DGGS Geological Investigations in Western...
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DGGS Geological Investigations in Western Wrangellia
Evan Twelker1 and Lauren L. Lande1,2
1Alaska Division of Geological & Geophysical Surveys (DGGS) 2Department of Geoscience, University of Alaska Fairbanks
Base and precious metal deposits geologically associated with Late Triassic mafic to
ultramafic magmatism constitute a significant metallogenic province of the northern North American Cordillera. Deposits of signficance include the Wellgreen magmatic Ni-Cu-Co-PGE sulfide deposit in the Yukon Territory and bonanza-grade sediment-hosted Cu-Ag systems at Kennecott. In central Alaska, this magmatic event comprises the Nikolai Greenstone and cogenetic mafic and ultramafic intrusions of the Wrangellia terrane. Notable mineralization includes magmatic Ni-Cu-PGE mineralization at the Eureka Zone and Butte Creek prospects, and sediment-hosted Cu-Ag mineralization at the Caribou Dome deposit.
Through the State’s Strategic and Critical Minerals Assessment Project and the United States Geological Survey’s STATEMAP Program, the DGGS has pursued a multi-year effort to improve the geological knowledge base with an emphasis on the geologic setting of Ni-Cu-PGE mineralization. Newly released data include geophysical surveys (GPR 2014-1), geochemistry (RDF 2014-3; RDF 2014-5, RDF 2014-22), geochronology (RDF 2014-18, RDF 2015-10), and geologic mapping (PIR 2015-6). All reports are available free of charge from the DGGS website (dggs.alaska.gov).
Building on recent advances in the geochemical understanding of the Wrangellia volcanic stratigraphy, we have used geochemical classification and targeted fieldwork to refine the geologic maps of the area. Additionally, geochemical data and field relationships have enabled us to better establish the relationship of mineralized ultramafic intrusions to the broader Late Triassic magmatic episode.
Integrated geological and geophysical interpretation of newly generated data illuminate a number of previously unmapped faults, with significant implications for the structural framework of the region and the general distribution of lithologic units under cover. These structures reflect involvement in the Cretaceous accretion of Wrangellia and some of the effects of Tertiary to present dextral transpression, including the ongoing exhumation of the Eastern Alaska Range.
DGGS and the University of Alaska are completing a detailed study of the 30-km long, 3-km wide Alpha (Fish Lake) mafic-ultramafic complex in the Eureka Creek area of the Eastern Alaska Range. This sill-form complex consists of cyclically alternating dunite, wehrlite, and clinopyroxenite and has been variably interpreted as a layered mafic intrusion, a differentiated mafic-ultramafic complex, and as a multiphase complex of sills and possibly ultramafic volcanic rocks.
Geologic mapping shows that the igneous complex has four major peridotite sills, the longest of which can be traced out for over 2 km along strike. Centimeter scale clinopyroxenite layers are present within and along the edges of the peridotite sills. Multiple gabbroic dikes locally cut across these sills. Within a given sill, the forsterite component of olivine is most primitive along the edge and becomes increasingly evolved toward the center. Geologic mapping and modal compositional patterns observed in olivine forsterite content across the complex supports a hypothesis of repeated sill injections from an evolving or multiple magma source.
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Figure 1. Project location map showing recent DGGS mapping in the Wrangellia terrane of south-central Alaska.
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DGGS Geological Investigations in Western Wrangellia
Building a Geologic Framework for Successful Exploration
Alaska Miners Association – 2015 Annual ConventionNovember 3, 2014 - Anchorage, Alaska
Evan Twelker1 and Lauren Lande1,2
1Alaska Division of Geological & Geophysical Surveys2Department of Geoscience, University of Alaska Fairbanks
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AcknowledgmentsSpecial Thanks to:• The DGGS Minerals Group: Rainer Newberry, Alicja Wypych, Karri Sicard,
Larry Freeman, David Reioux, Melanie Werdon, Abraham Emond• USGS collaborators: Erin Todd, Jamey Jones, Chris Holm-Denoma• John Hoppe at BLM• Jeff Benowitz and the UAF Geochronology Lab• Robert Blodgett for paleontological work• Jon Findlay, Bill Ellis, Ben Vallerine, Phil St George, Peter Oswald, Jeanine
Schmidt, Ben Porterfield for orientations and discussions• CIRI and Cook Inlet Region Working Group for 2014 land access• Brenda Becker at the Glennallen BLM office• Behind-the-scenes work by the DGGS staff
This project is jointly funded by the State’s Strategic and Critical Minerals Assessment program (part of AGGMI) and the USGS National Cooperative Geologic Mapping Program STATEMAP component under award number
G14AC00167 for 2014.
