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Geochemical Assays Return Uranium Grades Up To 85.4% U3O8 at CanAlaska's Pike Zone

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CanAlaska Uranium (OTCQX: CVVUF) reported exceptional geochemical assay results from its winter 2025 drill program at the Pike Zone, West McArthur project. The program revealed outstanding uranium grades up to 85.4% U3O8, with key intersections including 8.6 metres at 34.59% U3O8 (including 5.5 metres at 53.90% U3O8) in drillhole WMA079-01 and 14.8 metres at 14.71% U3O8 (including 5.4 metres at 39.67% U3O8) in WMA076-01.

The exploration program significantly expanded the Pike Zone's high-grade footprint, with uranium mineralization now extending approximately 250 metres in strike length and remaining open in all directions. The program included 29 unconformity tests, with 22 containing uranium mineralization, confirming a strong hydrothermal mineralizing system with potential for additional high-grade pods along strike.

CanAlaska Uranium (OTCQX: CVVUF) ha riportato risultati eccezionali nelle analisi geochimiche del suo programma di perforazione invernale 2025 nella zona Pike, progetto West McArthur. Il programma ha evidenziato grade di uranio straordinari fino all'85,4% di U3O8, con intersezioni chiave tra cui 8,6 metri al 34,59% di U3O8 (inclusi 5,5 metri al 53,90% di U3O8) nel foro di sondaggio WMA079-01 e 14,8 metri al 14,71% di U3O8 (inclusi 5,4 metri al 39,67% di U3O8) in WMA076-01.

Il programma di esplorazione ha ampliato significativamente l'area ad alta concentrazione della zona Pike, con la mineralizzazione di uranio che si estende ora per circa 250 metri in lunghezza e rimane aperta in tutte le direzioni. Il programma ha incluso 29 test di discontinuità, di cui 22 hanno mostrato mineralizzazione di uranio, confermando un forte sistema idrotermale mineralizzante con potenziale per ulteriori depositi ad alta concentrazione lungo la direzione della falda.

CanAlaska Uranium (OTCQX: CVVUF) informó resultados excepcionales en los ensayos geoquímicos de su programa de perforación invernal 2025 en la zona Pike, proyecto West McArthur. El programa reveló leyes sobresalientes de uranio de hasta 85.4% de U3O8, con intersecciones clave que incluyen 8.6 metros al 34.59% de U3O8 (incluyendo 5.5 metros al 53.90% de U3O8) en el taladro WMA079-01 y 14.8 metros al 14.71% de U3O8 (incluyendo 5.4 metros al 39.67% de U3O8) en WMA076-01.

El programa de exploración amplió significativamente la huella de alta ley de la zona Pike, con la mineralización de uranio extendiéndose ahora aproximadamente 250 metros en longitud de rumbo y permaneciendo abierta en todas las direcciones. El programa incluyó 29 pruebas de inconformidad, con 22 mostrando mineralización de uranio, confirmando un fuerte sistema hidrotermal mineralizador con potencial para pods adicionales de alta ley a lo largo del rumbo.

CanAlaska Uranium (OTCQX: CVVUF)는 West McArthur 프로젝트의 Pike Zone에서 2025년 겨울 시추 프로그램의 뛰어난 지구화학 분석 결과를 보고했습니다. 이 프로그램은 최대 85.4% U3O8의 우수한 우라늄 등급을 밝혀냈으며, 주요 교차 구간으로는 시추공 WMA079-01에서 8.6미터 구간에 34.59% U3O8(그중 5.5미터 구간에 53.90% U3O8), WMA076-01에서 14.8미터 구간에 14.71% U3O8(그중 5.4미터 구간에 39.67% U3O8)이 포함됩니다.

탐사 프로그램은 Pike Zone의 고등급 광물 분포를 크게 확장하였으며, 우라늄 광화가 약 250미터의 주향 길이로 확장되어 모든 방향으로 열려 있습니다. 이 프로그램은 29건의 불연속성 테스트를 포함했으며, 그중 22건에서 우라늄 광물이 확인되어 추가 고등급 광체가 주향을 따라 존재할 가능성이 있는 강력한 열수 광화 시스템임을 입증했습니다.

