Birimian Limited: Drilling extends High Grade Mineralisation at West Zone - Bougouni Lithium Project
(firmenpresse) -
Drilling extends High Grade Mineralisation at West Zone - Bougouni Lithium Project
- -Substantial high grade lithium mineralization intersected in Reverse Circulation (RC) drilling extends the Goulamina West Zone
§ 80m (at) 1.48%Li2O from 43m
§ 44m (at) 1.75 % Li2O from 82m, and
23m (at) 1.97 % Li2O from 129m
§ 45m (at) 1.72 % Li2O from 57m
§ 22m (at) 1.89% Li2O from 14m
- Original planned 10,000m of drilling now complete. Drill rigs remain active on site following up and extending recent results.
- Analytical results pending for the majority of holes
- Pre-Feasibility Study commenced
- Mineral Resource update anticipated in March 2017
Birimian Limited (ASX:BGS; Birimian and Company) is pleased to announce initial results from the second phase drilling program at the Goulamina deposit within its 100%-owned Bougouni Lithium Project (Project), southern Mali (Figure 1).
With a Mineral Resource at Goulamina of 15.5 Mt (at) 1.48 % Li2O, for 229,000 tonnes of contained Li2O, the deposit is among the highest grade lithium deposits of significant size globally. The current drilling program has been designed to expand the existing resource and enable upgrades to resource classifications for detailed feasibility assessments.
Two diamond rigs and an RC rig are currently on site and have completed the original planned 10,000 metres of drilling. Given the early encouraging signs, the programme has been extended to incorporate additional drilling in selected priority areas.
Results have now been received for nine (9) RC holes targeting strike extensions at Goulamina West Zone (Figure 1). These shallow step-out RC drill sections have intersected wide zones of high-grade lithium mineralisation, confirming the near surface and depth continuation of lithium prospective rocks and substantially expanding the potential resource in this area.
http://www.irw-press.at/prcom/images/messages/2017/38906/BGS_ASX_Bougouni Drilling Results_14 February 2017prcom.001.jpeg
Figure 1. Goulamina Deposit. Plan view of lithium pegmatite with drill hole locations and reported drill intersections (red).
Drilling Ongoing
RC drilling was initially prioritised to focus on testing strike extensions at the West Zone and at other exploration targets to the south of the deposit. The last phase of the RC drilling, which is now nearing completion, comprises 25m spaced infill sections over the Main and West Zones. Diamond drilling continues to test highly promising depth extensions to mineralisation at the West Zone. Drilling is expected to be completed in approximately two weeks. Analytical results will be announced as they come to hand over coming weeks.
Assay results for the first nine (9) RC holes drilled to target extensions to West Zone have returned substantial intersections of wide and high-grade lithium mineralisation, which confirm significant potential to expand the existing resource in this area. Results include;
§ 44m (at) 1.75 % Li2O from 82m, and
-23m (at) 1.97 % Li2O from 129m (GMRC061)
§ 80m (at) 1.48 % Li2O from 43m (GMRC060, ended in mineralisation)
§ 45m (at) 1.72 % Li2O from 57m (GMRC059)
§ 22m (at) 1.89% Li2O from 14m (GMRC062)
§ 15m (at) 1.86% Li2O from 53m, and
-11m (at) 1.77% Li2O from 71m (GMRC063)
§ 18m (at) 1.72% Li2O from 37m (GMRC064)
§ 21m (at) 1.66% Li2O from 69m (GMRC065)
§ 26m (at) 1.64% Li2O from 37m (GMRC066)
Notably, assay tenor is appreciably higher than the current modelled global resource grade, and near surface intersections remain open along strike and at depth, indicating further potential to define high-grade mineralisation by undertaking additional drilling in this area. Diamond drilling is currently in progress to test adjacent depth extensions.
