Argentina Lithium Confirms Lithium at Depth at Arizaro Salar and Extends Testing Program

Battery Metals
TSXV:LIT

Argentina Lithium & Energy Corp. (TSX-V:LIT) (FSE:OAY1) (WKN:A0RK7E) (OTC:PNXLF) (“Argentina Lithium” or the “Company”) is pleased to announce that the first two drill holes at the Arizaro project have encountered lithium-bearing brines below surface in the central area of the salar with values as high as 257 mg/l lithium.

Argentina Lithium & Energy Corp. ( TSXV:LIT) (FSE:OAY1) (WKN:A0RK7E) (OTC:PNXLF) (“Argentina Lithium” or the “Company”) is pleased to announce that the first two drill holes at the Arizaro project have encountered lithium-bearing brines below surface in the central area of the salar with values as high as 257 mg/l lithium. A substantial brine aquifer has not yet been reached but modest volumes of significantly anomalous lithium-bearing brines were retrieved starting at depths of between 15 and 356 metres.  The depth of drilling was limited by the drill equipment used, therefore the Company plans to continue drilling in these areas using suitable deeper-drilling equipment, following more detailed geophysical and seismic surveys of the Arizaro basin.

“Our model for this property was for a brine aquifer at depth, so we were pleased to have anomalous results in our first two holes,” said Nikolaos Cacos, President and C.E.O. “These results support the theory of a source aquifer below where we were able to reach, therefore we are continuing our exploration to pinpoint the best location and depth to continue testing.

Drill Program Details
Three holes have been drilled on the property, including two in the central claim block (ARI-01, ARI-02) and one on the south claim block.   Due to time constraints on the program, two drill rigs were employed.  At hole ARI-01 the rig was capable of deeper drilling, however it was unable to advance past 398 metres due to the rods getting trapped.  Hole ARI-02 was drilled using a rig capable of reaching 300 metres which was originally considered sufficient based on the geophysics.  Later, due to the results from Hole ARI-01, the second hole was considered prospective at lower depths, however the rig capable of the deeper drilling was no longer available.

The central area holes both drilled through mainly massive halite with short sections of intercalated clay layers, or layers of sand. At approximately 300 metres depth Hole ARI-01 encountered mainly sand with lessor sandstone layers to the end of the hole at 398 metres, with several anomalous results in these units.  Hole ARI-03 in the southern claim block drilled through a halite cap to approximately 9 metres, then 23 metres of high porosity sand that was followed by a mix of low porosity mixed sand units to 236 metres depth. The hole finished in the basement of red conglomerates of moderate porosity.    Drill hole sections for the first two holes are shown in Figure 1:  https://argentinalithium.com/assets/news/Fig-1-DH-Sections-110917.pdf.

Results of sampling are compiled in Table 1 below, and hole location information is listed in Table 2 below.  Samples of brine were obtained by either bailer or packer testing, depending on the drill rig, as outlined below.  Volumes of brine were low and no substantial aquifer was intersected.  Hole ARI-01 ended in sands with highly anomalous values, and the Company is optimistic that a higher grade lithium-brine aquifer could still be present at greater depths.   ARI-02 ended in massive halite, however, it was not drilled as deep as the first hole.   These holes were positioned based on low resistivity/high conductivity results from the vertical electric sounding surveys, however this method provides limited information at depths below approximately 300 metres.  Therefore, the Company plans to execute a seismic and Controlled-source Audio-frequency Magnetotellurics (CSAMT) geophysical surveys to better map the depths of the basin and conductive layers that may be related to lithium-bearing brines.

Results for ARI-03 in the southern claim block are incomplete at the time of writing, however based on preliminary analyses the remaining samples from the bottom are expected to have similar or lower levels of lithium and potassium to those from the top of the hole.

