Trigg Mining Limited announces the results of the December 2019 drilling program over the Company's Laverton Links SOP Project. Key results include the intersection of a 52 m thick sequence on sands and conglomerates on the periphery of the previously defined Lake Rason system in hole LRATC001a (from 44 m) with an average grade of 2,350 mg/l K (or 5,230 mg/l Sulphate of Potash (SOP) equivalent). Additionally, scout drilling along the Lake Hope Campbell trend has identified multiple thick basal sand aquifers with a peak intersection of 11 m @ 2,330 mg/l K (or 5,200 mg/l SOP equivalent) in LHCACT018 from 59 m. The December 2019 aircore drilling program at Lake Hope Campbell is the first known drilling over this 106 km interpreted palaeochannel trend, and successfully intercepted deep palaeochannel sands and gravels over multiple holes with transects of up to 1,300 m wide (including LHCACT002, 008, 010, 011, 017 and 018). These zones are also expected to have high permeability based upon field observations. The results from this program, in addition to the program completed in 2017 at Lake Rason, will inform the Mineral Resource estimate expected later this quarter. The Laverton Links SOP Project comprises three Prospects (Lake Rason, Lake Hope Campbell and East Laverton) for a total area of 2,424 km2 and covers some 293 km2 of playa lake and 291 km of interpreted palaeochannel. The Prospects are located within a 35 km to 225 km radius east of Laverton, Western Australia and nearby the Tropicana Gold Mine. The Laverton Links SOP Project is accessible from Laverton via numerous roads and tracks and from Kalgoorlie via the Tropicana Gold Mine Access Road. The Eastern Goldfields and Yamarna Gas Pipelines pass directly through the Lake Hope Campbell and East Laverton Prospects. Lake Rason Prospect: The Lake Rason Prospect covers an area of 499 km 2 of granted and pending EL's and covers the bulk of Lake Rason and the associated underlying palaeochannel. Drilling at Lake Rason in 2019 comprised four holes for 405 m. Drilling targeted the off-lake transition of the brine grade at the surface and at depth. The drill holes encountered the northern edge of the palaeovalley and the highly weathered Paterson formation, inclusive of fluvial derived sand deposits at depth. A total 81 brine samples were obtained during drilling with hole LRACT001 intersecting 52 m of sands/conglomerates with an average grade of 2,350 mg/l K (or 5,230 mg/l SOP equivalent) from 44 m. Lake Hope Campbell Prospect: The Lake Hope Campbell Prospect lies around 120 km east of Laverton along the Lake Rason Road, and covers approximately 814 km2 of tenements incorporating over 100 km2 of inferred palaeochannel and the 35 km2 Lake Hope Campbell. This inaugural aircore drilling program over the lake commenced in mid-November 2019 targeting the interpreted palaeochannel aquifers at depth at Lake Hope Campbell, with the aim of obtaining brine and lithological samples for laboratory and Particle Size Distribution (PSD) analysis and to define the nature and extent of the palaeochannel sequence. The program comprised a total of twenty aircore holes for 1,455 m. The basal sand aquifers are up to 40 m apparent thickness in places (including LHCACT008 and LHCACT011) and have a favorable high permeability, confirmed by field observations during drilling with strong brine flow rates identified from in-hole air lifts. The spacing between the initial drill transects along the palaeochannel trend at Lake Hope Campbell is at least 7 km in the southern part of the project and up to 10 km in the north, highlighting the potentially significant strike length of these thick, permeable basal sand aquifers. The drilling program has successfully provided a strong understanding of the palaeochannel trends within the Lake Hope Campbell Prospect, with several holes encountering thick sand sequences comprising medium- coarse grained, clean sands with occasional well-rounded very coarse pebble layers (examples include LHCACT002, LHCACT008, LHCACT010, LHCACT011, LHCACT017 and LHCACT018). Brine grades ranged from 1,000 mg/l K to 2,360 mg/l.