Highlights:
- Drill holes AK22-023 and AK22-032 returned 3 of the 4
strongest elevated radioactivity intersections on ACKIO
- Both drill holes have extended uranium mineralization
100 m to the southeast, increasing
the overall strike length of continuous mineralization to greater
than 350 m. ACKIO remains open and
prospective to the southeast
- AK22-032: 1,730 cps over 11.1
m at 194.55 m (best
radioactivity intersection)
- AK22-023: 1,015 cps over 15.9
m at 234.5 m (2nd
best radioactivity intersection)
- AK22-023: 811 cps over 14.2 m
at 207.25 m (4th best
radioactivity intersection)
TORONTO, May 2, 2022
/CNW/ - Baselode Energy Corp. (TSXV: FIND) (OTCQB: BSENF)
("Baselode" or the "Company") is pleased to provide
an update to the ongoing 20,000 metre diamond drilling program (the
"Program") on the ACKIO high-grade uranium discovery
("ACKIO"), Hook project ("Hook"), Athabasca Basin area, northern Saskatchewan (see Figure 1) (Table 1).
"The radioactivity levels have been getting stronger and
shallower as we've continued exploring to the southeast since the
beginning of the drill program. Each new 50 m section that we drill to the southeast
continues to surpass the results from the previous section.
We are excited with the results from AK22-011 (see news release
dated March 7, 2022) but both
AK22-023 and AK22-032 have delivered better intercepts. Not
only is radioactivity getting stronger to the southeast but we are
also intersecting it closer to the Athabascsa sandstone
unconformity (the "unconformity"). We've believed in
the possibility of unconformity mineralization at ACKIO since the
discovery hole (AK21-001), and now the upper-most intersection from
AK22-023 was less than 10 m beneath
the unconformity. Unconformity mineralization is typically
higher-grade than basement-hosted Athabasca uranium deposits, and the depth to
the unconformity from surface at ACKIO is shallow which could
present opportunities for near-surface extraction methodologies,"
said James Sykes, CEO, President and
Director of Baselode.
Highlights include;
- AK22-032: 1,730 cps over 11.1
m at 194.55 m (best individual
continuous radioactivity intersection at ACKIO to date) which
includes
-
- 3,036 cps over 1.45 m at
196.3 m with a maximum of 6,000 cps
over 0.25 m, and
- 2,821 cps over 2.0 m at
201.35 m with a maximum of 5,320 cps
over 0.35 m
- AK22-023: 1,015 cps over 15.9
m at 234.5 m (2nd
best individual continuous radioactivity intersection) which
includes
-
- 3,418 cps over 1.8 m at
247.6 m with a maximum of 11,100 cps
over 0.15 m
- and 811 cps over 14.2 m at
207.25 m (4th best
individual continuous radioactivity intersection) which
includes
-
- 2,575 cps over 1.3 m at
217.9 m
- also including 344 cps over 1.4 m
at 98.5 m, less than 10 m true vertical depth beneath the
unconformity, which is the shallowest intersection of continuous
radioactivity and closest to the unconformity at ACKIO
- AK22-025: 671 cps over 11.6
m at 213.9 m (2nd
best individual continuous radioactivity intersection north of
discovery drill hole AK21-001) which includes
-
- 2,049 cps over 1.05 m at
217.95 m with a maximum of 5,500 cps
over 0.1 m
- The Upper zone strike length has been extended to 375 metres
and the Lower zone strike length now measures 265 metres; both
zones remain open in all directions (see Figure 1). The Upper
and Lower zones are between 75 to 125
m and 150 to 250 m beneath the
surface, respectively
- Structural interpretations suggest a series of normal listric
faults perpendicular to the regional foliation have created a
half-graben subsidence basin, an uncommon structural model in the
Athabasca Basin witnessed at Cluff
Lake. Evidence supports a late reverse fault reactivation along the
normal faults. The mineralization event(s) might be related
to both episodes of faulting.
The Company is preparing a video presentation to provide more
details and interpretations regarding the results and details from
this news release. The video is expected within the next 2
weeks.
Since announcing the start of the Program on February 9, 2022 (see Company News Release),
Baselode has completed 29 drill holes (AK22-005 to AK22-033) for
8,750.95 m (see Figure 1).
Twelve of twenty-nine drill holes have intersected continuously
elevated radioactivity. A complete list of drill hole collar
information and hand-held scintillometer radioactivity composite
measurements for the drill holes reported in this news release
(AK22-020 to AK22-033) are provided in Table 1.
