1-20 OF 25 RESULTS FOR

Madem Lakkos Deposit

Results shown limited to content with bounding coordinates.
Save search
Follow your search
Access your saved searches in your account
Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Article

Metamorphism and polygenesis of the Madem Lakkos polymetallic sulfide deposit, Chalkidiki, Greece

Mark L. Nebel, R. W. Hutchinson, Robert E. Zartman
Journal: Economic Geology
Published: 01 February 1991
Economic Geology (1991) 86 (1): 81–105.
DOI: https://doi.org/10.2113/gsecongeo.86.1.81
...Mark L. Nebel; R. W. Hutchinson; Robert E. Zartman Abstract The polymetallic Madem Lakkos sulfide deposit in northern Greece is hosted within marble of the Mesozoic (?) Kerdylia Formation, a high-grade metamorphic complex composed of migmatitic biotite gneiss interlayered with marble, hornblende...
View PDF for article title, Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece
Purchase
Add to Citation Manager for Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece
Journal Article

Metamorphism and polygenesis of the Madem Lakkos polymetallic sulfide deposit, Chalkidiki, Greece; discussion

H. A. Gilg, R. Frei, S. I. Kalogeropoulos, M. Nicolaou
Journal: Economic Geology
Published: 01 July 1992
Economic Geology (1992) 87 (4): 1184–1187.
DOI: https://doi.org/10.2113/gsecongeo.87.4.1184
View PDF for article title, Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece; discussion
Purchase
Add to Citation Manager for Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece; discussion
Journal Article

Metamorphism and polygenesis of the Madem Lakkos polymetallic sulfide deposit, Chalkidiki, Greece; reply

Mark L. Nebel, R. W. Hutchinson, R. E. Zartman
Journal: Economic Geology
Published: 01 July 1992
Economic Geology (1992) 87 (4): 1187–1190.
DOI: https://doi.org/10.2113/gsecongeo.87.4.1187
View PDF for article title, Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece; reply
Purchase
Add to Citation Manager for Metamorphism and polygenesis of the <span class="search-highlight">Madem</span> <span class="search-highlight">Lakkos</span> polymetallic sulfide <span class="search-highlight">deposit</span>, Chalkidiki, Greece; reply
Journal Article

Origin of Au-Rich Carbonate-Hosted Replacement Deposits of the Kassandra Mining District, Northern Greece: Evidence for Late Oligocene, Structurally Controlled, and Zoned Hydrothermal Systems

Chris R. Siron, John F.H. Thompson, Tim Baker, Robert Darling, Gregory Dipple
Journal: Economic Geology
Published: 01 November 2019
Economic Geology (2019) 114 (7): 1389–1414.
DOI: https://doi.org/10.5382/econgeo.4664
... zone host the Madem Lakkos and Mavres Petres deposits at the eastern end of the fault system, where paragenetically early skarn and massive sulfide are spatially associated with late Oligocene aplitic and porphyritic dikes. Skarn transitions into predominant massive and banded replacement sulfide...
FIGURES | View All (15)
View PDF for article title, Origin of Au-Rich Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece: Evidence for Late Oligocene, Structurally Controlled, and Zoned Hydrothermal Systems
Purchase
Add to Citation Manager for Origin of Au-Rich Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece: Evidence for Late Oligocene, Structurally Controlled, and Zoned Hydrothermal Systems
Includes: Supplemental Content
Image
Geologic map of the Kassandra mining district, modified after Kockel et al. (1977) and Siron et al. (2018). Coordinates are displayed in the Greek Geodetic Coordinate System (GGRS 87 Greek Grid). Abbreviations are as follows: As = Aspro Lakkos porphyry stock, Fs = Fisoka stock, ML = Madem Lakkos deposit, MP = Mavres Petres deposit, OL = Olympias deposit, PV = Piavitsa prospect, SK = Skouries deposit, St = Stratoni stock, Ts = Tsikara composite stock.

Geologic map of the Kassandra mining district, modified after Kockel et al...

