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Jaxon Samples up to 29.69% Antimony at Kispiox Mountain

V.JAX.H

Vancouver, British Columbia--(Newsfile Corp. - March 10, 2022) - Jaxon Mining Inc. (TSXV: JAX) (FSE: 0U31) (OTC Pink: JXMNF) ("Jaxon" or the "Company") is pleased to announce the results from the 2021 soil and rock sampling program at the Kispiox Mountain project on the Hazelton Property. 54 rock samples and 11 soil samples were collected during the 2021 field season (Figure 1, Table 1). A high-grade sample with up to 29.69% antimony was collected from within an 8-10 metre wide sulfide quartz veined mineralized zone. Three sulfide quartz mineralized zones with antimony have been identified in the area.

The Kispiox Mountain project is one of seven copper, polymetallic, porphyry-epithermal targets Jaxon is advancing on its 100% owned 723 km2 Hazelton property, located in northwest British Columbia, approximately 50 km north of Smithers, BC.

Key Highlights of the 2021 Rock and Soil Sampling Program at Kispiox Mountain Project:

  • Three high-grade antimony sulfide quartz mineralization outcrops, KS zone 1, KS zone 2 and KS zone 3, have been identified by rock and soil samples (Table 1, Figure 2).
  • A high-grade rock sample (A0027254) with up to 29.69% antimony was collected from an outcrop within an 8-10 m wide sulfide quartz veining mineralized zone (KS zone 1, Figure 3), containing minerals of lead-gray stibnite and yellow valentinite. Four surface weathered outcrop samples (A0027255, A0027282-A0027284) assayed Sb grades from 0.18% to 0.59% (Figure 4, Table 1). The oxidation and weathering of the stibnite minerals on the surface may be responsible for reducing the antimony grade within the surface rock samples.
  • 6 metres of chip samples (A0027274-A0027276, Figure 5) from the second sulfide quartz antimony mineralization zone (KS zone 2) reported an average of 2.52% antimony including a 2-metre massive sulfide zone with 6.48% antimony (Table 1, Figure 6) and multiple narrow sulfide antimony quartz veins from 1 centimetre to 20 centimetres over 4 metres.
  • Three rock samples (A0027277-A0027279) were collected from KS zone 3 and reported Sb assays from 0.77% to 2.76% (Figure 2, Table 1). These rock samples contain typical striated prismatic stibnite crystals (Figure 7).
  • 11 soil samples were collected from between KS zone 1 and KS zone 2 and tested with a handheld XRF analyzer which confirmed a high Sb in soil anomaly within the area (Figure 8).
  • 31 rock geochemical samples show elevated Cu, Mo, As and Sb anomalies (Table 2, Figure 9) for porphyry signatures.

Mr. John King Burns, CEO and Chairman of Jaxon, commented,"The rocks with these high-grade antimony results were taken from the propylitic alteration zone at the top of Kispiox Mountain. These anomalously high Sb grades set up the discoveries of a large antimony deposit and of the deeper porphyry system below. We will conduct further systematic soil and sulfide rock outcrop channel sampling programs and additional ground and remote geophysics in the summer of 2022, if time and budgets allow. The elevated Cu, Mo, Pb, Zn and As and the stibnite mineralization in the strong oxide hornfels are classical indicators of a deeper porphyry system. Our target is the porphyry-epithermal system located below Kispiox's epithermal cap. We are continuously evaluating our integrated geological models, ranking each of our seven porphyry-epithermal targets at Hazelton in terms of size and potential grade. With the current information, Kispiox Mountain porphyry ranks at number four behind the Netalzul Mountain, Red Springs, and Blunt Mountain projects."

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Figure 1. Outline map of geology, mineralization and 2021 sampling area at Kispiox Mountain.

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Figure 2. Three Sb sulfide quartz mineralization zones (KS zones 1, 2 and 3) at Kispiox Mountain.

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Figure 3. Up to 29.69% Sb rock sample with stibnite and valentinite within 8-10 metre wide KS zone 1.

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Figure 4. 8-10 metre wide Sb quartz veining mineralization outcrop (KS zone 1).

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Figure 5. 6 metres of chip samples at KS zone 2 outcrop.

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Figure 6. >2 metre-wide massive antimony sulfide (stibnite) at KS zone 2.

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Figure 7. Antimony rock sample with typical striated prismatic stibnite crystals at KS zone 3.

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Figure 8. Strong Sb in soil anomalies at Kispiox Mountain.

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Figure 9. Strong Cu and Mo in rock anomalies at Kispiox Mountain.

