VANCOUVER, March 15 /PRNewswire/ - Rare Element Resources
Ltd. (TSXV: RES) (AMEX: REE) ("Rare Element" or the
"Company") is pleased to report an NI 43-101-compliant inferred
mineral resource estimate for the 100% owned Sundance gold project
in the Bear Lodge Mountains, Crook County, northeastern Wyoming.
The gold resource estimate was prepared by Ore Reserves Engineering
(O.R.E.) of Lakewood, Colorado. The Company continues to advance
the geological understanding of the Sundance gold project by
defining an inferred mineral resource and by metallurgical testing
to determine the recoverability of gold within that resource.
Rare Element's plans for 2011 include completion of
metallurgical tests of the Smith deposit mineralized rock,
continuation of geochemical and structural reviews, conducting a
limited geophysical survey (CSAMT), and rotary and core
drilling to define the lateral limits of known gold resources at
Smith, Taylor, and Carbon, which are open in several directions, as
well as deeper and outlying targets.
Drill-hole Database Compilation and Resource
Estimation
Following compilation of the Sundance drill-hole database,
O.R.E. analyzed the data to determine the size, shape, and internal
continuity of the three principal gold deposits in order to
calculate inferred resources. Alan C. Noble, P.E., is the Principal
Engineer of O.R.E. and is an independent Qualified Person for the
purpose of Canadian NI 43-101, Standards of Disclosure for Mineral
Projects. These wireframe models will also be utilized to
design the optimal placement of new drill holes to be completed in
2011.
The East and West Breccias of the Smith deposit were discovered
by FMC (1982-1986), and subsequently explored by International
Curator and Coca Mines. In 1991, Coca estimated a historical
resource of 8.2 million tons (7.4 million metric tonnes) at a grade
of 0.02 ounces of gold per ton (0.68 g/t) (not NI 43-101compliant)
for the two deposits. The new O.R.E. resource estimate updates this
historical resource to the current standards and incorporates the
drilling done during the past several years by Rare Element and
Newmont Mining Company. The new Smith resource includes 25.2
million tonnes grading 0.50 ounces of gold/tonne at a cutoff of
0.15 opt (Table 1). Resource estimates for the Taylor and
Carbon areas are also shown in Table 1.
* The Company is not treating the historical estimate as NI
43-101 defined resources verified by a qualified person, and the
historical estimate should not be relied upon.
Table 1: Inferred gold resources estimated by O.R.E.
for the Sundance project
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| Deposit |
Price
(US$) |
Cutoff
(g Au/t) |
Tonnes
(1000's) |
Gold
Grade
(g Au/t) |
Contained Ounces
Gold
(1000's) |
Waste
Tonnes
(1000's) |
Stripping
Ratio |
| Carbon |
800 |
0.2 |
4,600 |
0.44 |
65 |
1,600 |
0.35 |
| Carbon |
1000 |
0.15 |
7,500 |
0.38 |
92 |
2,600 |
0.35 |
| Carbon |
1200 |
0.15 |
11,600 |
0.34 |
127 |
5,200 |
0.45 |
| Carbon |
1400 |
0.15 |
13,100 |
0.33 |
138 |
6,600 |
0.50 |
| Smith |
800 |
0.2 |
10,900 |
0.54 |
189 |
10,000 |
0.92 |
| Smith |
1000 |
0.15 |
16,300 |
0.50 |
262 |
18,400 |
1.13 |
| Smith |
1200 |
0.15 |
25,200 |
0.50 |
408 |
49,200 |
1.95 |
| Smith |
1400 |
0.15 |
27,200 |
0.51 |
443 |
59,500 |
2.19 |
| Taylor |
800 |
0.2 |
20,800 |
0.46 |
310 |
5,100 |
0.25 |
| Taylor |
1000 |
0.15 |
26,600 |
0.42 |
360 |
5,600 |
0.21 |
| Taylor |
1200 |
0.15 |
32,400 |
0.40 |
412 |
9,800 |
0.30 |
| Taylor |
1400 |
0.15 |
34,900 |
0.39 |
434 |
13,300 |
0.38 |
| Total |
800 |
0.2 |
36,300 |
0.48 |
564 |
16,800 |
0.46 |
| Total |
1000 |
0.15 |
50,400 |
0.44 |
714 |
26,600 |
0.53 |
| Total |
1200 |
0.15 |
69,300 |
0.42 |
947 |
64,200 |
0.93 |
| Total |
1400 |
0.15 |
75,100 |
0.42 |
1,016 |
79,400 |
1.06 |
| Notes |
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- The base case is chosen at an assumed gold price of US$1200 per
ounce.
