Geological Map of Canada (CD-ROM)
                        Map D1860A 
  
About the Geology of Canada 
---------------------------
The new Geological Map of Canada is the latest edition 
produced by the Geological Survey of Canada. The last edition 
was in 1969 (Douglas, 1969). 

Map Design 
----------
The map displays bedrock formations at or near the surface of
the land, on the sea floor above the continental crust that forms
the Canadian landmass, and oceanic crust surrounding the landmass.
The bedrock units are grouped and coloured according to geological
age and composition. The colours of offshore units and oceanic
crust are paler and more generalized than those on land,
although the constituent units offshore are still easily 
discernible from their dashed boundaries. This colour design,
coupled with the use of a white buffer zone at the coast allows
the coastline of Canada to be readily distinguished and still
show the grand geological architecture of the Canadian landmass.

The map also shows major faults that have disrupted the Earth's 
crust, onshore and offshore, and a variety of special geological 
features such as kimberlite pipes, which locally contain 
diamonds, impact structures suspected to have been caused by 
meteorites, and extinct and active spreading centres in the 
surrounding oceans. 


Map Compilation 
---------------
The map was compiled from published and unpublished maps and 
reports of the Geological Survey of Canada, Provincial Geological 
Surveys, the Yukon and Northwest Territories Geology Divisions of 
Indian and Northern Affairs Canada. Parts of U.S.A. were derived 
from maps of the United States Geological Survey. The resulting 
map is more intricate and complex than that published in 1969. 
This reflects completion of the helicopter-assisted 
reconnaissance mapping of Canada in 1978 and recent more 
detailed geological mapping by the Geological Survey of Canada 
and Provincial and Territorial surveys - much of it under 
Mineral Development Agreements and through the GSC's National 
Geoscience Mapping Program (NATMAP). The compilation also used 
data from extensive gravity surveys by the former Earth Physics 
Branch, now part of the GSC, and from aeromagnetic surveys. The 
quality and accuracy of the map has been increased as a result 
of improved methods of dating geological units, notably from 
advances in micropaleontology (conodonts and radiolarian) and 
in radioactive dating methods employing the isotopes of uranium 
and lead. Altogether the new map has benefitted from a more 
accurate depiction and correlation of geological formations and 
better understanding of their natural relations. Similarly, 
extensive marine geoscience surveys since 1969 by the GSC now 
allow the geology on land to be extended across the Great Lakes 
and offshore, and to display the age, structure, and patterns 
of oceanic crust surrounding Canada. 

The Geological Architecture of Canada
-------------------------------------
The geological assembly of Canada has resulted from the 
convergence, collision, and separation of distinctive 
continental and oceanic fragments at various times over the last 
four billion years. Canada's geological architecture is 
dominated by its central foundation - the Precambrian shield - 
the largest area of Archean rocks (>2.5 billion years) in the 
world and containing its oldest rocks, dated at 4.0 billion 
years. The shield consists of several Archean fragments 
comprising granitic rocks and gneiss laced with sinuous 
greenstone volcanic belts and broader tracts of sedimentary 
rocks. Orogenic belts between the Archean fragments, such as 
those flanking the Superior Province or Slave Province, contain 
younger, Paleoproterozoic (2.5 to 1.6 billion years) rocks 
representing continental, oceanic, and collisional deposits and 
foreign or exotic fragments. Although most of the Precambrian 
shield was consolidated by the end of Paleoproterozoic time 
(known as Laurentia), its southeast portion (the Grenville 
Province) was stabilized about one billion years ago. The 
addition of Mesoproterozoic (1.6 to 1.0 billion years) and 
older gneisses and granitic rocks to Laurentia in the 
Grenville orogenic belt thus completed the assembly of 
the Precambrian shield. 

Three younger deformed belts, mainly of Phanerozoic rocks (>545 
million years), surround the shield. The Appalachian belt, in 
the southeast, contains large tracts of continental and oceanic 
fragments that were attached to ancestral North America in 
early- and mid-Paleozoic times, about 475 and 375 million years 
ago, respectively. Similarly, in the Cordillera of western 
Canada, large areas of continental and oceanic fragments were 
added to ancestral North America in the Mesozoic era at various 
times during the last 180 million years. By contrast, in the 
Innuitian belt in the Arctic Islands, only a small foreign 
fragment was attached in the mid-Paleozoic about 400 million 
years ago. After the belts were deformed they were superimposed 
by extensive less deformed basins dominated by sedimentary rocks 
in the Appalachian and Innuitian belts, but by volcanic rocks in 
the Cordillera. 

Large parts of the Precambrian shield are covered by a thin 
veneer of undeformed sedimentary rocks which, except for 
Western Canada Basin east of the Cordillera, are mainly of 
early Paleozoic age. Locally, where the Paleozoic rocks are 
overlain by Cretaceous strata, they form basins, as in Hudson 
Bay, and fault-bounded troughs in and near Hudson Strait and 
north of Baffin Island, related to the rifting and opening of 
Labrador Sea and Baffin Bay. Crustal spreading and ocean 
opening, east of the passive eastern continental margin, 
ceased west of Greenland in the early Cenozoic, nearly 
40 million years ago, but still continues in the 
mid-Atlantic Ocean. 

A westward-thickening wedge of Mesozoic and Cenozoic sediments 
was deposited in Western Canada Basin. Its sediments were 
derived from elevated sources in the mountains of the deforming 
ancestral eastern Cordillera. 

The Pacific margin of Canada, by contrast with the passive 
Atlantic margin, is active. The North American continent is 
overriding and sliding past the Pacific Ocean crust, thereby 
generating earthquakes (largely offshore) and volcanoes in the 
western Cordillera. 


Uses of the Map 
---------------
The Geological Map of Canada has many uses, from an educational 
tool for teaching the geology of Canada to a template from which 
other national thematic maps can be derived. Examples of such 
thematic maps include: a tectonic map depicting the geological 
building blocks and related structures (faults and folds) that 
resulted in the assembly of the Canadian landmass and a 
metallogenic map showing the distribution and nature of 
important mineral deposits and their genetic relationships to 
their host geological formations. The new Geological Map of 
Canada is also the framework against which other national maps 
and databases, such as the Gravity Map, Magnetic Anomaly Map, 
Seismicity (earthquake risk), and various kinds of regional 
geochemical maps may be compared and interpreted. 

The digital version of the new Geological Map of Canada opens up 
new frontiers for learning about Canada and the great wealth and 
potential of its landmass and offshore regions. Not only will it 
provide the opportunity for geological patterns and related 
geological relationships to be studied at the scale of the 
Canadian landmass, but it will form the foundation for the 
digital national geoscience information base. 

J.O. Wheeler
November, 1996