CanAlaska Uranium (OTCQX : CVVUF) a annoncé des résultats géochimiques exceptionnels issus de son programme de forage hivernal 2025 dans la zone Pike du projet West McArthur. Le programme a révélé des teneurs remarquables en uranium allant jusqu'à 85,4 % de U3O8, avec des intersections clés comprenant 8,6 mètres à 34,59 % de U3O8 (dont 5,5 mètres à 53,90 % de U3O8) dans le forage WMA079-01 et 14,8 mètres à 14,71 % de U3O8 (dont 5,4 mètres à 39,67 % de U3O8) dans WMA076-01.

Le programme d'exploration a considérablement étendu la zone à haute teneur de Pike, avec une minéralisation en uranium s'étendant désormais sur environ 250 mètres en longueur et restant ouverte dans toutes les directions. Le programme comprenait 29 tests d'inconformité, dont 22 contenaient une minéralisation en uranium, confirmant un système minéralisant hydrothermal puissant avec un potentiel pour des poches à haute teneur supplémentaires le long de la direction.

CanAlaska Uranium (OTCQX: CVVUF) meldete außergewöhnliche geochemische Analyseergebnisse aus seinem Winterbohrprogramm 2025 in der Pike-Zone des West McArthur-Projekts. Das Programm zeigte herausragende Uran-Gehalte von bis zu 85,4% U3O8, mit wichtigen Abschnitten wie 8,6 Meter mit 34,59% U3O8 (darunter 5,5 Meter mit 53,90% U3O8) im Bohrloch WMA079-01 und 14,8 Meter mit 14,71% U3O8 (darunter 5,4 Meter mit 39,67% U3O8) in WMA076-01.

Das Explorationsprogramm erweiterte die hochgradige Zone der Pike-Zone erheblich, wobei die Uranmineralisierung nun etwa 250 Meter in Streichlänge ausgedehnt ist und in alle Richtungen offen bleibt. Das Programm umfasste 29 Diskordanztests, von denen 22 Uranmineralisierung enthielten, was ein starkes hydrothermales Mineralisierungssystem mit Potenzial für zusätzliche hochgradige Lagerstätten entlang der Streichrichtung bestätigt.

Positive
  • Exceptional uranium grades up to 85.4% U3O8 confirmed by geochemical assays
  • Significant expansion of mineralization footprint to 250 meters strike length
  • 22 out of 29 drill holes contained uranium mineralization
  • Multiple high-grade intersections including 8.6m at 34.59% U3O8 and 14.8m at 14.71% U3O8
  • Mineralization remains open in all directions, indicating growth potential
Negative
  • Some intervals showed localized core loss due to intense alteration
  • True thickness of mineralization yet to be determined

Drillhole WMA079-01 Intersected 8.6 Metres at 34.59% U3O8; Including 5.5 Metres at 53.90% U3O8

Drillhole WMA076-01 Intersected 14.8 Metres at 14.71% U3O8; Including 5.4 Metres at 39.67% U3O8

Saskatoon, Saskatchewan--(Newsfile Corp. - July 17, 2025) - CanAlaska Uranium Ltd. (TSXV: CVV) (OTCQX: CVVUF) (FSE: DH7) ("CanAlaska" or the "Company") is pleased to report that it has received the geochemical assay results from the winter 2025 drill program completed on the Pike Zone at the West McArthur project (the "Project"). During the winter program, the Company significantly expanded the high-grade footprint of the Pike Zone and geochemical assay results confirm the best drillholes to date on the project, including composited intervals in WMA079-01 which intersected 8.6 metres at 34.59% U3O8, including 5.5 metres at 53.90% U3O8 at the unconformity and WMA076-01 which intersected 14.8 metres at 14.71% U3O8, including 5.4 metres at 39.67% U3O8 at the unconformity. Importantly, the Company advanced step out drilling along the C10S corridor to the west of the Pike Zone, where geochemical assays confirm high-grade uranium in WMA095 which intersected 3.5 metres at 1.37% U3O8, including 1.0 metres at 3.16% U3O8 at the unconformity, extending the known strike length of unconformity-associated uranium mineralization to approximately 250 metres.

