Foremost Lithium Resource & Technology Ltd. provided a drilling progress update at the Zoro Lithium Property located in the Snow Lake region of Manitoba. Foremost reports the widest drill intercept to date with an intersection of spodumene-bearing pegmatite at Dyke 1, spanning a cumulative length of 32.53 meters. Dyke 1 hosts the Company's maiden inferred resource of 1,074,567 tons at a grade of 0.91% Li2O, with a cut-off of 0.3%, as outlined in the Company?s filed Regulation SK-1300 Technical Report Summary (2023) and NI-43-101 Technical Report (2018).

Drill holes FL-24-009 and FL24-010 intersected 32.53 metres and 14.5 metres of spodumene-bearing pegmatite, respectively. Analytical results are still pending. Drilling on the Zoro Property commenced in February, 2024, with holes FL2024-001 through FL2024-006 targeting Dyke 8 and surrounding areas.

Drilling confirmed spodumene presence in some drill core. The core has been packaged and shipped to SGS in Burnaby, B.C. for assay analysis. Drilling is now focused on Zoro?s Dyke 1 at the southeast section of the property.

Based on a comprehensive geological review, Dahrouge Geological Consulting (?DGC?) has identified the southern extension of Dyke 1 as a priority target. This section of Dyke 1 remains largely unexplored with limited historical drilling. The Company?s objective is to explore the pegmatite both at depth and along strike, and to test new zones that have remained unexplored until now.

Drilling will further explore mineralization in order to create what is presently expected to be a geological framework for an updated Regulation SK-1300/and Ni 43-101 resource estimate. To date, a total of 10 drill holes have been reported to be completed on the property covering approximately 2,100 meters. Spodumene-bearing pegmatite is defined by the visible occurrence of spodumene as distinct mineral crystals, varying in size and orientation, within a quartz-feldspar pegmatite matrix across the specified interval.

Visual assessments of mineral abundance are not to be used as replacements or equivalents for laboratory analyses, where precise measurements of concentrations or grades are critical for economic evaluation. The reported drill intersection lengths, derived from linear measurements along the drill core, may not accurately represent the true width of the mineralized zones due to angular differences between the drill path and mineralization orientation. Best practices in drilling techniques and geological interpretation are being utilized to intersect mineralization in an orientation that approximates the true width as closely as feasible.

Detailed geological modelling and analysis are being conducted to refine these estimates and achieve a more precise characterization of the mineralized body's true dimensions. Core processing continues on-site, with core samples being shipped and submitted to SGS Canada?s laboratory in Burnaby, BC. Core sample assays remain to be announced as current processing is underway at the laboratory.

Results are anticipated to be reported in batches in the coming weeks. Technical information in this news release has been reviewed and approved by Matthew Carter, P.Geo., who is a Qualified Person as identified by Canadian National Instrument 43-101-Standards of Disclosure for Mineral Projects and as defined by the Securities and Exchange Commission?s Regulation S-K 1300 rules for resource deposit disclosure.