Vietnam has significant mineral resources located predominantly in the northern region. Deposits of bauxite, phosphates, and rare earth elements have global significance. Other substantial resources include oil, coal, gold, iron ore, chromite, tin, ilmenite, copper, graphite, and more. Vietnam's diverse geology due to its tectonic setting is responsible for this mineral wealth. Current production includes oil (3.5 Mt/year), coal (10.7 Mt/year), chromite (3.5 Mt/year), gold (around 1,000 kg/year), and many industrial minerals. However, the mining industry remains underdeveloped relative to the country's mineral endowment and potential for growth
The Tectonic and Metallogenic Framework of Myanmar: A Tethyan mineral systemMYO AUNG Myanmar
Article in Ore Geology Reviews · April 2016
https://www.researchgate.net/publication/301758202_The_tectonic_and_metallogenic_framework_of_Myanmar_A_Tethyan_mineral_system
1st Nicholas Gardiner
18.94 · Curtin University
2nd Laurence Robb
34.91 · University of Oxford
+ 5
3rd Christopher K. Morley
40.58 · Chiang Mai University
Last Tin Aung Myint
Abstract
Myanmar is perhaps one of the world's most prospective but least explored minerals jurisdictions, containing important known deposits of tin, tungsten, copper, gold, zinc, lead, nickel, silver, jade and gemstones. A scarcity of recent geological mapping available in published form, coupled with an unfavourable political climate, has resulted in the fact that, although characterized by several world-class deposits, the nation's mineral resource sector is underdeveloped. As well as representing a potential new search space for a range of commodities, many of Myanmar's known existing mineral deposits remain highly prospective. Myanmar lies at a crucial geologic juncture, immediately south of the Eastern Himalayan Syntaxis, however it remains geologically enigmatic. Its Mesozoic-Recent geological history is dominated by several orogenic events representing the closing of the Tethys Ocean. We present new zircon U-Pb age data related to several styles of mineralization within Myanmar. We outline a tectonic model for Myanmar from the Late Cretaceous onwards, and document nine major mineralization styles representing a range of commodities found within the country. We propose a metallogenetic model that places the genesis of many of these metallotects within the framework of the subduction and suturing of Neo-Tethys and the subsequent Himalayan Orogeny. Temporal overlap of favourable conditions for the formation of particular deposit types during orogenic progression permits the genesis of differing metallotects during the same orogenic event. We suggest the evolution of these favourable conditions and resulting genesis of much of Myanmar's mineral deposits, represents a single, evolving, mineral system: the subduction and suturing of Neo-Tethys.
massive type interlayer with gabbroic rocks in the Eastern Desert; Main occurrences of Ti-Fe oxide deposits in Egypt; Abu Ghalaga Ore Deposit; Abu Ghalaga ilmenite ore deposit categories ; Abu Ghalaga Mineral composition; Mining Techniques; Origins; Korabkanci titano-magnetite ore; black sand placer deposits type; Rosetta (or Rashid East); Northern Sinai Coast
This document provides a summary of the geology and mineral potential of Ethiopia. It includes:
- An overview of the main rock types in Ethiopia, which include Precambrian metamorphic rocks, late Paleozoic to Mesozoic sediments, and Cenozoic volcanic rocks.
- Details on the Precambrian basement rocks, which occupy a large portion of the country and contain valuable metallic resources. Late Paleozoic to Mesozoic sediments overlie the basement in some areas.
- Cenozoic volcanic rocks associated with rifting areas have energy resources potential, while the diverse older rock types host a variety of industrial minerals and construction materials.
- The document
In 1987, gems were discovered in the Luc Yen area of Vietnam’s Yen Bai province. Ruby, sapphire, and spinel from primary and secondary deposits are the most valuable of these; tourmaline, gem-quality feldspar, pargasite, and humite are also mined there. As a result of this discovery, the Luc Yen district has become Vietnam’s most important gemstone-trading center over the past 30 years.
PETROGENESIS OF GRANITOID ROCKS AND ORIGIN OF URANIUM MINERALIZATIONS OF UM S...Dr. Ibr@him
- The granitoid rocks of Um Safi area were divided into three magmatic cycles based on field relationships, petrography, and geochemistry.
- The older granitoids (Cycle 1) have calc-alkaline, metaluminous characteristics and were emplaced during a pre-plate collision to post-collision uplift regime.
- The younger biotite granites and perthite sub-leucogranites (Cycle 2) have calc-alkaline, metaluminous compositions and were emplaced during a late-orogenic regime.
- The youngest muscovite sub-leucogranites (Cycle 3) are peraluminous and
Myanmar known until recently as Burma, is slowly but steadily starting to attract foreign investment, driven mainly by international resource firms eager to tap into the mineral-rich South East Asia's country. After more than half a century of military ruling, Burma has started benefitting from the recent suspension of sanctions by Canada, the United States and the European Union. Myanmar's gold production is increasing and could prove a key factor for the country's economic growth, but many gold miners are suffering from lung diseases due to inadequate equipment and antiquated practices. In mineral-rich areas of Kachin State, taxes from Burmese and Chinese gold mining provides an important income stream to the Kachin Independence Organization. However, these mining companies use mercury in an environmentally hazardous extraction process, which can lead to long-lasting damage for the area's forests and river ways.
COLLECTION FOR MYANMAR GEOLOGY STUDENTS AND LEARNERS-1MYO AUNG Myanmar
COLLECTION FOR MYANMAR GEOLOGY STUDENTS AND LEARNERS-1
Geology of the High Sulfidation Copper Deposits, Monywa Mine, Myanmar
Andrew H. G. Mitchell Win Myint Kyi Lynn Myint Thein Htay Maw Oo Thein Zaw
Resource GeologyVolume 61, Issue 1
First published: 22 December 2010
https://onlinelibrary.wiley.com/doi/epdf/10.1111/j.1751-3928.2010.00145.x
Active tectonics and earthquake potential of the Myanmar region
Yu Wang Kerry Sieh Soe Thura Tun Kuang‐Yin Lai Than Myint
Journal of Geophysical Research: Solid EarthVolume 119, Issue 4
First published: 15 March 2014
https://agupubs.onlinelibrary.wiley.com/doi/epdf/10.1002/2013JB010762
Plate tectonics, like crustal evolution, provides a basis for understanding the distribution and origin of mineral and energy deposits. Different types of ores are characterized by distinct geological environment and tectonic settings.
The Tectonic and Metallogenic Framework of Myanmar: A Tethyan mineral systemMYO AUNG Myanmar
Article in Ore Geology Reviews · April 2016
https://www.researchgate.net/publication/301758202_The_tectonic_and_metallogenic_framework_of_Myanmar_A_Tethyan_mineral_system
1st Nicholas Gardiner
18.94 · Curtin University
2nd Laurence Robb
34.91 · University of Oxford
+ 5
3rd Christopher K. Morley
40.58 · Chiang Mai University
Last Tin Aung Myint
Abstract
Myanmar is perhaps one of the world's most prospective but least explored minerals jurisdictions, containing important known deposits of tin, tungsten, copper, gold, zinc, lead, nickel, silver, jade and gemstones. A scarcity of recent geological mapping available in published form, coupled with an unfavourable political climate, has resulted in the fact that, although characterized by several world-class deposits, the nation's mineral resource sector is underdeveloped. As well as representing a potential new search space for a range of commodities, many of Myanmar's known existing mineral deposits remain highly prospective. Myanmar lies at a crucial geologic juncture, immediately south of the Eastern Himalayan Syntaxis, however it remains geologically enigmatic. Its Mesozoic-Recent geological history is dominated by several orogenic events representing the closing of the Tethys Ocean. We present new zircon U-Pb age data related to several styles of mineralization within Myanmar. We outline a tectonic model for Myanmar from the Late Cretaceous onwards, and document nine major mineralization styles representing a range of commodities found within the country. We propose a metallogenetic model that places the genesis of many of these metallotects within the framework of the subduction and suturing of Neo-Tethys and the subsequent Himalayan Orogeny. Temporal overlap of favourable conditions for the formation of particular deposit types during orogenic progression permits the genesis of differing metallotects during the same orogenic event. We suggest the evolution of these favourable conditions and resulting genesis of much of Myanmar's mineral deposits, represents a single, evolving, mineral system: the subduction and suturing of Neo-Tethys.
massive type interlayer with gabbroic rocks in the Eastern Desert; Main occurrences of Ti-Fe oxide deposits in Egypt; Abu Ghalaga Ore Deposit; Abu Ghalaga ilmenite ore deposit categories ; Abu Ghalaga Mineral composition; Mining Techniques; Origins; Korabkanci titano-magnetite ore; black sand placer deposits type; Rosetta (or Rashid East); Northern Sinai Coast
This document provides a summary of the geology and mineral potential of Ethiopia. It includes:
- An overview of the main rock types in Ethiopia, which include Precambrian metamorphic rocks, late Paleozoic to Mesozoic sediments, and Cenozoic volcanic rocks.