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Please Note:1. This area has complex mineral and surface estate
ownership including State of Alaska, Federal Bureau of Land Management, Cook Inlet Region Inc. (CIRI) and associated village corporations, as well as other private land owners. The user of this data is responsible for all land status research and for obtaining appropriate access and operating permissions prior to completing any follow-up field work.
2. This is a presentation of preliminary results and an early draft of the geologic map. Neither the draft map nor the presentation have been reviewed for technical content or for conformity to the editorial standards of the DGGS
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Study Area
WellgreenNi-Cu-Co-PGE
Metallogenic Context: Late TriassicWrangellia Large Igneous Province
Terrane Map of Colpron and Nelson, 2011; Wrangellia Large Igneous Province compilation from Greene and others, 2010
Late Triassic basalt
Wrangellia
Anchorage
MANNi-Cu-Co-PGE
KennecottCu-Ag
Butte CkNi-Cu-Co-PGE
Caribou Dome Cu-Ag
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Palmer
Windy-Craggy
Greens Creek
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What is the “Geological Framework”?Wrong question:• “What is the rock type at location X?”Right questions:• What are the important geologic elements?• Where do these geological elements occur?For a given mineral deposit type
Different from traditional mapping:• Targeted work at a variety of scales• Incorporate new industry and academic data• Use geophysics to project under cover• More adaptable to different budget scenarios
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The area is covered by inch-to-mile geologic mapping(but there is a wide range of vintage, quality)
USGSTalkeetna
Mountains Transect
2x 2x2x
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Paxson
Cantwell
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New data: visit dggs.alaska.gov
• New airborne magnetic and electromagnetic survey• Geochemistry and geochronology raw data releases• Targeted geologic mapping and research• Compilation and interpretation
2015 mapping and compilation MS thesis
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Picrite dike
Rainy Creek dunite
Peridotite, locally layered
Dunite (olivine cumulate)
Pillow (and subaerial) basalts
Elements of the Late Triassic Magmatic Framework
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The Wrangellia Large Igneous ProvinceA two-part magmatic event
Lower, low TiO2 Nikolai Greenstone:• Arc lithosphere involved• Low magnetic susceptibility (~0.5 x10-3SI)
Gabbro to ultramafic sills feeding Lower Nikolai
Building on academic work by Andrew Greene (2008, 2009, 2010)
VV
VV
VV
VV
V
V
Upper, high TiO2 Nikolai Greenstone:• ‘Normal’ flood basalts• High magnetic susceptibility (~10 x10-3S
Gabbro to ultramafic sills feeding Upper Nikolai
V
VVV
VV
V
V
V
V
V
V
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Al2O3 (%)2120191817161514131211109876543210
TiO
2 (%
)
2.52.42.32.22.1
21.91.81.71.61.51.41.31.21.1
10.90.80.70.60.50.40.30.20.1
0
Magmatic framework:Two distinct mafic magmas
VV
VV
VV
VV
V Low TiO2Lower Nikolai
V
VVV
VV
V
V V
V
V
V
V
Original magma(basaltic melts)
High TiO2Upper Nikolai
DGGS and BLM data10
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Al2O3 (%)2120191817161514131211109876543210
TiO
2 (%
)
2.52.42.32.22.1
21.91.81.71.61.51.41.31.21.1
10.90.80.70.60.50.40.30.20.1
0
Magmatic framework:Two distinct mafic magmas
VV
VV
VV
VV
V Low TiO2Lower Nikolai
V
VVV
VV
V
V V
V
V
V
V
Dunite Original magma(basaltic melts)
Increasing cumulate olivine
Picrite (olivine basalt)
High TiO2Upper Nikolai
DGGS and BLM data11
High TiO2cumulates
Low TiO2cumulates
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Al2O3 (%)2120191817161514131211109876543210
TiO
2 (%
)
2.52.42.32.22.1
21.91.81.71.61.51.41.31.21.1
10.90.80.70.60.50.40.30.20.1
0
Magmatic framework:Implications for magmatic sulfide exploration
VV
VV
VV
VV
V
High TiO2Upper Nikolai
V
VVV
VV
V
V V
V
V
V
V
Increasing cumulate olivine
Dunite Original magma(basaltic melts)
Low TiO2Lower Nikolai
Ni-Cu-PGE?
Samples with PGE > 0.1 ppm
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High TiO2cumulates
Low TiO2cumulates
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Structural Architecture
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900 Hz EM ResistivityHigh
Low
Paxson
Cantwell
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Preliminary map released! Online at dggs.alaska.gov
~2 km
Talkeetna Mountains:NW-directed thrusts
• Paleozoic section is too thick• > 5 km as mapped
• Stratigraphic repetition
Eagl
e Ck
Slan
aSp
urNW SE
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Structural Architecture
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900 Hz EM ResistivityHigh
Low
Paxson
Cantwell
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A new mineral district map (in progress….)New mapping, compilation, and geophysical interp
DGGS field stations 2013-201516
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Amphitheater Mtns StructureSouth-directed thrust faultingTertiary-presentAlaska Range uplift
Triassicpicrite
Mole track?
