 64
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Empire CBAC0055 32 44 12 449 70 15.6% 21 4.7% 1.0 0.2% 5 1.1% 22% 38
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Empire CBAC0056 34 46 12 414 70 17.0% 22 5.3% 0.7 0.2% 3 0.7% 23% 29
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Empire CBAC0057 6 14 8 417 67 16.1% 20 4.9% 0.4 0.1% 2 0.4% 21% 23
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Empire CBAC0058 22 50 28 557 97 17.4% 27 4.9% 2.0 0.4% 11 2.0% 25% 24
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Ponting CBAC0088 16 36 20 399 62 15.7% 18 4.6% 1.0 0.3% 4 1.0% 22% 13
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
Ponting CBAC0090 16 40 24 571 89 15.5% 26 4.5% 1.8 0.3% 10 1.8% 22% 7
========== ===== ==== ==== ====== ==== ====== ===== ======== ==== ======= ==== ======= ====== =========
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
Sampling
techniques * Nature and quality of sampling (eg cut channels, * Sampling during Cobra Resources 2022 aircore ("AC")
random chips, or specific specialised industry drilling programme at all prospects were obtained
standard measurement tools appropriate to the through AC drilling methods.
minerals under investigation, such as down hole gamma
sondes, or handheld XRF instruments, etc). These
examples should not be taken as limiting the broad * Historic RC and RAB drilling methods have been
meaning of sampling. employed at Clarke and Baggy Green prospects since
2000. Rotary air-core and Reverse Circulation ("RC")
drilling occurred in 2021 and were used to aid in the
* Include reference to measures taken to ensure sample programme design but have not been used for grade
representivity and the appropriate calibration of any estimations or defining results that are reported in
measurement tools or systems used. this announcement.
* Aspects of the determination of mineralisation that * 2m samples were collected in 20l buckets via a rig
are Material to the Public Report. mounted cyclone. An aluminum scoop was used to
collect a 2-4kg sub sample from meach bucket. Samples
were taken from the point of collar, but only samples
* In cases where 'industry standard' work has been done from the commencement of saprolite were selected for
this would be relatively simple (eg 'reverse analysis.
circulation drilling was used to obtain 1 m samples
from which 3 kg was pulverised to produce a 30 g
charge for fire assay'). In other cases more * Samples submitted to the Genalysis Intertek
explanation may be required, such as where there is Laboratories, Adelaide and pulverised to produce the
coarse gold that has inherent sampling problems. 25g fire assay charge and 4 acid digest sample.
Unusual commodities or mineralisation types (eg
submarine nodules) may warrant disclosure of detailed
information. * A summary of previous drilling at the Wudinna Project
is outlined in the Cobra Resources RNS number 7923A
from 7 February 2022
Drilling
techniques * Drill type (eg core, reverse circulation, open-hole * Drilling completed by McLeod Drilling Pty Ltd using
hammer, rotary air blast, auger, Bangka, sonic, etc) 75.7mm NQ air core drilling techniques from an ALMET
and details (eg core diameter, triple or standard Aircore rig mounted on a Toyota Landcruiser 6x6 and a
tube, depth of diamond tails, face-sampling bit or 200psi, 400cfm Sullair compressor.
other type, whether core is oriented and if so, by
what method, etc).
Drill sample
recovery * Method of recording and assessing core and chip * Sample recovery was generally good with water being
sample recoveries and results assessed. intersected in less than 10% of the drilled holes.
All samples were recorded for sample type, quality
and contamination potential and entered within a
* Measures taken to maximise sample recovery and ensure sample log.
representative nature of the samples.
* In general, sample recoveries were good with 20-25kg
* Whether a relationship exists between sample recovery for each 2m interval being recovered.
and grade and whether sample bias may have occurred
due to preferential loss/gain of fine/coarse
material. * No relationships between sample recovery and grade
have been identified.
