TIDMAMC
RNS Number : 7692R
Amur Minerals Corporation
14 December 2016
14 December 2016
AMUR MINERALS CORPORATION
(AIM: AMC)
2016 Field Season Final Results
Maly Kurumkon / Flangovy Resource Update Initiated
Amur Minerals Corporation ("Amur" or the "Company"), the
exploration and development company focused on base metal projects
located in the Far East of Russia, is pleased to announce it has
received the final independent analytical results from Alex Stewart
Laboratories ("ASL") in Moscow, Russia. These results include all
drilling within the Maly Kurumkon / Flangovy ("MKF") deposit
completed during the 2016 field season. The results have been
submitted to Runge, Pincock, Minarco ("RPM"), who are generating an
updated Mineral Resource Estimate ("MRE") on MKF, the largest of
the five deposits at the Company's flagship Kun-Manie nickel copper
sulphide project.
Highlights:
-- The comprehensive independent set of analytical results
generated by ASL is now complete and the MKF global drill results
data base has been updated.
-- The analytical information presented within this RNS replaces
all previously reported drilling results for the 2016 drill
season.
-- The 2016 drill programme has identified both open pit and
underground mineable thicknesses and grades suitable for the
definition of JORC reserves.
-- Using a typical open pit cutoff grade of 0.2% nickel and a
three metre mining thickness, the average drill interval thickness
intersected during 2016 was 13.3 metres averaging 0.73% nickel and
0.21% copper.
-- Using a typical underground cutoff grade of 0.5% nickel, the
average three metre minimum mineralised interval thickness is 10.5
metres averaging 0.88% nickel and 0.24% copper.
-- The global MKF data set has been delivered to RPM whose remit
is to generate a fully updated MRE for delivery in Q1 2017. The
update will include a recalculation of the resource contained
within the currently defined 2,100 metre long model and the
additional 900 metres of new mineralisation defined by the 2016
drill programme. This represents a more than 40% expansion in the
length of the mineralisation to be modelled.
-- The updated Q1 2017 model will exclude sub-economic
mineralisation providing a final MRE more reflective of the mining
potential and grade of the ore that will be mined from the MKF
deposit.
-- During the end of the field season, Amur executive management
and RPM representatives conducted an audit and site visit of the
Kun-Manie project. A comprehensive review by the RPM team will mean
the Company is able to report JORC compatible resources and
reserves compiled by RPM.
Robin Young, CEO of Amur Minerals, commented:
"We are pleased to report that, working in conjunction with
Runge, Pincock, Marco, we have initiated the update of the Mineral
Resource Estimate for Maly Kurumkon / Flangovy using all drill
information acquired during this year's field season and that
previously acquired. We expect that the reporting of resources will
become more focused and representative of the reserve potential
which will be included in the Definitive Feasibility Study.
We anticipate that delivery of the resource update in Q1 2017
will provide multiple improvements over the existing MKF resource.
This includes an expansion of 40% to the length of the high grade
resource, a potential increase in the grade of the resource and
substantial upgrade of the resource from Inferred to that of
Indicated allowing us to fully evaluate the reserve potential of
this deposit. We are also nearing completion of the final reviews
of the resource updates to the Ikenskoe / Sobolevsky, Vodorazdelny
and Kubuk deposits, and we look forward to updating the market in
due course."
MKF Drilling and Considerations
The Company has now received the final independent ASL
analytical results for all MKF drilling (60 holes) completed in
2016. This information replaces all Company generated results and
has been fully updated into the global MKF drill data base.
The ASL results indicate the average mineralised thickness at a
0.2% nickel cutoff grade (in excess of a minimum of three
continuous metres) averages 23.0 metres per mineralised hole with
individual mineralised intervals being 13.3 metres in thickness.
The length weighted grades are 0.73% nickel and 0.21% copper. This
cutoff grade represents a typical open pit production cutoff grade
related to near surface mineable mineral.
In consideration of an underground production cutoff grade of
0.5% nickel, the average mineral thickness per hole is indicated to
be 19.1 metres per hole and 10.5 metres per interval. The average
length weighted grades are 0.88% nickel and 0.24% copper. These
represent potential underground mineable resources suitable for
extraction using a long hole retreat mining configuration.