- Resources are estimated using inverse-distance-power (IDP)
estimation within 3-dimensional wireframe models based on the
geologic interpretation and continuous mineralization above an
approximate 0.05 ppm Au cutoff grade. Drill holes were
composited to 5-meter intervals for resource estimation and were
capped, after compositing, at 3 ppm Au for all deposits except for
Smith, which was capped at 5 ppm Au.
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- All resources are classified as inferred resource as defined by
CIM and referenced in NI 43-101.
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- Floating cone studies at a range of gold prices are used to
demonstrate the potential for economic extraction of the
resource. The floating cone studies are not considered to be
an economic study and should not be relied upon as an economic
study. Approximately 70% of the in situ mineralization is
considered as potentially economic at $1200/ounce gold.
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- Floating cone parameters include: Pit slope of 42 degrees,
Mining Cost of $2/tonne ore and $1.75/tonne waste, processing and
pad costs of $2.50/tonne ore, G&A costs of $0.50/tonne ore, and
gold recovery of 65%. These parameters are believed to be
reasonable, order-of-magnitude estimates for a low-cost,
run-of-mine, heap leaching operation.
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"The Sundance gold project is progressing well and the new
resources estimate will be used to guide a subsequent planned
drilling program. Our 2011 exploration program will focus on
expanding zones of greater than 1 g Au/t mineralization to enhance
future economic evaluations. This resource is provided for
information and the Company believes that subsequent work on the
gold targets may provide an asset that has the potential to
substantially increase in size and value to the Company in the
future." stated Don Ranta, President of Rare Element.
Drill-hole Results from the 2010 Program
The Company announced assay results from the 2010 rotary
(reverse circulation) drill program in three previous press
releases (dated September 21 and November 15, 2010 and January 3,
2011). Thirty-four rotary drill holes containing 21,605 feet
(6,585 m) were drilled during 2010 on near-surface targets within
oxide zone mineralization at the Smith, Carbon, and Taylor target
areas (Figure 1). Significant intercepts from the 2010 program are
listed in Table 2. Gold exploration activity during 2010 focused
on: 1) detailed definition of known gold-mineralized targets with
in-fill drilling, 2) step-off drilling from known mineralization,
and 3) discovery of gold mineralization in new peripheral gold
targets.
Figure 1: Plan map showing the location
of the Smith, Carbon, and Taylor gold target areas within part of
Rare Element Resources' Sundance Property. The gold targets
surround the Bull Hill REE deposit. The drill hole collars
from the 2010 program are shown in yellow. Drill-indicated
gold-mineralized areas that contain greater than 300 ppb (>0.3
g/t) gold for each target area are shown as ruled
polygons.