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Figure 1 – Project Location Map

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CanAlaska CEO, Cory Belyk, comments, "Pike Zone continues to deliver exceptional uranium grades in assay. The geochemical results from the winter exploration program confirm the very high-grade nature of the mineralization at Pike Zone with uranium grades up to 85.4% U3O8 returned. In addition, CanAlaska's team continues to prove its ability to deliver early results to its shareholders through use of equivalent uranium grade estimates from calibrated probes confirmed by later assay. With continuous mineralization now successfully extended to 250 metres at the unconformity and open in all directions, I look forward to ongoing and future extension-focused drilling programs. Uranium market fundamentals are rock-solid and with reserve depletion at current tier-1 producing assets ongoing, the time is now for new high-grade uranium discoveries like Pike Zone to come to the forefront."

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Figure 2 – Pike Zone Winter Drill Program Highlights

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The 2025 winter drill program on the West McArthur project consisted of 29 unconformity tests at the Pike Zone, 22 of which contained uranium mineralization. The results of the winter drill program, combined with the results from recently completed drill programs, indicate that the Pike Zone has a strike length of uranium mineralization along the unconformity target area of approximately 250 metres and remains open in all directions (Figure 2). Within that footprint, multiple drill fences outline a 130-metre-long high-grade pod of uranium mineralization. Importantly, during the winter drill program, the Company advanced step out drilling along the C10S Corridor to the west of the Pike Zone, intersecting additional high-grade uranium and extending the known footprint of unconformity-associated uranium mineralization 50 metres west of the previously understood mineralization footprint. Results from the recently completed drill programs indicate that the strong hydrothermal mineralizing system remains open in both directions along the C10S corridor and highlights the potential for additional mineralized high-grade pods along strike. The assay results received from the winter program confirm the high-grade radiometric equivalent grades previously reported on the Project.

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Figure 3 – Section Through Pike Zone Gap Target Area

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Drillhole Details:

Thirteen drillholes were completed in the gap target area during the winter exploration program to confirm connectivity between two previously interpreted high-grade pods, twelve of which contained uranium mineralization (Figure 3; Table 1). Unconformity-associated mineralization is characterized by a combination of massive to semi-massive replacement style, blebby, and disseminated uranium mineralization associated with clay, sooty pyrite, and hematite. Basement-hosted mineralization is characterized by a combination of massive to semi-massive, blebby, disseminated, and structurally controlled uranium mineralization associated with hematite, chlorite, and clay alteration. Within some drillholes, intervals of localized core loss were recorded within the mineralization due to intense alteration and quartz dissolution.

Nine drillholes were completed in the eastern extension target area during the winter exploration program to attempt to expand uranium mineralization to the east of the high-grade pod, six of which contained uranium mineralization (Table 1). Unconformity-associated mineralization is characterized by a combination of massive to semi-massive replacement-style, blebby, fracture-controlled, and disseminated uranium mineralization associated with clay, hematite, and sooty pyrite. Basement-hosted mineralization is characterized by blebby, disseminated, and structurally controlled uranium mineralization associated with hematite, chlorite, and clay alteration. Within select drillholes, intervals of localized core loss were recorded within the mineralization due to intense alteration and quartz dissolution.

Four drillholes were completed in the western extension target area during the winter exploration program in an attempt to expand uranium mineralization to the west of the high-grade pod, two of which contained uranium mineralization (Table 1). Unconformity-associated mineralization is characterized by semi-massive to disseminated worm-rock style uranium mineralization associated with clay, hematite, and sooty pyrite. Basement-hosted mineralization is characterized by blebby, disseminated, and structurally controlled uranium mineralization associated with hematite, chlorite, and clay alteration. Within select drillholes, intervals of localized core loss were recorded within the mineralization due to intense alteration and quartz dissolution.

Three drillholes were completed in the western step out target area during the winter exploration program in an attempt to define additional unconformity-associated uranium mineralization along strike to the west along the C10S corridor. Two drillholes contained significant uranium mineralization confirming the theory that uranium mineralization continues to the west of Pike Zone (Table 1). Unconformity-associated mineralization is characterized by blebby, fracture-controlled, and disseminated uranium mineralization associated with clay and sooty pyrite. Basement-hosted mineralization is characterized by blebby, disseminated, foliation-parallel and structurally controlled uranium mineralization associated with hematite, chlorite, and clay alteration.

