Copper Lake Resources Ltd. announced the results of a 3D modeling interpretation of a magneto-telluric (MT) survey completed on its Marshall Lake Cu-Zn-Ag volcanogenic massive sulphide (VMS) property, located 250 km NE of Thunder Bay in northwestern Ontario. MT Survey: The magneto-telluric (MT) method is a geophysical technique that uses naturally occurring electromagnetic fields (EM) to measure the electrical conductivity of the earth. MT conductors reflect the presence of metallic sulphide deposits, including semi-massive to massive sulphide deposits, to depths of up to 1,000 metres.

This is far deeper than the reach of historical geophysical surveys completed at Marshall Lake. The MT survey was completed in July of 2021 by SJ Geophysics Ltd., based out of Delta, BC. Data was acquired on a grid consisting of 13 survey lines, spaced 150 metres apart and 1900 metres in length.

In all, 24.7 line-kilometres of surveying was completed. The Company recently had the data from this survey interpreted and modelled, with the objective of defining deep drill targets. The survey was completed in the locale of the Deep EM target, drilled by the Company in 2021 and 2022, which yielded high-grade intercepts including: 8.13% Cu, 7.26% Zn, 240.80 g/t Ag & 0.33 g/t Au over 2.11 metres; 5.81 % Cu, 7.32% Zn, 171.20 g/t Ag & 0.02 g/t Au over 1.95 metres; 2.37% Cu, 1.75% Zn, 413.15 g/t Ag & 0.37 g/t Au over 6.00 metres.

This stringer-style mineralization is centred at a depth of approximately 300 metres below surface. The intent of completing the MT survey was the ability of MT to see conductors to depths of up to 1,000 metres below surface, and below the stringer mineralization associated with the Deep EM target documented above. MT Survey Results: The 3D modeling delineated 4 strong conductors, centred at a depth beginning approximately 500 metres below surface.

The conductors are all located proximal to the Deep EM target and Billiton Zone, which is now thought to be stringer or feeder-type mineralization, possibly related to a nearby massive sulphide deposit. All four strong conductors defined by the survey are thus very prospective for the presence of a massive sulphide deposit. None of these conductors have been tested by previous diamond drilling.

The strongest part of the conductors varies in length from 200 to 400 metres and reach widths of up to 100 metres, while the depth extent of the conductors varies from 200 metres to over 500 metres. Two historic drill holes (ML-95-16 and CML-93-10) completed proximal to MT target 1 provide convincing evidence for the presence of massive sulphide deposits to exist in the immediate locale of the targets. Hole ML-95-16 collared in intensely altered felsic volcanic rocks, remaining in highly altered rock to a depth of 300 metres.

The 300-metre interval is characterized by strong alteration indices, containing abundant biotite, sericite and muscovite and cordierite. Additionally, significant disseminated sulphides are hosted within the alteration zone returning intervals of 1.94% zinc over 2 metres, as well as 0.05% copper, 0.22% zinc and 0.08% lead over 6 metres. Hole ML-95-16 appears to have tested the periphery of the MT conductor.

In view of the width of alteration and sulphide mineralization seen in this hole, a drill hole testing the heart or strongest part of the conductor is clearly warranted. A second drill hole, CML-93-10, drilled proximal to MT target 1 also intersected felsic volcanic rocks with widespread alteration assemblages. It encountered disseminated and stringer chalcopyrite over a width of 12 metres from 436 to 448 metres, down-hole.

Alteration consists of sericite, chlorite and cordierite over most of the length of the drill hole. As is the case with hole ML-95-16, the trace of CML-93-10 did not penetrate the strongest part of the MT conductor. MT targets 2, 3 and 4 are also compelling targets situated proximal to the Billiton stringer sulphide zone.

These targets also comprise strong conductors and have not been tested by previous diamond drilling. Next Steps: The company plans to drill these 3 MT targets as soon as the freeze-up occurs, in late 2023 or early 2024. The company expects the depth of each hole will be a minimum of 700 metres.