Published: 01 November 2019
= Madem Lakkos deposit, MP = Mavres Petres deposit, OL = Olympias deposit, PV = Piavitsa prospect, SK = Skouries deposit, St = Stratoni stock, Ts = Tsikara composite stock.
Image
Geologic map of the Kassandra mining district modified after Kockel et al. (1977). The inset map at the top right outlines the northern and southern structural domains referenced in the text. Coordinates are displayed in the Greek Geodetic Coordinate System (GGRS 87 Greek Grid). Abbreviations: As = Aspro Lakkos porphyry stock, Fs = Fisoka stock, ML = Madem Lakkos deposit, MP = Mavres Petres deposit, OL = Olympias deposit, PV = Piavitsa prospect, SK = Skouries deposit, St = Stratoni stock, Ts = Tsikara composite stock.

Geologic map of the Kassandra mining district modified after Kockel et al....

Published: 01 March 2018
). Abbreviations: As = Aspro Lakkos porphyry stock, Fs = Fisoka stock, ML = Madem Lakkos deposit, MP = Mavres Petres deposit, OL = Olympias deposit, PV = Piavitsa prospect, SK = Skouries deposit, St = Stratoni stock, Ts = Tsikara composite stock.
Image
Histograms of fluid inclusion microthermometric data showing total homogenization temperature (Th) (left) and calculated salinity (right) for primary fluid inclusions contained within quartz associated with quartz-rich replacement sulfide from the Olympias deposit (A, B), the Mavres Petres deposit (C, D), and the quartz-carbonate veins at the Piavitsa prospect (E, F). Average values and 1σ standard deviations for all measurements (type-1 and type-2 fluid inclusions) are shown in bold text and represented by the dashed red line and gray bounding box, respectively. Published homogenization temperature and salinity ranges for the Olympias and Madem Lakkos deposits are represented by horizontal bars in images A, B, C, and D.

Histograms of fluid inclusion microthermometric data showing total homogeni...

Published: 01 November 2019
homogenization temperature and salinity ranges for the Olympias and Madem Lakkos deposits are represented by horizontal bars in images A, B, C, and D.
Image
Ternary diagram of published grades from selected Ag-Pb-Zn ± Cu ± Au carbonate-hosted replacement districts worldwide: (1) Groundhog deposit, Central mining district of New Mexico (Meinert, 1987); (2) Colorado mineral belt (Beaty et al., 1990); (3) Eureka and Pioche districts of Nevada (Shawe and Nolan, 1989; Vikre and Browne, 1999); (4) Park City, Tintic, Bingham (U.S.-Lark), and Marysvale-Deer Trail districts of Utah (Lindgren and Loughlin, 1919; James, 1973; Beaty et al., 1986; Bromfield, 1989); (5) Mexican deposits located in the Santa Eulalia, Naica, Providencia-Concepcion del Oro, San Martin, and Valardeña districts (Megaw et al., 1988) and (6) Bismark district (Baker and Lang, 2003); (7) El Mochito deposit of Honduras (Williams-Jones et al., 2010); (8) Trepča mineral belt of Kosovo (Hyseni et al., 2010); (9) Balya deposit on the Biga peninsula of Turkey (Yigit, 2012); (10) Maden-Krushev Dol and Laki-Djurkovo deposits in the Madan-Thermes district of southern Bulgaria (Kaiser Rohrmeier et al., 2013); (11) Lavrion district in the Attica region of southern Greece (Melfos and Voudouris, 2017); (12) published grades for the Madem Lakkos deposit are after Nebel et al. (1991) and the current measured and indicated resource grades for the Mavres Petres and Olympias deposits are reported in Eldorado Gold Corporation (2017a). The unfilled symbols represent average grades for the Madem Lakkos and Mavres Petres deposits from this study.

Ternary diagram of published grades from selected Ag-Pb-Zn ± Cu ± Au carbon...