Table 1 - Intersections with Geochemical Assay and Radiometric Equivalent Intervals

DrillholeIntervalsFrom
(m)		To
(m)		Length
(m)13		Average GradeMaximum Grade
(% U3O8)(%eU3O8)14(% U3O8)
Gap Target Area
WMA082-16(1)Interval 1(8)804.8807.83.00.97
2.06
Including(9)806.3806.80.52.06
2.06
Interval 2(8)812815.53.53.00
9.17
Including(9)812.58152.53.84
9.17
WMA082-17(1)Interval 1(8)816.9818.41.50.14
0.19
WMA082-19(1)Interval 1 Breakdown(10)798.3799.61.3
0.68
799.6806.676.59
21.10
Composited Interval 1(10,12)798.3806.68.35.66
21.10
Including(9)799.6803.64.011.37
21.10
Interval 2(8)808.1813.75.60.43
1.84
Interval 3(8)820.2824.24.02.29
9.17
Including(9)820.2821.21.08.67
9.17
Interval 4(8)826.7828.72.00.17
0.33
WMA082-20(1)Interval 1(8)822.5823.00.50.21
0.21
Interval 2(8,9)833.5834.00.52.07
2.07
WMA074-04(2)Interval 1 Breakdown(10)792.0792.50.50.10
0.10
792.5793.00.5
0.18
793.0806.513.511.04
55.20
806.5807.40.9
8.05
807.4809.42.05.21
11.40
Composited Interval 1(10,12)792.0809.417.49.59
55.20
Including(11,12)794.0809.415.410.80
55.20
Interval 2(8)819.7820.71.00.35
0.58
WMA074-05(2)Interval 1 Breakdown(10)798.2799.00.8
0.13
799.0800.01.00.51
0.86
Composited Interval 1(10,12)798.2800.01.80.34
0.86
WMA074-06(2)Interval 1(8)795.9801.25.32.23
4.95
Including(9)796.9799.93.03.30
4.95
WMA079-01(3)Interval 1 Breakdown(10)809.9810.40.50.12
0.12
810.4811.51.1
0.50
811.5818.57.042.40
76.70
Composited Interval 1(10,12)809.9818.58.634.59
76.70
Including(9)812.0817.55.553.90
76.70
Interval 2(8)821.0821.50.50.12
0.12
Interval 3(8)824.0826.02.00.13
0.21
WMA079-02(3)Interval 1(8)813.0820.07.04.05
11.50
Including(9)815.0818.53.57.84
11.50
Interval 2(8)824.5826.01.50.16
0.20
WMA079-03(3)Interval 1(8)804.0804.50.50.16
0.16
Interval 2(8)806.0807.51.50.51
0.82
Interval 3(8)812.5827.114.69.97
35.50
Including(9)813.5823.610.114.08
35.50
Interval 4(8)831.6832.10.50.52
0.52
WMA079-04(3)Interval 1(8)803.5814.010.51.29
3.66
Including(9)806.5810.54.02.24
3.66
Interval 2(8)815.5819.54.00.42
1.39
Interval 3(8)825.8831.35.51.47
10.70
Including(9)826.3826.80.510.70
10.70
Interval 4(8)834.7838.13.42.88
12.40
Including(9)836.1837.11.08.74
12.40
WMA079-05(3)Interval 1 Breakdown(10)803.4803.90.50.48
0.48
803.9806.02.1
11.65
806.0811.05.02.55
17.50
Composited Interval 1(10,12)803.4811.07.64.93
17.50
Including(11,12)804.6807.02.414.31
17.50
Interval 2(8)812.5821.59.03.17
16.10
Including(9)815.5820.55.05.14
16.10
Interval 3(8,9)829.4829.90.58.97
8.97
Eastern Extension Target Area
WMA076-01(4)Interval 1 Breakdown(10)790.1794.84.7
0.29
794.8796.01.20.11
0.12
796.0798.72.7
26.66
798.7804.96.223.27
85.40
Composited Interval 1(10,12)790.1804.914.814.71
85.40
Including(11,12)796.0801.45.439.67
85.40
WMA076-02(4)Interval 1(8)791.0791.50.50.36
0.36
Interval 2(8)800.5801.00.50.17
0.17
Interval 3(8)804.0804.50.50.88
0.88
Interval 4(8)807.5810.53.00.56
1.23
WMA076-04(4)Interval 1(8)801.1801.60.50.10
0.10
Interval 2(8)803.6804.10.50.11
0.11
WMA075-04(5)Interval 1(8)796.6796.90.30.10
0.10
Interval 2 Breakdown(10)802.6803.20.6
0.73
803.2803.70.53.17
3.17
Composited Interval 2(10,12)802.6803.71.11.84
3.17
Including(9)803.2803.70.53.17
3.17
WMA075-05(5)Interval 1(8)797.4798.41.00.49
0.74
Interval 2(8)799.4799.90.50.12
0.12
WMA075-06(5)Interval 1(8)793.1794.11.00.41
0.73
Interval 2(8)798.7800.72.00.27
0.59
Interval 3(8)802.2802.70.50.19
0.19
Western Extension Target Area
WMA094-04(6)Interval 1 Breakdown(10)794.8795.81.05.95
11.60
795.8797.01.2
10.23
797.0800.03.02.12
10.60
Composited Interval 1(10,12)794.8800.05.24.73
11.60
Including(11,12)795.3797.52.210.63
11.60
WMA094-07(6)Interval 1(8)811.8812.10.30.24
