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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Alexander Terrane (27)
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Asia
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Far East
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Japan
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Honshu (1)
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Australasia
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Vancouver Island (8)
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Canadian Cordillera (22)
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Germany
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Fairweather Fault (1)
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Pacific Ocean
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Prince of Wales Island (22)
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commodities
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elements, isotopes
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chemical ratios (1)
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Pb-208/Pb-204 (2)
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Sm-147/Nd-144 (2)
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stable isotopes
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Hf-177/Hf-176 (4)
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N-15/N-14 (2)
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Nd-144/Nd-143 (6)
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O-18/O-16 (2)
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Pb-206/Pb-204 (2)
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Pb-207/Pb-204 (2)
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Pb-208/Pb-204 (2)
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S-34/S-32 (2)
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Lu/Hf (1)
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hafnium
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Hf-177/Hf-176 (4)
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iron
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lead
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Pb-206/Pb-204 (2)
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Nd-144/Nd-143 (6)
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Primates
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Reptilia
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Invertebrata
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Cnidaria
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Echinodermata
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Crinozoa
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Mollusca
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Bivalvia
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Pteriina
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Cephalopoda
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Ammonoidea
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Ammonites (2)
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Coleoidea
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Nautiloidea (1)
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Porifera
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Protista
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Osculosida
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microfossils
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Plantae
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Spermatophyta
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Tilia (1)
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Middle Jurassic
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Upper Jurassic
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Bowser Lake Group (6)
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Kunga Group (2)
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Longarm Formation (1)
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Sandilands Formation (4)
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Triassic
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upper Mesozoic (1)
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Paleozoic
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igneous rocks
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metamorphic rocks
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phosphates
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silicates
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pyroxene group
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clinopyroxene
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framework silicates
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zeolite group
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orthosilicates
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garnet group
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titanite group
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titanite (1)
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zircon group
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zircon (23)
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sorosilicates
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epidote group
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allanite (1)
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epidote (1)
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ring silicates
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sheet silicates
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chlorite group
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mica group
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sulfides
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copper sulfides (1)
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molybdenite (4)
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pyrite (1)
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sulfosalts (3)
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Primary terms
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absolute age (57)
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Asia
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Far East
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Japan
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Honshu (1)
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Australasia
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Australia (1)
-
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biogeography (8)
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bitumens (2)
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Canada
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Stikinia Terrane (14)
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Western Canada
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British Columbia
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Alice Arm British Columbia (3)
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Bowser Basin (8)
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Prince Rupert British Columbia (11)
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Queen Charlotte Islands (53)
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Skeena Mountains (3)
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Sustut Basin (3)
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Vancouver Island (8)
-
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Canadian Cordillera (22)
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Yukon Territory (1)
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carbon
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C-13/C-12 (5)
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C-14 (15)
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organic carbon (3)
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Cenozoic
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Quaternary
-
Clovis (1)
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Cordilleran ice sheet (1)
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Holocene
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lower Holocene (1)
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Neoglacial (2)
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upper Holocene (4)
-
-
Pleistocene
-
upper Pleistocene
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Weichselian
-
upper Weichselian
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Younger Dryas (1)
-
-
-
Wisconsinan
-
lower Wisconsinan (1)
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middle Wisconsinan (1)
-
upper Wisconsinan
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Fraser Glaciation (2)
-
-
-
-
-
upper Quaternary (2)
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-
Tertiary
-
lower Tertiary (1)
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middle Tertiary
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Masset Formation (1)
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-
Neogene
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Miocene
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lower Miocene (2)
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middle Miocene (1)
-
-
-
Paleogene
-
Eocene
-
upper Eocene (1)
-
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Oligocene (4)
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Paleocene (1)
-
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upper Tertiary (2)
-
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upper Cenozoic (1)
-
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Chordata
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Vertebrata