http://files.newswire.ca/675/Rare-Element-Figure1.pdf
Smith Gold Target
Highlights of the drilling program at Smith include the
following gold assay results:
- SUN 60 85.4 m @ 0.89 g/t, including 44.2 m @ 1.3 g /t
- SUN 62 143.3 m @ 0.74 g/t, including 15.2 m @ 1.6 g/t and
15.2 m @ 1.4 g/t
- SUN 64 77.7 m @ 0.66 g/t, including 7.6 m @ 1.7 g/t
Eight holes were drilled along the main trend of the Smith gold
zone (Figure 2). The primary host rock is heterolithic
breccia that is now traced along strike for nearly 1000 meters and
down dip for 500m. In drill hole SUN-060, gold mineralization
was penetrated along strike to the northwest in peripheral wall
rock, which is now recognized as a new host rock for gold
mineralization at this target. SUN-062 effectively bridges a
gap between the historic "Smith East and Smith West"
gold-mineralized breccias, where a historical resource (non NI
43-101 compliant) was defined previously by FMC Gold, International
Curator, and Coca Mines. SUN-064 tests a nearer surface zone
along strike to the southeast. SUN-069 tests a
northeast-trending structure 800m distant from the main Smith zone
in a newly discovered off-axis zone hosted by sandstones of the
Deadwood formation. Assays include 27.4m @ 0.49 g Au/t,
including 9.1m @ 0.89 g/t.
Figure 2: Plan map of Smith resource area showing
location of 2010 angle drill holes, 2009 NMC holes, and older
vertical holes. Level plans are outlines around drill intercepts
containing greater than 0.3 g/t (300ppb) gold.
http://files.newswire.ca/675/Rare-Element-Figure-2.pdf
Figure 2 illustrates the general shape of the gold-mineralized
zone through a succession of level plans that outline the
mineralization at successive depths. Note that mineralization in
the near-surface level plan (6200 feet elevation) occurs furthest
to the southwest, and each succeeding deeper level plan is located
further to the northeast. Figure 2 indicates that the
gold-mineralized zone has an overall northwesterly strike and a
steep dip to the northeast. A sectional view of the deposit is
shown in the LeapFrog image in Figure 3. The deposit shape is
coincident with a resistivity boundary shown in the CSAMT
image. This remote sensing technique is a tremendous aid in
guiding our continued exploration on the Sundance property.
Figure 3: Section of the Smith deposit area showing
drill hole traces and interpolated 300 ppb gold grade shell on a
base of CSAMT resistivity illustrated by a LeapFrog image. The
Smith gold deposit is currently traced along strike for a distance
of 1000m and 500m down dip. Note the coincidence of the
mineralized body and the sharp resistivity boundary, which is used
as a guide for targeting. Higher gold grades of up to 4 ppm
are seen at the lower reaches along this contact.
http://files.newswire.ca/675/Rare-Element-Figure-3.pdf
The drilling at the Smith target shows good continuity of the
known gold mineralization and provides sufficient drill hole
density for the inferred resource estimate. The discovery of
good mineralization in the gap between the two historic gold
mineralized areas in the East and West Breccias helps to
demonstrate and extend that continuity.
Carbon Gold Target
Highlights of the drilling program at Carbon include the
following gold assay results:
- SUN-071 of 0.52 g/t Au over 68.3m (includes 0.96 g/t over
12.2m)
- SUN-072 of 0.59 g/t Au over 79.3m
- SUN-077 of 0.41 g/t Au over 51.8m
Eight drill holes were completed along the main trend of the
Carbon gold zone. Previous exploration drilling focused on
crackle breccia, which occurs at the margin of the Carbon diatreme
(Figure 3). However, drilling in 2010 discovered new areas of
gold mineralization within the diatreme, including intercepts in
SUN-071 of 0.52 g/t Au over 68.3m (includes 0.96 g/t over 12.2m)
and in SUN-072 of 0.59 g/t Au over 79.3m. It is now apparent that
the Carbon diatreme itself is a source of gold mineralization,
rather than gold merely hosted by prepared ground at the diatreme
margin. Additional drilling on the east side of the diatreme
(SUN-077) was designed to test an area of magnetite-destructive
alteration and soil gold anomalies, similar to the pattern seen in
the Carbon resource area. SUN-077 represents a new gold
target area 500m to the east-northeast, with an initial intercept
of 0.41 g Au/t over 51.8m (Figure 4). This relationship
suggests potential for additional gold resources within and along
the margin of the Carbon diatreme, The diatreme margin can be
tracked with airborne magnetics and coincident trace element soil
anomalies.
