AIM
and Media Release
3 July 2023
BASE
RESOURCES LIMITED
Kwale
East exploration drilling update
Key
Points
-
Three
areas of mineralisation have been identified for further targeted
exploration – Magaoni, Masindeni and Zigira.
This
follows results from 1,019 holes drilled for a total of 11,536.5m
as part of the Phase 1 scout auger drilling program at the Kwale
East project, adjacent to Kwale Operations.
-
Access for
exploration remains constrained, including to the highly
prospective areas of Magaoni and Zigira, with landowner consents
yet to be obtained for ~35% of these areas.
-
A Phase 2
air core drilling program, focusing on the three identified
exploration targets, will commence shortly.
As part of
this program, the remaining ~35% of Magaoni and Zigira will be
drilled as landholder consents are obtained and all Phase 1 auger
holes with an average heavy mineral grade greater than 1% will be
twinned to enable
better sample quality and allow drilling through to
basement.
-
Notable
drill hole intercepts from surface included:
- KE464 -
7.5m at an average grade of 6.3% HM in Zigira.
- KE392 - 9m
at an average grade of 4.3% HM in Zigira.
- MH183 -
13.5m at an average grade of 3.9% HM in Magaoni.
- KE693 –
13.5m at an average grade of 3.5% HM in Magaoni.
- MH181 –
15m at an average grade of 3.4% HM in Magaoni.
-
Mineral
assemblage analysis indicates elevated concentrations of rutile and
zircon relative to the Kwale deposits currently being mined, with
average ilmenite of 52%, rutile of 18% and zircon of 10% of the
heavy mineral content.
|
Base
Resources Limited (ASX &
AIM: BSE) (Base
Resources or
the Company)
is pleased to release initial assay results from the first phase of
scout auger drilling at its Kwale East exploration project
(Kwale
East) in Kwale
County, Kenya (Phase
1).
Kwale East
is located within Prospecting Licence 2018/0119
and is the eastern expression of a large, mineralised
Plio-Pleistocene dune system also covering the Kwale Central, South
and North Dunes and the Bumamani deposit.
Kwale East
is located to the immediate east of the Company’s Kwale Operations,
with distances from Kwale Operations’ processing facilities ranging
from 2 to 6 km – refer to Figure 1.
Kwale
East’s close proximity to Kwale Operations’ infrastructure makes it
a near-term mine life extension opportunity.
Details
about exploration activities
Exploration
at Kwale East started in 2015 when a regional mapping exercise and
desktop geological, geographical and geomorphological
investigations of the mineral potential of the late Pliocene
sediments were carried out.
Historical
geophysical surveys were reviewed but found to be insufficiently
resolved.
Consequently,
a new airborne survey was commissioned to cover the southern
coastal plain, from Mombasa to the Tanzanian border, as
aeromagnetic and radiometric surveys are known to be effective
tools for exploration of strand and dune
deposits.
Scout
drilling targets were subsequently identified from coincident
geophysical anomalism and compelling geomorphological
features.
In 2018, a
400m north by 100m east scout air core drilling program was
completed in the northern part of Kwale East and 123 holes for
1,851.5m were drilled, with no
significant continuous mineralisation
intersected.
This
program did not extend over other portions of Kwale East, as
landowner consents for those areas were not forthcoming at that
time.
Following
a lengthy and concerted community engagement and sensitisation
program, further landowner consents began to be obtained and a
scout auger drilling program was commenced over other portions of
Kwale East in October
2022.
While
landowner consents for large portions of Kwale East have been
obtained, access to all targeted drilling areas is yet to be
obtained.
Land
access is a particular challenge in Magaoni and Zigira, with access
to approximately 35% of the targeted areas yet to be
obtained.
Based on
drilling to date, the areas where access is yet to be obtained
appear to cover highly prospective areas – refer to Figure
2.
Focused
community engagement seeking the remaining landowner consents is
ongoing and remains positive.
The scout
auger drilling was undertaken using the Company’s own auger rigs
and personnel and covered broad areas in order to establish
mineralised trends for follow-up drilling with an air core rig in
the second phase of the program.
Drillhole
spacing was fluid and dependant on land access.
However,
where blanket access was obtained either a 100m north-south x 100m east-west grid or a 100m north-south x 50m east-west grid was achieved, depending on
landowner expectations.
As at
27 June 2023, a total of 1,019 auger
drill holes for 11,536.5m generating
7,691 samples, at a 1.5m downhole
sample interval, have been analysed.
A further
38 auger drill holes for 391m have
been completed, with assays results pending.
Refer to
Figure 2 for the drill hole locations.
All assays
were completed at the Kwale Operations laboratory.
Kwale East
auger drilling activities
Results
from Phase 1 drilling
Phase 1
assays confirmed the presence of HM within the different
mineralised geological domains, with a peak drill hole grade of
6.3% HM, as well as a high value mineral assemblage.
Three
targets – Magaoni, Masindeni and Zigira – were identified for
follow-up drilling in phase 2 – refer to Figure 2 for the location
of these targeted areas.
The
considerations for target identification were grade tenor (assuming
a 1% HM economic cut-off grade), as well as reasonable lateral and
downhole continuity in mineralisation.
Drill
logging identified four primary geological
domains.
These are
described below, also refer to Figure 3 for a type section by
geological domain, Figure 4.1 for a plan view of the drill hole
sections and Figures 4.2 to 4.21 for specific cross sections across
each of the Magaoni, Masindeni and Zigira target areas.
-
Ore
Zone 1 –
Reddish-brown dunal sands, comprising approximately 60% of the
project volume, with thicknesses of up to 18m.
This zone
also has the highest HM grades.
Geologically
referred to as the Margarini Formation, it is ubiquitous in the
highland areas of the south-east Kenya and northern Tanzanian coast and is
thought to have been deposited as coastal dunes under conditions of
intense aridification and erosion.
-
Ore
Zone 4 – Ore Zone
4 lies below Ore Zone 1 and has a distinct geological contact
believed to represent a palaeo-surface.
Ore Zone 4
is often dominated by clayey-sands and variable laterisation and HM
concentration is generally reduced.
The
occurrence of this layer is usually not correlated with a change in
the colour of sand and it may also occur at the contact with the
basement. Ore Zone 4 has been domained separately to Ore Zone 1, as
the quality of mineralisation is generally poorer than Ore Zone
1.
-
Ore
Zone 20 – Ore Zone
20 is a low-slime paleo-beach sand unit representing the
Pleistocene marine-cut platform between the 40-60m RL.
This
marine transgression likely reworked the existing deposits, locally
concentrating them into high-grade deposits.
The wave
action also likely winnowed out the lighter heavy minerals like
Kyanite, Garnet and Tourmaline and upgraded the ilmenite product by
leaching out iron.
-
Basement
– The
basement at Kwale East is a poorly-sorted, weathered, clay, clay
sand and sand.
Further to
the east, a coralline limestone basement is typically
encountered.
Grainsize
range from clay to pebbles.
It is
variably coloured in hues of red, grey and cream and carries a
background concentration of HM.
It shows a
poor mineral assemblage with an increased incidence of Garnet and
Kyanite.
There is
localised induration at the upper contact and intersection of white
sand and clay is common.
The three
Ore Zones have demonstrated economic potential following
encouraging initial HM assay results.
Analysis
also indicates high value mineral assemblages, with average
ilmenite of 52%, rutile of 18% and zircon of 10% of the heavy
mineral content.
That said,
the generally shallow thickness of Ore Zone 20 may limit the
tonnage potential and development where it is the primary host
material.
There are
also some high-slime areas in Magaoni and Masindeni which may limit
development potential due to slime tails disposal
constraints.
Notable
auger drill hole intercepts from surface across all the Ore Zones
from each of the target areas are set out below.
Magaoni:
-
MH183
13.5m at 3.9% HM
-
KE693
13.5m at 3.5% HM
-
MH181
15m at 3.4% HM
-
KE804
18m at 2.5% HM
Zigira:
-
KE464
7.5m at 6.3% HM
-
KE568
7.5m at 4.5% HM
-
KE392
9m at 4.3% HM
-
KE461
10.5m at 2.5% HM
Masindeni:
-
NE063
12m at 2.1% HM
-
NE030
10.5m at 2.1% HM
-
NE067
13.5m at 1.6% HM
For
further details about the Phase 1 exploration results, refer to the
Appendices to this announcement, comprising a table of assay
results for all drill holes exceeding an average grade of 1% HM
(refer to Appendix 1) and the information provided for the purposes
of Sections 1 and 2 of Table 1 of the JORC Code (refer to Appendix
2).
A glossary
of key terms used in this announcement is also contained
below.
Phase
2 air core drilling and other planned
activities
A phase 2
follow-up drill program is expected to commence in early
July 2023 using an EVH 2100 air core
rig (Phase
2) focusing
on the three identified target areas and
involve:
-
drilling
the remaining ~35% of the Magaoni and Zigira target areas that were
not drilled in Phase 1 on a priority basis, as landowner consents
are obtained;
-
infill
drilling to achieve 100m north by
50m east spacing; and
-
twinning
all Phase 1 auger holes with average HM grades of greater than 1%
to enable better sample quality and allow drilling through to
basement.
Issues
with the Phase 1 auger method included coarser material being
under-represented in samples, holes collapsing in wet ground and
the possibility of sample contamination as the auger string is
pulled from the ground.
The auger
drilling samples are not considered appropriate for resource
estimation purposes, but have successfully delineated areas of
interest for Phase 2 air core drilling.
