Waterfalls are commonly formed when a river is young. At these times the
channel is often narrow and deep. When the river courses over resistant
bedrock, erosion happens slowly, while downstream the erosion occurs
more rapidly. As the watercourse increases its velocity at the edge of
the waterfall, it plucks material from the riverbed. Whirlpools created
in the turbulence as well as sand and stones carried by the watercourse
increase the erosion capacity. This causes the waterfall to carve deeper
into the bed and to recede upstream. Often over time, the waterfall
will recede back to form a canyon or gorge downstream as it recedes
upstream, and it will carve deeper into the ridge above it. The rate of
retreat for a waterfall can be as high as one and half meters per year.
Often, the rock stratum just below the more resistant shelf will be of a softer type, meaning that undercutting due to splashback will occur here to form a shallow cave-like formation known as a rock shelter under and behind the waterfall. Eventually, the outcropping, more resistant cap rock will collapse under pressure to add blocks of rock to the base of the waterfall. These blocks of rock are then broken down into smaller boulders by attrition as they collide with each other, and they also erode the base of the waterfall by abrasion, creating a deep plunge pool or gorge.
Often, the rock stratum just below the more resistant shelf will be of a softer type, meaning that undercutting due to splashback will occur here to form a shallow cave-like formation known as a rock shelter under and behind the waterfall. Eventually, the outcropping, more resistant cap rock will collapse under pressure to add blocks of rock to the base of the waterfall. These blocks of rock are then broken down into smaller boulders by attrition as they collide with each other, and they also erode the base of the waterfall by abrasion, creating a deep plunge pool or gorge.
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