The Lihir gold deposit (also known as Ladolam), has a 56 Moz resource and is the world’s largest alkalic gold deposit in terms of contained gold. It is located on Lihir Island, part of the Tabar-Lihir-Tanga-Feni island chain, New Ireland Province, Papua New Guinea. The Tabar-Lihir-Tanga-Feni island chain formed in a complex tectonic environment over the past four million years. Docking of the colossal Ontong Java Plateau at the Melanesian trench during the Miocene caused near-complete cessation of magmatism and a reversal of subduction polarity, forming the markedly northward-convex New Britain Trench. Pliocene to Recent subduction along the New Britain Trench was coeval with sinistral transposition of New Ireland relative to New Britain, ...
The 56 Moz Ladolam gold deposit, with an average gold grade of 2.42 g/t, has previously been recogn...
The exceptionally large gold resource at Ladolam (>1,300 metric tons of gold), Lihir Island, resulte...
Highlights • Review of the critical processes controlling ore formation in the New Ireland Bas...
The Lihir gold deposit (also known as Ladolam), has a 56 Moz resource and is the world’s largest alk...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir gold deposit is the world’s largest alkalic low-sulfidation epithermal gold deposit in ter...
The Lihir gold deposit is the world’s largest alkalic low-sulfidation epithermal gold deposit in ter...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The 46 Moz. Ladolam gold deposit is located on Lihir Island, Papua New Guinea and is the world’s la...
The 46 Moz. Ladolam gold deposit is located on Lihir Island, Papua New Guinea and is the world’s la...
The 56 Moz Ladolam gold deposit, with an average gold grade of 2.42 g/t, has previously been recogn...
The 56 Moz Ladolam gold deposit, with an average gold grade of 2.42 g/t, has previously been recogn...
The exceptionally large gold resource at Ladolam (>1,300 metric tons of gold), Lihir Island, resulte...
Highlights • Review of the critical processes controlling ore formation in the New Ireland Bas...
The Lihir gold deposit (also known as Ladolam), has a 56 Moz resource and is the world’s largest alk...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir Au deposit (also known as Ladolam), Papua New Guinea, has a 56-Moz resource and is the wor...
The Lihir gold deposit is the world’s largest alkalic low-sulfidation epithermal gold deposit in ter...
The Lihir gold deposit is the world’s largest alkalic low-sulfidation epithermal gold deposit in ter...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The Lihir gold deposit, Papua New Guinea, is the world’s largest alkalic low-sulfidation epithermal ...
The 46 Moz. Ladolam gold deposit is located on Lihir Island, Papua New Guinea and is the world’s la...
The 46 Moz. Ladolam gold deposit is located on Lihir Island, Papua New Guinea and is the world’s la...
The 56 Moz Ladolam gold deposit, with an average gold grade of 2.42 g/t, has previously been recogn...
The 56 Moz Ladolam gold deposit, with an average gold grade of 2.42 g/t, has previously been recogn...
The exceptionally large gold resource at Ladolam (>1,300 metric tons of gold), Lihir Island, resulte...
Highlights • Review of the critical processes controlling ore formation in the New Ireland Bas...