As
mentioned above, focused community engagement to secure exploration
access to the remaining portions of the targeted areas is ongoing
and remains positive.
Other
planned activities to assist with assessment and determination of
any Mineral Resources estimate are as follows:
-
Extension
of the LIDAR DTM survey at 2m spatial
resolution to cover the eastern part of Kwale East.
-
Undertaking
microscopic heavy mineral logging to identify gross mineralogical
changes and aid in creating robust geological
boundaries.
-
Collecting
large samples from test pits for bulk metallurgical and processing
test work.
Competent
Person’s Statement
The
information in this announcement that relates to Kwale East
exploration results is based on, and fairly represents, information
and supporting documentation prepared by Mr. Edwin Owino.
Mr. Owino
is a member of the Australian Institute of
Geoscientists.
Mr. Owino
is employed by Base Resources’ wholly-owned subsidiary, Base
Titanium.
Mr. Owino
holds equity securities in Base Resources, and is entitled to
participate in Base Resources’ long-term incentive plan and receive
equity securities under that plan.
Details
about that plan are included in Base Resources’ 2022 Annual Report.
Mr. Owino has sufficient experience that is relevant to the style
of mineralisation and type of deposit under consideration and to
the activity which he is undertaking to qualify as a Competent
Person as defined in the JORC Code and as a Qualified Person for
the purposes of the AIM Rules for Companies.
Mr. Owino
has reviewed this announcement and consents to the inclusion in
this announcement of the Kwale East exploration results and the
supporting information in the form and context in which the
relevant information appears.
Figure
1: Kwale East
Project location
Figure
2: Kwale East
Project drilling location
Figure
3: Type
section for Kwale East, 12,200 North showing relationships between
geological domains – x10 vertical exaggeration
Figure
4.1: Plan view
of the Kwale East drill hole sections (local grid
transformation)
Figure
4.2: Cross
section showing assayed HM grade on 11,2000N Magaoni
Figure
4.3: Cross
section showing assayed HM grade on 11,4000N Magaoni
Figure
4.4: Cross
section showing assayed HM grade on 11,550N Magaoni
Figure
4.5: Cross
section showing assayed HM grade on 11,750N Magaoni
Figure
4.6: Cross
section showing assayed HM grade on 11,850N Magaoni
Figure
4.7: Cross
section showing assayed HM grade on 11,950N Magaoni
Figure
4.8: Cross
section showing assayed HM grade on 12,050N Magaoni
Figure
4.9: Cross
section showing assayed HM grade on 12,250N Magaoni
Figure
4.10: Cross
section showing assayed HM grade on 12,350N Magaoni
Figure
4.11: Cross
section showing assayed HM grade on 12,450N Magaoni
Figure
4.12: Cross
section showing assayed HM grade on 12,550N Magaoni
Figure
4.13: Cross
section showing assayed HM grade on 12,650N Magaoni
Figure
4.14: Cross
section showing assayed HM grade on 12,750N Magaoni
Figure
4.15: Cross
section showing assayed HM grade on 12,850N Magaoni
Figure
4.16: Cross
section showing assayed HM grade on 12,950N Magaoni
Figure
4.17: Cross
section showing assayed HM grade on 13,750N Zigira
Figure
4.18: Cross
section showing assayed HM grade on 13,950N Zigira
Figure
4.19: Cross
section showing assayed HM grade on 14,050N Zigira
Figure
4.20: Cross
section showing assayed HM grade on 14,150N Zigira
Figure
4.21: Cross
section showing assayed HM grade on 14,650N Masindeni
Appendix
1
Table
1: Kwale East
drill hole table.
All drill
holes have dip of -90 degrees and azimuth of 0 degrees (i.e
vertical).
Local
coordinates given to allow cross reference to cross sections, which
are named after Local_Y.
The table
is sorted by a rounded Local_Y and then by
Local_X.
The
reported intervals are combined Ore Zones averaged from the surface
with a minimum 3m thickness that
exceed 1% HM.
The reason
for averaging from the surface is that the hydraulic mining method,
which would likely be employed if any of this material were to be
mined, results in the blending of the various Ore Zones.
Hole_ID
|
Arc60_X
|
Arc60_Y
|
Local_X
|
Local_Y
|
DTM_Z
|
From
|
To
|
Interval
|
Avg_HM
|
Avg_Slime
|
Avg_OS
|
MH022
|
552,075
|
9,514,641
|
5,398
|
10,999
|
35
|
0
|
3
|
3
|
1.1
|
17.8
|
1.7
|
MH003
|
552,071
|
9,514,786
|
5,296
|
11,103
|
38
|
0
|
4.5
|
4.5
|
1.1
|
17.2
|
1.5
|
MH018
|
552,144
|
9,514,716
|
5,398
|
11,101
|
36
|
0
|
3
|
3
|
1.1
|
4.6
|
2.1
|
MH024
|
552,137
|
9,514,855
|
5,299
|
11,199
|
43
|
0
|
3
|
3
|
1.1
|
27.4
|
1.7
|
MH002
|
552,211
|
9,514,790
|
5,397
|
11,201
|
37
|
0
|
3
|
3
|
1.1
|
15.4
|
1.5
|
GN060
|
551,466
|
9,515,746
|
4,201
|
11,402
|
57
|
0
|
9
|
9
|
1.4
|
39.5
|
-
|
GN061
|
551,504
|
9,515,713
|
4,252
|
11,403
|
57
|
0
|
9
|
9
|
1.5
|
30.0
|
2.6
|
GN062
|
551,540
|
9,515,679
|
4,301
|
11,403
|
53
|
0
|
9
|
9
|
1.1
|
20.9
|
1.2
|
GN059
|
551,534
|
9,515,891
|
4,154
|
11,555
|
58
|
0
|
7.5
|
7.5
|
1.2
|
40.6
|
-
|
GN058
|
551,566
|
9,515,852
|
4,203
|
11,548
|
62
|
0
|
10.5
|
10.5
|
1.3
|
28.0
|
-
|
GN057
|
551,608
|
9,515,820
|
4,256
|
11,552
|
58
|
0
|
7.5
|
7.5
|
1.6
|
26.4
|
-
|
GN055
|
551,642
|
9,515,789
|
4,302
|
11,553
|
53
|
0
|
7.5
|
7.5
|
1.1
|
21.6
|
0.8
|
MH317
|
551,294
|
9,516,375
|
3,650
|
11,750
|
56
|
0
|
3
|
3
|
2.0
|
27.5
|
1.4
|
MH314
|
551,367
|
9,516,308
|
3,749
|
11,750
|
63
|
0
|
3
|
3
|
1.5
|
38.3
|
4.5
|
MH313
|
551,405
|
9,516,274
|
3,801
|
11,750
|
63
|
0
|
3
|
3
|
1.5
|
47.6
|
3.1
|
KE864
|
551,518
|
9,516,172
|
3,952
|
11,751
|
55
|
0
|
3
|
3
|
1.4
|
36.0
|
1.6
|
KE863
|
551,553
|
9,516,139
|
4,000
|
11,750
|
49
|
0
|
9
|
9
|
1.3
|
26.6
|
1.4
|
GN083
|
551,667
|
9,516,036
|
4,154
|
11,752
|
60
|
0
|
6
|
6
|
2.2
|
35.1
|
0.9
|
GN072
|
551,702
|
9,516,000
|
4,204
|
11,749
|
64
|
0
|
13.5
|
13.5
|
2.0
|
23.5
|
1.8
|
GN071
|
551,737
|
9,515,968
|
4,251
|
11,749
|
61
|
0
|
12
|
12
|
2.1
|
23.5
|
1.5
|
GN065