Forward Plan
On 30 January 2017, Birimian announced that the Scoping Study for the Bougouni Lithium Project had confirmed the outstanding potential of the Project, leading to the decision to commence a PreFeasibility Study (PFS). Scoping Study results suggest that the Goulamina deposit will be amenable to low cost, open pit mining and staged processing plant development; benefiting from low mining strip ratios, high grade at surface mineralisation, and the low cost operating environment in Mali.
In parallel with the ongoing drilling program, Birimian continues to advance a number of studies as it works towards completion of the PFS. The Company believes there is potential to enhance the Project economics by:
- Optimising open pit mine designs
- Improving flowsheet design through the various PFS test work studies
- Further detailed analysis of transport and logistics options
- Expansion and discovery of additional mineralisation
A development drilling program is being planned with the assistance of the Companys technical consultants. This program will be designed to:
- Further expand the project resource base
- Substantially upgrade resource categories
- Confirm geotechnical parameters for open pit mine planning
- Confirm plant, associated infrastructure, waste dump and Tailings Storage Facility locations
Birimian is seeking to rapidly expedite commercialisation of Bougouni. To this end, the Company anticipates that metallurgical test work and an upgraded resource estimate will be completed in the current quarter, with the PFS released in the June 2017 quarter.
For further information contact:
Mr Kevin Joyce
Managing Director
08 9286 3045
info(at)birimiangold.com
Table 1. Reported drill holes at the Bougouni Project, Mali, and significant intercepts.
http://www.irw-press.at/prcom/images/messages/2017/38906/BGS_ASX_Bougouni Drilling Results_14 February 2017prcom.002.png
Table 2. Phase 2 Reverse Circulation and Diamond drill holes at the Bougouni Project, Mali.
Hole_IDNorth East Dip Azm Hole Comment
Depth
GMRC056125470613410-60 265 57 Assay Pending
0
GMRC057125475613380-60 265 104 Assay Pending
0
GMRC058125480613355-60 265 100 Reported
0
GMRC059125480613405-60 265 123 Reported
0
GMRC060125485613345-60 265 123 Reported
0
GMRC061125485613395-60 265 153 Reported
0
GMRC062125450613540-60 265 71 Reported
0
GMRC063125450613600-60 265 93 Reported
0
GMRC064125445613580-60 265 80 Reported
0
GMRC065125445613620-60 265 122 Reported
0
GMRC066125440613600-60 265 98 Reported
0
GMRC067125440613640-60 265 120 Assay Pending
0
GMRC068125420613540-60 265 80 Assay Pending
0
GMRC069125420613580-60 265 125 Assay Pending
0
GMRC070125415613570-60 265 80 Assay Pending
0
GMRC071125415613610-60 265 120 Assay Pending
0
GMRC072125410613610-60 265 102 Assay Pending
0
GMRC073125410613650-60 265 132 Assay Pending
0
GMRC074125500613580-60 265 88 Assay Pending
0
GMRC075125500613630-60 265 130 Assay Pending
0
GMRC076125505613580-60 265 63 Assay Pending
0
GMRC077125505613630-60 265 121 Assay Pending
0
GMRC085125485613295-60 265 100 Assay Pending
0
GMRC086125490613325-60 265 129 Assay Pending
0
GMRC087125490613375-60 265 150 Assay Pending
0
GMRC088125480613320-60 265 75 Assay Pending
0
GMRC089125435613880-60 265 150 Assay Pending
0
GMRC090125435613830-60 265 77 Assay Pending
0
GMRC091125430613850-60 265 78 Assay Pending
0
GMRC092125430613900-60 265 144 Assay Pending
0
GMRC093125440613800-60 265 63 Assay Pending
0
GMRC094125445613770-60 265 70 Assay Pending
0
GMRC095125455613735-60 265 85 Assay Pending
0
GMRC096125452613720-60 265 60 Assay Pending
5
GMRC097125452613745-60 265 80 Assay Pending
5
GMRC098125452613770-60 265 100 Assay Pending
5
GMRC099125457613700-60 265 60 Assay Pending
5
GMRC100125457613725-60 265 85 Assay Pending
5