The newly acquired ASL results for 2016 and all drilling
completed prior to this year's 2016 drill programme have been
forwarded to RPM for the purpose of updating the MRE at MKF. It is
anticipated that the majority of the anticipated Q1 2017 MRE update
will be classified as an Indicated resource based on historical
resource classification criteria and can therefore be used in the
definition of reserves. The Company also anticipates that the MRE
high grade mineral zone will be significantly expanded due to the
discovery of an additional 900 metres of higher grade
mineralisation (previously defined to be 2,100 metres in total
length) along strike in both the east and west directions. The new
MRE will focus on mineralisation that is most likely to be
economically recovered at a mineable cutoff grade allowing for the
exclusion of resource tonnes which are subeconomic. This is in
accordance with current JORC 2012 reporting standards for reserve
reporting purposes. It is also noted that the configuration and
depth of the mineralisation will likely result in the majority of
the MKF mineralisation being an underground production target with
portions of near surface mineralisation being recovered from open
pit mining methods.
For informational purposes, the analytical information presented
within this RNS replaces all previously reported drilling results
for the 2016 drill season. Based on the comprehensive ASL results,
a comparison of the final ASL and Company generated results for the
year using a minimum continuous drill thickness of three metres at
two cutoff grades is presented in the table below. The nickel
cutoff grades used in the comparison are 0.2% nickel (typical open
pit) and 0.5% nickel (typical underground).
Comparison of Company versus ASL Analytical Results
Source Holes Average Mineralised Average Ni Cu
Per Intervals Per (%) (%)
Hole Interval
(m) (m)
--------- ------ -------- ------------ ---------- ----- -----
0.2% Nickel Cutoff Grade - Minimum
3 m mining thickness
-------------------------------------------------------------------
Company 47 23.3 85 12.9 0.76 0.21
--------- ------ -------- ------------ ---------- ----- -----
ASL 46 23.0 74 13.3 0.73 0.21
--------- ------ -------- ------------ ---------- ----- -----
0.5% Nickel Cutoff Grade - Minimum
3 m mining thickness
-------------------------------------------------------------------
Company 40 19.3 74 10.4 0.94 0.25
--------- ------ -------- ------------ ---------- ----- -----
ASL 39 19.1 71 10.5 0.88 0.24
--------- ------ -------- ------------ ---------- ----- -----
For convenience, the current resource estimate defined in Q2
2016 is presented below. It is noted that the average 0.40% nickel
grade of the existing global MRE is substantially lower in grade
than indicated by the 2016 drill results which average from 0.76%
to 0.88% nickel. The Company anticipates that a substantial upgrade
in the existing global MRE with regard to grade and tonnage will be
derived by RPM in its update of the MKF resource.
SRK Consulting (UK) Ltd MKF Mineral Resource Estimate Q2
2016
Zero Nickel Cutoff Grade
Resource Tonnes Ni Ni Cu Cu
Category (millions) (%) (t) (%) (t)
------------------ ------------- ------ --------- ------ ---------
Indicated High
Grade 24.9 0.86 214,300 0.23 57,200
------------------ ------------- ------ --------- ------ ---------
Indicated Low
Grade 43.5 0.16 70,800 0.06 27,000
------------------ ------------- ------ --------- ------ ---------
Total Indicated 68.4 0.42 285,200 0.12 84,200
------------------ ------------- ------ --------- ------ ---------
Inferred High
Grade 7.1 0.76 54,400 0.20 14,100
------------------ ------------- ------ --------- ------ ---------
Inferred Low
Grade 15.0 0.18 27,000 0.08 11,500
------------------ ------------- ------ --------- ------ ---------
Total Inferred 22.2 0.37 81,400 0.12 25,700
------------------ ------------- ------ --------- ------ ---------
Total High
Grade 32.0 0.84 268,700 0.22 71,300
------------------ ------------- ------ --------- ------ ---------
Total Low Grade 58.5 0.17 97,800 0.07 38,500
------------------ ------------- ------ --------- ------ ---------
Total 90.6 0.40 366,600 0.12 109,900
------------------ ------------- ------ --------- ------ ---------
Based on a 0.2% nickel cutoff grade, the current SRK Consulting
(UK) Ltd MRE for MKF is estimated to consist of 50.2 million ore
tonnes averaging 0.64% nickel containing 318,600 tonnes of nickel.