|
551,776
|
9,515,934
|
4,303
|
11,750
|
56
|
0
|
7.5
|
7.5
|
1.4
|
26.1
|
1.5
|
GN089
|
552,066
|
9,515,667
|
4,697
|
11,749
|
48
|
0
|
3
|
3
|
1.1
|
18.7
|
1.3
|
GN090
|
552,103
|
9,515,631
|
4,749
|
11,748
|
46
|
0
|
3
|
3
|
1.1
|
21.9
|
0.9
|
MH046
|
552,765
|
9,515,096
|
5,598
|
11,801
|
39
|
0
|
6
|
6
|
1.0
|
7.0
|
2.9
|
MH321
|
551,288
|
9,516,516
|
3,550
|
11,850
|
57
|
0
|
4.5
|
4.5
|
1.1
|
4.7
|
1.5
|
MH316
|
551,363
|
9,516,449
|
3,651
|
11,850
|
73
|
0
|
6
|
6
|
1.3
|
41.4
|
1.1
|
KE862
|
551,398
|
9,516,415
|
3,700
|
11,849
|
73
|
0
|
10.5
|
10.5
|
1.2
|
27.3
|
2.6
|
KE861
|
551,436
|
9,516,381
|
3,750
|
11,850
|
72
|
0
|
12
|
12
|
2.4
|
31.0
|
2.5
|
KE790
|
551,472
|
9,516,347
|
3,800
|
11,850
|
69
|
0
|
10.5
|
10.5
|
1.4
|
25.2
|
3.0
|
KE789
|
551,509
|
9,516,314
|
3,850
|
11,850
|
67
|
0
|
7.5
|
7.5
|
1.2
|
29.7
|
1.1
|
KE719
|
551,546
|
9,516,280
|
3,900
|
11,850
|
69
|
0
|
7.5
|
7.5
|
1.1
|
28.3
|
1.7
|
KE720
|
551,583
|
9,516,246
|
3,950
|
11,850
|
67
|
0
|
9
|
9
|
1.0
|
28.4
|
2.2
|
MH319
|
551,621
|
9,516,212
|
4,001
|
11,850
|
62
|
0
|
4.5
|
4.5
|
1.3
|
37.9
|
1.5
|
MH320
|
551,656
|
9,516,178
|
4,050
|
11,850
|
55
|
0
|
6
|
6
|
1.2
|
8.6
|
1.4
|
KE718
|
551,393
|
9,516,556
|
3,600
|
11,950
|
73
|
0
|
9
|
9
|
1.0
|
24.7
|
1.4
|
KE717
|
551,429
|
9,516,523
|
3,650
|
11,950
|
75
|
0
|
7.5
|
7.5
|
1.0
|
20.7
|
1.0
|
KE716
|
551,466
|
9,516,488
|
3,700
|
11,949
|
75
|
0
|
15
|
15
|
1.2
|
27.5
|
1.7
|
KE715
|
551,503
|
9,516,455
|
3,750
|
11,950
|
71
|
0
|
15
|
15
|
1.9
|
24.9
|
1.5
|
KE714
|
551,540
|
9,516,421
|
3,800
|
11,950
|
72
|
0
|
15
|
15
|
1.4
|
23.7
|
2.5
|
KE713
|
551,577
|
9,516,387
|
3,850
|
11,950
|
74
|
0
|
10.5
|
10.5
|
1.2
|
25.9
|
1.4
|
KE712
|
551,614
|
9,516,353
|
3,900
|
11,950
|
71
|
0
|
9
|
9
|
1.1
|
25.2
|
1.2
|
MH182
|
551,651
|
9,516,319
|
3,950
|
11,950
|
67
|
0
|
9
|
9
|
1.1
|
28.6
|
1.6
|
MH185
|
551,688
|
9,516,286
|
4,000
|
11,950
|
64
|
0
|
6
|
6
|
1.8
|
33.8
|
3.8
|
MH180
|
551,724
|
9,516,252
|
4,050
|
11,950
|
60
|
0
|
4.5
|
4.5
|
2.2
|
32.2
|
2.4
|
MH179
|
551,762
|
9,516,218
|
4,100
|
11,950
|
56
|
0
|
7.5
|
7.5
|
1.8
|
16.9
|
2.1
|
GN084
|
551,868
|
9,516,119
|
4,246
|
11,949
|
56
|
0
|
6
|
6
|
1.1
|
33.0
|
2.1
|
GN085
|
551,910
|
9,516,081
|
4,303
|
11,949
|
57
|
0
|
4.5
|
4.5
|
1.4
|
26.9
|
1.2
|
GN086
|
551,948
|
9,516,047
|
4,353
|
11,950
|
54
|
0
|
3
|
3
|
1.2
|
16.2
|
1.3
|
MH318
|
551,673
|
9,516,412
|
3,904
|
12,033
|
74
|
0
|
7.5
|
7.5
|
1.7
|
24.0
|
1.1
|
MH181
|
551,718
|
9,516,394
|
3,950
|
12,050
|
73
|
0
|
15
|
15
|
3.4
|
26.2
|
1.7
|
MH183
|
551,755
|
9,516,360
|
4,000
|
12,050
|
72
|
0
|
13.5
|
13.5
|
3.9
|
25.4
|
2.1
|
KE704
|
551,792
|
9,516,326
|
4,050
|
12,050
|
68
|
0
|
9
|
9
|
2.6
|
24.4
|
2.4
|
KE705
|
551,829
|
9,516,292
|
4,100
|
12,050
|
64
|
0
|
6
|
6
|
1.7
|
32.6
|
2.9
|
MH327
|
551,866
|
9,516,258
|
4,150
|
12,050
|
59
|
0
|
6
|
6
|
1.4
|
22.3
|
3.9
|
KE813
|
551,123
|
9,517,075
|
3,050
|
12,150
|
64
|
0
|
3
|
3
|
1.0
|
16.5
|
1.5
|
KE848
|
552,633
|
9,515,692
|
5,099
|
12,151
|
44
|
0
|
3
|
3
|
1.1
|
10.3
|
1.6
|
KE814
|
551,228
|
9,517,114
|
3,102
|
12,250
|
76
|
0
|
9
|
9
|
1.1
|
37.2
|
2.0
|
KE692
|
551,448
|
9,516,913
|
3,400
|
12,250
|
82
|
0
|
9
|
9
|
1.0
|
24.6
|
0.9
|
KE691
|
551,484
|
9,516,879
|
3,449
|
12,249
|
81
|
0
|
6
|
6
|
1.0
|
22.9
|
0.7
|
KE690
|
551,522
|
9,516,845
|
3,500
|
12,250
|
82
|
0
|
9
|
9
|
1.0
|
27.1
|
1.2
|
KE693
|
551,775
|
9,516,592
|
3,857
|
12,235
|
79
|
0
|
13.5
|
13.5
|
3.5
|
18.9
|
1.1
|
KE803
|
551,778
|
9,516,592
|
3,860
|
12,237
|
74
|
0
|
12
|
12
|
3.5
|
19.9
|
0.8
|
KE706
|
552,296
|
9,516,136
|
4,550
|
12,250
|
55
|
0
|
3
|
3
|
1.1
|
18.1
|
1.9
|
KE707
|
552,332
|
9,516,100
|
4,601
|
12,248
|
53
|
0
|
6
|
6
|
1.1
|
18.7
|
1.9
|
MH187
|
552,443
|
9,516,000
|
4,750
|
12,250
|
54
|
0
|
7.5
|
7.5
|
1.0
|
17.0
|
2.0
|
MH267
|
551,257
|
9,517,222
|
3,050
|
12,350
|
81
|
0
|
3
|
3
|
1.1
|
24.7
|
0.5
|
KE723
|
551,515
|
9,516,986
|
3,400
|
12,349
|
81
|
0
|
6
|
6
|
1.1
|
21.6
|
0.7
|
KE804
|
551,846
|
9,516,684
|
3,848
|
12,351
|
75
|
0
|
18
|
18
|
2.5
|
19.9
|
-
|
KE747
|
551,849
|
9,516,684
|
3,850
|
12,352
|
83
|
0
|
12
|
12
|
2.0
|
18.1
|
0.9
|
KE753
|
552,065
|
9,516,625
|
4,049
|
12,455
|
75
|
0
|
12
|
12
|
2.2
|
20.7
|
0.7
|
MH249
|
552,136
|
9,516,553
|
4,150
|
12,450
|
63
|
0
|
10.5
|
10.5
|
1.4
|
25.8
|
1.2
|
KE703
|
552,173
|
9,516,520
|
4,200
|
12,451
|
65
|
0
|
9
|
9
|
1.3
|
21.6
|
1.8
|
MH264
|
552,210
|
9,516,486
|
4,250
|
12,450
|
55
|
0
|
10.5
|
10.5
|
1.2
|
22.0
|
1.9
|
MH263
|
552,250
|
9,516,452
|
4,303
|
12,452
|
52
|
0
|
6
|
6
|
1.0
|
6.9
|
1.6
|
MH265
|
552,284
|
9,516,418
|
4,350
|
12,450
|
49
|
0
|
6
|
6
|
1.2
|
19.0
|
1.6
|
MH198
|
552,430
|
9,516,283
|
4,550
|
12,450
|
52
|
0
|
4.5
|
4.5
|
1.1
|
12.6
|
3.5
|
KE878
|
552,873
|
9,515,878
|
5,150
|
12,450
|
43
|
0
|
3
|
3
|
1.0
|
16.2
|
1.4
|
KE865
|
551,835
|
9,516,965
|
3,650
|
12,550
|
70
|
0
|
3
|
3
|
1.1
|
28.7
|
0.8
|
KE752
|
552,094
|
9,516,728
|
4,001
|
12,550
|
77
|
0
|
15
|
15
|
2.3
|
23.0
|
1.6
|
MH229
|
552,130
|
9,516,694
|
4,050
|
12,550
|
76
|
0
|
15
|
15
|
1.9
|
23.7
|
1.7
|
KE809
|
552,167
|
9,516,661
|
4,100
|
12,550
|
67
|
0
|
15
|
15
|
2.5
|
25.1
|
1.9
|
MH174
|
552,204
|
9,516,627
|
4,150
|
12,550
|
69
|
0
|
13.5
|
13.5
|
1.4
|
23.2
|
1.4
|
KE682
|
552,241
|
9,516,593
|
4,200
|
12,550
|
64
|
0
|
9
|
9
|
1.6
|
27.5
|
1.3
|
KE681
|
552,277
|
9,516,560
|
4,250
|
12,550
|
63
|
0
|
9
|
9
|
1.4
|
21.6
|
2.1
|
MH178
|
552,314
|
9,516,525
|
4,300
|
12,550
|
59
|
0
|
7.5
|
7.5
|
1.1
|
20.3
|
1.9
|
MH175
|
552,351
|
9,516,492
|
4,350
|
12,550
|
55
|
0
|
6
|
6
|
1.1
|
11.0
|
1.5
|
MH176
|
552,388
|
9,516,458
|
4,400
|
12,550
|
55
|
0
|
4.5
|
4.5
|
1.1
|
13.2
|
2.6
|
MH205
|
552,536
|
9,516,323
|
4,600
|
12,550
|
44
|
0
|
4.5
|
4.5
|
1.0
|
7.4
|
2.4
|
MH204
|
552,572
|
9,516,289
|
4,650
|
12,550
|
43
|
0
|
4.5
|
4.5
|
1.2
|
18.5
|
3.4
|
MH203
|
552,609
|
9,516,255
|