- Details on the Precambrian basement rocks, which occupy a large portion of the country and contain valuable metallic resources. Late Paleozoic to Mesozoic sediments overlie the basement in some areas.
- Cenozoic volcanic rocks associated with rifting areas have energy resources potential, while the diverse older rock types host a variety of industrial minerals and construction materials.
- The document
In 1987, gems were discovered in the Luc Yen area of Vietnam’s Yen Bai province. Ruby, sapphire, and spinel from primary and secondary deposits are the most valuable of these; tourmaline, gem-quality feldspar, pargasite, and humite are also mined there. As a result of this discovery, the Luc Yen district has become Vietnam’s most important gemstone-trading center over the past 30 years.
PETROGENESIS OF GRANITOID ROCKS AND ORIGIN OF URANIUM MINERALIZATIONS OF UM S...Dr. Ibr@him
- The granitoid rocks of Um Safi area were divided into three magmatic cycles based on field relationships, petrography, and geochemistry.
- The older granitoids (Cycle 1) have calc-alkaline, metaluminous characteristics and were emplaced during a pre-plate collision to post-collision uplift regime.
- The younger biotite granites and perthite sub-leucogranites (Cycle 2) have calc-alkaline, metaluminous compositions and were emplaced during a late-orogenic regime.
- The youngest muscovite sub-leucogranites (Cycle 3) are peraluminous and
Myanmar known until recently as Burma, is slowly but steadily starting to attract foreign investment, driven mainly by international resource firms eager to tap into the mineral-rich South East Asia's country. After more than half a century of military ruling, Burma has started benefitting from the recent suspension of sanctions by Canada, the United States and the European Union. Myanmar's gold production is increasing and could prove a key factor for the country's economic growth, but many gold miners are suffering from lung diseases due to inadequate equipment and antiquated practices. In mineral-rich areas of Kachin State, taxes from Burmese and Chinese gold mining provides an important income stream to the Kachin Independence Organization. However, these mining companies use mercury in an environmentally hazardous extraction process, which can lead to long-lasting damage for the area's forests and river ways.
COLLECTION FOR MYANMAR GEOLOGY STUDENTS AND LEARNERS-1MYO AUNG Myanmar
COLLECTION FOR MYANMAR GEOLOGY STUDENTS AND LEARNERS-1
Geology of the High Sulfidation Copper Deposits, Monywa Mine, Myanmar
Andrew H. G. Mitchell Win Myint Kyi Lynn Myint Thein Htay Maw Oo Thein Zaw
Resource GeologyVolume 61, Issue 1
First published: 22 December 2010
https://onlinelibrary.wiley.com/doi/epdf/10.1111/j.1751-3928.2010.00145.x
Active tectonics and earthquake potential of the Myanmar region
Yu Wang Kerry Sieh Soe Thura Tun Kuang‐Yin Lai Than Myint
Journal of Geophysical Research: Solid EarthVolume 119, Issue 4
First published: 15 March 2014
https://agupubs.onlinelibrary.wiley.com/doi/epdf/10.1002/2013JB010762
Plate tectonics, like crustal evolution, provides a basis for understanding the distribution and origin of mineral and energy deposits. Different types of ores are characterized by distinct geological environment and tectonic settings.
The Tectonic and Metallogenic Framework of MyanmarMYO AUNG Myanmar
https://research-repository.st-andrews.ac.uk/bitstream/handle/10023/10689/Cawood_2016_Myanmar_OGR_AM.pdf?sequence=1
The Tectonic and Metallogenic Framework of
Myanmar: A Tethyan Mineral System
Nicholas J. Gardiner1,9*
, Laurence J. Robb1
, Christopher K. Morley2,3
,
Michael P. Searle1
, Peter A. Cawood4
, Martin J. Whitehouse5
,
Christopher L. Kirkland6
, Nick M.W. Roberts7
, Tin Aung Myint8
1. Department of Earth Sciences, University of Oxford, Oxford OX1 3AN, United
The document provides information on the geology and mineralization of the Henty Gold Mine in Tasmania. It summarizes that the mine contains four major zones of gold mineralization within altered volcanic rocks, with the deepest zone being Zone 96 which contains reserves of 526,000 tonnes at 26.2 g/t gold. Regional geology of the area places the mine within the Cambrian Mount Read Volcanic Belt, known for other base and precious metal deposits. Gold mineralization at Henty is hosted within quartz phyric volcanic and volcaniclastic rocks of the Tyndall Group formation.
The document provides an overview of the geological and mining potential of Ecuador. It discusses the country's six main geo-structural domains from west to east, including the fore arc basin of the coast, western cordillera, inter-andean graven, real or central cordillera, eastern subandean zone, and back arc basin of Iquitos. Each domain hosts various mineral deposit types with potential for gold, copper, iron, and other metals. Major mining districts in Ecuador include Azuay, La Plata, Imbaoeste, Alao Paute, and Zamora, which contain porphyry copper, epithermal gold, and volcanic massive sulfide deposits.
The San Sai oil field is an important oil field in the Fang Basin. The sedimentary facies and basin
evolution have been interpreted using well data incorporated with 2D seismic profiles. The study indicates that
the Fang Basin was subsided as a half-graben in the Late Eocene by regional plate tectonism. The deposit is
thicker westward toward the major fault. The sedimentary sequence of the Fang Basin can be subdivided into
two formations which comprise five associated depositional environments. The results of total organic carbon
content (TOC), vitrinnite reflectance (%Ro), Rock-Eval pyrolysis and headspace gas analyses and the study of
basin modeling using PetroMod1D software are compiled and interpreted. They indicate that source rocks of
kerogen type II and III with 1.78 – 3.13%wt. TOC were mature and generated mainly oil at 5,600 – 6,700 feet
deep (Middle Mae Sod Formation). Source rocks of kerogen type II and III with 2.07 – 39.07%wt. TOC
locating deeper than 6,700 feet (Lower Mae Sod Formation) were mature to late mature and generated mainly
gas at this level. According to TTI (Time Temperature Index) modeling using PetroMod11.1D software,
hydrocarbon generation took place in the Middle Miocene and the generated oil and gas migrated through
fractures and faults to accumulate in traps at 2,900-4,000 feet deep (Upper Mae Sod Formation).
The document summarizes the mineralogical and textural evolution of manganese mineralization in western Rhodope massif in northern Greece. It finds that economic manganese oxide deposits formed through weathering of hydrothermal veins related to Oligocene magmatism. At Kato Nevrokopi, progressive weathering of primary veins containing rhodochrosite and other minerals resulted in formation of supergene manganese oxide minerals like todorokite and nsutite in veins and cavities. The mineral paragenesis records the progressive oxidation of the deposits from primary carbonates to less hydrated manganese oxides over time.