This MRE total consists of both Inferred and Indicate resources. It
is noted that the estimated resource grade of nickel is
substantially lower than that indicated by the 2016 resource drill
results at MKF. The average length weighted nickel grade was 0.73%,
approximately 14% higher than that of the existing MRE.
Company Nomad and Broker Public Relations
Amur Minerals S.P. Angel Corporate Yellow Jersey
Corp. Finance LLP
Robin Young Ewan Leggat Dominic Barretto
CEO Laura Harrison Harriet Jackson
+44(0)203 470 +44(0)754
+74212755615 0470 427 5882
For additional information, visit the Company's website,
www.amurminerals.com.
Alex Stewart Laboratory Results
MKF Mineralised Drill Intervals - 3 Metre Minimum
Hole 0.2% Nickel Cutoff 0.5% Cutoff Grade
Grade
------------------------------------- -------------------------------------
From To Length Ni Cu From To Length Ni Cu
(m) (m) (m) (%) (%) (m) (m) (m) (%) (%)
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C400
------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C401 199.5 205.3 5.8 0.88 0.20 201.0 205.3 4.3 1.09 0.24
------
214.4 219.0 4.6 1.09 0.20 214.4 217.8 3.4 1.40 0.24
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C402
------
C403 129.0 139.0 10.0 0.61 0.15 130.5 139.0 8.5 0.66 0.16
------
C406 23.5 61.7 38.2 0.70 0.17 23.5 49.0 25.5 0.80 0.19
53.5 61.7 8.2 0.63 0.13
C404 50.9 76.0 25.1 0.74 0.19 53.9 72.8 18.9 0.84 0.25
------
83.5 109.0 25.5 0.74 0.21 83.5 87.5 4.0 0.65 0.14
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C405 131.9 140.9 9.0 0.51 0.15 131.9 134.9 3.0 0.94 0.26
------
154.9 163.0 8.1 0.49 0.14 157.9 162.0 4.1 0.68 0.18
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C407 74.9 143.3 68.4 0.93 0.24 74.9 98.2 23.3 0.92 0.23
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
102.3 143.3 41.0 1.00 0.26
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C408 155.0 165.5 10.5 0.74 0.22 155.0 164.0 9.0 0.79 0.24
------
174.4 183.3 8.9 0.51 0.15 177.5 183.3 5.8 0.60 0.16
------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C409 135.8 201.1 65.3 0.83 0.24 135.8 154.3 18.5 0.85 0.28
------
157.3 199.6 42.3 0.87 0.25
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C415 233.7 244.1 10.4 0.57 0.15 235.1 241.1 6.0 0.75 0.28
253.1 259.0 5.9 0.41 0.15 253.1 256.1 3.0 0.60 0.24
------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C326 14.5 19.0 4.5 0.23 0.11
31.0 46.0 15.0 0.47 0.23 37.0 40.0 3.0 0.70 0.23
56.6 74.1 17.5 0.79 0.18 59.5 74.1 14.6 0.89 0.20
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C327 94.0 98.5 4.5 0.27 0.07
C410 227.3 230.3 3.0 0.22 0.16
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C411 181.1 187.0 5.9 0.26 0.12
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C412 211.9 241.0 29.1 0.71 0.18 211.9 222.3 10.4 0.95 0.20
228.7 239.0 10.3 0.71 0.23
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C413 152.0 158.0 6.0 0.49 0.21
C414 236.3 251.3 15.0 0.91 0.23 236.3 251.3 15.0 0.92 0.23
260.3 296.7 36.4 0.88 0.22 260.3 294.6 34.3 0.91 0.23
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C416 227.2 237.5 10.3 0.70 0.22 227.2 237.5 10.3 0.70 0.22
244.0 254.7 10.7 0.48 0.14
C417 288.1 297.1 9.0 0.75 0.19 288.1 292.6 4.5 1.20 0.28
303.1 313.6 10.5 0.35 0.16
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C418 274.5 292.6 18.1 0.90 0.22 274.5 290.6 16.1 0.96 0.24
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C419 207.0 211.1 4.1 0.28 0.12
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C420 237.7 243.4 5.7 0.73 0.21 237.7 243.4 5.7 0.73 0.21
246.8 288.6 41.8 0.79 0.21 246.8 261.8 15.0 0.75 0.21
266.3 285.6 19.3 0.98 0.25
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C421 305.1 332.6 27.5 0.82 0.14 305.1 318.6 13.5 0.88 0.25
321.6 331.1 9.5 1.00 0.18
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C422
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C423
------ ------ ------ ------- ----- -----
C424 98.4 112.3 13.9 0.94 0.24 100.0 112.3 12.3 1.00 0.24
174.2 180.4 6.2 0.48 0.15 177.3 180.4 3.1 0.71 0.19
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C425