4,700
|
12,550
|
43
|
0
|
4.5
|
4.5
|
1.2
|
21.3
|
1.2
|
MH294
|
552,683
|
9,516,188
|
4,800
|
12,550
|
46
|
0
|
4.5
|
4.5
|
1.1
|
26.8
|
1.9
|
KE830
|
551,350
|
9,517,545
|
2,900
|
12,650
|
87
|
0
|
15
|
15
|
1.5
|
19.6
|
0.6
|
KE675
|
551,386
|
9,517,511
|
2,950
|
12,650
|
89
|
0
|
15
|
15
|
1.3
|
25.0
|
0.6
|
KE677
|
551,423
|
9,517,477
|
3,000
|
12,650
|
84
|
0
|
13.5
|
13.5
|
1.2
|
23.2
|
1.3
|
KE676
|
551,460
|
9,517,443
|
3,050
|
12,649
|
87
|
0
|
12
|
12
|
1.1
|
24.6
|
0.9
|
MH171
|
551,497
|
9,517,410
|
3,100
|
12,650
|
87
|
0
|
16.5
|
16.5
|
1.2
|
24.6
|
1.3
|
MH170
|
551,534
|
9,517,377
|
3,150
|
12,650
|
84
|
0
|
15
|
15
|
1.1
|
23.8
|
1.9
|
MH166
|
551,607
|
9,517,309
|
3,250
|
12,650
|
84
|
0
|
12
|
12
|
1.0
|
24.1
|
1.1
|
KE869
|
552,194
|
9,516,772
|
4,045
|
12,651
|
76
|
0
|
13.5
|
13.5
|
1.2
|
25.6
|
1.6
|
MH275
|
552,308
|
9,516,667
|
4,200
|
12,650
|
62
|
0
|
13.5
|
13.5
|
1.2
|
22.8
|
1.8
|
MH257
|
552,345
|
9,516,633
|
4,250
|
12,650
|
59
|
0
|
10.5
|
10.5
|
1.3
|
25.3
|
1.6
|
MH256
|
552,382
|
9,516,600
|
4,300
|
12,650
|
55
|
0
|
7.5
|
7.5
|
1.1
|
22.4
|
1.4
|
MH184
|
552,455
|
9,516,532
|
4,400
|
12,650
|
52
|
0
|
7.5
|
7.5
|
1.2
|
12.1
|
2.2
|
KE835
|
552,640
|
9,516,363
|
4,650
|
12,650
|
47
|
0
|
4.5
|
4.5
|
1.1
|
16.1
|
2.6
|
MH065
|
553,631
|
9,515,523
|
5,948
|
12,700
|
35
|
0
|
7.5
|
7.5
|
1.2
|
9.0
|
2.5
|
KE678
|
551,597
|
9,517,447
|
3,149
|
12,744
|
76
|
0
|
4.5
|
4.5
|
1.2
|
24.1
|
0.9
|
MH168
|
551,675
|
9,517,383
|
3,250
|
12,750
|
81
|
0
|
3
|
3
|
1.1
|
23.3
|
0.7
|
MH258
|
552,006
|
9,517,079
|
3,699
|
12,750
|
66
|
0
|
4.5
|
4.5
|
1.1
|
37.4
|
1.1
|
KE701
|
552,376
|
9,516,737
|
4,203
|
12,748
|
69
|
0
|
9
|
9
|
1.0
|
18.3
|
1.8
|
KE697
|
552,412
|
9,516,707
|
4,250
|
12,750
|
64
|
0
|
7.5
|
7.5
|
1.2
|
22.1
|
1.2
|
KE698
|
552,449
|
9,516,673
|
4,300
|
12,750
|
60
|
0
|
7.5
|
7.5
|
1.1
|
24.3
|
1.3
|
MH156
|
552,927
|
9,516,236
|
4,948
|
12,750
|
48
|
0
|
6
|
6
|
1.2
|
21.5
|
1.2
|
MH287
|
552,965
|
9,516,200
|
5,000
|
12,750
|
48
|
0
|
3
|
3
|
1.1
|
19.8
|
0.8
|
MH143
|
553,147
|
9,516,033
|
5,247
|
12,750
|
48
|
0
|
4.5
|
4.5
|
1.1
|
13.1
|
1.7
|
KE680
|
551,780
|
9,517,422
|
3,300
|
12,850
|
74
|
0
|
3
|
3
|
1.5
|
24.7
|
1.2
|
MH172
|
551,927
|
9,517,288
|
3,500
|
12,850
|
67
|
0
|
3
|
3
|
1.3
|
5.9
|
1.5
|
MH162
|
551,961
|
9,517,255
|
3,547
|
12,850
|
66
|
0
|
6
|
6
|
1.2
|
20.8
|
4.2
|
MH246
|
552,332
|
9,516,916
|
4,050
|
12,850
|
75
|
0
|
16.5
|
16.5
|
1.7
|
21.1
|
1.8
|
KE782
|
552,406
|
9,516,848
|
4,150
|
12,850
|
69
|
0
|
15
|
15
|
1.1
|
22.2
|
4.0
|
MH335
|
552,627
|
9,516,646
|
4,450
|
12,850
|
51
|
0
|
7.5
|
7.5
|
1.1
|
14.3
|
1.7
|
MH288
|
553,033
|
9,516,274
|
5,000
|
12,850
|
49
|
0
|
7.5
|
7.5
|
1.2
|
20.2
|
1.3
|
MH148
|
553,068
|
9,516,242
|
5,047
|
12,850
|
50
|
0
|
4.5
|
4.5
|
1.1
|
22.5
|
1.7
|
KE791
|
552,364
|
9,517,023
|
4,001
|
12,950
|
66
|
0
|
9
|
9
|
1.0
|
24.2
|
0.9
|
MH157
|
552,988
|
9,516,451
|
4,848
|
12,950
|
50
|
0
|
7.5
|
7.5
|
1.1
|
25.9
|
1.3
|
MH147
|
553,136
|
9,516,314
|
5,049
|
12,949
|
52
|
0
|
6
|
6
|
1.1
|
18.8
|
1.7
|
MH145
|
553,283
|
9,516,181
|
5,248
|
12,950
|
48
|
0
|
3
|
3
|
1.1
|
20.5
|
1.9
|
MH253
|
552,358
|
9,517,165
|
3,901
|
13,050
|
66
|
0
|
7.5
|
7.5
|
1.1
|
29.5
|
1.3
|
KE727
|
552,431
|
9,517,098
|
4,000
|
13,050
|
68
|
0
|
4.5
|
4.5
|
1.2
|
22.8
|
1.1
|
KE724
|
552,467
|
9,517,063
|
4,050
|
13,050
|
67
|
0
|
12
|
12
|
1.1
|
27.3
|
1.6
|
MH283
|
552,799
|
9,516,759
|
4,500
|
13,050
|
46
|
0
|
4.5
|
4.5
|
1.3
|
17.9
|
4.5
|
MH161
|
553,055
|
9,516,524
|
4,848
|
13,049
|
48
|
0
|
3
|
3
|
1.0
|
15.1
|
1.5
|
MH233
|
553,094
|
9,516,489
|
4,900
|
13,050
|
48
|
0
|
6
|
6
|
1.0
|
20.1
|
5.5
|
MH163
|
553,129
|
9,516,457
|
4,947
|
13,050
|
48
|
0
|
4.5
|
4.5
|
1.2
|
24.3
|
3.2
|
MH153
|
553,277
|
9,516,322
|
5,148
|
13,050
|
45
|
0
|
4.5
|
4.5
|
1.1
|
9.6
|
3.3
|
MH150
|
553,351
|
9,516,255
|
5,247
|
13,051
|
47
|
0
|
3
|
3
|
1.1
|
5.7
|
3.1
|
KE796
|
552,425
|
9,517,238
|
3,900
|
13,150
|
57
|
0
|
3
|
3
|
1.1
|
32.5
|
2.0
|
MH206
|
552,535
|
9,517,137
|
4,050
|
13,150
|
62
|
0
|
9
|
9
|
1.1
|
27.1
|
0.8
|
KE726
|
552,646
|
9,517,036
|
4,200
|
13,150
|
65
|
0
|
10.5
|
10.5
|
1.0
|
26.8
|
1.1
|
MH278
|
552,923
|
9,516,782
|
4,575
|
13,150
|
49
|
0
|
6
|
6
|
1.2
|
31.3
|
1.2
|
KE822
|
552,959
|
9,516,749
|
4,625
|
13,151
|
49
|
0
|
7.5
|
7.5
|
1.0
|
26.6
|
2.3
|
MH151
|
553,419
|
9,516,328
|
5,248
|
13,151
|
46
|
0
|
6
|
6
|
1.1
|
20.1
|
1.9
|
KE780
|
553,045
|
9,516,805
|
4,650
|
13,250
|
55
|
0
|
6
|
6
|
1.0
|
15.7
|
1.8
|
MH245
|
553,113
|
9,516,879
|
4,650
|
13,350
|
55
|
0
|
6
|
6
|
1.1
|
18.1
|
2.0
|
MH280
|
553,217
|
9,516,919
|
4,700
|
13,450
|
47
|
0
|
7.5
|
7.5
|
1.6
|
12.6
|
3.4
|
KE405
|
552,878
|
9,517,365
|
4,149
|
13,550
|
60
|
0
|
4.5
|
4.5
|
1.0
|
43.4
|
1.0
|
KE889
|
553,322
|
9,516,958
|
4,751
|
13,550
|
47
|
0
|
6
|
6
|
1.4
|
10.3
|
6.9
|
KE396
|
552,872
|
9,517,505
|
4,049
|
13,649
|
63
|
0
|
6
|
6
|
1.2
|
39.4
|
1.6
|
KE560
|
553,164
|
9,517,236
|
4,447
|
13,647
|
64
|
0
|
6
|
6
|
1.0
|
33.0
|
1.1
|
KE559
|
553,313
|
9,517,097
|
4,651
|
13,646
|
56
|
0
|
6
|
6
|
1.0
|
23.2
|
1.4
|
KE558
|
553,387
|
9,517,035
|
4,747
|
13,650
|
50
|
0
|
6
|
6
|
1.5
|
14.1
|
3.4
|
KE418
|
553,461
|
9,516,967
|
4,848
|
13,650
|
46
|
0
|
6
|
6
|
1.6
|
12.8
|
3.4
|
KE394
|
552,864
|
9,517,648
|
3,947
|
13,749
|
66
|
0
|
9
|
9
|
1.3
|
29.2
|
2.0
|
KE395
|
552,939
|
9,517,581
|
4,048
|
13,750
|
71
|
0
|
9
|
9
|
1.0
|
29.9
|
1.2
|
KE397
|
553,014
|
9,517,514
|
4,148
|
13,751
|
72
|
0
|
7.5
|
7.5
|
1.0
|
37.4
|
1.0
|
KE401
|
553,090
|
9,517,447
|
4,250
|
13,753
|
67
|
0
|
7.5
|
7.5
|
1.1
|
38.0
|
1.1
|
KE568
|
553,526
|
9,517,039
|
4,847
|
13,748
|
47
|
0
|
7.5
|
7.5
|
4.5
|
19.4
|
4.4
|
KE561
|
552,859
|
9,517,790
|
3,848
|
13,851
|
65
|
0
|
6
|
6
|
1.1
|
35.5
|
1.9
|
KE462
|
552,932
|
9,517,723
|
3,947
|
13,850
|
70
|
0
|
15
|
15
|
1.7
|
27.6
|
1.2
|
KE887
|
553,377
|
9,517,315