GMRC101125457613750-60 265 115 Assay Pending
5
GMRC102125460613755-60 265 135 Assay Pending
0
GMRC103125467613655-60 265 65 Assay Pending
5
Hole_IDNorth East Dip Azm Hole Comment
Depth
GMRC104125467613680-60 265 91 Assay Pending
5
GMRC105125467613705-60 265 120 Assay Pending
5
GMRC106125472613635-60 265 60 Assay Pending
5
GMRC107125472613660-60 265 90 Assay Pending
5
GMRC108125472613685-60 265 120 Assay Pending
5
GMRC109125475613655-60 265 90 Assay Pending
0
GMRC110125477613615-60 265 60 Assay Pending
5
GMRC111125477613640-60 265 81 Assay Pending
5
GMRC112125477613665-60 265 110 Assay Pending
5
GMRC113125495613585-60 265 60 Assay Pending
0
GMRC114125472613415-60 265 66 Assay Pending
5
GMRC115125472613440-60 265 In Progress
5
GMDD009125470613649-60 265 250 Assay Pending
0
GMDD010125465613664-60 265 237.1 Assay Pending
0
GMRC015125460613685-60 265 230 Assay Pending
D 0
GMRC017125455613710-60 265 240 Assay Pending
D 0
GMRC035125460613620-60 265 174 Assay Pending
D 0
GMRC043125475613525-60 265 165 Assay Pending
D 0
GMRC044125475613575-60 265 240 Assay Pending
D 0
GMRC045125470613587-60 265 200 Assay Pending
D 0
GMRC046125465613606-60 265 185 Assay Pending
D 0
GMRC047125455613650-60 265 170.3 Assay Pending
D 0
GMRC048125495613660-60 265 120 Assay Pending
D 0
GMRC049125495613710-60 265 225 Assay Pending
D 0
GMRC050125490613715-60 265 220 Assay Pending
D 0
GMRC051125485613695-60 265 170 Assay Pending
D 0
GMRC052125485613745-60 265 230 Assay Pending
D 0
GMRC053125480613765-60 265 240.2 Assay Pending
D 0
GMRC054125475613730-60 265 198 Assay Pending
D 0
GMRC055125475613780-60 265 255 Assay Pending
D 0
GMRC078125470613800-60 265 236 Assay Pending
D 0
GMRC079125465613760-60 265 180 Assay Pending
D 0
GMRC080125465613810-60 265 In Progress
D 0
GMRC081125460613835-60 265 In Progress
D 0
GMRC082125455613810-60 265 In Progress
D 0
GMRC083125480613455-60 265 In Progress
D 0
GMRC084125485613445-60 265 In Progress
D 0
Competent Persons Declaration
The information in this announcement that relates to exploration results is based on information compiled by or under the supervision of Kevin Anthony Joyce. Mr Joyce is Managing Director of Birimian Limited and a Member of the Australian Institute of Geoscientists. Mr Joyce has sufficient experience which is relevant to the style of mineralisation and type of deposit under consideration and the activity he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the Australasian Code for Reporting of Exploration Results. Mr Joyce consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.
The information in this announcement that relates to Mineral Resources is based on information compiled by or under the supervision of Mr. Matt Bampton, who is a Member of The Australasian Institute of Mining and Metallurgy and a Member of the Australian Institute of Geoscientists. Mr Bampton is a full-time employee of Cube Consulting Pty Ltd and has sufficient experience which is relevant to the styles of mineralisation and types of deposit under consideration 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 of Exploration Results. Mr Bampton consents to the inclusion in the report of the matters based on his information in the form and context in which it appears
Previous Reported Results
There is information in this announcement relating to previous Exploration Results at the Bougouni Project. The Company confirms that it is not aware of any other new information or data that materially affects the information included in the original market announcement, and that all material assumptions and technical parameters have not materially changed. The Company confirms that the form and context in which the Competent Persons findings are presented have not been materially modified from the original market announcement.