Published: 01 November 2019
( Yigit, 2012 ); (10) Maden-Krushev Dol and Laki-Djurkovo deposits in the Madan-Thermes district of southern Bulgaria ( Kaiser Rohrmeier et al., 2013 ); (11) Lavrion district in the Attica region of southern Greece ( Melfos and Voudouris, 2017 ); (12) published grades for the Madem Lakkos deposit
Journal Article

Structural Controls on Porphyry Au-Cu and Au-Rich Polymetallic Carbonate-Hosted Replacement Deposits of the Kassandra Mining District, Northern Greece

Chris R. Siron, David Rhys, John F.H. Thompson, Tim Baker, Theodore Veligrakis, Alfredo Camacho, Lazaros Dalampiras
Journal: Economic Geology
Published: 01 March 2018
Economic Geology (2018) 113 (2): 309–345.
DOI: https://doi.org/10.5382/econgeo.2018.4552
...). Abbreviations: As = Aspro Lakkos porphyry stock, Fs = Fisoka stock, ML = Madem Lakkos deposit, MP = Mavres Petres deposit, OL = Olympias deposit, PV = Piavitsa prospect, SK = Skouries deposit, St = Stratoni stock, Ts = Tsikara composite stock. ...
FIGURES | View All (23)
View PDF for article title, Structural Controls on Porphyry Au-Cu and Au-Rich Polymetallic Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece
Purchase
Add to Citation Manager for Structural Controls on Porphyry Au-Cu and Au-Rich Polymetallic Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece
Includes: Supplemental Content
Image
Plot of δ13CV-PDB vs. δ18OV-SMOW reported in ‰ for carbonate phases associated with the carbonate replacement deposits from the Kassandra mining district. Note that the carbonate data in this image are displayed with respect to location (color) and style of occurrence (shape). The fields for igneous calcite (Bowman, 1998; Hoefs, 2004) and unaltered Rhodope marble (Varti-Matarangas and Eliopoulos, 2005; Boulvais et al., 2007; Eliopoulos and Kilias, 2011) are illustrated on each diagram along with a series of δ13C-δ18Ocalcite evolution curves. Rayleigh and Batch decarbonation curves (displayed on right-hand side of plots A and B) are shown as dotted lines with white circles and as a solid line with black tick marks, respectively. Numbers next to the white circles represent the fraction of carbon remaining in the rock. Fluid-rock interaction curves are shown as solid lines and as dashed lines representing magmatic (δ13C = –7, δ18O = +6) and meteoric (δ13C = –6, δ18O = –5) fluids, respectively. Numbers next to the white circles indicate the water-rock ratio. Italicized numbers correspond to the proportion of CO2 in the fluid with temperatures denoted in bold text. Shaded regions represent a range of temperatures that exist for a family of model curves. (A) Marbles from the Olympias deposit. (B) Marbles from the Stratoni fault zone with data from the Madem Lakkos deposit (Gilg, 1993) illustrated by the dotted shape. (C) Gangue carbonate minerals associated with massive sulfide and stylolitic fluid escape structures from the Olympias deposit. (D) Gangue carbonate minerals associated with skarn and massive sulfide, along with stylolitic fluid escape structures from the Madem Lakkos and Mavres Petres deposits. Values reported in Gilg (1993) are illustrated by the dotted shape. E) Quartz-rhodochrosite-calcite veins from the Olympias deposit and deposits within the Stratoni fault zone. Abbreviations: V-PDB = Vienna-Pee Dee Belemnite, V-SMOW = Vienna-Standard Mean Ocean Water.

Plot of δ 13 C V-PDB vs. δ 18 O V-SMOW reported in ‰ for carbonate ph...

Published: 01 November 2019
in bold text. Shaded regions represent a range of temperatures that exist for a family of model curves. (A) Marbles from the Olympias deposit. (B) Marbles from the Stratoni fault zone with data from the Madem Lakkos deposit ( Gilg, 1993 ) illustrated by the dotted shape. (C) Gangue carbonate minerals
Image
Lower hemisphere, equal-area stereographic projections of fault kinematic data from the Stratoni fault zone. Fault planes and slip vectors are represented by great circles and arrows, respectively. Kinematic strain axes are plotted as squares and numbered according to the principal extension axis (1), the principal shortening axis (3), and the orthogonal intermediate axis (2). (A) Kinematic data from semibrittle and synmineral segments of the Stratoni fault zone. (B) Late- to postmineral strand of the Stratoni fault zone (solid line) and kinematically equivalent deformation from the Gomati fault zone (dashed lines). (C) Late- to postmineral Vathilakkos fault. (D) Postmineral corrugated fault segment within the Stratoni fault zone at the Madem Lakkos deposit. Kinematic criteria from the Kerdilion (K) and Strymon Valley (SV) detachment faults (Dinter, 1998) are shown as red circles for comparison. (E) Neotectonic faults within the Stratoni fault zone from this study are plotted in black with data from Pavlides and Tranos (1991) represented in red. Note the coincident position of the kinematic strain axis for each set of data.