|
4,551
|
13,850
|
60
|
0
|
3
|
3
|
1.3
|
25.3
|
0.5
|
KE880
|
553,414
|
9,517,281
|
4,601
|
13,850
|
68
|
0
|
7.5
|
7.5
|
1.1
|
29.8
|
1.0
|
KE605
|
553,505
|
9,517,326
|
4,638
|
13,945
|
66
|
0
|
9
|
9
|
1.1
|
29.2
|
1.7
|
KE376
|
553,556
|
9,517,285
|
4,702
|
13,949
|
67
|
0
|
9
|
9
|
1.1
|
29.5
|
1.3
|
KE393
|
553,628
|
9,517,222
|
4,798
|
13,951
|
59
|
0
|
9
|
9
|
1.1
|
15.8
|
2.2
|
KE392
|
553,700
|
9,517,154
|
4,897
|
13,949
|
53
|
0
|
9
|
9
|
4.3
|
11.7
|
4.0
|
NE033
|
552,848
|
9,518,071
|
3,650
|
14,050
|
65
|
0
|
6
|
6
|
1.2
|
38.0
|
1.7
|
KE461
|
552,994
|
9,517,937
|
3,848
|
14,050
|
75
|
0
|
10.5
|
10.5
|
2.5
|
32.1
|
2.3
|
KE460
|
553,067
|
9,517,870
|
3,947
|
14,050
|
75
|
0
|
7.5
|
7.5
|
1.2
|
33.1
|
1.8
|
KE459
|
553,142
|
9,517,802
|
4,048
|
14,051
|
76
|
0
|
7.5
|
7.5
|
1.1
|
33.2
|
1.8
|
KE601
|
553,508
|
9,517,463
|
4,546
|
14,048
|
66
|
0
|
7.5
|
7.5
|
1.2
|
27.9
|
1.9
|
KE375
|
553,658
|
9,517,332
|
4,747
|
14,052
|
71
|
0
|
7.5
|
7.5
|
1.4
|
28.7
|
1.1
|
KE389
|
553,732
|
9,517,262
|
4,848
|
14,050
|
58
|
0
|
6
|
6
|
1.2
|
14.8
|
1.8
|
KE390
|
553,768
|
9,517,228
|
4,898
|
14,050
|
52
|
0
|
7.5
|
7.5
|
1.4
|
19.1
|
7.1
|
KE391
|
553,807
|
9,517,194
|
4,949
|
14,051
|
53
|
0
|
7.5
|
7.5
|
2.0
|
21.3
|
8.5
|
NE032
|
552,842
|
9,518,212
|
3,550
|
14,150
|
66
|
0
|
4.5
|
4.5
|
1.2
|
39.9
|
2.1
|
NE031
|
552,916
|
9,518,144
|
3,651
|
14,150
|
74
|
0
|
7.5
|
7.5
|
1.1
|
28.7
|
1.5
|
NE030
|
552,990
|
9,518,077
|
3,750
|
14,150
|
74
|
0
|
10.5
|
10.5
|
2.1
|
24.5
|
1.3
|
KE388
|
553,836
|
9,517,298
|
4,900
|
14,147
|
57
|
0
|
7.5
|
7.5
|
1.6
|
20.3
|
3.8
|
KE387
|
553,869
|
9,517,268
|
4,945
|
14,148
|
52
|
0
|
9
|
9
|
1.6
|
24.2
|
7.1
|
KE464
|
553,947
|
9,517,200
|
5,048
|
14,150
|
53
|
0
|
7.5
|
7.5
|
6.3
|
7.8
|
11.3
|
NE038
|
552,393
|
9,518,758
|
2,850
|
14,249
|
81
|
0
|
10.5
|
10.5
|
1.0
|
27.9
|
0.6
|
NE080
|
552,541
|
9,518,624
|
3,050
|
14,250
|
72
|
0
|
9
|
9
|
1.2
|
35.8
|
0.6
|
NE079
|
552,614
|
9,518,556
|
3,150
|
14,250
|
69
|
0
|
6
|
6
|
1.2
|
37.3
|
0.5
|
NE001
|
552,762
|
9,518,421
|
3,350
|
14,250
|
69
|
0
|
4.5
|
4.5
|
1.5
|
39.8
|
0.8
|
NE063
|
553,057
|
9,518,151
|
3,750
|
14,250
|
81
|
0
|
12
|
12
|
2.1
|
24.2
|
2.8
|
KE623
|
553,201
|
9,518,007
|
3,953
|
14,242
|
73
|
0
|
6
|
6
|
1.1
|
27.0
|
1.3
|
NE078
|
552,688
|
9,518,488
|
3,250
|
14,250
|
69
|
0
|
9
|
9
|
1.6
|
37.0
|
1.5
|
KE423
|
553,698
|
9,517,632
|
4,573
|
14,300
|
63
|
0
|
6
|
6
|
1.2
|
32.9
|
2.2
|
NE009
|
552,609
|
9,518,697
|
3,051
|
14,350
|
79
|
0
|
18
|
18
|
1.3
|
28.1
|
-
|
NE066
|
552,683
|
9,518,629
|
3,151
|
14,350
|
83
|
0
|
6
|
6
|
1.1
|
25.3
|
0.3
|
NE060
|
552,829
|
9,518,495
|
3,349
|
14,350
|
81
|
0
|
12
|
12
|
1.4
|
36.2
|
1.4
|
KE573
|
553,637
|
9,517,752
|
4,447
|
14,348
|
66
|
0
|
4.5
|
4.5
|
1.0
|
27.4
|
2.6
|
KE577
|
553,673
|
9,517,718
|
4,497
|
14,347
|
64
|
0
|
7.5
|
7.5
|
1.0
|
28.4
|
4.6
|
NE037
|
552,382
|
9,519,041
|
2,651
|
14,450
|
90
|
0
|
9
|
9
|
1.0
|
31.7
|
0.6
|
NE040
|
552,455
|
9,518,973
|
2,751
|
14,449
|
90
|
0
|
10.5
|
10.5
|
1.0
|
30.1
|
1.0
|
NE019
|
552,602
|
9,518,839
|
2,950
|
14,450
|
82
|
0
|
18
|
18
|
1.2
|
25.6
|
0.8
|
NE003
|
552,897
|
9,518,568
|
3,350
|
14,450
|
79
|
0
|
12
|
12
|
1.2
|
31.9
|
1.3
|
NE007
|
552,971
|
9,518,501
|
3,450
|
14,450
|
79
|
0
|
3
|
3
|
1.1
|
23.1
|
-
|
NE006
|
553,045
|
9,518,433
|
3,550
|
14,450
|
80
|
0
|
4.5
|
4.5
|
1.0
|
30.0
|
0.8
|
KE419
|
553,854
|
9,517,691
|
4,648
|
14,450
|
60
|
0
|
4.5
|
4.5
|
1.2
|
31.3
|
2.6
|
NE065
|
552,670
|
9,518,913
|
2,950
|
14,550
|
86
|
0
|
12
|
12
|
1.0
|
32.0
|
1.4
|
NE062
|
552,743
|
9,518,845
|
3,050
|
14,549
|
89
|
0
|
6
|
6
|
1.0
|
23.1
|
0.5
|
NE067
|
552,965
|
9,518,642
|
3,350
|
14,550
|
84
|
0
|
13.5
|
13.5
|
1.6
|
28.7
|
1.3
|
NE052
|
553,260
|
9,518,372
|
3,750
|
14,550
|
84
|
0
|
6
|
6
|
1.1
|
29.8
|
0.9
|
NE072
|
553,334
|
9,518,304
|
3,851
|
14,550
|
85
|
0
|
9
|
9
|
1.4
|
30.8
|
1.4
|
NE029
|
552,517
|
9,519,189
|
2,650
|
14,651
|
82
|
0
|
7.5
|
7.5
|
1.2
|
30.5
|
3.1
|
NE015
|
552,664
|
9,519,053
|
2,851
|
14,650
|
82
|
0
|
10.5
|
10.5
|
1.1
|
35.8
|
1.3
|
NE012
|
552,885
|
9,518,851
|
3,150
|
14,650
|
83
|
0
|
16.5
|
16.5
|
1.1
|
26.3
|
1.1
|
NE008
|
552,959
|
9,518,783
|
3,251
|
14,650
|
80
|
0
|
16.5
|
16.5
|
1.1
|
33.3
|
-
|
NE055
|
553,033
|
9,518,716
|
3,351
|
14,650
|
85
|
0
|
13.5
|
13.5
|
1.3
|
28.0
|
1.1
|
NE058
|
553,106
|
9,518,648
|
3,450
|
14,650
|
83
|
0
|
18
|
18
|
1.7
|
17.6
|
6.7
|
KE378
|
554,431
|
9,517,435
|
5,247
|
14,650
|
50
|
0
|
12
|
12
|
1.0
|
32.0
|
1.4
|
NE010
|
553,023
|
9,518,857
|
3,248
|
14,748
|
78
|
0
|
15
|
15
|
1.1
|
29.0
|
1.0
|
NE057
|
553,100
|
9,518,789
|
3,350
|
14,750
|
80
|
0
|
12
|
12
|
1.1
|
32.9
|
1.6
|
NE018
|
553,174
|
9,518,722
|
3,450
|
14,750
|
73
|
0
|
6
|
6
|
1.0
|
30.9
|
1.6
|
NE011
|
553,021
|
9,518,998
|
3,151
|
14,850
|
79
|
0
|
15
|
15
|
1.3
|
29.2
|
1.5
|
NE017
|
553,094
|
9,518,931
|
3,250
|
14,850
|
77
|
0
|
10.5
|
10.5
|
1.0
|
31.3
|
1.0
|
NE036
|
553,242
|
9,518,795
|
3,451
|
14,850
|
74
|
0
|
13.5
|
13.5
|
1.3
|
30.6
|
1.6
|
NE048
|
553,536
|
9,518,526
|
3,850
|
14,850
|
75
|
0
|
9
|
9
|
1.1
|
33.2
|
1.4
|
KE428
|
554,642
|
9,517,508
|
5,352
|
14,847
|
49
|
0
|
4.5
|
4.5
|
1.2
|
26.9
|
1.6
|
NE035
|
553,162
|
9,519,004
|
3,251
|
14,950
|
77
|
0
|
7.5
|
7.5
|
1.1
|
27.2
|
1.1
|
KE640
|
553,599
|
9,518,600
|
3,846
|
14,947
|
76
|
0
|
4.5
|
4.5
|
1.2
|
28.7
|
1.4
|
KE434
|
554,707
|
9,517,589
|
5,346
|
14,951
|
48
|
0
|
7.5
|
7.5
|
1.4
|
24.3
|
3.3
|
KE441
|
554,841
|
9,517,734
|
5,347
|
15,148
|
54
|
0
|
4.5
|
4.5
|
1.3
|
21.8
|
1.7
|
KE442
|
554,917
|
9,517,669
|
5,447
|
15,151
|
49
|
0
|
7.5
|
7.5
|
1.0
|
22.8
|
1.7
|
NE054
|
553,069
|
9,519,496
|
2,850
|
15,250
|
75
|
0
|
3
|
3
|
1.2
|
34.1
|
3.0
|
NE061
|
553,290
|
9,519,293
|
3,150
|
15,250
|
86
|
0
|
3
|
3
|
1.2
|
23.3
|
0.4
|
NE025
|
553,512
|
9,519,090
|
3,451
|
15,250
|
81
|
0
|
3
|
3
|
1.2
|
24.4
|
0.7
|
KE599
|