Logging
* Whether core and chip samples have been geologically * All drill samples were logged by an experienced
and geotechnically logged to a level of detail to geologist at the time of drilling. Lithology, colour,
support appropriate Mineral Resource estimation, weathering and moisture were documented.
mining studies and metallurgical studies.
* All drilled metres were logged.
* Whether logging is qualitative or quantitative in
nature. Core (or costean, channel, etc) photography.
* Logging is generally qualitative in nature.
* The total length and percentage of the relevant
intersections logged. * All AC drill metres has been geologically logged on
two metre intervals (1,269m in total).
Sub-sampling
techniques * If core, whether cut or sawn and whether quarter, * The use of an aluminum scoop to collect the required
and sample half or all core taken. 2-4kg of sub-sample from each 2m sample length
preparation controlled the sample volume submitted to the lab.
* If non-core, whether riffled, tube sampled, rotary
split, etc and whether sampled wet or dry. * Additional sub-sampling was performed through the
preparation and processing of samples according to
the laboratories internal protocols.
* For all sample types, the nature, quality and
appropriateness of the sample preparation technique.
* Duplicate samples were collected from the sample
buckets using an aluminium scoop at a 1 in 50 sample
* Quality control procedures adopted for all frequency.
sub-sampling stages to maximise representivity of
samples.
* Sample sizes were appropriate for the material being
sampled.
* Measures taken to ensure that the sampling is
representative of the in situ material collected,
including for instance results for field * Assessment of duplicate results indicated this sub -
duplicate/second-half sampling. sample method provided good repeatability for rare
earths and lower repeatability for gold.
* Whether sample sizes are appropriate to the grain
size of the material being sampled.
Quality of
assay data * The nature, quality and appropriateness of the * Samples were submitted to Genalysis Intertek
and assaying and laboratory procedures used and whether Laboratories, Adelaide for preparation and analysis.
laboratory the technique is considered partial or total.
tests
* Gold quantity was analysed using 25g fire assay
* For geophysical tools, spectrometers, handheld XRF techniques (FA25/OE04) that utilises a 25g lead
instruments, etc, the parameters used in determining collection fire assay with ICP-OES finish to deliver
the analysis including instrument make and model, reportable precision to 0.005 ppm.
reading times, calibrations factors applied and their
derivation, etc.
* Multi element geochemistry were digested by four acid
ICP-MS and analysed for Ag, Ce, Cu, Dy, Er, Eu, Gd,
* Nature of quality control procedures adopted (eg Ho, La, Lu, Na, Nd, Pr, Sc, Sm, Tb, Th, Tm, U, Y and
standards, blanks, duplicates, external laboratory Yb.
checks) and whether acceptable levels of accuracy (ie
lack of bias) and precision have been established.
* Field blanks and standards were submitted at a
frequency of 1 in 50 samples.
* Field duplicate samples were submitted at a frequency
of 1 in 50 samples
* Reported assays are to acceptable levels of accuracy
and precision.
Verification
of sampling * The verification of significant intersections by * Sampling data was recorded in field books, checked
and assaying either independent or alternative company personnel. upon digitising and transferred to database.
* The use of twinned holes. * Geological logging was undertaken digitally via the
MX Deposit logging interface and synchronised to the
database at least daily during the drill programme
* Documentation of primary data, data entry procedures,
data verification, data storage (physical and
electronic) protocols. * Compositing of assays was undertaken and reviewed by
Cobra Staff.
* Discuss any adjustment to assay data.
* Original copies of lab assay data are retained
digitally on the Cobra server for future reference.
* Physical copies of field sampling books are retained
by Cobra for future reference.
* Significant intercepts have been prepared by Mr
Rupert Verco and reviewed by Mr Robert Blythman
Location of
data points * Accuracy and quality of surveys used to locate drill * Collar locations were surveyed using Google Pixel 6
holes (collar and down-hole surveys), trenches, mine mobile phone utilising the Avenza Map app. Collar
workings and other locations used in Mineral Resource points recorded with a horizontal accuracy within 5m.
estimation.
