my country is expected to find its first large-scale lithium deposit in the Himalayan mineralization belt

PHPz
Release: 2024-08-22 20:17:51
Original
923 people have browsed it

News from this site on August 22. According to official news from the China Geological Survey, from August 20 to 22, in order to speed up the implementation of the new round of mineral prospecting breakthrough strategic action deployment of the Ministry of Natural Resources and the China Geological Survey, vigorously promote the Himalayan An academic seminar on the construction of metallogenic belts and large-scale resource bases, Himalayan lithium-tin prospecting progress and the construction of large-scale resource bases was held in Shannan, Tibet. Note from this site: The metallogenic zone, also known as the metallogenic zone (Metallogenic zone/ Belt), is an area with common characteristics in geological structure, geological development history and mineralization. It is distributed in a long and narrow strip called a belt (length and width). The ratio is greater than 2), and the aspect ratio is close to the area (less than 2:1). The meeting focused on the prospecting progress and direction of lithium beryllium tin and other large-scale resource bases in the Himalayan metallogenic belt, sorted out and summarized the research results and prospecting progress on the Himalayan collision orogeny process and the lithium beryllium tin polymetallic mineralization rules, and analyzed the key constraints on the construction of resource bases. Scientific issues, and discuss the deployment direction of resource base construction. Experts and scholars from China Geological Survey, Chinese Academy of Sciences, Tibet Autonomous Region Geological Exploration Bureau, Nanjing University, China University of Geosciences (Beijing) and other units and universities gave conference reports. The meeting held that the Chengdu Geological Survey Center and other units have long been taking root in the Himalayan mineralization belt to carry out geological survey work. Based on the detailed analysis of the dome structure and material structure of the Cona Cave in the eastern Himalayas, they have innovatively proposed a new model of Himalayan magma-dome-rare metal mineralization. Model. In 2023, this model was used to discover a large tin polymetallic deposit in the Longzi Xianglin area, and a new pegmatite-type lithium deposit was discovered in the Luozhagabo area. Since the beginning of this year, the basic holes of the drill holes deployed in the Gabo area have discovered minerals, making important breakthroughs in prospecting, and are expected to deliver the first large-scale lithium deposit in the Himalayan mineralization belt.

my country is expected to find its first large-scale lithium deposit in the Himalayan mineralization belt

The meeting pointed out:

The Himalayan tectonic belt is an important part of the East Tethys tectonic domain. It has developed the largest highly differentiated leucogranite belt in the world and has good lithium beryllium tin polymetallic mineralization potential. and prospecting prospects.

Specific measures:

  1. System advantages of the Coordination Bureau:Select key areas with high resource potential and the ability to quickly achieve breakthroughs in prospecting.
  2. Intensify basic geological survey and scientific and technological research efforts:Create a model of coordination and linkage between central, local and enterprise.
  3. Promote the construction of large-scale resource bases such as lithium and tin in the Himalayan metallogenic belt:Promote resource development and utilization.

The above is the detailed content of my country is expected to find its first large-scale lithium deposit in the Himalayan mineralization belt. For more information, please follow other related articles on the PHP Chinese website!

Related labels:
source:ithome.com
Statement of this Website
The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn
Latest Downloads
More>
Web Effects
Website Source Code
Website Materials
Front End Template
About us Disclaimer Sitemap
php.cn:Public welfare online PHP training,Help PHP learners grow quickly!