554,319
|
9,518,348
|
4,547
|
15,248
|
59
|
0
|
6
|
6
|
1.0
|
18.8
|
3.7
|
NE056
|
553,991
|
9,519,466
|
3,550
|
15,851
|
78
|
0
|
6
|
6
|
1.1
|
40.2
|
1.2
|
Appendix
2
JORC
Code - Section 1 Sampling Techniques and Data
Criteria
|
Explanation
|
Comment
|
Sampling
techniques
|
Nature
and quality of sampling (e.g., cut channels, random chips, or
specific specialised industry standard measurement tools
appropriate to the minerals under investigation, such as down hole
gamma sondes, or handheld XRF instruments, etc). These examples
should not be taken as limiting the broad meaning of
sampling.
Include
reference to measures taken to ensure sample representivity and the
appropriate calibration of any measurement tools or systems
used.
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 (e.g., ‘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.
|
Mechanised
auger drilling was used to obtain 1.5m samples from which
approximately 4.0kg was collected via composite grab sampling of a
homogenised sample to produce a sub-sample for HM analysis
utilising heavy liquid separation, magnetic separation and XRF
assay.
All holes
were sampled over consistent 1.5m intervals.
Several
programs of twin drilling of air core holes have been undertaken
and, while some variability was observed, it was concluded that
auger drilling is appropriate for reconnaissance drilling to
identify mineralisation potential.
Samples
were analysed by mineral sands industry standard techniques of
screening, desliming and heavy liquid separation using SPT (sodium
polytungstate: SG = 2.85g/cm3).
XRF
analysis of HM magnetic fractions was used to define the VHM
content.
|
Drilling
techniques
|
Drill
type (e.g., core, reverse circulation, open-hole hammer, rotary air
blast, auger, Bangka, sonic, etc) and details (e.g., core diameter,
triple or standard tube, depth of diamond tails, face-sampling bit
or other type, whether core is oriented and if so, by what method,
etc).
|
All holes
were drilled using trailer mounted mechanised auger equipment, with
the fleet comprising 3 rigs utilising dead stick auger method (0.5m
sample runs) and 1 rig utilising continuous flight auger
method.
All holes
were drilled vertically with the trailer levelled using site
preparation and manual jack legs.
Hole
diameter was approximately 4” or 102 mm
|
Drill
sample recovery
|
Method
of recording and assessing core and chip sample recoveries and
results assessed.
Measures
taken to maximise sample recovery and ensure representative nature
of the samples.
Whether
a relationship exists between sample recovery and grade and whether
sample bias may have occurred due to preferential loss/gain of
fine/coarse material.
|
Sample
condition was logged at the rig as either good, moderate or poor,
with good meaning not contaminated and appropriate sample size
(recovery), moderate meaning not contaminated, but sample over or
under sized, and poor meaning contaminated or grossly
over/undersized.
It is
recognised that open hole auger drilling is subject to potential
sample contamination by smearing as the sample is retrieved (both
methods) and material falling downhole during running of the drill
string (dead stick method).
To counter
downhole contamination the driller nominates material for rejection
as potential contamination on each 0.5m drill run.
No
relationship is believed to exist between grade and sample
recovery.
No bias is
also believed to occur due to loss of fine material.
|
Logging
|
Whether
core and chip samples have been geologically and geotechnically
logged to a level of detail to support appropriate Mineral Resource
estimation, mining studies and metallurgical
studies.
Whether
logging is qualitative or quantitative in nature. Core (or costean,
channel, etc) photography.
The
total length and percentage of the relevant intersections
logged.
|
All
samples were visually checked on site and a summary log completed
by the rig geologist, with detailed logging occurring off-site at a
later date to avoid speculation by community
observers.
Samples
are logged for lithotype, grain size, colour, hardness, and
moisture content.
Logging
was based on a representative grab sample that was panned for heavy
mineral estimation and host material observations.
Logging
codes were developed into Base Titanium process documents to
capture observations on lithology, colour, grainsize, induration
and estimated mineralisation.
Any
relevant comments e.g., water table, hardness, gangue HM components
and stratigraphic markers (e.g fossilised wood) were included to
aid in the subsequent geological modelling.
|
Sub-sampling
techniques and sample preparation
|
If
core, whether cut or sawn and whether quarter, half or all core
taken.
If
non-core, whether riffled, tube sampled, rotary split, etc and
whether sampled wet or dry.
For
all sample types, the nature, quality and appropriateness of the
sample preparation technique.
Quality
control procedures adopted for all sub-sampling stages to maximise
representivity of samples.
Measures
taken to ensure that the sampling is representative of the in-situ
material collected, including for instance results for field
duplicate/second-half sampling.
Whether
sample sizes are appropriate to the grain size of the material
being sampled.
|
An
approximate 25% split of the drilled sample interval is collected
on site via manual cone and quarter composite grab
sampling.
This
sample is taken to a dedicated sample preparation facility where it
is air-dried when weather permits, otherwise oven dried during
rains.
After
drying, the sample is rotary split to produce a ~200-400g sample
for processing.
The
remaining drill sample material is combined and split down to
~2-3kgs for storage.
Improvements
to the sample preparation stage were made in recent years to ensure
industry best practice and to deliver a high degree of confidence
in the results.