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Pisces
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Osteichthyes
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Actinopterygii (2)
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-
-
Tetrapoda
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Mammalia
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Theria
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Eutheria
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Artiodactyla
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Ruminantia
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Cervidae
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Rangifer (1)
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Primates
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Hominidae (1)
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-
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Reptilia
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Diapsida
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Ichthyosauria
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climate change (1)
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Europe
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faults (37)
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gabbros (2)
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granodiorites (2)
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porphyry (4)
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volcanic rocks
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andesites (3)
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basalts
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alkali basalts
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hawaiite (1)
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flood basalts (1)
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mid-ocean ridge basalts (1)
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basanite (1)
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Invertebrata
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Echinodermata
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Mollusca
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Cephalopoda
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Coleoidea
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isostasy (1)
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isotopes
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stable isotopes
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Middle Jurassic
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Upper Jurassic
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Triassic
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hafnium
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iron
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metamorphic rocks
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North America
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plate tectonics (31)
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Optimal Multichannel Stretch Factors for Estimating Changes in Seismic Velocity: Application to the 2012 M w 7.8 Haida Gwaii Earthquake
Evidence for regionally continuous Early Cretaceous sinistral shear zones along the western flank of the Coast Mountains, coastal British Columbia, Canada
Latest Triassic–Early Jurassic Stikine–Yukon-Tanana terrane collision and the onset of accretion in the Canadian Cordillera: Insights from Hazelton Group detrital zircon provenance and arc–back-arc configuration
Late Pleistocene and early Holocene sea-level history and glacial retreat interpreted from shell-bearing marine deposits of southeastern Alaska, USA
HIGH-PRECISION CA-ID-TIMS AGE CONSTRAINTS ON THE NIBLACK Cu-Zn-Au-Ag DEPOSITS: A NEOPROTEROZOIC VOLCANIC-HOSTED MASSIVE SULFIDE DEPOSIT IN THE NORTH AMERICAN CORDILLERA
EVALUATING COMPOSITIONAL FIDELITY AND SOURCES OF MORTALITY OF SHORELINE FISH CARCASSES IN A FRESHWATER LAKE COMMUNITY IN WESTERN CANADA
Originally prepared for the GSA Thompson Field Forum that ran from Terrace to Prince Rupert, British Columbia, this guide describes the geology along the Skeena River transect of the Coast Mountains batholith, the largest Cordilleran batholith of western North America and one of the largest continental-margin batholiths in the world. The last guide to this area was published in 1983 and this new volume is the only modern overview of the last decades of work. The authors use the transect as a basis to examine the growth of the Coast Mountains batholith as a whole, emphasizing commonalities and variations with the batholith and how these traits may reflect magmatic processes that create convergent-margin batholiths.
Uplift and exhumation in Haida Gwaii driven by terrane translation and transpression along the southern Queen Charlotte fault, Canada
The age of the Tseax volcanic eruption, British Columbia, Canada
Abstract The Brucejack intermediate-sulfidation epithermal Au-Ag deposit, located 65 km north of Stewart, BC, forms part of a well-mineralized, structurally controlled, north-south gossanous trend associated with Early Jurassic intrusions straddling the Late Triassic-Early Jurassic Stuhini-Hazelton Group unconformity in the Sulphurets mineral district. Mining of the deposit commenced in mid-2017 after a long history of exploration dating back to the 1880s. Mineralization is hosted in deformed Lower Jurassic island-arc volcanic rocks of the Hazelton Group exposed on the eastern limb of the Cretaceous McTagg anticlinorium. High-grade Au-Ag mineralization was formed from ~184 to 183 Ma in association with a telescoped, multipulsed magmatic-hydrothermal system beneath an active local volcanic center. Precious metal mineralization occurs as coarse aggregates of electrum and silver sulfosalts in steeply dipping, E- to SE-trending quartz-carbonate vein stockwork zones cutting low-grade intrusion-related phyllic alteration. Epithermal vein development is interpreted to have occurred during the waning stages of Early Jurassic sinistral transpression in a compressive arc environment, followed by a limited Cretaceous deformation overprint.
Gas hydrate occurrences along the Haida Gwaii margin—Constraints on the geothermal regime and implications for fluid flow
Slope failure and mass transport processes along the Queen Charlotte Fault, southeastern Alaska
Abstract The Queen Charlotte Fault defines the Pacific–North America transform plate boundary in western Canada and southeastern Alaska for c. 900 km. The entire length of the fault is submerged along a continental margin dominated by Quaternary glacial processes, yet the geomorphology along the margin has never been systematically examined due to the absence of high-resolution seafloor mapping data. Hence the geological processes that influence the distribution, character and timing of mass transport events and their associated hazards remain poorly understood. Here we develop a classification of the first-order shape of the continental shelf, slope and rise to examine potential relationships between form and process dominance. We found that the margin can be split into six geomorphic groups that vary smoothly from north to south between two basic end-members. The northernmost group (west of Chichagof Island, Alaska) is characterized by concave-upwards slope profiles, gentle slope gradients (<6°) and relatively low along-strike variance, all features characteristic of sediment-dominated siliciclastic margins. Dendritic submarine canyon/channel networks and retrogressive failure complexes along relatively gentle slope gradients are observed throughout the region, suggesting that high rates of Quaternary sediment delivery and accumulation played a fundamental part in mass transport processes. Individual failures range in area from 0.02 to 70 km 2 and display scarp heights between 10 and 250 m. Transpression along the Queen Charlotte Fault increases southwards and the slope physiography is thus progressively more influenced by regional-scale tectonic deformation. The southernmost group (west of Haida Gwaii, British Columbia) defines the tectonically dominated end-member: the continental slope is characterized by steep gradients (>20°) along the flanks of broad, margin-parallel ridges and valleys. Mass transport features in the tectonically dominated areas are mostly observed along steep escarpments and the larger slides (up to 10 km 2 ) appear to be failures of consolidated material along the flanks of tectonic features. Overall, these observations highlight the role of first-order margin physiography on the distribution and type of submarine landslides expected to occur in particular morphological settings. The sediment-dominated end-member allows for the accumulation of under-consolidated Quaternary sediments and shows larger, more frequent slides; the rugged physiography of the tectonically dominated end-member leads to sediment bypass and the collapse of uplifted tectonic features. The maximum and average dimensions of slides are an order of magnitude smaller than those of slides observed along other (passive) glaciated margins. We propose that the general patterns observed in slide distribution are caused by the interplay between tectonic activity (long- and short-term) and sediment delivery. The recurrence (<100 years) of M > 7 earthquakes along the Queen Charlotte Fault may generate small, but frequent, failures of under-consolidated Quaternary sediments within the sediment-dominated regions. By contrast, the tectonically dominated regions are characterized by the bypass of Quaternary sediments to the continental rise and the less frequent collapse of steep, uplifted and consolidated sediments.
