Stallion Uranium Refines Coyote Target with Highly Conductive Anomalies from Ground EM Survey

 

Stallion Uranium Corp. (the ‘ Company ‘ or ‘ Stallion ‘) ( TSX-V: STUD ; OTCQB: STLNF ; FSE: FE0 ) is pleased to announce the results from a Stepwise Moving Loop, Time Domain Electromagnetic (‘ SWML-TDEM ‘) survey completed over the high-priority Coyote Target on its Moonlite Project (Figure 1). The Coyote Target, located within the Southwestern Athabasca Basin spans claims held in partnership with Atha Energy Corp. (‘ Atha Energy ‘) ( TSX-V: SASK ) as well as claims that are 100% owned by Stallion Uranium.

 

  ‘These results confirm the presence of strong basement conductors beneath the Athabasca Basin sandstone, with characteristics consistent with major uranium discoveries,’ said Darren Slugoski, VP Exploration for Stallion Uranium. ‘Conductor – Coyote_14.25S, in particular, stands out as a high-priority drill target, supported by both strong geophysical response and a coincident gravity low; suggesting possible uranium alteration.’  

 

  ‘Coyote continues to prove one of the most promising targets in our portfolio,’ added Slugoski. ‘With strong geophysical signatures and favourable structural settings, we believe the area has potential to host a new basement-hosted uranium discovery.’  

 

  Highlights:  

 

Stallion deployed cutting-edge Stepwise Moving Loop Time Domain EM (SWML-TDEM) technology, specifically designed for high-resolution imaging of basement-hosted uranium targets beneath Athabasca sandstone cover

 

The survey revealed three distinct basement conductors, including two high-priority anomalies with strong conductance levels (>10 S), directly comparable to those seen at major uranium discoveries

 

Utilizing Abitibi Geophysics’ proprietary ARMIT-TDEM sensor paired with a SMARTem24 receiver, the system achieved exceptional signal clarity and depth detection of up to 1,000 meters; key for targeting deep-rooted uranium-bearing structures

 

All conductors lie within a gravity low; interpreted as potential uranium alteration

 

Electromagnetic modeling confirms tabular geometry, depth potential, and favorable dips; critical vectors for high-grade basement-hosted uranium

 

Project is 100% permitted for drilling and targeting underway for Stallion’s first drill test of this highly prospective corridor

 

  Key Conductors Identified:  

 

 

 

 

   Figure 1    : Results of SWML Plate Modeling over Ground Gravity Survey Inversion

 

  25 m below Unconformity  

 

  Interpretation:  

 

Conductor – Coyote_14.25S is a strong, discrete, and tabular anomaly extending 1,750 m along strike and 1,000 m in depth, dipping steeply to the southeast. Its conductance of 14.25 S places it at the upper range for Athabasca-style graphitic shears.

 

Conductor – Coyote_10.7S shares similar orientation and conductance (10.7 S) and is located along a lithological or structural contact; potentially a conduit for uranium-bearing fluids.

 

Conductor – Coyote_6.7S is a moderate conductor with a strong geometric signature, likely representing a brittle fault zone or narrow graphitic shear.

 

All three conductors are located within or proximal to a regional gravity low anomaly, interpreted as possible zones of uranium alteration, structural thickening, or basement faulting—key ingredients for uranium mineralization in the Basin.

 

 

 

   Figure 2    : Coyote Target – 3D image of SWML Plate over 3D Gravity

 

  Conductors interpreted from previous MobileMT Survey  

 

  Next Steps:  

 

Based on the compelling geophysical results, Stallion will integrate these findings with ongoing geological and historical data reviews to prioritize drill targets for a planned drill program at Coyote in winter 2026. The Moonlite Project is already permitted for drilling.

 

For visuals of the EM response and modeled conductor plates, see Figures 1 & 2.

 

 

 

   Figure 3    : Moonlite Project with Target Areas

 

  SWML-TDEM Survey:  

 

Abitibi Geophysics completed the SWML-TDEM survey over a single 5.8 km-long line using nine overlapping transmitter loops (each 400 m x 600 m), recording high-resolution electromagnetic responses at regularly spaced receiver stations along the profile. This survey was conducted using Abitibi Geophysics’ proprietary ARMIT-TDEM system, which captures both B-field and dB/dt responses across three components simultaneously. These two data types are sensitive to different conductivity ranges and, when combined, enhance the detection and resolution of subsurface conductors.