Lower hemisphere, equal-area stereographic projections of fault kinematic d...

Published: 01 March 2018
the Gomati fault zone (dashed lines). (C) Late- to postmineral Vathilakkos fault. (D) Postmineral corrugated fault segment within the Stratoni fault zone at the Madem Lakkos deposit. Kinematic criteria from the Kerdilion (K) and Strymon Valley (SV) detachment faults ( Dinter, 1998 ) are shown as red circles
Image
Photos of representative fault styles from the Stratoni fault zone. (A) Outcrop of the ductile-brittle Stratoni fault zone above the Mavres Petres deposit. Sense of shear is normal and top-to-the-south. (B) Drill core intercept from the Piavitsa prospect of graphite-bearing quartz-biotite gneiss crosscut by a semibrittle carbonaceous shear band bounding quartz-sericite-carbonate-pyrite alteration. (C) Foliated, semibrittle fault showing well-developed pressure solution fabrics within a silicified carbonaceous matrix intergrown with pyrite, dolomite, and crystalline hydrothermal muscovite. Sense of shear is top-to-the-left. (D) Drill core intercept from the Piavitsa prospect showing typical pale-green muscovite, dolomite, and pyrite alteration replacing graphitic quartz-biotite-garnet gneiss adjacent to a mineralized strand of the Stratoni fault zone. (E) Microshear folds contained within a major strand of the Stratoni fault zone showing normal sense of shear to the south. Image taken from an outcrop above the Mavres Petres deposit. (F) Same outcrop of Stratoni fault zone exhibiting synthetic Riedel shears that crosscut the shear fabric and demonstrate normal southward sense of shear. The pale-green mineral is hydrothermal muscovite. (G) Outcrop of the postmineral segment of the Stratoni fault zone above the Madem Lakkos deposit. Microbreccia streaks and tension fractures developed on the fault surface indicate normal sense of shear in a southwest direction. (H) Outcrop of the Vathilakkos fault showing the faulted contact between granite gneiss to the east and an early Miocene black-matrix porphyry dike to the west. Abbreviations: Dol = dolomite, Ms = muscovite, Py = pyrite, Qtz = quartz, Ser = sericite.

Photos of representative fault styles from the Stratoni fault zone. (A) Out...

Published: 01 March 2018
of shear. The pale-green mineral is hydrothermal muscovite. (G) Outcrop of the postmineral segment of the Stratoni fault zone above the Madem Lakkos deposit. Microbreccia streaks and tension fractures developed on the fault surface indicate normal sense of shear in a southwest direction. (H) Outcrop
Book Chapter

Magmatic and Metallogenic Framework of Au-Cu Porphyry and Polymetallic Carbonate-Hosted Replacement Deposits of the Kassandra Mining District, Northern Greece

Author(s)
Chris R. Siron, John F. H. Thompson, Tim Baker, Richard Friedman, Pavlos Tsitsanis, Sally Russell, Scott Randall, Jim Mortensen
Book: Tectonics and Metallogeny of the Tethyan Orogenic Belt
Series: Special Publications of the Society of Economic Geologists
Publisher: Society of Economic Geologists
Published: 01 January 2016
DOI: 10.5382/SP.19.02
EISBN: 9781629499789
... to the late Oligocene Stratoni granodiorite stock westward into Au-Ag-Pb-Zn-Cu carbonate replacement deposits at Madem Lakkos and Mavres Petres. Piavitsa, at the western end of the exposed fault zone, hosts siliceous Mn-rich replacement bodies associated with crustiform Au-rich quartz-rhodochrosite veins...
FIGURES | View All (12)
Abstract
View PDF for content titled, Magmatic and Metallogenic Framework of Au-Cu Porphyry and Polymetallic Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece
Purchase
Add to Citation Manager for Magmatic and Metallogenic Framework of Au-Cu Porphyry and Polymetallic Carbonate-Hosted Replacement <span class="search-highlight">Deposits</span> of the Kassandra Mining District, Northern Greece

