| Preface | |
| A Brief History of Basement Tectonics and the International Basement Tectonics Conferences | |
| The Midcontinent Rift System: An Overview | p. 3 |
| Summary of GLIMPCE Geophysical Investigations of the Midcontinent Rift System in the Lake Superior Region | p. 7 |
| Integrated Potential-Field and Seismic Reflection Studies of the Midcontinent Rift in Eastern Lake Superior | p. 11 |
| The Port Coldwell Veins, Northern Ontario: Pb-Zn-Ag Deposits in a Rift Setting | p. 15 |
| Relationship Between Native Copper Deposits and Tectonic Development of the North American Midcontinent Rift System | p. 19 |
| Petrography and Sedimentation of the Middle Proterozoic (Keweenawan) Nonesuch Formation, Western Lake Superior Region: Midcontinent Rift System | p. 25 |
| Structural Geometry of the Superior Zone, Midcontinent Rift System | p. 29 |
| The Finland Tectono-Magmatic Discontinuity - A Growth Fault Marking the Western Margin of the Portage Lake Volcanic Basin of the Midcontinent Rift System | p. 35 |
| The Response to Rifting by the North Shore Volcanics in Minnesota | p. 41 |
| A Review of Sulfide, Platinum Group Element and Oxide Mineralization Along the Western Contact of the Duluth Complex: As Related to Structural Development | p. 47 |
| Keweenawan Supergroup Clastic Rocks of the Midcontinent Rift System in Iowa | p. 55 |
| Tectonic Implications and Influence of the Midcontinent Rift System in Nebraska and Adjoining Areas | p. 61 |
| Volcanic Rocks of the Midcontinent Rift System: A Review | p. 65 |
| Sedimentary Fill of the 1100 Ma (Keweenawan) Midcontinent Rift System in the Lake Superior Region | p. 69 |
| Paleozoic Rifting in New England, New Brunswick and Nova Scotia, U.S.A. and Canada | p. 73 |
| In Search of the East Continent Rift Complex: Evidence and Conclusions | p. 103 |
| The Characteristics of Granite in a Cambrian Rift | p. 107 |
| The Possible Effect of a Very Old Archean Nucleus on Mesozoic Rifting of Gondwana | p. 113 |
| Structure of the Pripyat-Dnieper-Donets Rift System and Affiliated Economic Geology | p. 119 |
| Tectonic Setting of Late Jurassic-Early Cretaceous Intraplate Magmatism on Mount Hermon, Northern Israel | p. 133 |
| The Tanganyika, Malawi, Rukwa, and Turkana Rift Zones of East Africa: An Inter-Comparison of Rift Architectures, Structural Styles, and Stratigraphies | p. 139 |
| Preliminary Investigations of Basement Tectonic Fabric of the Conterminous USA | p. 149 |
| The Basement Fault Block Pattern: Its Importance in Petroleum Exploration, and Its Delineation With Residual Aeromagnetic Techniques | p. 159 |
| Geophysical Studies of Reactivated Precambrian Structures in Minnesota | p. 209 |
| Precambrian Structures of Western Ohio | p. 215 |
| Geology of the Precambrian Basement Beneath the Paleozoic of Southwestern Ontario | p. 221 |
| Basement Control of Recurrent Faulting, Central Montana | p. 265 |
| The Association of Hydrocarbon with Basement Rock of Pre-Phanerozoic Age | p. 283 |
| The Occurrences of Descendant and Indigenous Hydrocarbon in Precambrian Rocks of China | p. 297 |
| El Morro: A Tertiary Volcanic Event Controlled by Pre-Paleozoic Crustal Fracturing, San Luis, Argentina | p. 323 |
| The Geodynamic Evolution of the Sardinian-Corsican and Calabrian-Peloritan Hercynian Massifs | p. 333 |
| Seismic Tomography Study of Basement Tectonics of the Dabie, Ailaoshan, and Longmenshan Orogens, China | p. 345 |
| Development of Fabric and Structures in Shear Zones | p. 355 |
| Kinematics of Shear Zones in the Southern Superior Province | p. 359 |
| Transpression-Induced Ductile Shear in the Boundary Region of the Quetico and Wawa Subprovinces, NE Minnesota - A Response to Local Strain Partitioning | p. 367 |
| Continuous Proterozoic Strike-Slip Fault - En Echelon Fracture Arrays in Archean Rocks: Implications for Fault Propagation Mechanics and Dike Injection | p. 379 |
| New Data on Vergence of the Late Archean Great Lakes Tectonic Zone | p. 409 |
| Tectonics of the Altun Tagh Fault | p. 413 |
| Post-Extension Shortening Strains Preserved in Calcites of the Midcontinent Rift | p. 419 |
| The New Madrid Rift System - Its Role in the Evolution of the Illinois Basin | p. 420 |
| Structure, Stages of Rifting, and Kinematics, Baikal Rift, Russia | p. 421 |
| Recent Submersible Studies of Lake Baikal | p. 423 |
| Evolution and Tectonic Environment of the Late Precambrian Aulacogen System of the North China Craton | p. 425 |
| Relationships Between Microearthquakes and Faults of the Ancient Yishu Rift Valley | p. 426 |
| Southern Gulf of Suez: Rift Tectonics | p. 427 |
| A Retrospective Look at Basement Control on Younger Structures | p. 428 |
| Remobilization of Archean Basement Sulphides Into Proterozoic, Silver Vein-Bearing Structures, Cobalt, Ontario | p. 430 |
| Basement Control on Laramide Deformation in the Powder River and Williston Basins and Adjacent Areas of the Northern Midcontinent - Tectonic Hierarchy in Continental Lithosphere | p. 432 |
| Basement Structural Trends in Egypt as Obtained from Geopotential Data | p. 434 |
| Kinematics of the Sinai Microplate | p. 435 |
| The Structural Setting and Deformational Features of the Hemlo Au-Mo Deposit, Ontario | p. 436 |
| The Virginia Horn: A Reactivated Archean Fault/Shear Zone | p. 438 |
| Early Proterozoic Leptite and Halleflinta (Tuff and Tuffite) Sequences of Southern Finland Reinterpreted as Shear Zones: Significance to Lake Superior Geology | p. 439 |
| The Bamble Shear Belt, Southern Norway | p. 441 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
