Exploring Porphyry/Epithermal Systems and Advanced Argillic Alteration in Mining Exploration - Discussion with PhD Antonio Arribas
This video explores the relevance of exploring porphyry/epithermal systems and advanced argillic alteration in mining exploration. It categorizes the genetic environments and mineral alterations associated with these systems.
00:00:00 PHD. Antonio Arribas, a geologist with over 30 years of experience, discusses the relevance of exploring porphyry/epithermal systems and advanced argillic alteration in mining exploration. He categorizes the genetic environments and mineral alterations associated with these systems.
The speaker is an experienced geologist with expertise in economic geology and mineral exploration.
There are different genetic environments for alteration minerals, including porphyry and epithermal systems.
The speaker discusses advanced acid alteration environments and how different minerals form in these environments.
00:17:35 Summary: The video discusses different types of porphyry/epithermal systems and exploration methods. It explains the characteristics of each system and provides examples from various mining sites.
The video discusses the formation and exploration of porphyry/epithermal systems.
These systems are characterized by different alteration zones, such as the high-temperature porphyry zone and the acid-sulfate epithermal zone.
The presence of specific minerals, such as kaolinite and alunite, can indicate the presence of mineralization in these systems.
00:35:10 This video discusses the exploration of porphyry/epithermal systems. It covers topics such as the formation of mineral deposits, the association of minerals, and practical recommendations for exploration.
❓ The video discusses the concept of lito capping and its relation to porphyry mineralization.
🔴 Lito capping is an alteration process that occurs at the base of porphyry systems, characterized by acidic alterations and the presence of moscovite.
💡 The distance between the lito cap and the porphyry mineralization can vary, ranging from immediate contact to several hundred meters.
00:52:46 The video discusses the exploration of porphyry/epithermal systems and the different types of alteration and minerals found in these systems. It also explains the formation of low and high sulfidation deposits and the factors that influence the concentration of gold and silver in these deposits.
📚 In the video, Dr. Antonio Arribas discusses the differences in porphyry systems and epithermal systems in exploration.
🔍 He explains that in the Lepanto deposit in the Philippines, the porphyry system is directly in contact with the base of the deposit, while in other regions, such as the Pacific, the situation is different.
🌋 Additionally, he highlights the significance of distinguishing between different types of alteration in volcanic environments, such as sting and acid sulfate alterations, as well as the formation of aluminate in epithermal environments.
01:10:20 Learn about the formation and evolution of hydrothermal systems and the different environments of mineralization. Understand the importance of jarosite in exploration and the challenges of determining the number of mineralization pulses.
The video discusses different types of sulfide mineralization environments based on sulfur concentration.
The evolution of hydrothermal systems depends on factors like temperature and rock reactivity.
Jarosite is a mineral that forms in supergene and possibly low-temperature environments.
01:27:58 This video discusses the exploration of porphyry/epithermal systems. It explores different textures and formations within these systems, as well as the genetic relationship between porphyry deposits and epithermal deposits. The distribution and geochemical indicators for exploration purposes are also discussed.
👉 The video discusses the exploration of porphyry/epithermal systems and their characteristics.
🌋 Porphyry and epithermal systems have different features and are formed in different geological environments.
⚗️ Geochemical distribution of certain elements can be indicative of mineralization in these systems.
01:45:33 A forum on porphyry/epithermal systems and exploration by PhD Antonio Arribas. The forum discusses diagnostic elements, mineralization types, alteration, and ages of formations.
Sistema Pórfidos/Epitermales y Exploración
There are diagnostic elements that are important to measure in relation to mineralization types
Mineralization can be associated with different metals such as carbon, copper, zinc, lead, gold, and silver
Different types of mineralization occur in different geological environments
The formation of lithocaps is contemporaneous with alteration formation
Pilot Filita is often associated with a worm-like texture and may contain tourmaline
There is flexibility in the geological model due to variations in time and other factors
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