Cascadia Minerals Ltd. provided an update on the ongoing diamond drill program at its Catch Property. The Catch Property hosts one of North America's newest copper-gold porphyry discoveries, with extensive mineralization at surface. The property is located in central Yukon, only 10 km from a paved all-season highway and powerline, within an extension of the Stikine terrane - a key geological setting which extends from the Golden Triangle in British Columbia to Yukon.

The Catch Property has never been historically explored, with Cascadia conducting the first-ever diamond drill program in fall 2023, which resulted in the discovery of the Spark Zone. Spark Zone Diamond Drilling Highlights: The first 2024 diamond drill hole (CA-24-006) stepped out 315 m from 2023 discovery hole CA-23-002 and intersected 140 m of pyrite-chalcopyrite mineralization; Mineralization in CA-24-006 contains greater sulphide abundance (pyrite-chalcopyrites) than observed in hole CA-23-002, which returned 116.60 m of 0.31% copper with 0.30 g/t gold; CA-24-006 intersected zones of potassic alteration associated withdisseminated and vein hosted chalcopyrite-pyrite; Hole CA-24-006 targeted a coincident Induced Polarization ("IP") chargeability and resistivity high within a larger and open-ended 1.4 km long IP chargeability anomaly; The second 2024 drill hole (CA-24 -007) is now underway, testing a similar IP chargeability and resistivity high 150 m north of CA-23-002; and, Planning is underway to extend the 2024 drill program to step out on CA-24-006. Cascadia cautions that visual estimates of mineral abundance should never be considered a proxy or substitute for laboratory analyses where concentrations or grades are the factor of principal economic interest.

Laboratory assays are required to determine the presence and grade of any contained mineralization within the reported visual intersections of copper sulphides. This hole will test the projected extension of mineralization from hole CA-23-002 towards an area of high IP chargeability and stronger resistivity, which may represent potassic alteration.