Forward Looking Statements
Statements regarding plans with respect to the Companys mineral properties are forward looking statements. There can be no assurance that the Companys plans for development of its mineral properties will proceed as expected. There can be no assurance that the Company will be able to confirm the presence of mineral deposits, that any mineralisation will prove to be economic or that a mine will successfully be developed on any of the Companys mineral properties.
JORC Code, 2012 Edition - Table 1
Section 1 Sampling Techniques and Data
Criteria JORC Code explanation Commentary
Sampling · Nature and quality · Reverse Circulation (RC)
techniqu of sampling drill holes were
es ( routinely sampled at 1m
eg cut channels, intervals down the
random chips, or hole.
specific
· Samples were collected
specialised industry at the drill rig by
standard measurement riffle splitting drill
tools appropriate to spoils to collect a
the minerals under nominal 2.5 - 4kg sub
investigation, such sample, with an
as down additional 50% split for
material > 5
hole gamma sondes, or kg.
handheld XRF
instruments, · Routine standard
reference material,
etc). These examples sample blanks, and sample
should not be taken duplicates were inserted
as limiting the broad or collected at every
meaning of 10th sample in the sample
sampling. sequence for RC drill
holes
· Include reference to
measures taken to · All samples were
ensure sample submitted to ALS Bamako
and subsequently
representivity and the forwarded to ALS
appropriate Ouagadougou for
calibration of any preparation. Analysis was
measurement tools or undertaken at ALS Perth
systems by method
used. ME-ICP89
· Aspects of the
determination of
mineralisation that
are Material to the
Public
Report.
· In cases where
industry standard
work has been done
this would be
relatively simple
(
eg reverse
circulation drilling
was used to obtain 1
m samples from which
3 kg was
pulverised to produce
a 30 g charge for
fire assay). In
other cases more
explanation may be
required, such as
where there is coarse
gold that has
inherent sampling
problems. Unusual
commodities or
mineralisation types (e
g
submarine nodules)
may warrant
disclosure of
detailed
information.
Drilling · Drill type (eg core, · All holes were completed
techniqu reverse circulation, by reverse circulation
es open-hole hammer, drilling
rotary air blast, techniques.
auger, Bangka, sonic,
· RC hole diameter is
etc) and details (eg co nominally 5.5 Inch. A
re diameter, triple or face sampling down
standard tube, depth
of diamond tails, hole hammer was used at
face-sampling bit or all
other type, whether times.
core is oriented and
if so, by what
method,
etc).
Drill · Method of recording · A qualitative estimate
sample and assessing core of sample recovery was
recovery and chip sample done for each sample
recoveries and
results metre collected from the
assessed. drill
rig.
· Measures taken to max
imise · Riffle split samples
sample recovery and were weighed to ensure
ensure representative consistency of sample
nature of the size and to monitor
samples. sample recoveries.
· Whether a
relationship exists · Drill sample recovery
between sample and quality is considered
recovery and grade to be adequate for the
and whether sample drilling technique
bias may have employed.
occurred due to
preferential
loss/gain of
fine/coarse
material.
Logging · Whether core and · All drill sample
chip samples have intervals were
been geologically and geologically logged by
Company
geotechnically logged Geologists.
to a level
· Where appropriate,
of detail to support geological logging
appropriate Mineral recorded the abundance of
Resource estimation, specific minerals, rock
mining studies and types and weathering
metallurgical using a standardized
studies. logging
system.
· Whether logging is
qualitative or · A small sample of washed
quantitative in drill material was
nature. Core (or retained in chip trays
for future reference and
costean, channel, etc) validation of geological
photography. logging, and an
additional 100g of drill
· The total length and material was retained in
percentage of the plastic bags for the same
relevant purpose.
intersections
logged.