Tectonic Processes and Metallogeny along the Tethyan Mountain Ranges of the M...MYO AUNG Myanmar
https://www.researchgate.net/publication/309130798_Tectonic_Processes_and_Metallogeny_along_the_Tethyan_Mountain_Ranges_of_the_Middle_East_and_South_Asia_Oman_Himalaya_Karakoram_Tibet_Myanmar_Thailand_Malaysia
The genesis of mineral deposits has been widely linked to speci c tectonic settings, but has less frequently been linked to tectonic processes. Understanding processes of oceanic and continental collision tectonics is crucial to understanding key factors leading to the genesis of magmatic-, metamorphic-, hydrothermal-, and sedimentary-related mineral deposits. Geologic studies of most ore deposits typically focus on the nal stages of concentration and emplacement. The ultimate source (mantle, lower crust, upper crust) of mineral deposits in many cases remains more cryptic. Uniquely, along the Tethyan collision zones of Asia, every stage of the conver- gence process can be studied from the initial oceanic settings where ophiolite complexes were formed, through subduction zone and island-arc settings with ultrahigh- to high-pressure metamorphism, to the continental col- lision settings of the Himalaya, and advanced, long-lived collisional settings such as Afghanistan, the Karakoram Ranges, and the Tibetan plateau. The India-Asia collision closed the intervening Neotethys ocean at ~50 Ma and resulted in the formation of the Himalayan mountain ranges, and increased crustal thickening, metamor- phism, deformation, and uplift of the Karakoram-Hindu Kush ranges, Tibetan plateau, and older collision zones across central Asia. Metallogenesis in oceanic crust (hydrothermal Cu-Au; Fe, Mn nodules) and mantle (Cr, Ni, Pt) can be deduced from ophiolite complexes preserved around the Arabia/India-Asia collision (Oman, Ladakh, South Tibet, Myanmar, Andaman Islands). Tectonic-metallogenic processes in island arcs and ancient subduc- tion complexes (VMS Cu-Zn-Pb) can be deduced from studies in the Dras-Kohistan arc (Pakistan) and the various arc complexes along the Myanmar-Andaman segment of the collision zone. Metallogenesis of Andean- type margins (Cu-Au-Mo porphyry; epithermal Au-Ag) can be seen along the Jurassic-Eocene Transhimalayan ranges of Pakistan, Ladakh, South Tibet, and Myanmar. Large porphyry Cu deposits in Tibet are related to both precollisional calc-alkaline granites and postcollisional alkaline adakite-like intrusions. Metallogenesis of continent-continent collision zones is prominent along the Myanmar-Thailand-Malaysia Sn-W granite belts, but less common along the Himalaya. The Mogok metamorphic belt of Myanmar is known for its gemstones associated with regional high-temperature metamorphism (ruby, spinel, sapphire, etc). In Myanmar it is likely that extensive alkaline magmatism has contributed extra heat during the formation of high-temperature meta- morphism. This paper attempts to link metallogeny of the Himalaya-Karakoram-Tibet and Myanmar collision zone to tectonic processes derived from multidisciplinary geologic studies.
The cu mo±au mineralizations associated to the high-k calc-alkaline granitoi...Alexander Decker
This document describes copper-molybdenum-gold mineralizations associated with granitoids in the Tifnoute Valley region of Morocco. The mineralizations appear related to granites dated at 561 and 558 million years old. Alteration halos containing pyrite surround the granites. Two types of mineralization are described: 1) A molybdenite mineralization spatially linked to the Imourkhssan granite, and 2) A copper-gold vein mineralization linked to fractures in the Askaoun granodiorite. Characteristics of the mineralizations, including associated alteration zones and metal assemblages, are discussed in the context of representing an arc-type porphyry
1. The document discusses exploration of the Mubda chromite deposit located in Samail Wilayat, Sultanate of Oman.
2. Fieldwork was conducted over 16 days to investigate the geology, geomorphology, and slopes of the area using topographic data.
3. Chemical analysis and geophysical methods revealed the rocks have a high chromite content and the deposits are generally located in dunite bodies. The entire area was found to have potential for economic chromite mining.
In this presentation we discuss cobalt crusts, its classification, Occurrence and Distribution, Formation, Texture, Mineralogy, Scope for future mining and exploration.
MONAZITE PROCESSING PLANT AT IREL CHATTRAPUR OVERVIEW BY JIBAN NATH PRADHANJiban nath Pradhan
I have finished my 1 month industrial training at IREL, Chattrapur, Odisha, India. At IREL, Chattrapur my project report was on Monazite Processing Plant (MoPP). So this is the short report made by me on MoPP. Thank You....
The document summarizes research on the metamorphic rocks of Timor island in Indonesia. It finds that the rocks can be divided into three groups based on metamorphic grade: 1) high-grade granulite and amphibolite facies rocks that may represent fragments of ancient continental crust; 2) greenschist facies metasedimentary and metavolcanic rocks; and 3) lustrous slates and associated rocks. All the metamorphic rocks are allochthonous thrust sheets. The high-grade rocks imply a Precambrian history for the region. Similar metamorphic rocks are found in other islands of the Outer Banda Arc, suggesting a shared tectonic history extending
The Geology of South Central Milos, L.Begley.Loman Begley
This document provides a summary of the geology mapping project conducted in south central Milos, Greece during the summer of 2016. The mapped area consists of rock units from three major periods - Mesozoic schist basement, overlain by Neogene sedimentary deposits and Pliocene-Pleistocene volcanic rocks. The Mesozoic schist is the oldest unit exposed on the island. Younger Neogene units include a basal fluvial conglomerate and sandstone sequence and overlying limestone formation. The youngest rocks are Pliocene-Pleistocene volcanic deposits from three eruptive periods that coincided with the island arc volcanism in the region.
Geological and Geochemical Characterization of the Neoproterozoic Derudieb Me...Premier Publishers
The meta- volcano - sedimentary sequences in the northern part of the Red Sea Hills comprise a sequence of metamorphosed rocks at low green schist facies of metamorphism consisting of lava flows, tuffs to breccias and agglomerates range in composition from basalts and andesites to rhyolites. Geologically the meta volcano sedimentary sequences is divided into metavolcanic rocks and metasediments. The metavolcanic rocks range in composition from mafic to felsic. The metasediments are represented by banded schist, quartzite and marble. The samples collected for study lie within the field of sub-alkaline rocks except one mafic volcanic sample, which plot near the boundary in the alkaline field and thus follow a transitional tholeiitic to calc-alkaline trend (increasing FeO* relative to MgO). The behavior of the large ion lithophile element (LILE) in the studied metavolcanics confirms the early fractionation of plagioclase. These rocks display negative Nb anomalies, suggesting that the melt source was modified by subduction-related fluids. Tectonically all felsic samples fall in the field of volcanic arc granitoids whereas the mafic units plot firmly within the plate margin field.
THE PRESENTATION OF MY GRADUATION PROJECT MetwallyHamza1
This is a presentation for my graduation project, which had been written by me, as a fulfillment of my B. Sc. in Geology and Chemistry, from Geology Department, Faculty of Science, Benha University, Egypt. Proudly I got (+A) in such a paper. These projects equipped me with perfect research and communication skills, as I had to present and defend in English in front of specialists.
Minerals are naturally occurring inorganic substances that make up rocks. They form through three main processes: magmatic, sedimentary, and metamorphic. Rocks are composed of minerals or organic materials and also form through igneous, sedimentary, and metamorphic processes. The Earth's interior is composed of layers including the crust, mantle, outer core, and inner core. Earthquakes occur along faults in the Earth's crust as the blocks of rock on either side move and release energy.
This document summarizes the tectono-stratigraphic framework and paleogeography of Southeast Asia from the Gulf of Thailand to the South Vietnam shelf during the Tertiary period. The authors constructed regional paleogeography maps for the Oligocene and Miocene eras based on stratigraphic correlations. During the Oligocene, extensive freshwater lakes and swamps dominated deposition, with some basins experiencing brackish incursion later in the period. Widespread marine flooding occurred in the late Oligocene. During the Miocene, marine influence gradually expanded across the region, reaching peak transgression in the middle Miocene associated with high sea levels. By the late Miocene, open marine conditions prevailed across most of
The Olympic Dam deposit in South Australia contains huge reserves of copper, uranium, gold, and silver. It is hosted by the Burgoyne batholith within the Olympic Dam Breccia Complex, which formed from repeated brecciation and hematite alteration over 1588 million years. BHP Billiton currently mines the deposit, producing around 200,000 tons of copper and 3,500 tons of uranium oxide annually from 9 million tons of ore. The deposit remains an important economic resource due to its large size and potential for further expansion.
Provenance, tectonic setting and diagenesis of the Mn-Fe coated terrigenous c...iosrjce
The arkosic and subordinate quartz-arenitic Mn-Fe coated terrigenous clasts were discovered to
occur in association with manganese nodules hosted by weathered Mn-Fe rich alluvial-fluvial sediments of the
Tertiary period in Carletonville area. The weathered Mn-Fe rich alluvial-fluvial sediments form the modern soil
profiles in the study area. The Scanning Electron Microscope and petrographic studies of the terrigenous clasts
indicated elevated content of manganese oxide precipitated in pore spaces between the framework grains as
well as forming surface coatings on hand specimen. These clasts are mined with manganese nodules in the study
area. The manganese nodules were formed from in situ concentration of Mn-oxide due to surficial weathering of
the underlying Mn-rich dolomites of the Malmani Subgroup and then concentrated as Mn-rich residues,
encircling rock fragments in soil profile. In contrast, Mn-Fe coated terrigenous clasts and the alluvial-fluvial
sediments were sourced from older geological basins. Therefore, the purpose of the study were to construct a
possible source area of Mn-Fe coated clasts and Mn-rich alluvial-fluvial sediments which hosted Mn-nodules in
the mine area and from the results deduce the overall source of manganese that is mined in the area. On the
basis of framework compositional analysis, the sediments were found to have been sourced from metamorphic
and granitic origins in a cratonic interior to recycle orogen and sedimentation occurred in low plain,
temperate, humid to subhumid climate. The sediment sources resembled the properties of the Archean granites
and gneisses of the Witwatersrand Supergroup and Rand Anticline ridge (quartzite formation) exposed far off
along the northern part of the study area on a high topographic mountain.