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Table 1. Significant Rock Sample Assay Results from Kispiox Mountain

Sample ID Description Ag ppm Au ppm Cu ppm Pb ppm Sb ppm Zn ppm
A0027254 10-15 cm wide vein, antimony, stibnite, massive sulfide 0.7 0.02 95 68 296900 18
A0027255 Composite sample, 10 m wide, hornfels with disseminated sulfides, mainly antimony 1.1 0.03 94 13 3300 36
A0027274 Silicified dacite dyke with quartz veins and stibnite veins, 2m chip sample. Str. fractured. The width of stibnite veins varies from 10cm to 0.5 mm. High grade, containing four wide stibnite veins, 10 cm, 3cm, <1cm, <1cm, and many stibnite veinlets 0.5 <0.01 55 41 64800 70
A0027275 2-meter chip sample, containing three stibnite veins, 5 cm, 3cm, <1cm, and many stibnite veinlets 0.5 <0.01 27 12 9037 37
A0027276 2-meter chip sample, containing one wide stibnite veins, 3cm, and many stibnite veinlets 0.5 <0.01 48 13 1860 75
A0027277 Four parallel quartz-stibnite veins within 2 m width, Strike: 5°, Azimuth: 95°, Dip: 60~65 °. First vein 15 cm wide, 4-meter west of second vein <0.5 <0.005 31 77 27550 741
A0027278 Second vein. 3~5 cm wide, 1.5 m west of third vein <0.5 <0.005 59 52 7678 114
A0027279 Chip sample, including third vein and fourth vein. Third vein: 5 cm, Fourth vein: 10~15cm. Vein interval: 1.5 m. <0.5 <0.005 18 19 12340 55
A0027282 Sb mineralization zone, 8 m wide composed sample with multiple 10-1 cm quartz-sb veins 1.1 0.02 68 38 1833 46
A0027283 <0.5 0.009 52 8 5884 38
A0027284 <0.5 0.022 63 25 1869 51

Table 2. Rock Geochemical Sample Assay Results at Kispiox Mountain

Sample ID Easting Northing Ag
ppm
As
ppm
Au
ppm
Cu
ppm
Mn
ppm
Mo
ppm
Pb
ppm
Sb
ppm
Zn
ppm
72451 570381 6136424 1.03 1.6 0.002 95.2 203 7.64 15.2 2.19 19
72452 570420 6136539 0.06 6 <0.001 21.7 364 34.85 2.5 2.03 45
72453 570616 6136591 <0.05 3.7 <0.001 20 720 1.17 2.5 0.48 78
72454 570632 6136526 <0.05 5.2 <0.001 25.4 468 0.55 1.8 0.69 78
72455 570792 6136473 0.08 1.7 0.001 28.3 471 0.93 1.5 0.44 60
72456 570797 6136603 <0.05 1.4 <0.001 14.4 559 0.96 2 0.4 75
72457 570815 6136723 <0.05 1 <0.001 18.8 296 19.63 1.9 0.48 23
72458 569405 6136799 0.07 3.7 <0.001 45.9 740 1.55 3.5 0.35 102
72459 569413 6136891 0.09 4.9 <0.001 50.4 808 0.57 4.6 0.46 109
72461 569425 6137007 <0.05 3.7 0.002 8.2 989 0.61 2.3 0.86 70
72462 569391 6137062 0.09 11.1 <0.001 47.8 639 1.85 3.2 4.4 91
72463 569282 6137015 0.08 8.5 <0.001 17.1 1415 0.77 4.7 0.37 80
72464 569262 6136913 0.05 5.3 <0.001 25 1190 0.98 3.8 0.89 80
72465 570954 6136466 0.08 3.9 0.001 63.5 311 4.24 1.8 0.34 26
72466 570155 6136573 0.06 1.7 <0.001 28.2 491 6.1 1.9 0.65 33
72467 570167 6136596 <0.05 0.9 <0.001 13.2 531 19.8 2 0.5 27
72468 570251 6136500 0.07 9.8 <0.001 71.2 260 4.98 2 52.89 30
72478 569904 6136728 0.06 0.9 <0.005 26.9 318 10.98 3.6 <0.5 32
72479 570008 6136880 0.02 <0.2 0.018 16.5 346 8.79 4.1 <0.5 32
72480 570122 6136799 0.13 1.5 0.006 129 428 66.03 5.9 1 31
72481 570150 6136652 0.03 1.5 <0.005 16.3 459 7.78 3.5 3.6 29
7460 569424 6136915 0.7 37 0.01 25 752 2 10 4 73

About the Kispiox Mountain Project

The Kispiox Mountain project is located approximately 16 km northwest of New Hazelton, BC and 70 km northwest of Smithers, BC. It is one of seven projects 100% owned by Jaxon (Figure 10).

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Figure 10. Jaxon's seven projects on the Hazelton property near Smithers, BC.

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Historical Works

Limited historical work has been carried out at the Kispiox project area with only one MINFILE on record, the "Date showing". The Date showing is located on the southeast flank of Kispiox Mountain, 19 kilometres northwest of Hazelton. The area is underlain by sedimentary rocks of Late Jurassic Bowser Lake Group, intruded by a small granodiorite body of the Late Cretaceous Bulkley intrusions. Noranda Exploration carried out exploration activities on the Date showing area owing to anomalous molybdenum contents in silt samples and trace chalcopyrite observed in the field. Geological and geochemical surveys on the Date showing area were conducted in 1981 and 1983. 195 soil samples and six rock samples were collected and analyzed in 1981, and 18 rock samples were collected and assayed in 1983. Anomalous Au, Ag, Cu, Mo, Pb and Zn were found in various rock and soil samples. Due to the rugged nature of the terrain, the exploration work was limited in extent (P. McCarter, 1981 and Delbert Myers, 1983). There has been no trenching or drilling at the Kispiox area.