* Locations are recorded in geodetic datum GDA 94 zone
* Specification of the grid system used. 53.
* Quality and adequacy of topographic control. * no downhole surveying was undertaken. All holes were
set up vertically and are assumed vertical.
* Collar elevations have been projected to the
Australian Height Datum surface.
* The survey methods applied are considered adequate as
an indicator of mineralisation. More accurate survey
methods would be required for use in a gold mineral
resource estimation, in particular elevation.
Data spacing
and * Data spacing for reporting of Exploration Results. * Drillhole spacing was designed on transects 50 to 80m
distribution apart. Drillholes generally 50 - 60m apart on these
transects but up to 70m apart.
* Whether the data spacing and distribution is
sufficient to establish the degree of geological and
grade continuity appropriate for the Mineral Resource * Additional scouting holes were drilled
and Ore Reserve estimation procedure(s) and opportunistically on existing tracks at spacings
classifications applied. 25-150m from previous drillholes.
* Whether sample compositing has been applied. * All holes were vertical .
* Regional scouting holes are drilled at variable
spacings designed to test structural concepts
* Data spacing is considered adequate for a saprolite
hosted rare earth Mineral Resource estimation.
Further drilling at a closer spacing would be
required for use in a gold Mineral Resource
estimation.
* No sample compositing has been applied
Orientation
of data in * Whether the orientation of sampling achieves unbiased * The programme was designed to increase confidence of
relation to sampling of possible structures and the extent to the NW striking interpretation of gold mineralisation
geological which this is known, considering the deposit type. and test the extents of saprolite hosted rare earth
structure mineralisation. Vertical drillholes provide are not
considered to present any down dip bias for gold
* If the relationship between the drilling orientation based on the indicative nature of the drilling
and the orientation of key mineralised structures is results.
considered to have introduced a sampling bias, this
should be assessed and reported if material.
* Vertical drillholes allow for an unbiased testing of
the horizontal saprolite hosted rare earth
mineralisation.
* Drilling results are not presented as true width but
are not considered to present any down-dip bias.
Sample
security * The measures taken to ensure sample security. * Transport of samples to Adelaide was undertaken by a
competent independent contractor. Samples were
packaged in zip tied polyweave bags in bundles of 5
samples at the drill rig and transported in larger
bulka bags by batch while being transported.
Audits or
reviews * The results of any audits or reviews of sampling * No laboratory audit or review has been undertaken.
techniques and data.
* Genalysis Intertek Laboratories Adelaide are a NATA
(National Association of Testing Authorities)
accredited laboratory, recognition of their
analytical competence.
============= ============================================================ =======================================================================
Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this
section.)
Criteria JORC Code explanation Commentary
Mineral
tenement and * Type, reference name/number, location and ownership * This drilling program has been carried out on EL
land tenure including agreements or material issues with third 6131, currently owned 100% by Peninsula Resources
status parties such as joint ventures, partnerships, limited, a wholly owned subsidiary of Andromeda
overriding royalties, native title interests, Metals Limited.
historical sites, wilderness or national park and
environmental settings.
* Alcrest Royalties Australia Pty Ltd retains a 1.5%
NSR royalty over future mineral production from both
* The security of the tenure held at the time of licences.
reporting along with any known impediments to
obtaining a licence to operate in the area.
* Baggy Green, Clarke, Laker & the IOCG targets are
located within Pinkawillinnie Conservation Park.
Native Title Agreement has been negotiated with the
NT Claimant and has been registered with the SA
Government.
* Aboriginal heritage surveys have been completed over
the Baggy Green project area, with no sites located
in the immediate vicinity.
* A Native Title Agreement is in place with the
relevant Native Title party.
Exploration
done by other * Acknowledgment and appraisal of exploration by other * On-ground exploration completed prior to Andromeda
parties parties. Metals' work was limited to 400 m spaced soil
geochemistry completed by Newcrest Mining Limited
over the Barns prospect.