The document discusses potash deposits in Sicily and Ukraine that were historically mined. It summarizes:
1) In Sicily, kainite was the dominant potash mineral mined from late Miocene evaporite deposits in thrust-related basins. The largest mine was at Pasquasia, with kainite ore beds up to 30m thick.
2) In the Ukraine, kainite also dominated bedded potash deposits in the Miocene sequence of the Carpathian foredeep.
3) Both locations represent potash deposition in MgSO4-enriched seawater during the Neogene, unlike most of the Phanerozoic which had lower MgSO4 levels in
The Tectonic and Metallogenic Framework of MyanmarMYO AUNG Myanmar
https://research-repository.st-andrews.ac.uk/bitstream/handle/10023/10689/Cawood_2016_Myanmar_OGR_AM.pdf?sequence=1
The Tectonic and Metallogenic Framework of
Myanmar: A Tethyan Mineral System
Nicholas J. Gardiner1,9*
, Laurence J. Robb1
, Christopher K. Morley2,3
,
Michael P. Searle1
, Peter A. Cawood4
, Martin J. Whitehouse5
,
Christopher L. Kirkland6
, Nick M.W. Roberts7
, Tin Aung Myint8
1. Department of Earth Sciences, University of Oxford, Oxford OX1 3AN, United
The document provides information on the geology and mineralization of the Henty Gold Mine in Tasmania. It summarizes that the mine contains four major zones of gold mineralization within altered volcanic rocks, with the deepest zone being Zone 96 which contains reserves of 526,000 tonnes at 26.2 g/t gold. Regional geology of the area places the mine within the Cambrian Mount Read Volcanic Belt, known for other base and precious metal deposits. Gold mineralization at Henty is hosted within quartz phyric volcanic and volcaniclastic rocks of the Tyndall Group formation.
The document provides an overview of the geological and mining potential of Ecuador. It discusses the country's six main geo-structural domains from west to east, including the fore arc basin of the coast, western cordillera, inter-andean graven, real or central cordillera, eastern subandean zone, and back arc basin of Iquitos. Each domain hosts various mineral deposit types with potential for gold, copper, iron, and other metals. Major mining districts in Ecuador include Azuay, La Plata, Imbaoeste, Alao Paute, and Zamora, which contain porphyry copper, epithermal gold, and volcanic massive sulfide deposits.
The San Sai oil field is an important oil field in the Fang Basin. The sedimentary facies and basin
evolution have been interpreted using well data incorporated with 2D seismic profiles. The study indicates that
the Fang Basin was subsided as a half-graben in the Late Eocene by regional plate tectonism. The deposit is
thicker westward toward the major fault. The sedimentary sequence of the Fang Basin can be subdivided into
two formations which comprise five associated depositional environments. The results of total organic carbon
content (TOC), vitrinnite reflectance (%Ro), Rock-Eval pyrolysis and headspace gas analyses and the study of
basin modeling using PetroMod1D software are compiled and interpreted. They indicate that source rocks of
kerogen type II and III with 1.78 – 3.13%wt. TOC were mature and generated mainly oil at 5,600 – 6,700 feet
deep (Middle Mae Sod Formation). Source rocks of kerogen type II and III with 2.07 – 39.07%wt. TOC
locating deeper than 6,700 feet (Lower Mae Sod Formation) were mature to late mature and generated mainly
gas at this level. According to TTI (Time Temperature Index) modeling using PetroMod11.1D software,
hydrocarbon generation took place in the Middle Miocene and the generated oil and gas migrated through
fractures and faults to accumulate in traps at 2,900-4,000 feet deep (Upper Mae Sod Formation).
The document summarizes the mineralogical and textural evolution of manganese mineralization in western Rhodope massif in northern Greece. It finds that economic manganese oxide deposits formed through weathering of hydrothermal veins related to Oligocene magmatism. At Kato Nevrokopi, progressive weathering of primary veins containing rhodochrosite and other minerals resulted in formation of supergene manganese oxide minerals like todorokite and nsutite in veins and cavities. The mineral paragenesis records the progressive oxidation of the deposits from primary carbonates to less hydrated manganese oxides over time.
Tectonic Processes and Metallogeny along the Tethyan Mountain Ranges of the M...MYO AUNG Myanmar
https://www.researchgate.net/publication/309130798_Tectonic_Processes_and_Metallogeny_along_the_Tethyan_Mountain_Ranges_of_the_Middle_East_and_South_Asia_Oman_Himalaya_Karakoram_Tibet_Myanmar_Thailand_Malaysia
The genesis of mineral deposits has been widely linked to speci c tectonic settings, but has less frequently been linked to tectonic processes. Understanding processes of oceanic and continental collision tectonics is crucial to understanding key factors leading to the genesis of magmatic-, metamorphic-, hydrothermal-, and sedimentary-related mineral deposits. Geologic studies of most ore deposits typically focus on the nal stages of concentration and emplacement. The ultimate source (mantle, lower crust, upper crust) of mineral deposits in many cases remains more cryptic. Uniquely, along the Tethyan collision zones of Asia, every stage of the conver- gence process can be studied from the initial oceanic settings where ophiolite complexes were formed, through subduction zone and island-arc settings with ultrahigh- to high-pressure metamorphism, to the continental col- lision settings of the Himalaya, and advanced, long-lived collisional settings such as Afghanistan, the Karakoram Ranges, and the Tibetan plateau. The India-Asia collision closed the intervening Neotethys ocean at ~50 Ma and resulted in the formation of the Himalayan mountain ranges, and increased crustal thickening, metamor- phism, deformation, and uplift of the Karakoram-Hindu Kush ranges, Tibetan plateau, and older collision zones across central Asia. Metallogenesis in oceanic crust (hydrothermal Cu-Au; Fe, Mn nodules) and mantle (Cr, Ni, Pt) can be deduced from ophiolite complexes preserved around the Arabia/India-Asia collision (Oman, Ladakh, South Tibet, Myanmar, Andaman Islands). Tectonic-metallogenic processes in island arcs and ancient subduc- tion complexes (VMS Cu-Zn-Pb) can be deduced from studies in the Dras-Kohistan arc (Pakistan) and the various arc complexes along the Myanmar-Andaman segment of the collision zone. Metallogenesis of Andean- type margins (Cu-Au-Mo porphyry; epithermal Au-Ag) can be seen along the Jurassic-Eocene Transhimalayan ranges of Pakistan, Ladakh, South Tibet, and Myanmar. Large porphyry Cu deposits in Tibet are related to both precollisional calc-alkaline granites and postcollisional alkaline adakite-like intrusions. Metallogenesis of continent-continent collision zones is prominent along the Myanmar-Thailand-Malaysia Sn-W granite belts, but less common along the Himalaya. The Mogok metamorphic belt of Myanmar is known for its gemstones associated with regional high-temperature metamorphism (ruby, spinel, sapphire, etc). In Myanmar it is likely that extensive alkaline magmatism has contributed extra heat during the formation of high-temperature meta- morphism. This paper attempts to link metallogeny of the Himalaya-Karakoram-Tibet and Myanmar collision zone to tectonic processes derived from multidisciplinary geologic studies.
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1. Acta Montanistica Slovaca Ročník 5 (2000), 2, 165-172
Mineral resources of Vietnam
Imrich Kušnír 1
Nerastné suroviny Vietnamu
Vietnam je bohatý na nerastné suroviny, ktoré sa nachádzajú prevažne na severe krajiny. Ložiská bauxitov, fosfátov, vzácnych zemín
(REE), majú svetový význam. Ale i zásoby celého radu ďalších surovín (ropy, uhlia, zlata, železných rúd, chromitu, cínu, ilmenitu, medi,
grafitu, atď.) sú významné, ekonomicky ťažiteľné a ich potenciál je obrovský. Za uvedené nerastné bohatstvo je „zodpovedná“ rozmanitá
geologická stavba krajiny. Taktiež i morfológia a klíma (vlhká, tropická) prispeli ku vytvoreniu niektorých ložísk (bauxity v krasových
priehlbniach, atď.). Súčasná produkcia, okrem ropy (3,5 Mt/rok), zahrňuje: 10,7 Mt uhlia, 3,5 Mt chromitu, asi 1 000 kg zlata, grafitu,
kaolínu a mnohé iné minerály. Napriek tomu, je banícky priemysel v porovnaní so surovinovou základňou slabo vyvinutý. K jeho rozvoju
určite prispeje i účasť zahraničných spoločností, odnedávna prítomných pri prieskume a ťažbe surovín určených pre export.