Slope failure and mass transport processes along the Queen Charlotte Fault Zone, western British Columbia
Abstract Multibeam echosounder (MBES) images, 3.5 kHz seismic-reflection profiles and piston cores obtained along the southern Queen Charlotte Fault Zone are used to map and date mass-wasting events at this transform margin – a seismically active boundary that separates the Pacific Plate from the North American Plate. Whereas the upper continental slope adjacent to and east (upslope) of the fault zone offshore of the Haida Gwaii is heavily gullied, few large-sized submarine landslides in this area are observed in the MBES images. However, smaller submarine seafloor slides exist locally in areas where fluid flow appears to be occurring and large seafloor slides have recently been detected at the base of the steep continental slope just above its contact with the abyssal plain on the Queen Charlotte Terrace. In addition, along the subtle slope re-entrant area offshore of the Dixon Entrance shelf bathymetric data suggest that extensive mass wasting has occurred in the vicinity of an active mud volcano venting gas. We surmise that the relative lack of submarine slides along the upper slope in close proximity to the Queen Charlotte Fault Zone may be the result of seismic strengthening (compaction and cohesion) of a sediment-starved shelf and slope through multiple seismic events.
Abstract Detailed sedimentological and stratigraphic analyses of a c. 1500 m thick, siliciclastic-dominated slope succession in the Neoproterozoic Isaac Formation at the Castle Creek study area (southern Canadian Cordillera) reveals the occurrence of four well-preserved mass-transport complexes (MTCs) composed principally of slide/slump and debris-flow deposits. The stratigraphically lowest of these complexes is about 60 m thick and crops out for >2.5 km laterally, consisting of slide and debrite. The slide has an irregular erosive base with ramp-and-flat geometry. This is overlain locally by boulder-sized blocks of slightly to moderately deformed strata, bounded by shear surfaces. The slide is overlain by a debrite that pinches and swells laterally, consisting of matrix-supported conglomerate with common metre-scale clasts of mudstone and coarse-grained sandstone embedded in a mudstone-rich matrix with dispersed, pebble quartz grains. Based on its stratigraphic position at the base of the slope, vertical stacking of slide-debrite, lithological distribution, considerable thickness and lateral extent, this MTC is interpreted to be associated with a major episode of continental slope instability and submarine mass-wasting. The close association between the MTC and underlying/overlying mixed carbonate-siliciclastic strata suggests that sea level most likely exerted a key control on sediment supply, which ultimately led to the emplacement of this MTC.
Providing multidisciplinary scientific advice for coastal planning in Kitimat Arm, British Columbia
Abstract A 6.3 m tsunami swept through Kitimat Arm, British Columbia in 1974. An even larger wave struck and damaged the Northlands Navigation dock at Kitimat and the Haisla First Nation docks at Kitamaat Village the following year. Further down the fjord, two large coastal block failures were observed on the fjord walls across from the Gitga'at village of Hartley Bay. Several large infrastructure projects have recently been proposed for the Kitimat Arm coastal areas. The Geological Survey of Canada has therefore embarked on a five-year project to understand the magnitude and frequency of submarine mass movements in this fjord system to provide information regarding the risks from these events and to propose mitigation measures that may reduce these risks. We provide here an overview and the main results to date of an ongoing multidisciplinary study, which includes palaeotsunami studies, geomorphological and sub-seabed mapping, subaerial landslide hazard assessment, tsunami modelling, in situ and laboratory geotechnical testing, and the real-time tracking of seismic activity and seafloor movement. Some of these activities are reported in greater detail elsewhere in this book. The results of this research are summarized as a list of conclusions and recommendations to the Government of Canada.