Northwire Canada EditionFriday, July 10, 2026
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AUMN 0.275 +0.0% GGX 0.040 +0.0% S 0.155 +29.2% NNX 0.035 +0.0% ABX 51.90 −0.6% TTS 2.40 −4.0% FCI 0.400 −9.1% GR 0.075 +0.0% AII 23.38 +12.4% TUNG 1.72 +1.8% LGO 1.01 −2.9% EMM 0.080 +0.0% OGN 3.45 +2.1% MSA 6.67 +3.7% SGZ 0.040 −11.1% GRSL 0.310 −3.1% AUMN 0.275 +0.0% GGX 0.040 +0.0% S 0.155 +29.2% NNX 0.035 +0.0% ABX 51.90 −0.6% TTS 2.40 −4.0% FCI 0.400 −9.1% GR 0.075 +0.0% AII 23.38 +12.4% TUNG 1.72 +1.8% LGO 1.01 −2.9% EMM 0.080 +0.0% OGN 3.45 +2.1% MSA 6.67 +3.7% SGZ 0.040 −11.1% GRSL 0.310 −3.1%
Drill Results

New Earth Resources Discusses Integrated High-Resolution Airborne Geophysical Techniques for Targeted Rare Earth Element Exploration on its Red Wine Rare Earth Elements Project

EATH · Price

Executive Summary

  • New Earth Resources Corp. released integrated high‑resolution airborne magnetic and radiometric survey results for its Red Wine Rare Earth Elements (REE) project in central Labrador.
  • The combined datasets identified multiple high‑priority structural targets, thorium anomalies, elevated Th/K ratios, and magnetic lows/highs that are indicative of REE mineralization.
  • These geophysical insights will guide forthcoming ground sampling, spectrometer surveys, and future drilling programs to better define potential REE deposits.

Key Details

  • Survey Coverage: Approximately 1,575 ha (the Red Wine Property) in the Central Mineral Belt of Labrador.
  • Data Integration: High‑resolution magnetic (mag) and radiometric (rad) data were merged to map structural controls, lithological contacts, faults, shears, and intrusive bodies.
  • Target Identification:
  • Multiple high‑priority targets aligned with REE‑bearing intrusive complexes.
  • Strong spatial correlation between equivalent thorium (eTh) anomalies and structural trends/lithologic contacts.
  • Elevated Th/K ratios used as a proxy for total REE enrichment.
  • Magnetic lows targeted as potential carbonatite hosts; magnetic highs associated with iron‑oxide‑apatite hosted REE deposits.
  • Modeling Techniques:
  • 3‑D inversion of magnetic data to define geometry and depth of intrusive bodies for future drilling targets.
  • Geophysical response modeling of known REE occurrences to refine the broader geological framework.
  • Ground Follow‑up Plans:
  • Radiometric anomalies will direct soil and rock chip sampling in zones with highest surface mineralization.
  • Ground‑based spectrometer surveys and detailed mapping where radiometric highs coincide with magnetic anomalies.
  • Historical Context: The Red Wine Complex includes peralkaline volcanic, porphyritic, and plutonic rocks historically associated with REE, zirconium, niobium, and yttrium mineralization (e.g., Two Tom, North Red Wine, Partridge River, Mann).
  • Qualified Person: Technical content reviewed and approved by Mr. Babak V. Azar, P.Geo., independent qualified person under NI 43‑101.

Notable Quotes

“The integration of high-resolution magnetic and radiometric data will allow us to potentially pinpoint structurally controlled target zones accurately,” said Lawrence Hay, CEO of New Earth. “By overlaying these geophysical datasets, we can precisely identify and rank high‑potential corridors for REE enrichment, which would directly optimize our exploration strategy.”

Read the original news release →

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