 

The use of stepwise overlapping loops improves resolution compared to fixed-loop systems and is particularly well-suited for identifying discrete conductors in the complex basement geology of the Athabasca Basin. The data were collected using 10 Hz base frequency, with robust stacking, QA/QC protocols, and real-time data validation to ensure high-quality results.

 

  About the Plate Modeling:  

 

Once field data were collected, advanced 3D modeling was conducted using EMIT Maxwell software to convert raw EM data into interpretable geological features. The modeling process used the Leroi algorithm to simulate conductive plates within a layered-earth model—a critical feature for Athabasca-style settings where strong resistivity contrasts exist above and below the unconformity.

 

Modeling began with verification of survey geometry and the removal of noisy or suspect readings. Conductor plates were then inserted, oriented, and refined to match the observed EM response across multiple components. The final plate models were evaluated for geological plausibility, structural coherence, and data fit. The resulting models were exported and integrated with gravity, historical, and structural datasets to prioritize drill targets with the highest discovery potential.

 

  Qualifying Statement:  

 

The foregoing scientific and technical disclosures for Stallion Uranium have been reviewed by Darren Slugoski, P.Geo., VP Exploration, a registered member of the Professional Engineers and Geoscientists of Saskatchewan. Mr. Slugoski is a Qualified Person as defined by National Instrument 43-101.

 

Kyle Patterson, P.Geo., President of Convolutions Geoscience, has reviewed the foregoing scientific and technical disclosures for Convolutions Geoscience Corporation. Kyle is a registered member of the Professional Engineers and Geoscientists of Saskatchewan and the Engineers and Geoscientists of British Columbia.

 

  About Stallion Uranium Corp.:  

 

 Stallion Uranium is working to ‘Fuel the Future with Uranium’ through the exploration of roughly 1,700 sq/km in the Athabasca Basin, home to the largest high-grade uranium deposits in the world. The company, with JV partner Atha Energy holds the largest contiguous project in the Western Athabasca Basin adjacent to multiple high-grade discovery zones.

 

Our leadership and advisory teams are comprised of uranium and precious metals exploration experts with the capital markets experience and the technical talent for acquiring and exploring early-stage properties. For more information visit stallionuranium.com .

 

  On Behalf of the Board of Stallion Uranium Corp.:  

 

Matthew Schwab
CEO and Director

 

  Corporate Office:  
700 – 838 West Hastings Street,
Vancouver, British Columbia,
V6C 0A6

 

T: 604-551-2360
info@stallionuranium.com  

 

  Neither the 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.  

 

  This news release contains forward-looking statements and forward-looking information within the meaning of Canadian securities legislation (collectively, ‘forward-looking statements’) that relate to the Company’s current expectations and views of future events. Any statements that express, or involve discussions as to, expectations, beliefs, plans, objectives, assumptions or future events or performance (often, but not always, through the use of words or phrases such as ‘will likely result’, ‘are expected to’, ‘expects’, ‘will continue’, ‘is anticipated’, ‘anticipates’, ‘believes’, ‘estimated’, ‘intends’, ‘plans’, ‘forecast’, ‘projection’, ‘strategy’, ‘objective’ and ‘outlook’) are not historical facts and may be forward-looking statements and may involve estimates, assumptions and uncertainties which could cause actual results or outcomes to differ materially from those expressed in such forward-looking statements. No assurance can be given that these expectations will prove to be correct and such forward-looking statements included in this material change report should not be unduly relied upon. These statements speak only as of the date they are made.  

 

  Forward-looking statements are based on a number of assumptions and are subject to a number of risks and uncertainties, many of which are beyond the Company’s control, which could cause actual results and events to differ materially from those that are disclosed in or implied by such forward-looking statements. The Company undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as may be required by law. New factors emerge from time to time, and it is not possible for the Company to predict all of them or assess the impact of each such factor or the extent to which any factor, or combination of factors, may cause results to differ materially from those contained in any forward-looking statement. Any forward-looking statements contained in this presentation are expressly qualified in their entirety by this cautionary statement .

 

Photos accompanying this announcement are available at https://www.globenewswire.com/NewsRoom/AttachmentNg/36ffc8c7-839a-4be6-904f-8f13076b0390  

 

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