Abstract The Kassandra mining district in the eastern Chalkidiki Peninsula of northern Greece contains ~12 Moz Au in porphyry and polymetallic carbonate-hosted replacement sulfide orebodies. Zircon U-Pb geochronology defines two distinct magmatic episodes in the late Oligocene (27-25 Ma) and early Miocene (20-19 Ma). Both suites are characterized by high K calc-alkaline magmas with the younger early Miocene porphyritic stocks and dikes having indications of shoshonitic geochemistry. Normalized rare earth element patterns support plagio-clase fractionation among the late Oligocene suite, whereas amphibole or garnet fractionation is more likely for early Miocene porphyries. Carbonate replacement mineralization is hosted in marble contained within the semibrittle Stratoni fault zone. Mineralization varies along the 12-km strike length of the fault zone from Cu-bearing skarn adjacent to the late Oligocene Stratoni granodiorite stock westward into Au-Ag-Pb-Zn-Cu carbonate replacement deposits at Madem Lakkos and Mavres Petres. Piavitsa, at the western end of the exposed fault zone, hosts siliceous Mn-rich replacement bodies associated with crustiform Au-rich quartz-rhodochrosite veins. Structural and alteration relationships suggest that carbonate replacement mineralization is syn- to postemplacement of the late Oligocene Stratoni granodiorite stock at 25.4 ± 0.2 Ma. The Olympias Au-Ag-Pb-Zn carbonate replacement deposit, located north of the Stratoni fault zone, is hosted in marble and associated semibrittle structures. Olympias is broadly similar to the Madem Lakkos and Mavres Petres deposits. Early Miocene Au-Cu mineralization at Skouries is associated with a narrow pipe-shaped multiphase porphyry stock emplaced into the hinge zone of a regional antiform. Late Oligocene and early Miocene magmatism overlaps spatially within the district but defines distinct petrogenetic events separated by about 5 m.y. Carbonate replacement massive sulfide deposition was largely controlled by an extensional structure and receptive host rocks within the fault zone, whereas a major regional fold axis localized the Skouries porphyry system. The change in character of mineralization with time may reflect a combination of factors including preexisting structural control, magmatic-hydrothermal processes, and the availability of reactive host rocks.

Image
Longitudinal view of the Stratoni fault zone displaying drill core geochemical assay data from the Madem Lakkos and Mavres Petres deposits, illustrating (A) Pb/Zn ratio and (B) Ag/Au ratio.

Longitudinal view of the Stratoni fault zone displaying drill core geochemi...

Published: 01 November 2019
Fig. 4. Longitudinal view of the Stratoni fault zone displaying drill core geochemical assay data from the Madem Lakkos and Mavres Petres deposits, illustrating (A) Pb/Zn ratio and (B) Ag/Au ratio.
Image
Genetic model illustrating the evolution of the carbonate replacement deposits within the Kassandra mining district: (A) long-section view of the Madem Lakkos and Mavres Petres deposits and the Piavitsa prospect within the plane of the Stratoni fault zone; (B) cross-section view of the Olympias deposit.

Genetic model illustrating the evolution of the carbonate replacement depos...

Published: 01 November 2019
Fig. 13. Genetic model illustrating the evolution of the carbonate replacement deposits within the Kassandra mining district: (A) long-section view of the Madem Lakkos and Mavres Petres deposits and the Piavitsa prospect within the plane of the Stratoni fault zone; (B) cross-section view
Image
(A) Detailed geologic map of the Madem Lakkos and Mavres Petres deposits. Mapping was conducted at 1:5,000 scale and based largely on surface outcrops. (B) Cross section B-B’ of the Mavres Petres deposit defined by surface mapping and underground drill core. Inferred displacement on the Stratoni fault zone is shown by offset marble as indicated by dashed lines. Coordinates are displayed in the Greek Geodetic Coordinate System (GGRS 87 Greek Grid).