These
included the following:
-
A
formalised process flow was generated, posted in all sample
preparation areas and used to train and monitor sample preparation
staff.
-
Regular
monitoring was completed by Base Titanium senior staff.
-
Field
samples were left in their bags for initial air-drying to avoid
sample loss.
-
TSPP was
introduced to decrease attrition time and improve slimes
recovery.
A range of
attrition times (with 5% TSPP) were trialled and plotted against
slimes recovery figures to determine optimum attrition time (15
minutes).
-
Staff were
trained to use paint brushes and water spray rather than manipulate
sample through slimes screen by hand to remove the potential for
screen damage.
-
A
calibration schedule was introduced for scales used in the sample
preparation stage.
-
The
introduction of LIMS software allowed the capture of sample
preparation data digitally at inception and synchronisation in
real-time to the master Kwale Laboratory database.
-
Slimes
screen number recorded to isolate batches should re-assay be
required due to poor adherence to procedure or to identify screen
damage.
The sample
preparation flow sheet follows conventional mineral sands processes
but departed from standard mineral sand practices in one respect;
the samples were generally not oven dried prior to de-sliming, to
prevent clay minerals being baked onto the HM grains (because the
HM fractions were to be used in further mineralogical test
work).
Instead, a
separate sample was split and dried to determine moisture content,
which was accounted for mathematically.
Pre-soaking
of the sample TSPP dispersant solution ensured a more efficient
de-sliming process and to avoid potentially under-reporting slimes
content.
QA/QC
procedures involved the following:
-
Prepared
laboratory duplicate samples are processed at every 20th
sample.
-
Prepared
laboratory repeat samples are completed at every 7th
sample.
The manual
hard-copy sample preparation records are maintained in files in the
event of cross-references due to identified scribing errors into
LIMS software.
The sample
size is considered appropriate for the grain size of the material
because the grade of HM is measured in per cent.
|
Quality
of assay data and laboratory tests
|
The
nature, quality and appropriateness of the assaying and laboratory
procedures used and whether the technique is considered partial or
total.
For
geophysical tools, spectrometers, handheld XRF instruments, etc,
the parameters used in determining the analysis including
instrument make and model, reading times, calibrations factors
applied and their derivation, etc.
Nature
of quality control procedures adopted (e.g., standards, blanks,
duplicates, external laboratory checks) and whether acceptable
levels of accuracy (i.e., lack of bias) and precision have been
established.
|
Samples
were analysed by conventional mineral sands techniques of
screening, desliming and heavy liquid separation using SPT (sodium
polytungstate: SG = 2.85g/cm3).
XRF
analysis of HM magnetic fractions was used to define the VHM
content.
All drill
samples were submitted to the Base Titanium laboratory at the Kwale
mine site in Kenya.
All
samples were:
Mechanical
sample rotary split to produce ~200-400 g sample.
-
Sample wet
screened using 45 µm and 1 mm sieves, to generate oversize and sand
fractions, with slimes lost during screening and calculated by
difference.
-
SPT heavy
liquid separation of sand fraction to generate a HM
fraction.
-
HM
fraction subject to magnetic separation on a roll magnet to
generate a magnetic (Mag) fraction and non-magnetic (NonMag)
fraction.
-
XRF
analysis of magnetic fractions, with rutile (assumed 95%
TiO2)
calculated from TiO2
assay of
NonMag by dividing by 0.95, zircon calculated from
ZrO2
assay of
NonMag, and ilmenite (assumed 54% TiO2
average)
calculated from TiO2
assay of
Mag by dividing by 0.54.
-
Various
quality control samples were submitted routinely to assure assay
quality.
A total of
429 duplicate field samples, 160 preprepared laboratory duplicate
samples and an unspecified number of internal laboratory standards,
repeats and blanks have been assayed at Kwale Operations’ site
laboratory.
|
Verification
of sampling and assaying
|
The
verification of significant intersections by either independent or
alternative company personnel.
The
use of twinned holes.
Documentation
of primary data, data entry procedures, data verification, data
storage (physical and electronic) protocols.
Discuss
any adjustment to assay data.
|
Drill hole
logging and site sample data is collected electronically in Maxwell
LogChief software, installed on Panasonic Tough pads and which
synchronise directly to the Maxwell DataShed exploration database
hosted on the Base Titanium network server.
Assay data
is captured electronically via LIMS software and merged with
logging and sample data in Datashed.
No
adjustment to assay data has been made.
|
Location
of data points
|
Accuracy
and quality of surveys used to locate drill holes (collar and
down-hole surveys), trenches, mine workings and other locations
used in Mineral Resource estimation.
Specification
of the grid system used.
Quality
and adequacy of topographic control.
|
Proposed
drill holes were sited on the ground using hand-held GPS and drill
collars surveyed using the same instrumentation. DGPS RTK surveys
will be employed for the follow-up resource drilling collars to
enable JORC Code compliant resource estimates.
The survey
Geodetic datum utilised was UTM Arc 1960, used in East Africa Arc
1960 references the Clark 1880 (RGS) ellipsoid and the Greenwich
prime meridian.
All survey
data used has undergone a transformation to the local mine grid
from the standard UTM Zone 37S (Arc 1960). The local Grid is
rotated 42.5o,
which aligns the average strike of the deposit with local North and
is useful for both grade interpolation and mining reference during
production.
The drill
collars were projected to a combined local LIDAR and SRTM digital
terrain model
|
Data
spacing and distribution
|
Data
spacing for reporting of Exploration Results.
Whether
the data spacing, and distribution is sufficient to establish the
degree of geological and grade continuity appropriate for the
Mineral Resource and Ore Reserve estimation procedure(s) and
classifications applied.
Whether
sample compositing has been applied.
|
The drill
data spacing for the drilling was nominally 100m X, 100m Y and 1.5m
Z.
Variations
from this spacing resulted from access challenges.
A sample
interval of 1.5m was employed in the 2018 air core and 2023 auger
drilling campaign by Base Titanium.
This
spacing and distribution is considered sufficient to establish the
degree of geological and mineralisation continuity appropriate for
reconnaissance exploration.
No sample
compositing has been applied for HM, slimes, oversize and XRF
assays.
|
Orientation
of data in relation to geological structure
|
Whether
the orientation of sampling achieves unbiased sampling of possible
structures and the extent to which this is known, considering the
deposit type.
If the
relationship between the drilling orientation and the orientation
of key mineralised structures is considered to have introduced a
sampling bias, this should be assessed and reported if
material.
|
With the
geological setting being a layered dunal/fluvial/maritime
sequences, the orientation of the deposit mineralisation in general
is sub-horizontal.
All drill
holes were orientated vertically to penetrate the sub-horizontal
mineralisation orthogonally.
Hole
centres were spaced nominally at 50-200m.
This
cross-profiles the dune so that variation can be
determined.
Down hole
intervals were nominated as 1.5m.
This
provides adequate sampling resolution to capture the distribution
and variability of geology units and mineralisation encountered
vertically down hole.
The
orientation of the drilling is considered appropriate for testing
the horizontal and vertical extent of mineralisation without
bias.
|
Sample
security
|
The
measures taken to ensure sample security.
|
Sample
residues from the preparatory stage were transferred to pallets and
stored in a locked shed beside the warehouse at Kwale
Operations.
Residues
from the Kwale Operations site laboratory were placed in labelled
bags and stored in numbered boxes.
Boxes were
placed into a locked container beside the
laboratory.
Sample
tables are housed on a secure, network-hosted SQL
database.
Full
access rights are only granted to the Exploration Manager and
senior IT personnel.
Data is
backed up every 12 hours and stored in perpetuity on a secure, site
backup server.
|
Audits
or reviews
|
The
results of any audits or reviews of sampling techniques and
data.
|
In-house
reviews were undertaken by the Mr. Scott Carruthers and Mr. Ian
Reudavey, both employees of the Base Resources group Competent
Persons under the JORC Code.
|
Section
2 Reporting of Exploration Results
(Criteria
listed in the preceding section also apply to this
section.)
Criteria
|
Explanation
|
Comment
|
Mineral tenement and land tenure status
|
Type,
reference name/number, location and ownership including agreements
or material issues with third parties such as joint ventures,
partnerships, overriding royalties, native title interests,
historical sites, wilderness or national park and environmental
settings.
The
security of the tenure held at the time of reporting along with any
known impediments to obtaining a licence to operate in the
area.
|
The Kwale
East exploration area is situated on a Prospecting Licence 100%
owned by Base Titanium– PL/2018/0119 located in Kwale County,
Kenya.
Base
Titanium is a wholly owned subsidiary of Australian and AIM-listed
resources company, Base Resources.
The
40km2
Prospecting
Licence was re-granted on 26 of May 2021 for a second, three-year
term ending 25 May 2024.
The PL is
in good standing with the Kenya Ministry of Petroleum & Mining
at the time of reporting, with all statutory reporting and payments
up to date.
Local
landowners have been generally supportive of exploration activities
though blanket access is yet to be achieved.
With the
support of government and local leaders, engagement continues with
community members to secure drilling access to the remaining
targeted areas.
The
existing Special Mining Lease No. 23 is adjacent to the PL and
covers the original Kwale Central and Kwale South
deposits.
The SML
boundary has been varied on multiple occasions, most recently to
include the Bumamani Project deposits.
The Kenyan
Mining Act 2016 includes a provision for existing mineral rights to
transition to mining licences upon their expiry on a priority
basis.
The
potential for this transition has been raised with the Government
of Kenya in preparation for a possible application.