Triassicpicrite
Tertiarybreccia
Looking west
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Map pattern: Nikolai underliesultramafic sills
Amphitheater Mtns Structure
Stratigraphic repetitions, faults,40-60° dips to S
NW-striking faults cut by thrusts
syncline
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Map pattern: Nikolai underliesultramafic sills
Amphitheater Mtns Structure
Stratigraphic repetitions, faults,40-60° dips to S
Cross section of Glen and others, 2011
A A’
A
A’
Nikolai
NW-striking faults cut by thrusts
syncline
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Conclusions• Early, north-directed thrust faulting may affect
Wrangellia more than previously thought• The Ni-Cu-PGE mineralized samples appear to be
related to the high TiO2 suite, although some large ultramafic bodies appear to be of the low-TiO2 suite
• High-MgO basalts are picrites; they are also tied to the later, high TiO2 magmatic suite
• Representing the different magmatic suites on maps (in progress) will be an aid to exploration
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Preliminary results from 2015 geological mapping of the Alpha complex
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Location: Eastern Alaska Range
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Objectives
Conduct detailed sampling across the field area, focusing on contact relationships between the ultramafics, in order to
gain clearer insight into the petrological subdivisions of the complex
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Schmidt and Rogers, 2007
• Triassic age, sill form body • Intrusion was likely a feeder system to overlying Nikolai Basalt
Previous Work
Alpha (formerly Fish Lake) complex
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Ultramaficlithologies
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Bedrock Geology 1:5,000
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Potential Models
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Hypothesis #1: Differentiating magma chamber
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Hypothesis #2: Multi-sill system
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Hypothesis #3: Single sill system
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Ultramafics: Dunite
Two different dunite compositions identified: – Normal low
Al2O3 dunite
– Central 250 mwide band of feldspathicdunite
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Northern wehrlite layer (base of alpha) crystallized from a more evolved, TiO2–rich magma than the wehrlitesto the south (top of alpha)
CPX oikocrysts in wehrlite
Ultramafics: Wehrlite
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Mafic dikes
• Three different compositions of mafic dikes can be distinguished geochemically
• Gabbros may correspond to the upper and lower Nikolai basalts
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Ultramafics: top of stratigraphyEvolving toward the
top of the Alpha
N
S
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Southern wehrlite layers may have crystallized as magma cyclically became saturated in Ca and Al and formed clinopyroxene
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Southern wehrlite layers may have crystallized as magma cyclically became saturated in Ca and Al and formed clinopyroxene
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Ultramafics: base of stratigraphyMicroprobe olivine
compositions:
N
S
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Single sill system?
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Potential model: single sill system
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• The base of the complex has the most evolved composition
• The central section has the most primitive compositions in both olivine and whole rock analyses
• Presence of feldspar could be explained by the open magmatic system model
• Gabbroic dikes are crosscutting ultramafic layers • Gabbros did not form from fractional crystallization of the ultramafic magma
What We Know
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Upcoming Work
• Transmitted and reflected light petrographic analysis of new samples
• Detailed microprobe analysis of olivine and clinopyroxene across ultramafic layers – This will allow for better understanding of the
relationship between dunite and wehrlite layers
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Special thanks toSEG for providing support through the Hickok-Radford fundDGGS-UAF Geophysical Institute research intern programRainer NewberryKen Severin UAF Advanced Analytical Laboratory
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References citedBittenbender, P.E., Bean, K.W., Kurtak, J.M., Deininger, J., 2007, Mineral
Assessment of the Delta River Mining District Area, East-central Alaska: BLM Alaska Technical Report 57, 697p.
Glen, J.M.G., Schmidt, J.M., Connard, G.G., 2011, Three-dimensional model of an ultramafic feeder system to the Nikolai Greenstone mafic large igneous province, central Alaska Range: Geochemisty, Geophysics, Geosystems, v. 12, 24p. doi:10.1029/2011GC003508
Greene, A.R., Scoates, J.S., and Weis, D., 2008, Wrangellia flood basalts in Alaska—A record of plume–lithosphere interaction in a Late Triassic accreted oceanic plateau: Geochemistry, Geophysics, Geosystems, v. 9, no. 12, doi: 10.1029/2008GC002092
Schmidt, J.M., and Rogers, R.K., 2007, Metallogeny of the Nikolai large igneous province (LIP) in southern Alaska and its influence on the mineral potential of the Talkeetna Mountains, in Ridgway, K.D., Trop, J.M., Glen, J.M.G., and O’Neill, J.M., eds., Tectonic growth of a collisional continental margin: Crustal evolution of southern Alaska: Geological Society of America Special Paper 431, p. 623-648.
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