3,114 Soil Samples Reveal Five High-Priority Gold Targets at Mount Mackenzie
QMines Limited has reprocessed over 3,100 historical soil samples at its Mount Mackenzie Gold Project, revealing extensive gold-silver-arsenic anomalies aligned with key geological features. A multi-rig drilling campaign is now underway to test these high-priority targets.
- Reprocessing of 3,114 historical soil samples reveals large gold-silver-arsenic anomalies
- Five priority high-sulphidation epithermal system targets identified for drilling
- Geochemical anomalies align with magnetic and structural data
- Multi-rig drilling program underway focusing on North Knoll resource extensions
- Mount Mackenzie lies within a significant magmatic-hydrothermal corridor with strong growth potential
Revealing Hidden Potential Through Data Reprocessing
QMines Limited (ASX – QML) has taken a significant step forward in unlocking the potential of its Mount Mackenzie Gold Project in central Queensland. By reprocessing and statistically normalising a vast dataset of 3,114 historical soil samples collected over three decades, the company has delineated multiple large-scale gold-silver-arsenic anomalies. These anomalies are consistent with a high-sulphidation epithermal system, a style of mineralisation known for hosting economically significant gold deposits.
Integrated Geological Insights Highlight Priority Targets
The reprocessed geochemical data aligns strongly with magnetic and structural datasets, revealing coherent corridors of mineralisation along the Connors–Auburn Arc. QMines has identified five priority anomalies, including the Northern Corridor near the North Knoll resource and the Southern Flats anomaly, where geochemical and magnetic signatures converge. These intersections are interpreted as structurally controlled hydrothermal upflow zones, making them compelling targets for immediate drilling.
Drilling Program Underway to Expand Resource Footprint
Building on this refined geological framework, QMines has initiated a multi-rig drilling campaign focused initially on extending the North Knoll resource. The program will subsequently test the newly defined geochemical and geophysical anomalies, aiming to confirm mineralisation continuity along strike and at depth. This systematic approach leverages modern data analytics to prioritise targets and reduce exploration risk.
Geological Context Supports Significant Upside
Mount Mackenzie sits within a Late Carboniferous magmatic-hydrothermal corridor characterized by complex fault networks and intrusive bodies that have historically channelled metal-rich fluids. The mineralisation style, dominated by advanced argillic alteration and precious metal sulphides, is typical of productive epithermal systems. The project’s geological setting and the scale of the anomalies suggest substantial potential for resource growth beyond current estimates.
A Data-Driven Path Forward
QMines’ meticulous approach to data normalisation and integration provides a robust foundation for ongoing exploration. By harmonising legacy datasets and applying advanced statistical techniques, the company has enhanced the signal-to-noise ratio, enabling clearer identification of genuine mineralisation trends. This methodical process underpins the current drilling strategy and positions Mount Mackenzie as a promising asset within QMines’ Queensland portfolio.
Bottom Line?
As drilling progresses, QMines’ data-driven exploration at Mount Mackenzie could redefine the project’s resource potential and reshape its growth trajectory.
Questions in the middle?
- How will upcoming drill results validate the newly identified geochemical anomalies?
- What are the implications of the magnetic and structural data alignment for deeper mineralisation?
- Could the Mount Mackenzie project become a cornerstone asset for QMines’ future production plans?
