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Promontory

A promontory is a raised mass of land that projects into a lowland or a , often forming a or . These features arise through geological processes such as or tectonic uplift and have historically served roles in , , and cultural landmarks. Notable examples span coastal and inland regions worldwide, including the Promontory Mountains in , , where Promontory Summit marked the completion of the in 1869.

Definition and Terminology

Definition

A promontory is a raised mass of land or rock that projects prominently into a surrounding lowland or , often serving as a natural overlooking adjacent . Promontories are typically formed by resistant rock types that endure better than surrounding materials, leading to their prominent projection; their size varies from small headlands a few meters wide to larger features extending several kilometers, with the emphasis on both and horizontal extension relative to the surrounding lower areas. Unlike a plateau, which features a broad, flat-topped , or a cliff, which is defined primarily by a steep vertical face without substantial , a promontory is distinguished by its notable extension into adjacent lower or . Promontories differ from peninsulas in scale and enclosure, as the latter are larger landmasses nearly surrounded by water on three sides and connected by an , whereas promontories represent more localized projections.

Etymology and Related Terms

The term "promontory" derives from the Latin prōmontōrium, an alteration of prōmunturium influenced by mōns (mountain), stemming from the verb prōminēre meaning "to jut out" or "project forward." This etymological root combines the prefix prō- (forward) with elements suggesting elevation or protrusion, reflecting the geographical feature's characteristic extension. The word entered English in the mid-16th century via Old French promontoire or directly from Medieval Latin, initially denoting a high point of land projecting into the sea. In classical texts, "promontory" (promunturium in Latin) was used to describe coastal projections, as seen in Pliny the Elder's Natural History (1st century CE), where it refers to headlands like the Iapygian Point in Italy or the Promontory of Diomedes. Over time, the term's usage evolved; while 19th-century definitions, such as in Noah Webster's 1828 dictionary, strictly applied it to maritime features beyond the coastline, modern geographical contexts have broadened it to encompass inland elevated projections, such as bluffs or plateaus overlooking lowlands. Related terms include synonyms like "headland" for coastal elevations and "point" for sharper projections, while "ness"—derived from Old Norse nes, meaning a promontory or headland—appears in Scandinavian-influenced place names, such as Ness of Burgi in Shetland. Beyond geography, the term has a secondary application in anatomy, as in the "promontory of the sacrum," the anterior projection of the first sacral vertebra, retaining the Latin root's sense of protrusion. Linguistic variations exist across languages; in , equivalents include akrōtērion (summit or promontory), used in geographical descriptions like those in Ptolemy's works. In , "promontorio" directly mirrors the English term, while "" specifically denotes coastal types akin to capes.

Geological Formation

Erosional Mechanisms

Promontories, particularly coastal headlands, primarily form through differential erosion, a where less resistant rocks more rapidly than overlying or adjacent harder layers, such as composed of or , resulting in the protrusion of resistant material. This selective removal of softer substrates, like or clay, exposes and accentuates the durable , creating elevated landforms that project into surrounding terrain. In coastal settings, wave-driven processes dominate erosion at promontory bases, including that forces water into rock fissures to widen cracks, by sediment-laden waves that grind away material, and through chemical of minerals. These actions often undercut the , forming sea caves, arches, and eventually isolated stacks as the promontory retreats. weathering complements these marine forces inland, with mechanisms such as rainfall-induced , freeze-thaw cycles that expand water in cracks, and salt in arid zones accelerating breakdown of exposed surfaces. The development of promontories spans thousands to millions of years, depending on local conditions, though post-glacial isostatic rebound and accelerated erosion in regions like coastal Norway have reshaped headlands more rapidly over the past 10,000 years, with bedrock weathering rates reaching 4–10 cm per millennium. Erosion rates vary widely, from 4–5 cm per year in unconsolidated coastal cliffs to over 0.7 m per year in exposed headlands subject to intense wave focusing. Key influencing factors include rock hardness, measured on the —where resistant rates 7 compared to softer at 2–3—determining differential potential; climatic regimes, with temperate zones favoring chemical and arid areas promoting physical breakdown; and sea-level fluctuations, such as post-Ice Age rises that expose new coastal promontories to wave attack. Tectonic uplift can enhance by elevating landforms into more aggressive zones, though it primarily supports initial exposure rather than the erosional sculpting itself.