0.24
Western Step Out Target Area
WMA095(7)Interval 1(8)810.9814.43.51.37
4.08
Including(9)811.4812.41.03.16
4.08
Interval 2(8)815.9816.40.50.84
0.42
WMA095-02(7)Interval 1(8)822.3828.36.00.31
0.81
  1. WMA082-16, WMA082-17, WMA082-19, WMA082-20 were drilled at an azimuth of 295˚ with an inclination of -79.3˚, collared at 477,345 mE / 6,396,525 mN, 602 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA082. WMA082-16 intersected the unconformity at 807.3 metres, WMA082-17 at 810.0 metres, WMA082-19 at 799.6 metres, and WMA082-20 at 801.5 metres.
  2. WMA074-04, WMA074-05, WMA074-06 were drilled at an azimuth of 355˚ with an inclination of -77.0˚, collared at 477,241 mE / 6,396,512 mN, 598 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA074. WMA074-04 intersected the unconformity at 794.5 metres, WMA074-05 at 805.3 metres, and WMA074-06 at 795.0 metres.
  3. WMA079-01, WMA079-02, WMA079-03, WMA079-04, WMA079-05 were drilled at an azimuth of 295˚ with an inclination of -78.5˚, collared at 477,359 mE / 6,396,539 mN, 602 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA079. WMA079-01 intersected the unconformity at 812.0 metres, WMA079-02 at 814.0 metres, WMA079-03 at 809.0 metres, WMA079-04 at 803.0 metres, and WMA079-05 at 803.7 metres.
  4. WMA076-01, WMA076-02, WMA076-04 were drilled at an azimuth of 325˚ with an inclination of -75.0˚, collared at 477,340 mE / 6,396,538 mN, 602 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA076. WMA076-01 intersected the unconformity at 800.1 metres, WMA076-02 at 800.5 metres, and WMA076-04 at 803.1 metres.
  5. WMA075-04, WMA075-05, WMA075-06, were drilled at an azimuth of 318˚ with an inclination of -82.5˚, collared at 477,366 mE / 6,396,602 mN, 601 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA075. WMA075-04 intersected the unconformity at 787.2 metres, WMA075-05 at 787.1 metres, and WMA075-06 at 786.3 metres.
  6. WMA094-04, WMA094-07 were drilled at an azimuth of 313˚ with an inclination of -80.0˚, collared at 477,236 mE / 6,396,517 mN, 598 m A.S.L. (UTM NAD83 Z13N) as daughter holes from WMA094. WMA094-04 intersected the unconformity at 797.3 metres, and WMA094-07 at 797.5 metres.
  7. WMA095, WMA095-02 were drilled at an azimuth of 318˚ with an inclination of -76.6˚, collared at 477,248 mE / 6,396,492 mN, 600 m A.S.L. (UTM NAD83 Z13N) as a pilot hole and subsequent daughter holes from WMA095. WMA095 intersected the unconformity at 811.9 metres, and WMA095-02 at 809.2 metres.
  8. Intersection interval is composited above a cut-off grade of 0.1% U3O8 with a maximum of 1.0 m of internal dilution.
  9. Intersection interval is composited above a cut-off grade of 2.0% U3O8 with a maximum of 1.0 m of internal dilution.
  10. Intersection interval is composited above a cut-off grade of 0.1% U3O8 / eU3O8 with a maximum of 1.0 m of internal dilution.
  11. Intersection interval is composited above a cut-off grade of 2.0% U3O8 / eU3O8 with a maximum of 1.0 m of internal dilution.
  12. Composited intervals contain geochemical assay where core was recovered, and downhole radiometric equivalent uranium grades are inserted in place of missing core intervals.
  13. All reported depths and intervals are drill hole depths and intervals, unless otherwise noted, and do not represent true thicknesses, which have yet to be determined.
  14. Radiometric equivalent ("eU3O8") derived from a calibrated downhole gamma probe. No core was recovered within these intervals and downhole radiometric equivalent uranium grades are inserted in place of missing core intervals.