Okrem stručného úvodu do geológie krajiny, obsahuje tento článok krátky popis nerastného bohatstva Vietnamu.
Key words: Vietnam, Indochina, Indochinese shield, Indosinian orogeny, mining, mineral resources, petroleum, coal, phosphates, gold,
bauxites, zinc-lead, mineral sands, rare earths.
Introduction
Vietnam, with an area of 335 000 km2
, occupies the eastern side of the Indochinese peninsula (fig. 1). It is
formed of a narrow (locally only 40-70 km) band of land, extending over 1 500 km along the Chinese sea. Most
of the northern Vietnam (Tonkin) and the centre of the country (Annam) are mountainous, reaching 3 142 m in
the Fan Si Pan massif, near the Chinese border. The climate is tropical, humid. Infrastructures in Vietnam remain
poor. Some 70% of the country's fast-growing population of 68 millions are engaged in agriculture. Rice is the
main staple, produced principally in the vast deltas of the Mekong and Red rivers. The country is well endowed
with mineral resources, located mostly in the north. The present mineral production includes various minerals
(coal, phosphate, cement, iron ores, chromite, gold, tin, kaolin, etc.) and oil. However, in comparison with the
country's mineral wealth, the mining sector is underdeveloped. This article presents a brief overview of the main
mineral resources of Vietnam and their potential, as well as an outline of the country's geology.
Geology of Vietnam
The geological exploration of Vietnam began after the French occupation of Indochina, at first aiming
mainly at the discovery of minerals. The Geological Survey of Indochina was set up in 1985 and first geological
studies occured in the 1910-20 (see Mansuy, 1912; Deprat, 1916; Bouret, 1922, etc.). The geological map at
1:400 000 of the Northern Vietnam was published in 1927 and that of Indochina at 1:2 000 000 in 1952
(Fromaget & Saurin, 1952). A major work on the geology of the peninsula was published in 1941 by Fromaget,
reflecting the ideas of the French scientists on the structure of the region. In the late 1950s and 1960s, the
Northern Vietnam was vigorously explored with the assistance of the eastern European countries (essentially
Soviet Union) and China; its geology was re-examined and a new geological map at 1:500 000 published (see
Dovzikov, 1965). Afterwards, the geological survey was focused mainly on the exploration of minerals, carried
on by the Vietnamese geologists and on the oil exploration with the foreign assistance.
Regional geological setting. Vietnam is constituted mainly by the folded belts surrounding two shields,
cratonised in the Upper Proterozoic: the Yangtze craton and the Indochinese shield, located in the Mekong basin
and occupying most of Cambodia and the contiguous parts of Laos and Vietnam (Fromaget, 1941; Sang & Ho,
1990, fig. 1). The folding occurred during the late-hercynian (early Triassic) orogenic movements, active mainly
in the central and southern Vietnam and the indosinian (late Triassic, ante-Norian) orogeny. The indosinian
folding domain occupies most of the North Vietnam, down to the Ca river fault. With the latter orogeny,
considered to be the most important of Indochina, was achieved the stabilisation of the region. However several
"active" structures (troughs/grabens) have been formed in the Mesozoic (Tu Le, Sam Nua, Dalat troughs) and in
the Cenozoic (eg. Hanoi, Cuu Long grabens, see Dovzikov, op. cit., fig. 2).
Stratigraphy (fig. 3). The substratum of Vietnam is formed by various rocks of precambrian to quaternary
age. The precambrian formations occur in the Kontum massif, extending over most of the central Vietnam, and
in the north of the country, principally along the Red river (fig. 2). The cristaline rocks (migmatites, ortho-
gneisses) cropping out between the Song Chay and Red rivers, are considered to be of a probable archean age.
1
Imrich Kušnír, 22, av. de Guyenne, F-92160 Antony, France
(Received April 8.1999)
165
2. Kušnír: Mineral resources of Vietnam
Fig.1. Tectonic map of Vietnam. 1-Cenozoic troughs, 2-Mesozoic
throughs, 3-Area of Indosinian folding (Lower Triassic), 4-Area of
Late-hercynian folding (Lower Triassic), 5Kontum massif, 6-Trap`
basalts, 7-Granite massifs, 8-Proterosoic, 9-Faults.
Fig.2. Simpli field geological map of Vietnam. 1°-Quaternary,
2-Basalts (traps), 3-Jurassic – Cretaceous, 4-Trisassic, 5-Paleozoic,
6-Proterozoic, 7-Granites, 7-Major faults.
Paleozoic formations are quite spread in Vietnam. They comprise cambrian series, thick silurian formations
(schists, sandstones ...) and devonian and permo-carboniferous limestones, covering vast areas in Annam and the
northern Vietnam, extending to China. Lower and middle triassic series are mainly terrigenous (schists,
sandstones) and volcanic. After the indosinian orogeny, during the Norian, continental series, containing large
coal deposits in the northern Vietnam, were laid down. In the troughs formed in Jurassic and Cretaceous, thick
continental series and volcanics were piled up. Tertiary and quaternary formations are deposited in several
grabens & troughts, the most important of which are located in the Mekong and Red rivers deltas. Plio-
pleistocene tholeitic basalts (traps) form vast plateaus in southern Vietnam (fig. 2).
Magmatism, intrusive rocks. Proterozoic intrusives comprise granites of the Chu Lai and the Tumorong
massifs, in the southern Vietnam, dated of 2 300 Ma (Nguyen, 1988) as well as the basic rocks of the Bao Ha -
Ca Vinh complexes and the granitic rocks, often gneissic, of the Song Chay massif in the north. Several
phanerozoic intrusive/magmatic series, have been distinguished:
Upper paleozoic, including granites (ex. Loa Son, Dien Binh massifs, in the south, dated 250-360 Ma,
see Nhan, 1988, and Nam Rom, Moung Lat massifs in the NE, yielding K/Ar ages between 252 and 268 Ma
- Dovzikov, 1965), basic rocks (Vitthulu complexe) and permian effusions;
Triassic, emplaced during the indosinian orogeny, most widely spread in Vietnam, comprising a large
variety of rocks, from ultramafic (ex. Bang Xang, Nui Nua massifs) to granitic intrusives (ex. Vanh Canh in
Kontum and Pia Bioc in the north of a K/Ar age between 215 and 240 Ma);
166
3. Acta Montanistica Slovaca Ročník 5 (2000), 2, 165-172
Upper Cretaceous-Paleogene, comprising alcaline, effusive rocks, granites (Pia Oac, Dinh Quan
massifs, 98 and 86 Ma, Fan Si Pan, 33-56 Ma), syenites (Nam Se, 40-56 Ma) as well as some gabbros and
peridotites.
⇐
Fig.3. Stratigraphy of the vietnamese sedimentary and magmatic formations
Adapted after Dovzikov).
Mineral resources
History of exploration and mining, present
mineral production
Copper, zinc, tin and gold have been mined in Vietnam
since the Bronze age and silver, iron and some non-metallics
(especially kaolin) probably since the 1st century B.C. They were
extracted mostly by chinese miners, migrating to Vietnam
especially under the Ming dynasty; "Chinese workings" are found
on numerous mineral deposits. The exploitation of the country
mineral resources was intensified after the French occupation of
Indochina in 1884. Coal, gold, tin, chromite, zinc, antimony,
apatite, talc and some other minerals were exploited from the
beginning of this century, mainly for the export to France
(Blondel, 1931). Some industrial minerals were produced for a
local use: cement and constuction materials, dimension stones.