* Other than the flying of regional airborne geophysics
and coarse spaced ground gravity, there has been no
recorded exploration in the vicinity of the Baggy
Green deposit prior to Andromeda Metals' work.
Geology
* Deposit type, geological setting and style of * The deposits are either lode gold or intrusion type
mineralisation. mineralisation related to the 1590 Ma Hiltaba/ GRV
tectonothermal event.
* Gold mineralisation has a spatial association with
mafic intrusions/ granodiorite alteration and is
associated with metasomatic alteration of host rocks.
* Rare earth minerals occur within the kaolinised
saprolite horizon. Preliminary work supports Ion
Adsorbed Clay ("IAC") mineralisation.
* XRF, Hylogger spectral analysis and preliminary
metallurgical testing are demonstrate that a
component of the REE
* Further work is planned to define mineralogy and
nature of mineral occurrence.
* A summary of all information material to the * The report includes a tabulation of drillhole collar
understanding of the exploration results including a information and associated interval grades to allow
tabulation of the following information for all an understanding of the results reported herein.
Material drill holes:
* Sections have not been provided as the nature
o easting and northing of the drill hole collar vertical drilling does not enable accurate
o elevation or RL (Reduced Level - elevation above sea interpretation of mineralised gold lodes.
level in metres) of the drill hole
collar
o dip and azimuth of the hole * Sections will be produced upon the completion of
o down hole length and interception depth further drilling.
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 Competent Person
should clearly explain why this is the case.
Data
aggregation * In reporting Exploration Results, weighting averaging * Reported summary intercepts are weighted averages
methods techniques, maximum and/or minimum grade truncations based on length.
(eg cutting of high grades) and cut-off grades are
usually Material and should be stated.
* No maximum/ minimum grade cuts have been applied.
* Where aggregate intercepts incorporate short lengths
of high grade results and longer lengths of low grade * No metal equivalent values have been calculated.
results, the procedure used for such aggregation
should be stated and some typical examples of such
aggregations should be shown in detail. * Rare earth element analyses were originally reported
in elemental form and have been converted to relevant
oxide concentrations in line with industry standards.
* The assumptions used for any reporting of metal Conversion factors tabulated below:
equivalent values should be clearly stated.
Element Oxide Factor
Cerium CeO2 1.2284
Dysprosium Dy2O3 1.1477
Erbium Er2O3 1.1435
Europium Eu2O3 1.1579
Gadolinium Gd2O3 1.1526
Holmium Ho2O3 1.1455
Lanthanum La2O3 1.1728
Lutetium Lu2O3 1.1371
Neodymium Nd2O3 1.1664
Praseodymium Pr2O3 1.1703
Scandium Sc2O3 1.5338
Samarium Sm2O3 1.1596
Terbium Tb2O3 1.151
Thulium Tm2O3 1.1421
Yttrium Y2O3 1.2699
Ytterbium Yb2O3 1.1387
=======
* The reporting of REE oxides is done so in accordance
with industry standards with the following
calculations applied:
* TREO = La2O3 + CeO2 + Pr6O11 + Nd2O3 + Sm2O3 + Eu2O3
+ Gd2O3 + Tb4O7 + Dy2O3 + Ho2O3 + Er2O3 + Tm2O3 +
Yb2O3 + Lu2O3 + Y2O3
* CREO = Nd2O3 + Eu2O3 + Tb4O7 + Dy2O3 + Y2O3
* LREO = La2O3 + CeO2 + Pr6O11 + Nd2O3
* HREO = Sm2O3 + Eu2O3 + Gd2O3 + Tb4O7 + Dy2O3 + Ho2O3
+ Er2O3 + Tm2O3 + Yb2O3 + Lu2O3 + Y2O3
* NdPr = Nd2O3 + Pr6O11
* TREO-Ce = TREO - CeO2
* % Nd = Nd2O3/ TREO
* %Pr = Pr6O11/TREO
* %Dy = Dy2O3/TREO
* %HREO = HREO/TREO
* %LREO = LREO/TREO
Relationship
between * These relationships are particularly important in the * This drilling programme is designed to confirm the
mineralisation reporting of Exploration Results. orientation and continuity of mineralisation.