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C426
------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C324 231.7 243.7 12.0 0.59 0.20 231.7 235.7 4.0 1.06 0.25
248.5 252.1 3.6 0.79 0.19
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C325
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C328
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C329 337.4 351.3 13.9 0.80 0.21 337.4 346.8 9.4 1.01 0.25
359.7 372.0 12.3 0.63 0.16 365.7 372.0 6.3 0.96 0.23
------
C330 253.3 267.8 14.5 0.68 0.19 254.7 263.1 8.4 0.98 0.27
281.8 286.6 4.8 0.94 0.19 281.8 286.6 4.8 0.94 0.19
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C427
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C331
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C428 317.8 321.9 4.1 0.72 0.26 317.8 321.9 4.1 0.72 0.26
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C332 296.7 310.0 13.3 0.64 0.23 299.0 307.2 8.2 0.86 0.28
320.2 326.3 6.1 0.23 0.11
369.0 373.6 4.6 0.61 0.21 369.0 373.6 4.6 0.61 0.21
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C429 276.5 308.0 31.5 0.92 0.21 279.5 306.5 27.0 1.02 0.23
317.0 333.8 16.8 0.88 0.24 320.0 333.8 13.8 0.98 0.26
338.6 352.0 13.4 0.85 0.22 338.6 350.5 11.9 0.93 0.24
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C333 314.5 323.5 9.0 0.81 0.27 314.5 322.0 7.5 0.90 0.31
340.2 344.5 4.3 0.89 0.29 340.2 343.5 3.3 1.01 0.23
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C430 357.1 370.0 12.9 0.63 0.14 357.1 363.3 6.2 0.96 0.16
401.0 410.1 9.1 0.63 0.15 403.5 408.4 4.9 0.83 0.17
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C334 365.3 374.1 8.8 0.56 0.19 366.3 369.3 3.0 0.92 0.20
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C335 195.8 204.1 8.3 0.68 0.29 195.8 204.1 8.3 0.68 0.29
209.3 221.2 11.9 0.74 0.23 210.9 221.2 10.3 0.77 0.24
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C336 231.2 248.5 17.3 0.93 0.39 233.5 248.5 15.0 1.00 0.43
271.0 295.7 24.7 0.84 0.23 271.0 291.3 20.3 0.96 0.28
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C337 267.3 278.4 11.1 0.77 0.19 267.3 276.8 9.5 0.83 0.19
286.8 298.1 11.3 0.64 0.16 290.9 298.1 7.2 0.83 0.17
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C431 298.7 301.1 2.4 0.65 0.10
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C432 254.8 278.0 23.2 0.77 0.26 254.8 275.5 20.7 0.80 0.27
285.6 298.7 13.1 0.77 0.26 285.6 297.2 11.6 0.84 0.28
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C433 312.8 320.3 7.5 0.72 0.21 314.3 318.8 4.5 0.79 0.22
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C434 173.5 186.2 12.7 0.42 0.12 178.5 181.7 3.2 0.79 0.18
201.9 208.6 6.7 0.55 0.26 203.4 207.5 4.1 0.62 0.27
225.1 233.0 7.9 0.65 0.18 225.1 231.0 5.9 0.73 0.21
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C435 204.7 221.0 16.3 0.80 0.23 204.7 214.7 10.0 1.15 0.29
238.8 252.7 13.9 0.86 0.20 240.3 252.7 12.4 0.90 0.20
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C436 252.7 259.1 6.4 0.66 0.22 252.7 257.5 4.8 0.80 0.26
275.6 280.8 5.2 0.74 0.24 275.6 280.8 5.2 0.74 0.24
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C437 332.4 337.3 4.9 0.88 0.24 332.4 337.3 4.9 0.88 0.24
357.3 362.7 5.4 0.65 0.23 357.3 361.5 4.2 0.72 0.21
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C438
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C439 126.4 141.6 15.2 0.71 0.18 129.9 139.0 9.1 0.95 0.22
161.5 177.5 16.0 0.67 0.18 167.5 174.5 7.0 0.97 0.23
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C440
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C441
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C442 91.1 99.0 7.9 0.77 0.19 91.1 99.0 7.9 0.77 0.19
111.0 115.0 4.0 0.52 0.18
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C443
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C444 104.2 107.8 3.6 0.36 0.20
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
C445 51.5 58.5 7.0 0.44 0.22
88.0 91.0 3.0 0.33 0.30
140.5 148.3 7.8 0.59 0.20 144.1 148.3 4.2 0.85 0.28
------ ------ ------ ------- ----- ----- ------ ------ ------- ----- -----
Note: If no value is present, no mineralisation was
encountered.
