Flared slope

Last updated
Picture of the Wave Rock, a landmark flared slope in Western Australia. Wave rock (2005).jpg
Picture of the Wave Rock, a landmark flared slope in Western Australia.

A flared slope is a landform consisting in a rock-wall with a smooth transition into a concavity at the foot zone. Flared slopes form due to various weathering patterns that are more effective at the regolith or soil-covered base of rock walls. These landforms are common in granitic rocks but can also occur in other rock types such as ignimbrite. Flared slopes are found in a variety of different lithological and climatic environments in Australia (including the notable example of Wave Rock), Spain, South Africa, and the western United States. [1] Most flared slopes described in scientific literature are found in semi-arid climates. [2] The existence of rocks and regolith that could form flared slopes if exhumed has been confirmed from various drillings in Australia. [2]

Contents

Formation

Fared slopes are formed by weathering processes that are controlled by water flow patterns, rock composition, and the local environment. [3]

Water

Flared slopes can form when shallow groundwater erodes a rock's base faster than its upper layers exposed above ground. Particularly in granite rocks, subsurface groundwater weathering leads to multiple layers in the rock formation, creating different slopes and concavities within the same structure. [1] This eroding of the lower layer (or "foot slope" or "scarp-foot zone") leaves the top of the rock unaffected giving a flared slope profile as the rock is further weathered. [3]

Runoff can contribute greatly to the distinct features of a flared slope. The various ways water runoff contacts the rock allows for different patterns of erosion and features. The directional lines seen in many flared slopes indicate water flow over the structure and lead to different colors of exposed rock layers. [3]

Rock composition

Rock composition plays an important role in how a rock is weathered. Because flared slopes tend to be made of granite, the weathering process is very slow because granite is resistant to water penetration. [3] Loose material and weak areas of the rock allow faster weathering, causing a slight retreating concavity in the footslope of the rock. [3] With the more resistant rock taking longer to weather, groundwater has time to penetrate weak points underground, removing subsurface material faster than exposed surface rock. Enough iterations of this process leads to significant concaving of the structure as it erodes farther into the rock.

Surroundings

The local environment also influences flared slope weathering patterns. External factors that lead to a decrease in moisture and water in a given area of a rock can cause it to weather improperly. [3] Presence of poorly developed flared slopes next to well developed flared slopes cause them to act as obstacles or blocks that attribute to diverse runoff and weathering patterns. [3] Similarly, certain areas have concentrated runoff that deprive them of moisture and form inclined bedrock structures instead of flared slopes. [3]

Wave Rock

A classic example of flared slopes is the renowned Wave Rock in Western Australia. Part of a larger inselberg, Hyden Rock, Wave Rock holds many distinct characteristics that make it a target for understanding flared slope formations. [3] Because Wave Rock contains various distinct shapes and curves within its structure, it is thought to have formed from multiple processes, including due to marine erosion, sand blasting, and water erosion. [1] Wave Rock has likely experienced subaerial weathering by rain, frost, and river water. As water flows over the cliff, it carries sediments and chemicals that contribute to weathering of the rock's inner face as the water runs vertically downward. [1] As time progresses, sediments accumulate at the base of the slope and carve a concave shape into the rock, with vertical lines indicating runoff erosion that expose different colors of the granite. [1]

Related Research Articles

<span class="mw-page-title-main">Tor (rock formation)</span> Large, free-standing rock outcrop on a gentle hill summit

A tor, which is also known by geomorphologists as either a castle koppie or kopje, is a large, free-standing rock outcrop that rises abruptly from the surrounding smooth and gentle slopes of a rounded hill summit or ridge crest. In the South West of England, the term is commonly also used for the hills themselves – particularly the high points of Dartmoor in Devon and Bodmin Moor in Cornwall.

<span class="mw-page-title-main">Beach</span> Area of loose particles at the edge of the sea or other body of water

A beach is a landform alongside a body of water which consists of loose particles. The particles composing a beach are typically made from rock, such as sand, gravel, shingle, pebbles, etc., or biological sources, such as mollusc shells or coralline algae. Sediments settle in different densities and structures, depending on the local wave action and weather, creating different textures, colors and gradients or layers of material.

<span class="mw-page-title-main">Escarpment</span> Steep slope or cliff separating two relatively level regions

An escarpment is a steep slope or long cliff that forms as a result of faulting or erosion and separates two relatively level areas having different elevations.

<span class="mw-page-title-main">Peneplain</span> Low-relief plain formed by protracted erosion

In geomorphology and geology, a peneplain is a low-relief plain formed by protracted erosion. This is the definition in the broadest of terms, albeit with frequency the usage of peneplain is meant to imply the representation of a near-final stage of fluvial erosion during times of extended tectonic stability. Peneplains are sometimes associated with the cycle of erosion theory of William Morris Davis, but Davis and other workers have also used the term in a purely descriptive manner without any theory or particular genesis attached.