widths and Preliminary results support unbiased testing of
intercept mineralied structures.
lengths * If the geometry of the mineralisation with respect to
the drill hole angle is known, its nature should be
reported. * Previous holes drilled have been drilled in several
orientations due to the unknown nature of
mineralisation.
* If it is not known and only the down hole lengths are
reported, there should be a clear statement to this
effect (eg 'down hole length, true width not known'). * The work completed to date is not considered robust
to adequately define mineralisation geometry.
Diagrams
* Appropriate maps and sections (with scales) and * Plan maps are referenced that demonstrate results of
tabulations of intercepts should be included for any interest.
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
reporting * Where comprehensive reporting of all Exploration * Referenced Plans detail the extent of drilling and
Results is not practicable, representative reporting the locations of both high and low grades.
of both low and high grades and/or widths should be Comprehensive results are reported.
practiced to avoid misleading reporting of
Exploration Results.
Other
substantive * Other exploration data, if meaningful and material, * Significant gold intersects of previous drilling is
exploration should be reported including (but not limited to): not tabulated or referenced on plans
data geological observations; geophysical survey results;
geochemical survey results; bulk samples - size and
method of treatment; metallurgical test results; bulk * Refer to previous announcements listed in rns for
density, groundwater, geotechnical and rock previous REE results and metallurgical testing and
characteristics; potential deleterious or detailed gold intersections.
contaminating substances.
Further work
* The nature and scale of planned further work (eg * Further slimline RC drilling is planned to test for
tests for lateral extensions or depth extensions or both lateral and depth extensions. The complete
large-scale step-out drilling). results from this programme will form the foundation
for a maiden resource estimation at Clarke and Baggy
Green.
* Diagrams clearly highlighting the areas of possible
extensions, including the main geological
interpretations and future drilling areas, provided
this information is not commercially sensitive.
=============== =============================================================== ==================================================================
Appendices
Appendices 2 : collar locations of reported and outstanding
drill results
Hole Hole Easting Northing Depth Dip Assays Received/ Reported
ID type (m)
REE Multi-Element
Au
===== ===== ================
CBAC001 AC 546,763 6,364,519 17 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC002 AC 546,729 6,364,615 13 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC003 AC 546,848 6,364,656 15 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC004 AC 546,948 6,364,681 21 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC005 AC 546,824 6,364,730 22 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC006 AC 547,033 6,365,380 40 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC007 AC 546,887 6,365,294 69 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC008 AC 546,833 6,365,265 73 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC009 AC 546,787 6,365,239 52 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC010 AC 546,744 6,365,213 42 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC011 AC 546,779 6,365,151 40 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC012 AC 546,945 6,365,239 40 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC013 AC 546,885 6,365,206 59 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC014 AC 546,832 6,365,179 61 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC015 AC 546,955 6,365,177 34 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC016 AC 546,904 6,365,149 58 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC017 AC 546,860 6,365,129 60 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC018 AC 546,814 6,365,105 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC019 AC 546,798 6,365,066 54 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC020 AC 546,936 6,365,061 54 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC021 AC 546,885 6,365,085 55 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC022 AC 546,825 6,365,022 54 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC023 AC 546,860 6,364,978 54 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC024 AC 547,114 6,364,887 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC025 AC 547,182 6,364,880 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC026 AC 547,206 6,364,822 42 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC027 AC 547,152 6,364,826 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC028 AC 547,101 6,364,840 51 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC029 AC 547,050 6,364,830 40 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC030 AC 547,062 6,364,887 50 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC031 AC 547,013 6,364,864 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC032 AC 547,298 6,364,763 30 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC033 AC 547,202 6,364,772 39 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC034 AC 547,100 6,364,779 48 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC035 AC 545,075 6,365,851 28 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC036 