Sub-sampl· If core, whether cut · RC 1m samples were
ing or sawn and whether riffle split at the drill
techniqu quarter, half or all rig.
es and core
sample taken. · Routine field sample
preparat duplicates were taken to
ion · If non-core, whether evaluate whether samples
riffled, tube were
sampled, rotary representative.
split,
· Additional sample
etc and whether preparation was
sampled wet or undertaken by ALS
dry. Ouagadougou
laboratory.
· For all sample
types, the nature, · At the laboratory,
quality and samples were weighed,
appropriateness of dried and crushed to -2mm
the sample in a jaw crusher. A 1.0kg
preparation split of the crushed
technique. sample was subsequently
· Quality control pulverised in a ring mill
procedures adopted to achieve a nominal
for all sub-sampling particle size of 85%
stages to passing
75m.
maximise representivity
of · Sample sizes and
samples. laboratory preparation
techniques are considered
· Measures taken to to be
ensure that the appropriate.
sampling is
representative of the
in situ material
collected, including
for instance results
for field
duplicate/second-half
sampling.
· Whether sample sizes
are appropriate to
the grain size of the
material being
sampled.
Quality · The nature, quality · Analysis for lithium and
of and appropriateness a suite of other elements
assay of the assaying and is undertaken at ALS
data laboratory procedures Perth by ICP-AES after
and used and whether the Sodium Peroxide Fusion.
laborato technique is Detection limits for
ry considered partial or lithium (0.01
tests total. -10%)
· For geophysical · Sodium Peroxide fusion
tools, spectrometers, is considered a total
handheld XRF assay technique for
instruments, lithium
etc, the parameters · No geophysical tools or
used in determining other non-assay
the analysis instrument types were
including instrument used in the analyses
make and model, reported.
reading times,
calibrations factors · Review of routine
applied and their standard reference
derivation, material and sample
etc. blanks suggest there are
no significant analytical
· Nature of quality bias or preparation
control procedures errors in the reported
adopted analyses.
(
eg standards, blanks, · Results of analyses for
duplicates, external field sample duplicates
laboratory checks) are consistent with the
and whether style of
acceptable levels of
accuracy mineralisation being
( evaluated and considered
ie lack of bias) and to be representative of
precision have been the geological zones
established. which were
sampled.
· Internal laboratory QAQC
checks are reported by
the laboratory, including
sizing analysis to
monitor
preparation.
· Review of the internal
laboratory QAQC suggests
the laboratory is
performing within
acceptable
limits.
Verificat· The verification of · Drill hole data is
ion of significant compiled and digitally
sampling intersections by captured by Company
and either independent or geologists in the
assaying alternative company field.
personnel.
· The compiled digital
· The use of twinned data is verified and
holes. validated by the
Companys database
· Documentation of consultant before loading
primary data, data into the drill
entry procedures,
data verification, hole database.
data storage · Twin holes were not
(physical and utilized to verify
electronic) results.
protocols.
· Reported drill hole inter
· Discuss any cepts are compiled by the
adjustment to assay Companys database
data. consultant and the
Managing
Director.
· There were no
adjustments to assay
data.
Location · Accuracy and quality · Drill hole collars were
of data of surveys used to set out in UTM grid
points locate drill holes WGS84_Zone29N
(collar and down-hole
surveys), trenches, · Drill hole collars were
mine workings and positioned using hand
other locations used held GPS.
in Mineral Resource
estimation.
· RC drill holes are
· Specification of the routinely surveyed for
grid system down
used.
hole deviation at
· Quality and adequacy approximately 50m spaced
of topographic intervals down the
control. hole.
· SRTM elevation data was
used to establish
topographic control where
appropriate.
· Locational accuracy at
collar and down the drill
hole is considered
appropriate for this
stage of
exploration.