Market Abuse Regulation (MAR) Disclosure
Certain information contained in this announcement would have
been deemed inside information for the purposes of Article 7 of
Regulation (EU) No 596/2014 until the release of this
announcement.
Notes to Editors
The information contained in this announcement has been reviewed
and approved by the CEO of Amur, Mr. Robin Young. Mr. Young is a
Geological Engineer (cum laude), a Professional Geologist licensed
by the Utah Division of Occupational and Professional Licensing,
and is a Qualified Professional Geologist, as defined by the
Toronto and Vancouver Stock Exchanges. An employee of Amur for 12
years, previously Mr. Young was employed as an exploration and mine
geologist, mining engineer, construction manager of a mine startup
as well as independent consultant with Fluor Engineers, Fluor
Australia and Western Services Engineering, Inc. during which time
his responsibilities included the independent compilation of
resources and reserves in accordance with JORC standards. In
addition, he has been the lead engineer and project manager in the
compilation of numerous studies and projects requiring the
compilation of independent Bankable Studies utilised to finance
small to large scale projects worldwide. Mr. Young is responsible
for the content of this announcement which includes information
derived by SRK Consulting Ltd and Alex Stewart Laboratories.
Glossary
DEFINITIONS OF EXPLORATION RESULTS, RESOURCES & RESERVES
EXTRACTED FROM THE JORC CODE: (December 2012) (www.jorc.org)
A 'Mineral Resource' is a concentration or occurrence of
material of intrinsic economic interest in or on the Earth's crust
in such form, quality and quantity that there are reasonable
prospects for eventual economic extraction. The location, quantity,
grade, geological characteristics and continuity of a Mineral
Resource are known, estimated or interpreted from specific
geological evidence and knowledge. Mineral Resources are
sub-divided, in order of increasing geological confidence, into
Inferred, Indicated and Measured categories.
An 'Inferred Mineral Resource' is that part of a Mineral
Resource for which tonnage, grade and mineral content can be
estimated with a low level of confidence. It is inferred from
geological evidence and assumed but not verified geological and/or
grade continuity. It is based on information gathered through
appropriate techniques from locations such as outcrops, trenches,
pits, workings and drill holes which may be limited or of uncertain
quality and reliability.
An 'Indicated Mineral Resource' is that part of a Mineral
Resource for which tonnage, densities, shape, physical
characteristics, grade and mineral content can be estimated with a
reasonable level of confidence. It is based on exploration,
sampling and testing information gathered through appropriate
techniques from locations such as outcrops, trenches, pits,
workings and drill holes. The locations are too widely or
inappropriately spaced to confirm geological and/or grade
continuity but are spaced closely enough for continuity to be
assumed.
A 'Measured Mineral Resource' is that part of a Mineral Resource
for which tonnage, densities, shape, physical characteristics,
grade and mineral content can be estimated with a high level of
confidence. It is based on detailed and reliable exploration,
sampling and testing information gathered through appropriate
techniques from locations such as outcrops, trenches, pits,
workings and drill holes. The locations are spaced closely enough
to confirm geological and/or grade continuity.
An 'Ore Reserve' is the economically mineable part of a Measured
and/or Indicated Mineral Resource. It includes diluting materials
and allowances for losses which may occur when the material is
mined. Appropriate assessments and studies have been carried out,
and include consideration of and modification by realistically
assumed mining, metallurgical, economic, marketing, legal,
environmental, social and governmental factors. These assessments
demonstrate at the time of reporting that extraction could
reasonably be justified. Ore Reserves are sub-divided in order of
increasing confidence into Probable Ore Reserves and Proved Ore
Reserves.
This information is provided by RNS
The company news service from the London Stock Exchange
END
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