<span class="mw-page-title-main">Inselberg</span> Isolated, steep rock hill on relatively flat terrain

An inselberg or monadnock is an isolated rock hill, knob, ridge, or small mountain that rises abruptly from a gently sloping or virtually level surrounding plain. In Southern Africa, a similar formation of granite is known as a koppie, an Afrikaans word from the Dutch diminutive word kopje. If the inselberg is dome-shaped and formed from granite or gneiss, it can also be called a bornhardt, though not all bornhardts are inselbergs. An inselberg results when a body of rock resistant to erosion, such as granite, occurring within a body of softer rocks, is exposed by differential erosion and lowering of the surrounding landscape.

<span class="mw-page-title-main">Regolith</span> A layer of loose, heterogeneous superficial deposits covering solid rock

Regolith is a blanket of unconsolidated, loose, heterogeneous superficial deposits covering solid rock. It includes dust, broken rocks, and other related materials and is present on Earth, the Moon, Mars, some asteroids, and other terrestrial planets and moons.

<span class="mw-page-title-main">Stack (geology)</span> Geological landform consisting of a steep and often vertical column or columns of rock

A stack or sea stack is a geological landform consisting of a steep and often vertical column or columns of rock in the sea near a coast, formed by wave erosion. Stacks are formed over time by wind and water, processes of coastal geomorphology. They are formed when part of a headland is eroded by hydraulic action, which is the force of the sea or water crashing against the rock. The force of the water weakens cracks in the headland, causing them to later collapse, forming free-standing stacks and even a small island. Without the constant presence of water, stacks also form when a natural arch collapses under gravity, due to sub-aerial processes like wind erosion. Erosion causes the arch to collapse, leaving the pillar of hard rock standing away from the coast—the stack. Eventually, erosion will cause the stack to collapse, leaving a stump. Stacks can provide important nesting locations for seabirds, and many are popular for rock climbing.

Landforms are categorized by characteristic physical attributes such as their creating process, shape, elevation, slope, orientation, rock exposure, and soil type.

<span class="mw-page-title-main">Spheroidal weathering</span> Form of chemical weathering that affects jointed bedrock

Spheroidal weathering is a form of chemical weathering that affects jointed bedrock and results in the formation of concentric or spherical layers of highly decayed rock within weathered bedrock that is known as saprolite. When saprolite is exposed by physical erosion, these concentric layers peel (spall) off as concentric shells much like the layers of a peeled onion. Within saprolite, spheroidal weathering often creates rounded boulders, known as corestones or woolsack, of relatively unweathered rock. Spheroidal weathering is also called onion skin weathering,concentric weathering,spherical weathering, or woolsack weathering.

<span class="mw-page-title-main">Mesa</span> Elevated area of land with a flat top and sides, usually much wider than buttes

A mesa is an isolated, flat-topped elevation, ridge or hill, which is bounded from all sides by steep escarpments and stands distinctly above a surrounding plain. Mesas characteristically consist of flat-lying soft sedimentary rocks capped by a more resistant layer or layers of harder rock, e.g. shales overlain by sandstones. The resistant layer acts as a caprock that forms the flat summit of a mesa. The caprock can consist of either sedimentary rocks such as sandstone and limestone; dissected lava flows; or a deeply eroded duricrust. Unlike plateau, whose usage does not imply horizontal layers of bedrock, e.g. Tibetan Plateau, the term mesa applies exclusively to the landforms built of flat-lying strata. Instead, flat-topped plateaus are specifically known as tablelands.

<span class="mw-page-title-main">Gully</span> Landform created by running water and/or mass movement eroding sharply into soil

A gully is a landform created by running water, mass movement, or commonly a combination of both eroding sharply into soil or other relatively erodible material, typically on a hillside or in river floodplains or terraces.

<span class="mw-page-title-main">Cirque</span> An amphitheatre-like valley formed by glacial erosion

A cirque is an amphitheatre-like valley formed by glacial erosion. Alternative names for this landform are corrie and cwm. A cirque may also be a similarly shaped landform arising from fluvial erosion.

<span class="mw-page-title-main">Wave Rock</span> Rock formation in Western Australia

Wave Rock is a natural rock formation that is shaped like a tall breaking ocean wave. The "wave" is about 15 m (50 ft) high and around 110 m (360 ft) long. It forms the north side of a solitary hill, which is known as "Hyden Rock". This hill, which is a granite inselberg, lies about 3 km (2 mi) east of the small town of Hyden and 296 km (184 mi) east-southeast of Perth, Western Australia. Wave Rock and Hyden Rock are part of a 160 ha (395-acre) nature reserve, Hyden Wildlife Park. More than 100,000 tourists visit every year.