 

2025 West McArthur Summer Drill Program Update

The 2025 summer drill program on the West McArthur project is currently ongoing, with three drills working to achieve an estimated 15 to 20 additional unconformity target intersections in 2025. The drill rigs are focused on continued step outs along strike to evaluate for additional zones of uranium mineralization and extensions of the Pike Zone. To the west of the Pike Zone, the unconformity target area remains untested for approximately 1,000 metres. To the east of the Pike Zone, the unconformity target area remains untested for approximately 600 metres. In both directions, alteration and fault structures were intersected in the lower sandstone column above the unconformity. Select infill targets within the currently understood footprint of the Pike Zone may be completed during the summer program. The Company expects to complete the summer portion of the 2025 exploration program in September.

The Pike Zone discovery is located in the eastern Athabasca Basin, 20 km to the west of Cameco's McArthur River mine site. The West McArthur project, a Joint Venture with Cameco Corporation, is operated by CanAlaska that holds an 85.97% ownership in the Project. CanAlaska is sole-funding the 2025 West McArthur program and will further increase its majority ownership in the Project as a result.

Geochemical Assay Sampling Procedures

All assay drill core samples from the program, completed as NQ-sized core, were shipped to the Saskatchewan Research Council Geoanalytical Laboratories (SRC) in Saskatoon, Saskatchewan in secure containment for preparation, processing, and multi-element analysis by ICP-MS and ICP-OES using total (HF:NHO3:HClO4) and partial digestion (HNO3:HCl), boron by fusion, and U3O8 wt% assay by ICP-OES using higher grade standards. Assay samples are chosen based on downhole probing radiometric equivalent uranium grades and scintillometer (SPP2 or CT007-M) peaks. Assay sample intervals comprise 0.3 - 0.8 metre continuous half-core split samples over the mineralized intervals. With all assay samples, one half of the split sample is retained and the other sent to the SRC for analysis. The SRC is an ISO/IEC 17025/2005 and Standards Council of Canada certified analytical laboratory. Blanks, standard reference materials, and repeats are inserted into the sample stream at regular intervals by CanAlaska and the SRC in accordance with CanAlaska's quality assurance/quality control (QA/QC) procedures. Geochemical assay data are subject to verification procedures by qualified persons employed by CanAlaska prior to disclosure.

Use of Radiometric Equivalent Grades

During active exploration programs drillholes are radiometrically logged using calibrated downhole GeoVista NGRS and TGGS (Triple GM) gamma probes which collect continuous readings along the length of the drillhole. Preliminary radiometric equivalent uranium grades ("eU3O8") are then calculated from the downhole radiometric results. The probe is calibrated using an in-house algorithm calculated from the calibration of the probe at the Saskatchewan Research Council facility in Saskatoon and from the comparison of probe results against previously reported geochemical analyses. At extremely high radiometric equivalent uranium grades, downhole gamma probes may become saturated, resulting in the probe being overwhelmed, which in turn can create difficulties in accurately determining extremely high-grade radiometric equivalent uranium grades, and a cap may be applied to the grade. The equivalent uranium grades are preliminary and are subsequently reported as definitive assay grades following sampling and chemical analysis of the mineralized drill core. In the case where core recovery within a mineralized intersection is poor or non-existent, radiometric grades are considered to be more representative of the mineralized intersection and may be reported in the place of assay grades. Radiometric equivalent probe results are subject to verification procedures by qualified persons employed by CanAlaska prior to disclosure.

All reported depths and intervals are drill hole depths and intervals, unless otherwise noted, and do not represent true thicknesses, which have yet to be determined.