Data · Data spacing for · RC holes were nominally
spacing reporting of drilled on 50m spaced
and Exploration east-west orientated
distribu Results. drill
tion sections.
· Whether the data
spacing and · Hole spacing on section
distribution is varies between 25m to
sufficient to 50m.
establish the degree
of geological and · The reported drilling
grade continuity has not been used to
appropriate for the estimate any mineral
Mineral Resource and resources or
Ore Reserve reserves.
estimation
procedure(s) and
classifications
applied.
· Whether sample
compositing has been
applied.
Orientati· Whether the · Mineralisation at Goulami
on of orientation of na
data in sampling achieves outcrops at surface and
relation unbiased sampling of the geometry of
to possible structures
geologic and the extent to mineralisation is
al which this is known, therefore well-defined.
structur considering the
e deposit
type. · Reported results are
from West Zone. It is
· If the relationship noted that a moderate
between the drilling change in strike on the
orientation and the northern extension of
orientation of key this zone may result in
mineralised structures reported widths that may
is considered to have not
introduced a sampling
bias, this should be reflect the true width of
assessed and reported the
if
material. mineralised zones at this
location.
· Drilling orientation has
generally
not biased the sampling to
the south of West
Zone
.
Sample · The measures taken · Samples are stored on
security to ensure sample site prior to road
security. transport by Company
personnel
to the ALS laboratory in
Bamako,
Mali.
Audits · The results of any · Cube Consulting
or audits or reviews of undertook a site visit
reviews sampling techniques during drilling
and operations
data.
in May 2016 to review the
sampling techniques
discussed
above.
Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this section.)
CriteriaJORC Code explanation Commentary
Mineral · Type, reference · The reported results are
tenemen name/number, location from an area within the
t and and ownership
land including agreements Torakoro Permit, which is
tenure or material issues held 100% by Timbuktu
status with third parties
such as joint Ressources, a subsidiary
ventures, of
partnerships,
overriding royalties, Birimian Limited
native title · Tenure is in good
interests, historical standing.
sites, wilderness or
national park and
environmental
settings.
· The security of the
tenure held at the
time of reporting
along with any known
impediments to
obtaining a
licence to operate in
the
area.
Explorat· Acknowledgment and · The area which is
ion appraisal of presently covered by the
done exploration by other
by parties. Torakoro Permit was
other explored intermittently
parties by government agencies in
the period 1990 to 2008.
Exploration consisted of
soil sampling and mapping
for
gold.
· In 2007-2008 an
evaluation of the
commercial potential for
lithium at
Goulamina was undertaken
by CSA Global as part of
the SYSMIN 7 economic
development
program.
· CSA undertook mapping
and bulk sampling of the
Goulamina outcrop but did
not undertake drilling.
Bulk sampling and
preliminary processing
testwork confirmed the
viability of the
pegmatite at
Goulamina to produce a
high quality chemical
grade lithium
concentrate
Geology · Deposit type, · Pegmatite Hosted Lithium
geological setting and Deposits are the target
style of for exploration. This
style of
mineralisation.
mineralisation typically
forms as dykes and sills
intruding or in proximity
to granite host
rocks.
· Surficial geology within
the project area
typically consists of
indurated gravels forming
plateau, and broad
depositional plains
consisting of colluvium
and alluvial to
approximately 5m vertical
depth.
· Lateritic weathering is
common away from the
Goulamina deposit and in
the broader project area.
