Geologic maps show where various rock units and structures lie at the earth's surface. Because many of these structures are planar, or approximately planar features, they interact with topography in predictable ways.
Where beds are horizontal, or nearly horizontal, their contacts must also be horizontal--so, on maps, contacts run about parallel to contour lines. Geologic maps which portray flat-lying rocks are very distinctive: the various colors used to distinguish rock units are confined by contour lines and so accentuate the topography.
Look below. The photograph on the left shows a bird's eye view of some sub-horizontal rocks near the Grand Canyon. The map on the right shows part of the Grand Canyon itself. Even though they are of different places, you should be able to see that in both, the relationship of bedding to topography is the same.
Note that the contacts in the geologic map are parallel to the contour lines. Consequently, the different colors enhance the "topographic look" to the map. To see just how parallel the contacts are to the contour lines, click here to see the map enlarged.
The Inner Gorge. The map above shows a part of the western Grand Canyon where the Colorado River has cut only as far ast the Cambrian Muav Limestone (shown in light green--near the river). Farther upstream, the river has cut below the Great Unconformity into the underlying Precambrian rocks. This area is called the "Inner Gorge". To see a more map of part of the Inner Gorge, click here. From a geometrical standpoint, this map is instructive because it shows steeply dipping contacts beneath sub-horizontal ones.
Map patterns of Low-Angle faults--they also follow topography. Click here to see some examples.
Take a look at the photo below. Note that the beds dip to the left and towards the viewer. Wherever they are cut by gullies, the outcrop pattern is such that the beds "V" in the direction they dip.
Mesozoic Rocks along the San Juan River, SE Utah.
Click here to view some block models which also illustrate the rule of "'Vs".
Click here for another photo and a map of Vs.
Map patterns of plunging folds make zig-zag patterns that change direction at the fold hinges. Anticlines plunge in the direction that folds close; synclines plunge in the direction that they open. Compare the photo and map below. They are both from the same area in southwestern Montana.
Click here to see the nose of a plunging fold as viewed from the ground.
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