Table 1. Drill Results
HoleSampleDepth (m)Li (mg/L)Mg (mg/L)K (mg/L)Density
AR_0161288190239460891711.220
61285238256499698381.222
61282308242457993381.222
61278326223410085381.220
61274356194387192131.220
612703685036617271.214
ARI-02612671518110070104691.219
612647625715035146531.226
612601084329314871.214
6125620560150826811.214
612522983922413821.214
AR_0361291463652414281.215
61295684558116361.215
69602573954515351.215
69606804757417161.215
69609904757416791.215
696121004055015581.216
696151104155315831.215
696181304155815841.215
696211494256316001.215
69626203pendingpendingpending1.192
69630224pendingpendingpending1.192
69634250pendingpendingpending1.193
69638188pendingpendingpending1.192
69641167pendingpendingpending1.193
Table 2. Drill Hole Locations
HoleEastingNorthingElevation
(m)
Azimuth
(deg)
Dip
(deg)
Final
depth (m)
ARI-012,623,4067,260,7943,4740-90398
ARI-022,633,0547,273,3533,4730-90298
ARI-032,622,8717,243,1903,4750-90251

Methodology and QA/QC

Samples in Hole ARI-01 were collected with a double packer. This method allows the collection of samples at specific depths while sealing the hole at the bottom and at the top of the sample. The second drill rig used for holes ARI-02 and -03 was not equipped to sample with a double packer, therefore samples were collected with a Bailer apparatus. Hole ARI-1 was drilled at HQ3 size (outer diameter of 95.76 mm). Hole ARI-02 was drilled at HQ3 from 0 to 105.3m and then completed at NTW size (75.88 mm).  Hole ARI-03 was drilled from 0 to 140.15m at HQ3 then at NTW.

All samples were collected in hard white plastic 1 litre bottles with samples numbers clearly identified. The samples were sent to the Alex Stewart Argentina S.A laboratory in Mendoza, Argentina (“Alex Stewart”), an ISO 9001:2008 certified laboratory, with ISO 17025:2005 certification for the analysis of lithium and potassium. Alex Stewart employed Inductively Coupled Plasma Optical Emission Spectrometry (“ICP-OES”) as the analytical technique for the primary constituents of interest, including: boron, calcium, potassium, lithium, magnesium and sulphur. Measurements in the field included pH, conductivity, temperature and density. The laboratory took the same measurements and they were consistent with the field data.  A duplicate set of samples with different numbering was sent to the Alex Stewart NOA laboratory in Jujuy, and the results confirm the Mendoza lab analyses.

About the Arizaro Lithium Project
The Company has the option to earn a 100% interest in the Arizaro Lithium Brine Project, including 20,500 hectares in the central core of the Arizaro Salar, the largest in Argentina and third largest in the “Lithium Triangle”. Very little historic exploration work has been done on the Arizaro Salar, however the central area is interpreted to have the geologic conditions to be the most prospective for quality brine resources.  Furthermore, the Arizaro Salar benefits from a strategic location for infrastructure, including: a railway that connects to the deep water port of Antofagasta, nearby advanced mining projects that are expected to bring significant development of access routes and power, and the availability of water for development.  For additional information on the Project please see the Company website www.argentinalithium.com.

Qualified Person
The program was undertaken under the supervision of David Terry, Ph.D., P.Geo., a Director of the Company and a Qualified Person as defined in National Instrument 43-101. The contents of this news release have been reviewed and approved by Dr. Terry.

About Argentina Lithium
Argentina Lithium & Energy Corp is focused on acquiring high quality lithium projects in Argentina, and advancing them towards production in order to meet the growing global demand from the battery sector. The management group has a long history of success in the resource sector of Argentina, and has assembled a first rate team of experts to acquire and advance the best lithium properties in the world renowned “Lithium Triangle”. The Company is a member of the Grosso Group, a resource management group that has pioneered exploration in Argentina since 1993.

ON BEHALF OF THE BOARD

“Nikolaos Cacos”
_______________________________
Nikolaos Cacos, President, CEO and Director

For further information please contact:
Corporate Communications
Tel: 1-604-687-1828
Toll-Free: 1-800-901-0058
Email: info@argentinalithium.com

Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.

This news release may contain forward-looking statements.  Forward-looking statements address future events and conditions and therefore involve inherent risks and uncertainties. Actual results may differ materially from those currently anticipated in such statements. Readers are encouraged to refer to the Company’s public disclosure documents for a more detailed discussion of factors that may impact expected future results. The Company undertakes no obligation to publicly update or revise any forward-looking statements.   We advise U.S. investors that the SEC’s mining guidelines strictly prohibit information of this type in documents filed with the SEC. U.S. investors are cautioned that mineral deposits on adjacent properties are not indicative of mineral deposits on our properties.

Click here to connect with Argentina Lithium & Energy Corp. (TSXV:LIT)

Source: globenewswire.com

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