Figure 4: Plan map of Sundance Property - Carbon gold
resource area showing location of 2010 drill holes (green collars)
and footprint of gold mineralization containing drill intercepts
greater than 300 ppb gold. (Drill hole SUN-077 is off the map to
the east-northeast.)
http://files.newswire.ca/675/Rare-Element-Figure-4.pdf
Figure 5: Plan map of part of Sundance Property -
Greater Carbon gold resource area showing location of peripheral
2010 drill holes (yellow collars) and drill inferred
gold-mineralized areas (> 300ppb gold) on a base map of airborne
magnetics (RTP Phase). Initial drill hole into new
mineralization discovered in SUN-077 occurs in an area of low
magnetism, similar to the main Carbon resource area on the south
side.
http://files.newswire.ca/675/Rare-Element-Figure-5.pdf
Taylor Gold Target
Highlights of the drilling program at Taylor
include the following gold assay results:
- SUN-085 - 0.56 g/t over 71.6m.
- SUN-089 - 0.67 g/t over 137.2m (includes 3.05 g/t over
12.2m)
- SUN-090 - 0.67 g/t Au over 192.1m (includes 1.34 g/t Au over
62.5m from the surface)
- SUN-091 - 0.45 g/t over 56.4m
- SUN-092 - 0.42 g/t over 64.0m
Drilling conducted to define an inferred resource at the Taylor
gold target area in 2010 included a total of eight drill holes
(SUN-085 through SUN-092). The program was terminated prematurely
owing to inclement weather. The Taylor drill hole distribution is
shown in Figure 6, along with a polygon depicting the known extent
of drill-inferred gold intercepts greater than 300 ppb (>0.3
g/t) Au over significant widths. The gold mineralization at
Taylor is a hovering plume-like mass hosted by Tertiary alkaline
intrusions and lesser Cambro-Ordovician sandstones of the Deadwood
formation. The mineralization generally extends from the surface to
depths of about 400 feet (125m). Representative grades within
the plume, based on results from the 2010 program, are shown in
Table 1 and include 0.56 g/t over 71.6m (SUN-085), 0.67 g/t over
137.2m (SUN-089), 0.45 g/t over 56.4m (SUN-091), and 0.42 g/t over
64.0m (SUN-092). In addition, SUN-089 contains a high grade
interval of 3.05 g/t over 12.2m between 515-555 feet (157-169.2m),
which may indicate proximity to a feeder structure. Drill
hole SUN-090 tested another potential feeder structure, marked by a
pronounced resistivity high (2010 CSAMT survey) that extends from
depth to intersect the gold-mineralized plume. Gold assay
results from SUN-090 contain 0.67 g/t Au over 192.1m, including a
high-grade portion with 1.34 g/t Au that extends from the surface
to a depth of 62.5m.
Figure 6: Plan map of the Taylor gold resource area showing
the location of 2010 drill holes (white collars) with respect to
previous drilling, and the footprint of gold mineralization defined
by drill intercepts greater than 300 ppb (>0.3 g/t) gold over
significant widths.
http://files.newswire.ca/675/Rare-Element-Figure-6.pdf
N_DRILL_TAYLOR_2010
Higher-grade gold zones seen in drill holes SUN-089 and SUN-090
attest that higher-grade gold zones are present in the Taylor
system, and the interpreted continuity of these zones will be used
as vectors to further define their extent with additional
drilling. An untested CSAMT resistivity anomaly west of the
known gold mineralization at Taylor could represent the roots of a
second satellite shoot of the gold mineralization. Another
key result from this year's program is the interpretation of the
'hovering' aspect of plume-like portions of both the Taylor and
Carbon gold systems, where deeper intersections in drill holes can
be in barren rock underlying anomalous gold at shallower depths
within the plume.