During the 2nd world war, practically all mineral export was
directed to Japan. After the achievement of the independance (in
1956), in the Northern Vietnam, a vigorous exploration and the
restoration of mining industry was carried out with the assistance
of the eastern European countries and China. Were restored, between others: Hon Gay coal mines, Lao Cai
phosphate mines and cement plant in Hai Phong. Then the Thai Nguyen steel plant was built and production of
the iron ores started. After the re-unification of the country in 1976, the exploration has been carried on by
Vietnamese geologists. Several important deposits were discovered in the south (bauxites, mineral sands, see
Xing, 1988). Oil exporation with soviet assistance, lead to a discovery of petroleum in 1987; an oil refinery,
located near Ho Chi Minh City, came on line in 1988. At present, Vietnam produces approximately 3,5 Mt of
crude oil/year and its mineral production includes: coal (about 10,7 Mt/y), cement (1,6 Mt), phosphate (300 000
t), chromite (3,5 Mt), iron ores, gold (around 1 000 kg, including production by the local population), cassiterite
(3 000 ? t), graphite, kaolin and many other minerals produced for the local market/use. Several foreign
companies are involved in the oil exploration (BP, Total, BHP) as well as in prospecting (seldom in exploitation)
for minerals (mainly Australian companies).
Ferrous metals
Iron. The most important Vietnamese iron deposit is Qui Xa, near Bao Ha in Hoang Lien Son province in
the north of the country, close to the Hanoi - Lao Cai railway (fig. 4). The ore, mostly magnetite (martite) and
limonite, contains 54-60% Fe (average 55% Fe + 2-4% Mn). The total proven reserves stand at 118 Mt,
recoverable by open pit, practically without overburden. The deposit was formed in a large karst cavity in the
devonian limestones, filled up by a material (including hematite & magnetite) from weathering/erosion of the
archean (?) BIF occuring along the Red river, between Yen Bay and Lao Cai. The ore results from
oxidation/enrichment of the cavity's infill (Glazek & Juskoviak, 1964).
The Trai Cau mine, also located in the north, supplies ore to the nearby (20 km) Thai Nguyen iron and steel
works of a capacity of 400 000 t/y. The deposit is represented by lenses of magnetite, 20-200 m long and 5-10 m
thick, on the contact of the permo-carboniferous limestones with diabase dikes. The average ore grade is 53%
Fe. On the western extension of the mineralised zone, occur several deposits of limonitic ores, containing about
47% Fe and 3-5% Mn. The proven reserves of the Trai Cau area are 44 Mt of ore (Kusnir, 1967).
There are numerous smaller deposits and occurrences of the iron ore scattered over the country, e. g. Mot
Sat and Ban Lang (skarn) near Cao Bang, Qung Tin etc. Estimated reserves of the country's iron ore are
700 000 t with Fe content of 60% (Min. Ann. Rev., 1992).
Manganese. All important manganese districts are located in the north of Vietnam. Vein type occurrences
include Hai Hung (or Nien Son), to the north of Hai Phong and Yen Cu, SE of Vinh. Yen Cu deposit, with
possible reserves of 2,5 Mt of high grade ore (10-15% Mn, Xinh, 1988), is presently mined. It is a vein of
psilomelane and limonite, 0.5-4 m thick, hosted in the devonian schists. Lang Bai residual deposit is being
167
4. Kušnír: Mineral resources of Vietnam
assessed for its gold potential (up to 2 g/t Au). In the Cao Bang area, near Chinese border (at Toc Tac, Ban
Khuong etc), manganese occurrences are of sedimentary origin, hosted in the devonian limestones. At Toc Tac,
the bed 0.2-2 m thick, contains about 1 Mt of rich ore (38-40% Mn for weathered, enriched zone, 20-23% for
primary ore). The ore minerals are psilomelan, pyrolusite, braunite as well as Mn-carbonates. The deposit is
mined for the manufacture of batteries.
Chromite. Alluvial deposits of chro-mite
around Nui Nua ultrabasic massif (15x4 km) in
the Than Hoa province have been mined since
1930. In 1963, production from Co Din deposit
peaked at 36,000 t of concentrate; today's
production is about 3,500 -4,000 t/y (Premoli,
1989). The placer, in the quaternary plain, is
about 1 km large. The lensoidal orebodies
consist of pebbles, gravels and clays. Reserves
of 20,8 Mt of chromite and contents of 1,5 to
5% Cr2O3 have been reported in a bed over 8 m
in thickness (Xinh, op. cit.). Cr2O3/FeO ratio is
2,2-2,4, but most of the chromite is fine
grained (70-280 microns), therefore unsuitable
for metallurgical uses.
Nickel. The most important nickel
deposits are located near Ta Khoa, on the Son
La (Black) river. Mineralisation of nickel and
copper sulphides (mostly pentlandite,
chalcopyrite, violarite) occurs at the base of
small serpentinised peridotite massifs and in
the surrounding calc-silicate rocks. The Ban
Sang deposit, prospected in the 1960s, contains
about 3 Mt of ore grading 0,93% Ni, 1,2% Cu,
some cobalt and traces of Te, Se and Au. High
grade mineralisation, up to 7% Ni, has been
reported at Ban Phuc (Min. Mag., 1997).
Several similar occurrences are found in the
Cao Bang area, in the north of Vietnam (e. g.
Bao Lac).
Fig.4. Mineral resources of Vietnam. ⇒
The ophiolitic belt along the Ma river suture - "trace de cicatrice" of Fromaget, op.cit.), between Thanh Hoa
and Ta Khoa, is considered to have a significant nickel and chromite potential.
Non-ferrous metals
Copper. Major copper occurrences are found in three areas in the North Vietnam: west bank of the Red
river, between Lao Cai and the Chinese border, Luc Ngan river basin in the northeast and the Son La - Son Da
rivers area in the northwest (fig. 4). The most promising seems to be the Lao Cai area, where is located the Sinh
Quyen deposit, found in the 1960s. Its mineralisation is represented by lenses, several meters thick and a few
hundred meters long, of magnetite, chalcopyrite, pyrrhotite, pyrite and orthite in the hornblendite dikes. The ore
is grading 0,5-2,5% Cu, about 2 g/t Au and some nickel. The area potential is estimated at 200 000 t of copper.
In the Luc Ngan and the Son La - Son Da rivers areas, the mineralisation is stratabound, occuring in the triassic
sandstones. In the former area, mineralised outcrops are found between Bien Dong and Cam Son, distant of
about 15 km. Near Cam Son, the mineralised beds, 50m to 1,2 km long, are 0,5 to 7 m thick and contain
0,5-0,6% Cu. At Bien Dong, the Cu content is highier (0,7-1.5%, cf. Kusnir, 1967).
Zinc-lead (+ Ag, Cd, In, Ga, Ge). Vietnam has a good zinc-lead potential. Most of the occurrences and
deposits (over 150) are located north of Hanoi, between Tuyn Quang and Ngan Son and are hosted in the
paleozoic limestones. Rich secondary ores (25-48% Zn) have been exploited by the French from Cho Dien
deposit (Fig.5), situated about 40 km NW of Ba Kan. In the 1960s, some 425 000 tons of zinc and 87 000 tons of
lead (+ some silver, cadmium and indium) have been found in the oxide (predominant) and sulphide ores
(Kusnir, 1964). The stratabound sulphide ores (mainly sphalerite, pyrite and galena), occuring in the givetian
metamorphosed limestones, average 10% Zn and 3.5% Pb. The secondary ores (hemimorphite, smithsonite,
168
5. Acta Montanistica Slovaca Ročník 5 (2000), 2, 165-172
beudantite ...) are found principally in the karst cavities. Their average grade is 15,9% Zn and 2,8% Pb. They are
presently exploited; a small plant produces zinc oxide for the domestic use. Na Tum deposit, only 9 km from
Cho Dien, has about 12 Mt of ore grading 15% Zn+Pb. Lang Hit deposit, located 18 km north of Thai Nguyen, is
quite alike Cho Dien. Its reserve is 1 Mt of ore at 8,5% Zn and 3,5% Pb (Kusnir, 1967). Similar Zn-Pb
mineralisation is found near Vinh (Le Thuy) and Than Hoa, as well as to the southwest of Dalat.
⇐
Fig.5. Types of mineralisations at Cho Dien Zn-Pb
deposit. 1-Massive sulphides (Zn-Pb), 2-Disseminated
sulphide ores, 3-Oxidiced ores, 4-Limestones (Givetian),
Schistoce limestones, 6-Phyllites (Eifelian).
In the northwestern Vietnam, e.g. near
Dien Bien Phu and Tu Le, located some 50
km from Ngia Lo, occurs a vein-type,
predominantly lead mineralisation. At Tu Le,
veins, 0.5-1m in thickness, up to 600 m in
length (Co Gi San deposit), consist principaly
of the silver-bearing galena (4-5 kg/t Ag).