<span class="mw-page-title-main">Exfoliation joint</span> Type of weathering joint

Exfoliation joints or sheet joints are surface-parallel fracture systems in rock, often leading to the erosion of concentric slabs.

<span class="mw-page-title-main">Groundwater sapping</span>

Groundwater sapping is a geomorphic erosion process that results in the headward migration of channels in response to near constant fluid discharge at a fixed point. The consistent flow of water displaces fine sediments which physically and chemically weathers rocks. Valleys that appear to have been created by groundwater sapping occur throughout the world in areas such as England, Colorado, Hawai’i, New Zealand, and many other places. However, it is difficult to characterize a landform as being formed exclusively by groundwater sapping due to phenomena such as pluvial runoff, plunge-pool undercutting, changes in water table level, and inconsistent groundwater flow. An example of drainage ways created purely by the outflow of subsurface fluids can be seen on the foreshores of beaches. As the surge of water and sand brought to land by a wave retreats seaward, the film of water becomes thinner until it forms rhomboid shaped patterns in the sand. Small fans form at the apex of the rhombic features, which are eventually fed by the remaining backflow of water traveling downslope. Channels begin to form headward in the form of millimeter wide rills along the sides of the fans; the creation of these small channel networks culminates when the last of the backwash dissipates.

<span class="mw-page-title-main">Granite dome</span> Rounded hills of bare granite formed by exfoliation

Granite domes are domical hills composed of granite with bare rock exposed over most of the surface. Generally, domical features such as these are known as bornhardts. Bornhardts can form in any type of plutonic rock but are typically composed of granite and granitic gneiss. As granitic plutons cool kilometers below the Earth's surface, minerals in the rock crystallize under uniform confining pressure. Erosion brings the rock closer to Earth's surface and the pressure from above the rock decreases; as a result the rock fractures. These fractures are known as exfoliation joints, or sheet fractures, and form in onionlike patterns that are parallel to the land surface. These sheets of rock peel off the exposed surface and in certain conditions develop domical structures. Additional theories on the origin of granite domes involve scarp-retreat and tectonic uplift.

<i>Earth Revealed: Introductory Geology</i> 1992 American TV series or program

Earth Revealed: Introductory Geology, originally titled Earth Revealed, is a 26-part video instructional series covering the processes and properties of the physical Earth, with particular attention given to the scientific theories underlying geological principles. The telecourse was produced by Intelecom and the Southern California Consortium, was funded by the Annenberg/CPB Project, and first aired on PBS in 1992 with the title Earth Revealed. All 26 episodes are hosted by Dr. James L. Sadd, professor of environmental science at Occidental College in Los Angeles, California.

<span class="mw-page-title-main">Scarp retreat</span>

Scarp retreat is a geological process through which the location of an escarpment changes over time. Typically the cliff is undermined, rocks fall and form a talus slope, the talus is chemically or mechanically weathered and then removed through water or wind erosion, and the process of undermining resumes. Scarps may retreat for tens of kilometers in this way over relatively short geological time spans, even in arid locations.

<span class="mw-page-title-main">Nubbin (landform)</span> Small hill of bedrock with rounded residual blocks

In geomorphology a nubbin is a small and gentle hill consisting of a bedrock core dotted with rounded residual blocks. The blocks derive from disintegrated and weathered bedrock layers. In particular it is assumed that the boulders of the nubbins are the remnants of the outer one or two exfoliation shells that weathered underground, albeit some weathering can continue to occur once the boulders are exposed on surface.

<span class="mw-page-title-main">Aerial photograph interpretation (geology)</span> Method of viewing geological details from aerial images

Aerial photograph interpretation is a method of extrapolating geological details of the ground surface from aerial images. It allows geologists to analyze the distinguishing geological features and structures, plant cover, past history of the site, soil properties, and topography of the study area. It is crucial in the early stage of a geological mapping as it is less time-consuming and offers important data at a minimal price. It is also commonly used in other industries such as forest management, environmental science, disciplines of engineering, and investigating aviation accidents.

References

  1. 1 2 3 4 5 Ollier, Clifford D.; Bourman, Robert P. (2002). "Flared Slopes, Footslopes, and the Retreat of Overhanging Slopes: Examples of Convergent Landform Development". Physical Geography. 23 (4): 321–334. doi:10.2747/0272-3646.23.4.321. ISSN   0272-3646.
  2. 1 2 Twidale, C.R.; Harrel, J.A. (2023). "Flared slopes: The work of water or fire?". Earth-Science Reviews . 247. doi:10.1016/j.earscirev.2023.104611.
  3. 1 2 3 4 5 6 7 8 9 Twidale, C. Rowland; Bourne, Jennifer A. (1998). "Flared Slopes Revisited". Physical Geography. 19 (2): 109–132. doi:10.1080/02723646.1998.10642643. ISSN   0272-3646.