Porphyry copper deposits
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Jul 31, 2018
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About This Presentation
definition, origin, and distribution
Slide Content
Porphyry Copper
Supervision by: Dr. Ahmed M. ZayedSupervision by: Dr. Ahmed M. Zayed
Edited by : Mostafa Abdel Azim MasoudEdited by : Mostafa Abdel Azim Masoud
Beni-Suef University - EgyptBeni-Suef University - Egypt
Supervision by: Dr. Ahmed M. ZayedSupervision by: Dr. Ahmed M. Zayed
Edited by : Mostafa Abdel Azim MasoudEdited by : Mostafa Abdel Azim Masoud
Beni-Suef University - EgyptBeni-Suef University - Egypt
Copper Resources
Idealized Porphyry Alteration/Mineralization (Lowell and Gilbert, 1970(
Potassic Alteration
High Grade Ore
Bornite
Chalcopyrite
Porphyry Ore and
Alteration Textures
Phyllic Alteration
High Grade Ore
Bornite
Chalcopyrite
Porphyry Ore and
Alteration Textures
Phyllic Alteration
SupergeneHypogene
Chalcopyrite
Bornite
Malachite
From Hypogene to Supergene
Chalcopyrite
Bornite
Malachite
From Hypogene to Supergene
Sulfide minerals are unstable in
the presence of oxygenated
groundwater. Primary (hypogene)
sulfides react to form secondary
(supergene) sulfides, and then
supergene oxygen-bearing
minerals such as oxides,
carbonates, sulfates, and
phosphates, depending on the
anions that are available in the
groundwater. At the surface,
red/orange colored iron oxides
(gossan) are left behind and
become a marker for sulfide
mineral prospecting.
See Table 19.3, page 382 for
names of some minerals in the
oxidized part of the supergene
zone.
the presence of oxygenated
groundwater. Primary (hypogene)
sulfides react to form secondary
(supergene) sulfides, and then
supergene oxygen-bearing
minerals such as oxides,
carbonates, sulfates, and
phosphates, depending on the
anions that are available in the
groundwater. At the surface,
red/orange colored iron oxides
(gossan) are left behind and
become a marker for sulfide
mineral prospecting.
See Table 19.3, page 382 for
names of some minerals in the
oxidized part of the supergene
zone.
Gossan at the Lavender Pit overlook, Bisbee Arizona.
Oxidised zone
Primary zone
Enriched zone
Leached zone
Mineralized gravel
Mineralized bedrock
Barren gravel
Supergene enrichment
FeS
2
+ H
2
O + 7/2O
2
= Fe
2+
+ 2SO
4
2-
+ 2H
+
2Fe
2+
+ 2H
2
O + 1/2O
2
= Fe
2
O
3
+ 4H
+
+ 2Cu
+
+ H
2
O = Cu
2
O + 2H
+
2Cu
+
+ SO
4
2-
= Cu
2
S
+ 4O
2
Leached zone – acidity creation
CuFeS
2
+ 4O
2
= Fe
2+
+ Cu
2+
+ 2SO
4
2-
Oxidised zone – Fe and Cu oxides, acidity creation
Enriched zone – reduction and sulphide deposition
Primary zone
Enriched zone
Leached zone
Mineralized gravel
Mineralized bedrock
Barren gravel
Supergene enrichment
FeS
2
+ H
2
O + 7/2O
2
= Fe
2+
+ 2SO
4
2-
+ 2H
+
2Fe
2+
+ 2H
2
O + 1/2O
2
= Fe
2
O
3
+ 4H
+
+ 2Cu
+
+ H
2
O = Cu
2
O + 2H
+
2Cu
+
+ SO
4
2-
= Cu
2
S
+ 4O
2
Leached zone – acidity creation
CuFeS
2
+ 4O
2
= Fe
2+
+ Cu
2+
+ 2SO
4
2-
Oxidised zone – Fe and Cu oxides, acidity creation
Enriched zone – reduction and sulphide deposition
The silicates in igneous rocks
(feldspar, hornblende and
micas) are altered by reaction
with hydrothermal solutions to
form characteristic alteration
minerals:
Propylite (chlorite and epidote
form)
Argillite (clay minerals form)
Sericite (mica forms from
clays)
Secondary or Supergene Hydrothermal
Minerals
(feldspar, hornblende and
micas) are altered by reaction
with hydrothermal solutions to
form characteristic alteration
minerals:
Propylite (chlorite and epidote
form)
Argillite (clay minerals form)
Sericite (mica forms from
clays)
Secondary or Supergene Hydrothermal
Minerals
Porphyry copper depositsEpithermal deposits
originate in or nearby porphyritic
intrusives which were saturated
by water as they intruded in
shallow areas of the crust (less
than 6 km depth(.
The developing hydrothermal
systems are characterized by the
interaction, to different degrees,
of fluids coming directly from
the parental intrusive and from
meteoric surface waters.
Hydrothermal deposits
formed at shallow depths at
depths of less than 1 km in a
hydrothermal system
dominated by surface waters
with only a small contribution
by magmatic fluids.
Epithermal deposits include a
wide variety of ores: Au, Au-
Ag, Ag, Pb, Zn, Cu, Sn, Sb, U
and Hg.
Comparison between the the porphry copper
deposits and the epithermal deposits
originate in or nearby porphyritic
intrusives which were saturated
by water as they intruded in
shallow areas of the crust (less
than 6 km depth(.
The developing hydrothermal
systems are characterized by the
interaction, to different degrees,
of fluids coming directly from
the parental intrusive and from
meteoric surface waters.
Hydrothermal deposits
formed at shallow depths at
depths of less than 1 km in a
hydrothermal system
dominated by surface waters
with only a small contribution
by magmatic fluids.
Epithermal deposits include a
wide variety of ores: Au, Au-
Ag, Ag, Pb, Zn, Cu, Sn, Sb, U
and Hg.
Comparison between the the porphry copper
deposits and the epithermal deposits
Schematic diagram oft he tectonic setting of porphyry, epithermal and skarn deposits | Image Credit: MBG
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