They are hosted in the slightly metamor-
phosed, volcano-sedimentary rocks of Triassic
and Lower Jurassic. Ore grades vary from 4 to
6% Pb and 1 to 2.5% Zn.
Tin and tungsten. The present production of cassiterite is estimated at 2 000 t/y, all from alluvial operations
that reserves are put at 85 000 tons (Min. Journal, 1995). Main stanniferous areas are: Pia Oac and Tam Dao in
the north and Qui Hop - Dalat in the south. Two first areas, situated in the same geological setting as the south
Chinese tin province (Da Chang), has the best potential. Primary mineralisation (mainly quartz veins with
wolframite, cassiterite and a little molybdenite) is genetically related to the cretaceous granites. Economically
important are the alluvial deposits, often formed in the karst cavities/depressions. Tin Tuc deposit in the Pia Oac
area, located close to the Chinese border, contains some 16 000 t of cassiterite; grades up to 12 kg/m3
have been
found at the base of alluvium. In 1963 (i. e. after their discovery), the reserves of the placers around Song Duong
massif in the Tam Dao area, situated SE of Tuyen Quang, were estimated at 7 000 t of tin (Kabakov, 1963).
Aluminium (bauxite). Two different types of bauxite occur in Vietnam: sedimentary, found mostly on the
karstified permo-carboniferous limestones overlaid by triassic argilites, and the "lateritic" bauxite, formed by
weathering of basalts. The first type occurs mostly in the NE of the country, in a zone extending over some 200
km, from Lang Son to Dong Van (and continuing to China). The Bo Phun deposit, situated near the Cao Bang
township, is quite representative of this type. Its dimensions are: 2,7 km x 500 m x 4-6 m. It contains about
10 Mt of reserves grading almost 50% Al2O3. Total reserves of the area are estimated at 1 000 Mt (Gazenko,
pers. comm.).
The lateritic bauxites are developed mainly in the southern Vietnam. Between Ho Chi Minh City, Boun Ma
Thout and the Cambodian border, they cover more than 20 000 km2. The weathered horizon over the basalt can
reach 60 m and bauxite resources are very large, of the order of 4 000 Mt (Xinh, 1988). The average grade is
36-39% Al2O3, 5-9% SiO2, 25-29% Fe2O3 and 4-9% TiO2, but it can be easily upgraded by washing. The Dac
Nong deposit (one of five explored areas) has proven reserves of 103 Mt of ore.
Antimony. Vietnam has substantial antimony resources, found, with the few exceptions, in the north-eastern
part of the country (Quang Nhai, Quang Tin are in the south). Most of the country's antimony mineralisation is
associated with gold. The largest known mineralisation occurs in the Chiem Hoa area, located 25 km SW of Cho
Dien Zn-Pb deposit. It was discovered in 1962. Stibnite (+ minor pyrite, arsenopyrite and gold, cf. Waleczek,
1964) is found in quartz veins at Lang Vai, Dam Hong, Pa Kha, Na Mo, Tho Binh and Hoa Phu. The Lang Vai
Sb-Au deposit, intermittenly explored since its discovery, has some 5 000 tons of Sb. Currently, it is being
mined. Antimony mineralisation is also known: northeast of Hon Gay (at Dong Mo), near Lang Son (Tat Khe,
Tan Mai) and in the Tanh Hoa and Nge Tinh provinces (Tai Bao, Ta Soi ...).
Titanium (ilmenite) and zircon. Ilmenite occurs in Vietnam in primary deposits and in placers. The former
are found in gabbroic Nui Tchoua massif, situated northwest of Thai Nguyen. It consists of layered ilmenite
dissemination (30-70% FeTiO2) at the base of the gabbro. In the Tram and Phu Long deposits, the layers 5-10 m
thick and 400-500 m long, contain 10-15% TiO2 and 0,1-0,3% V2O5 (cf Kusnir, 1967). The proven reserves are
2,8 Mt. Alluvial placers around the massif have not been explored. Vietnam's potential in marine placers is
considerable. Mineral sands, containing ilmenite, subordinate zircon and some monazite and xenotime, are
known at many places along the country coastline, stretching over some 1 500 km (fig. 4). 21 major and medium
sized occurerences have been delineated. The reserves of Cat Khanh deposit, south of Nha Trang, are set at
1,59 Mt of ilmenite and 32 000 t of zircon. The Quang Nam deposit, in the vicinity of Hue, has about 5,4 m3
of
169
6. Kušnír: Mineral resources of Vietnam
mineralised sands averaging 5% heavy minerals; its reserves are: 212 000 t of ilmenite, 49 000 t of zircon and
10 800 t of monazite and xenotine (Tremoli, 1990).
Precious metals and stones.
Gold. Gold has been mined in Vietnam since immemorial times. At present, its production is probably
about 1 t/y, part of which is produced by the local population (panners). Eight major gold fields are known in the
northern Vietnam and two in the south. In the Chiem Hoa area, gold mineralisation consisting of native gold and
calaverite is associated with stibnite (see Antimony ). The large Lang Vai Au-Sb deposit contains several tens of
tons of gold (Xinh, 1988). Placers (eg. Na Dzian) and auriferrous quartz vein occurrences ( Pac Lan deposit) are
known in the Ngan Son - Cao Bang area, in Vinh Phu province (Kim Boi, Cho Binh deposits) and to the south of
Thanh Hoa (at Phu Qui and Lang Chau). Near Cua Rao in the Nge Tinh province, the alluvium of the Nam Chou
river contains 1-5 g/t Au over some 8 km (Kabakov, 1963). The rich (10-15 g/t Au) Bong Mieu deposit, located
about 80 km S of Da Nang (fig. 4), was exploited by the French (Blondel, 1931). A reserve of 5 t Au has been
found by a recent exploration (Min. Ann. Rev., 1995). The mineralisation comprising native gold, auriferous
pyrite and minor galena in quartz veins, 3-4 m in thickness, is hosted in gneisses. As already mentioned, several
antimony, copper, manganese and iron deposits contain gold.
Gems. Rubies and sapphires of an excellent quality are found in alluvium of several streams at Luc Yen,
NW of Hanoi (in the Ha Tuyen province) and around Qui Chau, SW of Thanh Hoa. Cutting and polishing is
done in a factory in Hanoi.
Industrial minerals
Phosphates. Some 90 deposits of phosphates are known in Vietnam, mostly in permo-carboniferous
limestones in the northern Lang Son, Nge Thin and Thanh Hoa provinces. Several of them are exploited for a
local use. The biggest phosphate resources are in the Lao Cai deposit, located on the western side of the Red
river. The apatite beds are the metamorphosed phosphorites, hosted in the cambrian metasediments (schists,
marbles ...), occurring over 100 km in Vietnam (and continuing in China). Total reserves of phosphate are put at
1 700 Mt (Xinh, 1988). The mined bed is 10-20 m thick. Four categories of ore are produced; the richest one
contains 36-41% P2O5 and the poorest below 16% P2O5, essentially in collophane. The ore is shipped to the
super-phosphate plant at Lam Thao (Viet Tri).
Graphite. The Lao Cai region also contains the most important Vietnamese deposits of graphite. They
occur on the eastern side of the Red river, in an area of 9 x 11 km. The graphite orebodies are hosted in the
precambrian rocks (calc-alcaline gneisses, amphibolites, mica-schists) or in the pegmatites. The proved reserves
of the area are 3,78 Mt of graphite and the ore grade is 5-12% C (Xinh, op.cit.). One example of the area
deposits: Nam Tri, prospected in the 1960's, situated 6 km E of Lao Cai. The graphite bed, 20 m thick and 1 km
long, is hosted in a pegmatite. The ore grades 14% C in average. Several deposits are found around the Yen Bay
township, SE of Lao Cai. They are mined for the domestic market. Reserves of crystalline graphite of this area
are estimated at 1.3 Mt. Its potential is huge. In the southern Vietnam, graphite occurs over an area of 12 x 7 km,
near Hung Nhuong, S of Da Nang, in the precambrian sillimanite-garnet schists. Probable and proved reserves of
six main orebodies stand at 2,5 Mt of contained graphite plus 1,8 Mt of sillimanite (Premoli, 1990). Two types of
ore are mined: massive with 30-50% C content and low grade averaging 6-8% C.