Geophysical Survey - CSAMT
A CSAMT (Controlled Source Audio-Magnetotelluric Technique)
survey along four lines totaling 8.6 line kilometers was designed
by Condor Consultants and completed by Zonge Engineering in August
to cover the Taylor gold and Bull Hill REE targets. This type
of survey was successful in defining a relative conductive
structure in the Smith gold zone that harbors the bulk of the known
gold mineralization there. The results of this year's survey
will be utilized for further definition drilling of the Taylor gold
resource and the search for high-grade feeder zones, as well as
guiding further exploration of carbonatite-hosted REE
mineralization at Bull Hill.
Mineral Resources are not
Reserves
Mineral resources that are not mineral reserves
do not have demonstrated economic viability. Mineral resource
estimates do not account for minability, selectivity, mining loss
and dilution. These mineral resource estimates are in the
inferred mineral resource category. Inferred mineral resources are
normally considered too speculative geologically for the
application of economic considerations that would enable them to be
categorized as mineral reserves, however they are allowed to be
included in a preliminary economic assessment. There is also no
certainty that these inferred mineral resources will be converted
to measured and indicated mineral resource categories through
further drilling, or into mineral reserves once economic
considerations are applied.
Quality Assurance
The mineral resource estimate was completed by
Mr. Alan C. Noble, P.E., principal engineer of Ore Reserves
Engineering, and is based on geological interpretations supplied by
the Company to ORE and subsequently modified by ORE. Mr. Noble is
an independent qualified person for the purposes of National
Instrument 43-101 standards of disclosure for mineral projects of
the Canadian Securities Administrators and has verified the data
disclosed in this release.
The Rare Element Resources' field programs were carried out
under the supervision of Dr. James G. Clark, LGeo, the Company's
Vice President of Exploration and a qualified person for the
purposes of National Instrument 43-101 standards of disclosure for
mineral projects of the Canadian Securities Administrators. Dr.
Clark has direct experience with the project dating back to 1986.
Mr. John Ray, who has experience with the gold project continuously
from 2004 through 2010, managed the geological, drilling, and
sampling program on the Sundance gold project during this period of
time.
A detailed QA/QC program was implemented by the Company for the
2010 drill program. The 2009 QA/QC program was organized by Dr.
Jeffrey Jaacks. Dr. Jaacks, Dr. Clark, and Mr. Ray have verified
the 2010 sampling procedures and QA/QC data delivered to ORE. They
share the opinion that the data are of good quality and suitable
for use in the resource estimate.
Table 2: Summary of significant gold mineralization in
2010 drill holes
http://files.newswire.ca/675/Rare-Element-Table-2.pdf
Rare Element Resources Ltd
(TSX-V:RES) is a publicly traded mineral resource
company focused on exploration and development of rare-earth
elements and gold on the Bear Lodge property. Gold exploration is
being conducted as the Sundance project.
Rare-earth elements are key components of the
green energy technologies and other high-technology applications.
Some of the major applications include hybrid automobiles, plug-in
electric automobiles, advanced wind turbines, computer hard drives,
compact fluorescent light bulbs, metal alloys, additives in
ceramics and glass, petroleum cracking catalysts, and a number of
critical military applications. China currently produces more than
95% of the 130,000 metric tonnes of rare-earths consumed annually
worldwide, and China has been reducing its exports of rare earths
each year. The rare-earth market is growing rapidly, and is
projected to accelerate if the green technologies are implemented
on a broad scale.
ON BEHALF OF THE BOARD
Donald E. Ranta, PhD, PGeo, President &
CEO
Donald E. Ranta, PhD, PGeo, serves the Board of
Directors of the Company as an internal, technically Qualified
Person. Technical information in this news release has been
reviewed by Dr. Ranta and has been prepared in accordance with
Canadian regulatory requirements that are set out in National
Instrument 43-101. This news release was prepared by Company
management, which takes full responsibility for content. Neither
TSX Venture Exchange nor its Regulation Services Provider (as that
term is defined in the policies of the TSX Venture Exchange)
accepts responsibility for the adequacy or accuracy of this
release.
SOURCE Rare Element Resources Ltd.