Landowner
access permission is required to both complete the exploration
program and then progress conversion of the PL to a mining licence
within a timeframe that meets Kwale Operations’ operational
requirements.
The Mining
Act 2016 provides greater flexibility on securing land rights,
specifically allowing for a mineral right to be issued on private
land.
The Mining
Act 2016 additionally, provides for fair and adequate compensation
to be paid to lawful landowners, occupiers and users.
|
Exploration done by other parties
|
Acknowledgment
and appraisal of exploration by other parties.
|
No
historical exploration by third parties was undertaken in the Kwale
East area.
|
Geology
|
Deposit
type, geological setting and style of
mineralisation.
|
The Kwale
East deposits are primarily hosted in reddish dunal sands (Ore Zone
1) which is underlain by the transitional and occasionally
lateritic zone (Ore Zone 4).
To the
east and around the 50-60mRL, these deposits are hosted in shallow
paleo-beach sands originating from a Pleistocene marine
transgression event.
This zone
is low in slime and typically has a high valuable heavy mineralogy
content.
All three
formations have a regional strike direction of about 40 degrees
East of North and range in age from mid-Pliocene to
Pleistocene.
|
Drill
hole Information
|
A
summary of all information material to the understanding of the
exploration results including a tabulation of the following
information for all Material drill holes:
-
easting
and northing of the drill hole collar
-
elevation
or RL (Reduced Level – elevation above sea level in metres) of the
drill hole collar
-
dip
and azimuth of the hole
-
down
hole length and interception depth
-
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.
|
A
tabulation of drilling data with significant intersections >1%
HM is presented as Appendix 1, Table 1.
All drill
hole locations are shown in Figure 3, and those holes not tabulated
have not reported significant intersections.
The
exclusion of detailed collar information is justified on the basis
that auger drilling represents a reconnaissance exploration tool
and that air core drilling will be utilised to twin and infill
areas identified as prospective by the auger drilling program. A
comprehensive set of drilling cross sections is presented in Figure
4 that allows additional understanding of the exploration
results.
Drilling
by year (max, min and average depths) are as follows.
-
123 air
core drill holes (depth: max 33m, min 6m, avg 15m).
-
Total
1,851.5m drilled
-
1,019
auger drill holes (depth: max 22.5m, min 3m, avg
11.5m).
-
Total
11,536.5m drilled
All drill
holes are drilled vertically (-90 degrees).
All
collars have been projected to the DTM surface.
|
Data aggregation methods
|
In
reporting Exploration Results, weighting averaging techniques,
maximum and/or minimum grade truncations (e.g., cutting of high
grades) and cut-off grades are usually Material and should be
stated.
Where
aggregate intercepts incorporate short lengths of high-grade
results and longer lengths of low-grade results, the procedure used
for such aggregation should be stated and some typical examples of
such aggregations should be shown in detail.
The
assumptions used for any reporting of metal equivalent values
should be clearly stated.
|
Exploration
results are reported as length weighted averages from
surface.
No grade
cutting has been applied and a nominal cut-off grade of 1% HM has
been utilised.
However,
lower grade intervals may be included to provide geological
continuity and in recognition of bulk mining techniques used for
mineral sands.
No metal
equivalent values were used.
|
Relationship between mineralisation widths and intercept
lengths
|
These
relationships are particularly important in the reporting of
Exploration Results.
If the
geometry of the mineralisation 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 (e.g., ‘down hole
length, true width not known’).
|
The
deposit sequences are sub-horizontal, and the vertically inclined
holes are a fair representation of true thickness.
|
Diagrams
|
Appropriate
maps and sections (with scales) and tabulations of intercepts
should be included for any significant discovery being reported.
These should include, but not be limited to a plan view of drill
hole collar locations and appropriate sectional
views.
|
See body
of the announcement - Figures 2 and 4.
|
Balanced reporting
|
Where
comprehensive reporting of all Exploration Results is not
practicable, representative reporting of both low and high grades
and/or widths should be practiced to avoid misleading reporting of
Exploration Results.
|
Drill
sections include all available HM assay results of composited Ore
Zone 1, Ore Zone 4 and Ore Zone 20 for all drill holes and the
drilling location plan shows the average HM assay results for all
drill holes.
|
Other substantive exploration data
|
Other
exploration data, if meaningful and material, should be reported
including (but not limited to): geological observations;
geophysical survey results; geochemical survey results; bulk
samples – size and method of treatment; metallurgical test results;
bulk density, groundwater, geotechnical and rock characteristics;
potential deleterious or contaminating substances.
|
Geological
observations suggest that the Kwale East dunal material contains
lower slimes than current being mined, and this will be beneficial
to support co-disposal of tails, while still having sufficient
slimes to support hydraulic mining.
Many of
the auger holes did not reach the basement owing to drilling
challenges and follow-up air core drilling to this formation will
likely increase the currently observed mineralisation
thickness.
|
Further work
|
The
nature and scale of planned further work (e.g., tests for lateral
extensions or depth extensions or 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.
|
Twinning
of mineralised auger holes and infilling mineralised areas with air
core holes to ensure data confidence/ integrity for JORC Code
compliant resource estimates.
This
drilling will be completed at a 100m North by 50m East grid to
achieve measured/indicated resource categorisations.
LIDAR
topographical survey to cover the eastern Zigira prospect at a 2m
spatial resolution.
Test pits
for bulk sample mineralogy test work.
Logging of
HM sink fractions to aid in geological domaining.
|
Glossary
Base
Titanium
|
Base
Resources’ wholly-owned Kenyan operating subsidiary and the owner
and operator of Kwale Operations.
|
Collar
|
Location
of a drill hole.
|
Competent
Person
|
Has the
meaning given in the JORC Code.
The JORC
Code requires that a Competent Person be a Member or Fellow of The
Australasian Institute of Mining and Metallurgy, or of the
Australian Institute of Geoscientists, or of a ‘Recognised
Professional Organisation’.
A
Competent Person must have a minimum of five years’ experience
working with the style of mineralisation or type of deposit under
consideration and relevant to the activity which that person is
undertaking.
|
DTM
|
Digital
Terrain Model.
|
Easting
|
A figure
representing eastward distance on a map.
|
GPS
|
Global positioning system.
|
HM
|
Heavy
mineral.
|
JORC
Code
|
The
Australasian Code for Reporting of Exploration Results, Mineral
Resources and Ore Reserves, as published by the Joint Ore Reserves
Committee of The Australasian Institute of Mining and Metallurgy,
Australian Institute of Geoscientists and Minerals Council of
Australia.
|
Kwale
Operations
|
Base
Titanium’s mineral sands mining operations in Kwale County,
Kenya.
|
LIDAR
|
Light
Detection and Ranging, a remote sensing method that uses pulsed
laser to measure ranges.
|
LIMS
|
Laboratory
information management system.
|
Mineral
Resource
|
A Mineral
Resource is a concentration or occurrence of solid material of
economic interest in or on the Earth’s crust in such form, grade
(or quality), and quantity that there are reasonable prospects for
eventual economic extraction.
|
Northing
|
A figure
representing northward distance on a map.
|
NSR
|
No
significant result.
|
PL
|
Prospecting
licence.
|
QA/QC
|
Quality
assurance and quality control.
|
RL
|
Reduced
level, equating elevations with reference to a common assumed
vertical datum
|
RTK
|
Real-time
kinematic positioning, the application of surveying to correct for
common errors in satellite survey systems.
|
SG
|
Specific
gravity, or relative density.
|
SML
|
Special
mining lease.
|
SPT
|
Sodium
polytungstate heavy liquid used for mineral separation based on
relative density.
|
SQL
|
Structured
Query Language, a standardized programming language used to manage
relational databases.
|
SRTM
|
Shuttle
Radar Topography Mission, a modified radar system used by a Space
Shuttle Endeavour mission to capture a high resolution topographic
database of the earth.
|
TSPP
|
Sodium
(Tetra) Pyrophosphate.
|
UTM
|
Universal
Transverse Mercator, a plane coordinate grid system.
|
VHM
|
Valuable
heavy mineral.
|
XRF
|
A
spectroscopic method used to determine the chemical composition of
a material through analysis of secondary X-ray emissions, generated
by excitation of a sample with primary X-rays that are
characteristic of a particular element.
|
ENDS
For
further information contact:
Australian
Media Relations
|
UK Media
Relations
|
Citadel
Magnus
|
Tavistock
Communications
|
Cameron
Gilenko and Michael Weir
|
Jos Simson
and Gareth Tredway
|
Tel: +61 8
6160 4900
|
Tel: +44
207 920 3150
|
This
release has been authorised by the Base Resources Disclosure
Committee.
About
Base Resources
Base
Resources is an Australian based, African focused, mineral sands
producer and developer with a track record of project delivery and
operational performance.
The
Company operates the established Kwale Operations in Kenya, is developing the Toliara Project in
Madagascar and is conducting
exploration in Tanzania.
Base
Resources is an ASX and AIM listed company.
Further
details about Base Resources are available at
www.baseresources.com.au.
PRINCIPAL
& REGISTERED OFFICE
Level 3,
46 Colin Street
West Perth, Western
Australia, 6005
Email:
info@baseresources.com.au
Phone: +61
8 9413 7400
Fax: +61 8
9322 8912
NOMINATED
ADVISER & JOINT BROKER
Canaccord
Genuity Limited
James Asensio / Raj Khatri / Patrick
Dolaghan
Phone: +44
20 7523 8000
JOINT
BROKER
Berenberg
Matthew Armitt / Detlir Elezi
Phone: +44
20 3207 7800