Drill · A summary of all · Reported results are summ
hole information arised
in Table 1 within the
Informatmaterial to the attached
ion understanding of the announcement.
exploration results
including a tabulation · The drill holes reported
of the following in this announcement have
information for all the following parameters
Material drill applied. All drill holes
holes: completed, including
holes with no significant
o easting and northing lithium intersections are
of the drill hole reported.
collar
· Grid co-ordinates are
o elevation or RL UTM
(Reduced Level - WGS84_29N
elevation above sea
level in · Collar elevation is
defined as height above
metres) of the drill sea level in
hole
collar metres (RL)
· Dip is the inclination
o dip and azimuth of of the hole from the
the horizontal. Azimuth is
hole reported in WGS 84_29N
degrees as the direction
o down hole length and toward which the hole is
interception drilled.
depth
· Down hole length of the
o hole length. hole is the distance from
· If the exclusion of the surface to the end of
this information is the hole, as measured
justified on the basis along the drill
that the information trace
is not Material and
this exclusion does · Intersection depth is
not detract from the the distance down the
understanding of the hole as measured along
report, the Competent the drill
Person should clearly trace.
explain why this is
the · Intersection width is
case. the down hole distance of
an intersection as
measured along the drill
trace
· Hole length is the
distance from the surface
to the end of the hole,
as measured along the
drill
trace.
· No results from previous
exploration are the
subject of this
Announcement.
Data · In reporting · RC drill hole intercepts
aggrega Exploration Results, are reported from 1m down
tion weighting averaging hole
methods techniques, maximum samples.
and/or minimum grade
truncations · A minimum cut-off grade
( of 1.0%
eg cutting of high Li
grades) and cut-off 2O is applied to the
grades are usually reported RC
Material and should be intervals.
stated.
· Maximum internal
· Where aggregate dilution is 2m within a
intercepts incorporate reported
short lengths of high interval.
grade results and
longer lengths of low · No grade top cut off has
grade results, the been
procedure used for applied.
such aggregation
should be stated and · No metal equivalent
some typical examples reporting is used or
of such aggregations applied.
should be shown in
detail.
· The assumptions used
for any reporting of
metal equivalent
values should be
clearly
stated.
Relation· These relationships · See discussion in
ship are particularly Section
between important in the 1
reporting of
minerali Exploration · Results are reported as
sation Results. down
widths
and · If the geometry of hole length.
interce the
pt
lengthsmineralisation with
respect to the drill
hole angle is known,
its nature should be
reported.
· 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).
Diagrams· Appropriate maps and · A drill hole location pla
sections (with scales) n
and tabulations of is
intercepts should be included in Figure 1.
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 · Results have been
reporti reporting of all comprehensively reported
ng Exploration Results is in this
not practicable, announcement.
representative
reporting of both low · Drill holes completed,
and high grades and/or including holes with no
widths should be significant
practiced to avoid intersections, are
misleading reporting reported
of Exploration
Results.
Other · Other exploration · There is no other
substan data, if meaningful exploration data which is
tive and material, should considered material to
explora be reported including the results reported in
tion (but not limited to): this
data geological announcement.
observations;
geophysical survey
results; geochemical
survey results; bulk
samples - size and
method of treatment;
metallurgical test
results; bulk density,
groundwater,
geotechnical and rock
characteristics;
potential deleterious
or contaminating
substances.
Further · The nature and scale · Drilling is ongoing
work of planned further · RC and diamond drilling
work where appropriate will be
( undertaken to follow up
eg tests for lateral the results reported in
extensions or depth this
extensions or announcement.
large-scale step-out
drilling).
· Diagrams clearly
highlighting the areas
of possible
extensions, including
the main geological
interpretations and
future drilling areas,
provided this
information is not
commercially
sensitive.
·
Leseranfragen:
Datum: 14.02.2017 - 15:15 Uhr
Sprache: Deutsch
News-ID 524059
Anzahl Zeichen: 48650
contact information:
Town:
Wien
Kategorie:
Business News
Diese Pressemitteilung wurde bisher 312 mal aufgerufen.
Die Pressemitteilung mit dem Titel:
"Birimian Limited: Drilling extends High Grade Mineralisation at West Zone - Bougouni Lithium Project
"
steht unter der journalistisch-redaktionellen Verantwortung von
Birimian Ltd. (Nachricht senden)
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