AC 545,063 6,365,252 36 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC037 AC 545,038 6,364,195 34 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC038 AC 574,706 6,358,835 16 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC039 AC 573,256 6,358,867 25 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC040 AC 571,639 6,359,007 60 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC041 AC 570,239 6,359,082 52 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC042 AC 568,574 6,359,446 34 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC043 AC 568,794 6,359,447 41 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC044 AC 569,050 6,359,447 40 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC045 AC 568,367 6,358,977 55 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC046 AC 568,328 6,362,265 52 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC047 AC 568,826 6,362,054 18 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC048 AC 567,034 6,355,421 29 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC049 AC 566,908 6,355,739 44 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC050 AC 566,542 6,356,670 72 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC051 AC 566,010 6,357,916 27 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC052 AC 568,621 6,362,052 39 -90 Y Y N
======= ======== ========== ====== ==== ===== ===== ================
CBAC053 AC 556,208 6,361,649 45 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC054 AC 556,171 6,362,895 44 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC055 AC 556,131 6,363,573 54 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC056 AC 556,152 6,364,782 50 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC057 AC 556,142 6,365,279 47 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC058 AC 543,292 6,366,697 53 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC059 AC 538,454 6,364,865 42 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC060 AC 539,850 6,364,300 26 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC061 AC 540,349 6,367,726 32 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC062 AC 541,086 6,367,426 30 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC063 AC 541,980 6,366,878 28 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC064 AC 542,632 6,366,572 32 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC065 AC 542,963 6,366,472 59 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC066 AC 543,238 6,366,355 26 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC068 AC 541,143 6,364,814 39 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC069 AC 542,085 6,364,556 45 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC070 AC 542,287 6,365,560 30 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC071 AC 541,059 6,365,951 26 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC072 AC 540,703 6,366,144 24 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC073 AC 554,802 6,358,484 30 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC074 AC 555,219 6,355,578 23 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC075 AC 555,045 6,355,594 42 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC076 AC 552,649 6,358,365 44 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC077 AC 550,518 6,358,359 44 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC078 AC 551,286 6,358,365 57 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC079 AC 577,109 6,342,265 41 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC080 AC 576,000 6,342,283 47 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC081 AC 576,500 6,342,270 47 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC082 AC 575,500 6,342,250 28 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC083 AC 575,000 6,342,280 37 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC084 AC 574,500 6,342,240 37 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC085 AC 574,000 6,342,280 45 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC086 AC 573,500 6,342,240 42 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC087 AC 572,805 6,342,277 56 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC088 AC 574,493 6,370,510 36 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC089 AC 569,196 6,369,994 30 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC090 AC 568,942 6,369,157 40 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
CBAC091 AC 567,276 6,368,844 30 -90 N N N
======= ======== ========== ====== ==== ===== ===== ================
This information is provided by RNS, the news service of the
London Stock Exchange. RNS is approved by the Financial Conduct
Authority to act as a Primary Information Provider in the United
Kingdom. Terms and conditions relating to the use and distribution
of this information may apply. For further information, please
contact rns@lseg.com or visit www.rns.com.
RNS may use your IP address to confirm compliance with the terms
and conditions, to analyse how you engage with the information
contained in this communication, and to share such analysis on an
anonymised basis with others as part of our commercial services.
For further information about how RNS and the London Stock Exchange
use the personal data you provide us, please see our Privacy
Policy.
END
UPDUAOBRUOUKAAR
(END) Dow Jones Newswires
September 12, 2022 02:01 ET (06:01 GMT)
Cobra Resources (LSE:COBR)
Historical Stock Chart
From Jun 2024 to Jul 2024
Cobra Resources (LSE:COBR)
Historical Stock Chart
From Jul 2023 to Jul 2024