Drill holes AK22-028 to AK22-030 were drill testing the
possibility of unconformity mineralization to the northwest of
ACKIO. Although each of these drill holes failed to intersect
radioactivity above reportable cut-off levels (i.e., >300 cps),
they were instrumental in helping define the half-graben subsidence
model that the Company believes is the prevailing structural model
for controlling uranium mineralization.
Future drill holes are planned to continue following the
mineralized trends to the southeast, as well as testing for
unconformity mineralization in this direction, and testing
mineralization controls with the interpreted structural model by
drilling with azimuths oriented to the east (090) instead of the
drilling azimuth to date which have all been oriented to the west
(270).
Samples from these reported fourteen drill holes have been
submitted to the Saskatchewan Research Council's ("SRC")
Geoanalytical Laboratory in Saskatoon,
Saskatchewan, for whole-rock, multi-element and
U3O8 analysis. Baselode will continue to
provide Program updates on a bi-monthly to monthly schedule.
Uranium assay results will be released as they are received after
being compiled and thoroughly checked by the technical team.
The Program is helicopter-supported to lessen any ground-induced
environmental impacts within the project area, and will allow the
Company to continue the Program during Spring thaw.
ACKIO is located 30 km southeast of well-established
infrastructure including an all-season road and powerline between
Cameco Corp.'s (TSX: CCO) and Orano's McArthur River mine and Key Lake Uranium mill
joint ventures. ACKIO is 70 km northeast of the Key Lake
mill.
NOTES:
|
1.
|
cps* =
"counts-per-second", as measured with a handheld RS-125 Gamma-Ray
Spectrometer/Scintillometer. The reader is cautioned that
Baselode uses scintillometer readings as a preliminary indication
for the presence of radioactive materials (uranium, thorium and/or
potassium), and that scintillometer results may not be used
directly to quantify or qualify uranium concentrations of the rock
samples measured.
|
|
2.
|
The Company considers
all RS-125 readings greater than 300 cps to be considered elevated
radioactivity, with background radioactivity measuring between 50
to 125 cps.
|
|
3.
|
"Continuous elevated
radioactivity" means drill core length with no greater than 2.0 m
of consecutive drill hole length measuring less than 300
cps.
|
|
4.
|
All reported drill hole
depths and lengths do not represent true thicknesses which have yet
to be determined.
|
|
5.
|
"best radioactive
intersections" were determined by multiplying the average
radioactivity with the reported intersection widths for each drill
hole that Baselode has reported on to date.
|
FIGURE 1 – Plan map of the ACKIO area
TABLE 1 – Drill collar details and continuous
composite elevated radioactivity results from drill holes AK22-20
to AK22-33
About Baselode Energy Corp.
Baselode controls 100% of
approximately 227,000 hectares for exploration in the Athabasca Basin area, northern Saskatchewan, Canada. The land package is free
of any option agreements or underlying royalties.
Baselode's Athabasca 2.0
exploration thesis is focused on discovering near-surface,
basement-hosted, high-grade uranium orebodies outside of the
Athabasca Basin. The exploration
thesis is further complemented by the Company's preferred use of
innovative and well-understood geophysical methods to map deep
structural controls to identify shallow targets for diamond
drilling.
QP Statement
The technical information contained in
this news release has been reviewed and approved by Cameron MacKay, P.Geo., Vice-President,
Exploration & Development for Baselode Energy Corp., who is
considered to be a Qualified Person as defined in "National
Instrument 43-101, Standards of Disclosure for Mineral
Projects."
Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in
the TSX Venture Exchange
policies) accepts responsibility for the adequacy or accuracy of this
release.
Certain information in this press release may contain
forward-looking statements. This information is based on current
expectations that are subject to significant risks and
uncertainties that are difficult to predict. Actual results might
differ materially from results suggested in any forward-looking
statements. Baselode Energy Corp. assumes no obligation to update
the forward-looking statements, or to update the reasons why actual
results could differ from those reflected in the forward
looking-statements unless and until required by securities laws
applicable to Baselode Energy Corp. Additional information
identifying risks and uncertainties is contained in the Company's
filings with Canadian securities regulators, which filings are
available under Baselode Energy Corp. profile at www.sedar.com.
This news release does not constitute an offer to sell or a
solicitation of an offer to buy any of the securities in
the United States. The securities
have not been and will not be registered under the United States
Securities Act of 1933, as amended (the "U.S. Securities Act") or
any state securities laws and may not be offered or sold within
the United States or to, or for
the account or benefit of, U.S. Persons unless registered under the
U.S. Securities Act and applicable state securities laws, unless an
exemption from such registration is available.
SOURCE Baselode Energy Corp.