About CanAlaska Uranium

CanAlaska is a leading explorer of uranium in the Athabasca Basin of Saskatchewan, Canada. With a project generator model, the Company has built a large portfolio of uranium projects in the Athabasca Basin. CanAlaska owns numerous uranium properties, totaling approximately 500,000 hectares, with clearly defined targets in the Athabasca Basin covering both basement and unconformity uranium deposit potential. The Company has recently concentrated on the West McArthur high-grade uranium expansion with targets in 2024 leading to significant success at Pike Zone. Fully financed for the upcoming 2025 drill season, CanAlaska is focused on Tier 1 Uranium deposit discovery and delineation in a safe and secure jurisdiction. The Company has the right team in place with a track record of discovery and projects that are located next to critical mine and mill infrastructure.

The Company's head office is in Saskatoon, Saskatchewan, Canada with a satellite office in Vancouver, BC, Canada.

The Qualified Person under National Instrument 43-101 Standards of Disclosure for Mineral Projects for this news release is Nathan Bridge, MSc., P. Geo., Vice-President Exploration for CanAlaska Uranium Ltd., who has reviewed and approved its contents.

On behalf of the Board of Directors
"Cory Belyk"
Cory Belyk, P.Geo., FGC
CEO, President and Director
CanAlaska Uranium Ltd.

Contacts:

Cory Belyk, CEO and PresidentGeneral Enquiry
Tel: +1.306.668.6900Tel: +1.306.668.6915
Email: cbelyk@canalaska.comEmail: info@canalaska.com

 

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.

Forward-looking information

All statements included in this press release that address activities, events or developments that the Company expects, believes or anticipates will or may occur in the future are forward-looking statements. Forward-looking statements are frequently identified by such words as "may", "will", "plan", "expect", "anticipate", "estimate", "intend" and similar words referring to future events and results. Forward-looking statements are based on the current opinions and expectations of management. These forward-looking statements involve numerous assumptions made by the Company based on its experience, perception of historical trends, current conditions, expected future developments and other factors it believes are appropriate in the circumstances. In addition, these statements involve substantial known and unknown risks and uncertainties that contribute to the possibility that the predictions, forecasts, projections and other forward-looking statements will prove inaccurate, certain of which are beyond the Company's control. Actual events or results may differ materially from those projected in the forward-looking statements and the Company cautions against placing undue reliance thereon. The Company assumes no obligation to revise or update these forward-looking statements except as required by applicable law.

To view the source version of this press release, please visit https://www.newsfilecorp.com/release/259069

FAQ

What uranium grades did CanAlaska Uranium report at Pike Zone in July 2025?

CanAlaska reported exceptional uranium grades up to 85.4% U3O8, with key intersections including 8.6 metres at 34.59% U3O8 and 14.8 metres at 14.71% U3O8.

How large is the uranium mineralization footprint at CVVUF's Pike Zone?

The Pike Zone has a strike length of approximately 250 metres of uranium mineralization along the unconformity target area, including a 130-metre-long high-grade pod. The zone remains open in all directions.

What was the success rate of CanAlaska's winter 2025 drill program?

The program had a 76% success rate, with 22 out of 29 unconformity tests containing uranium mineralization.

Where is CanAlaska's Pike Zone project located?

The Pike Zone is located at the West McArthur project in Saskatchewan, Canada.

What were the best drill results from CVVUF's winter 2025 program?

The best results came from drillhole WMA079-01 with 8.6 metres at 34.59% U3O8 (including 5.5 metres at 53.90% U3O8) and WMA076-01 with 14.8 metres at 14.71% U3O8 (including 5.4 metres at 39.67% U3O8).
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Canalaska Urnium

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CVVUF Rankings

#6606 Ranked by Market Cap
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CVVUF Latest News

Jun 17, 2025
CanAlaska Begins Summer Drill Program at West McArthur Joint Venture
Apr 29, 2025
CanAlaska Completes Winter Drill Program at Cree East Project
Apr 22, 2025
Pike Zone Drillhole WMA079-01 Intersects 8.3 Metres at 24.82% eU3O8; Including 5.5 Metres at 37.09% eU3O8
Mar 18, 2025
Geochemical Assays Confirm Additional High-Grade Unconformity Uranium Mineralization at CanAlaska's Pike Zone
Feb 27, 2025
CanAlaska Uranium Invites Shareholders and Investment Community to visit them at Booth 2140 at PDAC 2025 in Toronto, March 2-5

CVVUF Stock Data

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