Feldspar, muscovite and beryl (pegmatites). Most of the known pegmatites occur along the Red river
tectonic lineament, between Lao Cai and Phu To. They are hosted in the precambrian (archaen ?) rocks, but they
have yielded cretaceous K/Ar ages (69-79 Ma, cf Kusnir, 1967). They are composed essentially of feldspar,
quartz, mica (mostly muscovite), tourmaline and beryl. Some of them are of quite important dimensions, eg. Lu
Phu pegmatite, near Phu To is about 500 m long and 7-9 m thick. Most of current feldspar production comes
from the Thach Khoan deposit (3 000 t in 1985, see Premoli, 1990). Beryl (not of gem quality) was first
discovered during the exploitation of kaolin from this deposit.
Kaolin. Vietnam is well endowed with kaolin (and refractory clays); their formation from the rocks with a
high alumina content (pegmatite, syenite, etc.) is facilitated by a humid, tropical climate. The deposits of a very
good quality permitted the development of the ceramic industry for centuries. Presently, kaolin is mined in six
major districts dispersed throughout the country (fig. 4), comprising: Red river (eg. Thach Koan deposit, see
above), Hai Hung province, SE of Hanoi (ex. Ha Duong, kaolin on keratophyre, Tri Linh, clay) and Dalat.
Reserves of the individual deposits range around tens of Mt grading about 30% Al2O3.
Barytes. Veins of baryte, up to 3 m thick and 50-150 m long, containing sphalerite and galena, were
reported from the Nghe Tinh province. They occur in shear zones over a strike of approximately 60 km. At two
deposits (Bao Khe, Ngia Lam) the average grades are above 75% BaSO4. Thick baryte veins are found also SE
of Tuyen Quang in the Bac Thai province (eg. Cho Ra, Ngai Thang). Baryte is an important component of the
large rare earth deposits near the Chinese frontier (see below); reserves of Dong Pao deposit alone are 2,9 Mt.
Cement. Vietnam has abundant reserves of limestones of a good quality, suitable for production of cement.
Installed cement industry capacity (approximately 3,5 Mt/y) comprises some major plants (Big Son, Hoang
170
7. Acta Montanistica Slovaca Ročník 5 (2000), 2, 165-172
Thach, Haiphong) and numerous mini-plants. The only important gypsum deposit, situated in the Kien Giang
province, at the extreme southwest of the country, is mined for the nearby cement industry.
Silica sand. Several good deposits of silica sand are found along the Vietnamese coast. The most attractive
is Thuy Trieu, 18 km of the Nha Trang township, with 22 Mt reserves of an average grade 98,52% SiO2
(Tremoli, 1990). The quartz sand, covering an area of 30 km2, is between 5 and 15 m above sea level, permitting
dry mining.
Vietnam has and produces a large variety of other non-metallics, e.g.: Salt, produced for the domestic use
and export; Glass sands, deposits occurring on the islands of Van Sai & Hai Son, formed by weathering of
triassic quartzites, are mined for a glass factory in Hai Phong; Talc, hosted in the devonian limestones in the
Vinh Phu province, NW of Hanoi. The deposit near Thanh Son is mined; Dimension stones, including marble
occurring north of Da Nang and granite, plentiful in the Kontum massif.
Rare earths (RE - TR). Besides rare earths contained in monazite and zircon in the mineral sands, Vietnam
has large deposits of RE in carbonatites, discovered in the late 1950s and located in the Fan Si Pan Mts., in the
north of the country. Three deposits were delineated: Mau Xe North and South and Dong Pao. At Mau Xe,
tabular or lensi-form orebodies are hosted in the permo-carboniferrous limestones. The mineralisation is
complex, consisting of bastnaesite, parisite, uranopyrochlore, gadolinite, pyrite, apatite and aboundant barite and
fluorite. The weathered zone, to a depth of 20 m, contains 4-5% of RE oxides and the primary ore is averaging
1,4% REO (mainly Ce, La, Nd, Pr, Y, but also Gd and Eu - 4% of REO), 1,1% Nb, 200-300 ppm U and 30% Ba.
The reserves are huge; 7,8 Mt of REO, from which 1.7 Mt are proved, at Mau Xe North alone (Xinh, op. cit.).
Dong Pao deposit, situated 40 km S has about 7 Mt REO of a similar quality. It is hosted in a paleogene syenitic
intrusion (53 Ma).
Energy resources
Petroleum. Oil exploration with the Soviet assistance, lead to a discovery of petroleum at Bach Ho, SE of
Ho Chi Minh City, in 1987, followed by the discovery of other offshore oilfields (fig. 4). Vietsovpetro now
operates several wells at Bach Ho and Dai Hung. In 1992, the output of crude oil was aroud 3,5 Mt; the bulk of
the output was exported (Min. Ann. Rev., 1992). In 1989, the discovered Vietnamese oil resources have been
estimated at more than 1 000 Mt. Vietnam has also sizable natural gas reserves: roughly 30 billion m3
at the
Bach Ho (White Tiger) oilfield and 66 billion m3
at Dragon and Dai Hung (Big Bear) fields. The country
petroleum potential is considerable, including: 1. Mekong and Red river estuaries (on and off-shore) 2. coastal
area between Hue and Na Trang and 3. a huge area between SE Vietnam and Spratly islands (where Vietnam is
in conflict of interest with other countries; China and Philippines are claiming sovereignty of these tiny islands).
Several foreign companies are now engaged in the exploration of these areas (see fig. 4) under a "production
sharing agreements".
Coal. Vietnam coal reserves are huge, estimated variously at 20 000 Mt, of which 135 Mt are proved;
3 500 Mt are recoverable (Min. Ann. Rev., 1995). Most of this resource is anthracite of the upper triassic
(norian) Quang Yen basin in the northeast Vietnam. The basin, extending over 200 km, west from the coast near
Hon Gay (and well-known, world heritage site of Halong bay), has an area of about 5 000 km2
. The anthracite is
of a very high quality with a calorific value of 7 000-8 600 kcal/kg and low ash and sulphur (0,2-1,2% S, 3-7%
ash). It occurs in several seams, up to 40 m thick, exploitable by the open pit method (eg. Bang Danh/Ha Tu,
Cam Pha, Mao Khe, Co Sau, Uong/Thuong Bi deposits; the latter has some 1 000 Mt of coal, cf Kusnir, 1967).
Estimated resources of the basin are 3 300 Mt of anthracite. The Phan Me - Luc Nam basin, to the ESE of Thai
Nguyen, contains several small deposits (eg. Bo Ha) of coking coal. The latter is also found in the Song Da basin
(at Suoi Bang and Dam Dun) and near Hoa Binh. The northern Vietnam has important reserves of lignite,
essentially in the Tuyen Quang basin of a neogene age. Recently, a large resource (estimated at some 100 Mt) of
sub-bituminous/brown coal has been discovered during oil and gas exploration in the Red river delta, S of Hanoi
(Min. Mag., 1998). In the south of the country, coal occurs in the Nong Son basin, about 30 km SW of Da Nang.
A seam, 7-41 m thick, contains coal of the same quality as Hon Gay deposits (Vinh, 1966). In 1997, Vietnam
produced 10,7 Mt of coal (mostly from the Quang Yen basin mines) and exported 3.6 Mt, mainly to Japan (Min.
Mag., 1998).
Conclusions
Various geological surveys have indicated that Vietnam is well endowed with a wide range of mineral
resources. The country has some of the world's biggest resources of phosphate, bauxites, rare earths, and large,
commercially viable deposits of oil, coal, gold, gems, copper, zinc, tin, chromite, manganese, titanium (mineral
sands), graphite and other minerals. Certainly, the mineral wealth is related to the country's geology that
substratum is built by the formations of Archean to Quaternary age and to its location at the margin of cratons.
However, even the morphology and climate (humid, tropical) have contributed to the formation of some deposits
(lateritic bauxite, tin placers in the karst depressions, etc.). In spite of the current mineral production including
171
8. Kušnír: Mineral resources of Vietnam
172
3,5 Mt of crude oil/y, 10,7 Mt of coal, 3,5 Mt of chromite, 1 t of gold and many other minerals, the country
minining sector is underdeveloped and many available mineral reserves remain unexploited. This situation is
changing. Recent, but increasing involvement of the foreign companies in the Vietnamese mineral sector will
accelerate the development of (at least) high value and/or export-orientated minerals, especially as some of the
neighbouring countries (Japan, South Korea ...) lack many mineral resources. And the developping Vietnamese
economy will surely entail mining of various minerals for the domestic use.
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