(A) Detailed geologic map of the Madem Lakkos and Mavres Petres deposits. M...

Published: 01 March 2018
Fig. 10. (A) Detailed geologic map of the Madem Lakkos and Mavres Petres deposits. Mapping was conducted at 1:5,000 scale and based largely on surface outcrops. (B) Cross section B-B’ of the Mavres Petres deposit defined by surface mapping and underground drill core. Inferred displacement
Journal Article

Multivariate statistics and spatial interpretation of geochemical data for assessing soil contamination by potentially toxic elements in the mining area of Stratoni, north Greece

Akis Kelepertsis, Ariadne Argyraki, Dimitris Alexakis
Published: 01 November 2006
Geochemistry: Exploration, Environment, Analysis (2006) 6 (4): 349–355.
DOI: https://doi.org/10.1144/1467-7873/05-101
... and metallurgical companies exploited the sulphide deposits in the area. Between 1970 and 1990 c . 10 million tonnes of mixed sulphides and 18 million tonnes of pyrite were extracted from the mines at Madem Lakkos, Mavres Petres and Olympias ( Papakonstantinou et al . 1996 ). Apart from the mines, other sources...
FIGURES | View All (8)
View PDF for article title, Multivariate statistics and spatial interpretation of geochemical data for assessing soil contamination by potentially toxic elements in the mining area of Stratoni, north Greece
Purchase
Add to Citation Manager for Multivariate statistics and spatial interpretation of geochemical data for assessing soil contamination by potentially toxic elements in the mining area of Stratoni, north Greece
Journal Article

Discussion

Published: 01 December 1994
Jour. Geol. Soc. India (1994) 44 (6): 691–693.
DOI: https://doi.org/10.17491/jgsi/1994/440612
... environment. 2 Nature, v. 312, pp. 56-58. MORRISSON, l. and VALLEY, l.W. (1991). Retrograde fluids in granulites: stable isotope evidence offluid migration. 1. Geol., v. 99, pp. 559-570 NEBEL, M.L" HurCHINSON, R.W. and ZARTMAN, R.E. (1991) Metamorphism and polygenesis of the Madem Lakkos Polymetallic sulphide...
View PDF for article title, Discussion
Add to Citation Manager for Discussion
Journal Article

Metallogeny of the Tethyan Orogenic Belt: From Mesozoic Magmatic Arcs to Cenozoic Back-Arc and Postcollisional Settings in Southeast Europe, Anatolia, and the Lesser Caucasus: An Introduction

Robert Moritz, Timothy Baker
Journal: Economic Geology
Published: 01 November 2019
Economic Geology (2019) 114 (7): 1227–1235.
DOI: https://doi.org/10.5382/econgeo.4683
... deposits include the past-producing Madem Lakkos deposit and the presently producing Mavres Petres and Olympias deposits. Based on their metal grades and high Au endowment, they are compared to skarn and carbonate-hosted sulfide ore deposits of the southwestern United States of America. Temperature...
FIGURES
View PDF for article title, Metallogeny of the Tethyan Orogenic Belt: From Mesozoic Magmatic Arcs to Cenozoic Back-Arc and Postcollisional Settings in Southeast Europe, Anatolia, and the Lesser Caucasus: An Introduction
Add to Citation Manager for Metallogeny of the Tethyan Orogenic Belt: From Mesozoic Magmatic Arcs to Cenozoic Back-Arc and Postcollisional Settings in Southeast Europe, Anatolia, and the Lesser Caucasus: An Introduction
Journal Article

SEG Newsletter 48 (January)

Journal: SEG Discovery
Published: 01 January 2002
SEG Discovery (2002) (48): 1–52.
DOI: https://doi.org/10.5382/SEGnews.2002-48
.... We spent the The Madem Lakkos and Olympias night on the shore of the Chalkidiki Pb-Zn-(Ag-Au) deposits are hosted by grow. In early August we conducted a peninsula. the lower marble horizon of the joint field trip with CODES SEG student Kerdilia unit, near the contact to the chapter at the University...
View PDF for article title, SEG Newsletter 48 (January)
Purchase
Add to Citation Manager for SEG Newsletter 48 (January)