Geology

The Kispiox project is underlain by a series of sedimentary strata of the Late Jurassic Bowser Lake Group and Lower Cretaceous Kitsuns Creek Formation of Skeena Group intruded by numerous Late Cretaceous porphyritic intrusions of Bulkley Plutonic Suite.

Mineralization

The associated quartz-sulfides veins are centered on the area most abundant with intrusive rocks, and the veins are most prevalent along the margins of the intrusions and sheared contact zones (P. McCarter, 1981). A great amount of stibnite was observed in the veins, and trace amount of very fine-grained chalcopyrite and molybdenite appear within and adjacent to the veins. The sulfides are mostly fine-grained and disseminated in the veins. Pyrite is common in the quartz veins, and as fracture coating in the hornfels.

Taking into consideration the widespread rusty pyritic zone, intrusive dykes and plugs, mineralized quartz veins and anomalous Cu, Mo and Sb rock geochemical values, it is evident a porphyry-epithermal Sb-Cu-Mo system exists at the Kispiox project.

Rock and Soil Sampling and Analytical Procedures

All samples described in the news release were collected by the Company's Qualified Professional Geologists. Chip and prospecting samples were collected in the field by experienced, professional geological staff who selected hand samples from outcrop or chip samples. The samples were numbered, described and located in the field for follow-up. Numbered rock sample tags were placed inside each bag, then securely closed for transport to the Company's secure cold storage locked facility in Smithers, B.C. MSALABS of Langley, B.C. received the rice bag shipments after secure transport from Smithers. Samples were prepared by crushing, grinding and pulverizing to a pulp with barren material washing between each sample at the crush and pulverizing stages. Then 20 g of pulp was used for the ICP-230 for 34 elements or IMS-231 for 48 elements, FAS-111 fire assay for gold with ICP-ES finish and MET-440 for ore grade samples. Laboratory standards and QA - QC are monitored by the Company.

Soil samples were taken randomly among the mineralization zones. Approximately 200 g to 300 g of soil was sampled at a depth of approximately 25-30 cm from surface. Soil sampling primarily targeted the B horizon where appropriate, and samples were collected in labelled craft paper bags. Soil samples were analyzed via PXRF (Portable X-Ray Fluorescence Analyzer) for Cu, Pb, Zn, Ag, Mo, Sb and W.

All work was conducted by the Company's team of qualified geologists.

Qualified Person

Yingting (Tony) Guo, P.Geo., President and Chief Geologist of Jaxon Mining Inc., a Qualified Person as defined by National Instrument 43-101, has reviewed and prepared the scientific and technical information and verified the data supporting such scientific and technical information contained in this news release.

About Jaxon Mining Inc.

Rich in large-scale geological targets/assets, Jaxon has seven porphyry system targets on its 100% controlled Hazelton property, an interconnected network of concessions spanning 700 km2 in the Skeena Arch in northwest British Columbia, Canada. The Skeena Arch is an exceptionally orogenic and metallogenic setting, geochronologically suitable to host preserved porphyries.

Jaxon pursues the discoveries of deeper, under cover, commercial scale and grade Cu, Au, Ag, polymetallic porphyry epithermal systems associated with distal mineralized, propylitically altered zones nearer to surface. Jaxon's team is made up of experienced model-driven explorationists. Geochemical, geophysical and structural data is collected and integrated to generate 3D models to assist in the visualization and projection of the location of targeted porphyry systems.

Netalzul Mt is Jaxon's most advanced target, the priority of seven identified porphyry epithermal system targets at Hazelton. Red Springs is the second target being prepared for drill testing. The five other targets are in various advancing stages of exploration.

ON BEHALF OF THE BOARD OF DIRECTORS

JAXON MINING INC.

"John King Burns"

John King Burns, Chairman

For more information please contact:

Investor Relations

Kaye Wynn Consulting
T: 604-558-2630
TF: 1-888-280-8128
E: info@kayewynn.com

Freeform Communications
T: 604-243-0499
E: enquiries@freeform.com

Corporate
T: 604-424-4488
E: info@jaxonmining.com

This news release may contain forward-looking information, which is not comprised of historical facts. Forward-looking information involves risks, uncertainties and other factors that could cause actual events, results, performance, prospects and opportunities to differ materially from those expressed or implied by such forward-looking information. Forward-looking information in this news release may include, but is not limited to, the Company's objectives, goals or future plans. Factors that could cause actual results to differ materially from such forward-looking information include, but are not limited to, those risks set out in the Company's public documents filed on SEDAR. Although the Company believes that the assumptions and factors used in preparing the forward-looking information in this news release are reasonable, undue reliance should not be placed on such information, which only applies as of the date of this news release, and no assurance can be given that such events will occur in the disclosed time frames, or at all. The Company disclaims any intention or obligation to update or revise any forward-looking information, whether as a result of new information, future events or otherwise, other than as required by law. Neither TSX Venture exchange nor its Regulations 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.

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