Structural and Depositional Origins

Promontories often originate from tectonic processes involving faulting and uplift along plate boundaries, where differential movement elevates fault-bounded blocks into prominent landforms. In rift zones, produce horst structures—upthrown blocks bounded by normal faults—that rise above surrounding terrain to form projecting ridges or headlands. For instance, the North Promontory Mountains in represent a classic horst block, uplifted along a series of faults during extension in the . In compressive settings, folding within orogenic belts exposes resistant rock layers through anticlinal uplifts, creating elevated promontories that stand out against softer surrounding strata. The orogen exemplifies this, where the New York Promontory emerged as a relict headland due to Taconic and Acadian folding and thrusting during convergence, preserving a salient in the Laurentian margin. Subduction-related uplift along convergent margins similarly generates promontories, as seen in the , where ongoing subduction has elevated coastal blocks through crustal shortening and magmatic underplating since the . Depositional processes contribute to promontory formation through the buildup of resistant sediments in specific environments. In fluvial settings, coarse conglomerates accumulate in proximal deltaic lobes or alluvial fans, forming consolidated ridges that project into adjacent lowlands due to their durability. Glacial activity also deposits in moraines—linear ridges of unsorted —that can create transverse or lateral projections, particularly terminal moraines marking former ice fronts. Volcanic deposition further builds promontories via effusive eruptions; in settings, basaltic lava flows from volcanoes construct broad coastal platforms and headlands, as exemplified by the projections along Hawaii's Big Island, where and have extruded layered flows since the Pleistocene. Combined structural and depositional mechanisms often interplay to form promontories, where initial sediment accumulation is later modified by tectonics. Ancient coral reefs, for example, lithify into hard limestone platforms that, upon uplift and exposure, develop into projecting headlands; in , , formed from Devonian-Mississippian reef complexes in equatorial seas, subsequently folded and faulted during the to create resistant coastal outcrops. These primary structures are typically refined by subsequent erosional processes, sharpening their outlines while preserving the underlying tectonic or depositional framework. Global examples include Andean coastal salients uplifted by subduction since the and Hawaiian shield-derived headlands from hotspot volcanism over the past 5 million years.

Types and Classifications

Coastal Promontories

Coastal promontories are elevated landforms that project into adjacent water bodies such as seas or lakes, typically consisting of resistant rock that forms cliffs, headlands, or beaches at their terminus. These features are shaped by marine processes including wave action, tidal fluctuations, ocean currents, and storm surges, which erode the landward side and create dynamic morphologies like intervening bays or coves where softer materials are removed between promontories. Unlike inland variants that lack direct aquatic adjacency, coastal promontories experience continuous interaction with water, leading to ongoing reshaping and sediment redistribution. Key subtypes include capes, which are large-scale promontories serving as prominent navigational landmarks due to their size and exposure; headlands, smaller rocky projections often featuring wave-cut platforms at their base; and spits, elongated depositional landforms of sand or gravel that extend from promontory bases into shallower waters under the influence of longshore drift. Capes and headlands are primarily erosional in origin, while spits represent accumulations of transported material, sometimes attaching to or extending from the parent promontory. Ecologically, coastal promontories support diverse habitats, including colonies that nest on steep cliffs and headlands for from predators, as seen in and offshore sites along temperate coasts. Submerged bases of rocky promontories often harbor forests, which provide shelter, food sources, and high primary productivity for marine species in cold-water environments. These ecosystems face threats from sea-level rise, with projections indicating up to 0.6–1.1 meters of global increase under high-emissions scenarios by 2100 (relative to 1995–2014). This particularly endangers low-lying depositional subtypes like spits through increased inundation and erosion. Measurement of coastal promontories focuses on their lateral extent and vertical relative to the , with widths typically ranging from hundreds of for protruding to several kilometers for expansive capes, and prominence defined by cliff heights often exceeding tens of to provide the characteristic steep drop-off.

Inland and Elevated Promontories

Inland and elevated promontories are raised spurs or ridges that project into surrounding terrestrial lowlands, such as valleys or plains, without bordering water bodies. These landforms are primarily shaped by fluvial , where rivers incise valleys into upland areas, and , where wind removes softer sediments to isolate resistant rock layers. Unlike coastal promontories, which experience exposure, inland variants develop through and of horizontal strata. Key subtypes include spurs, which are elongated ridges extending laterally from mountain fronts into adjacent valleys, formed when harder rock resists while surrounding materials are worn away, often creating patterns in courses. Related erosional features in similar environments include (isolated, flat-topped elevations with steep sides, taller than wide) and mesas (broader table-like features with flat summits and precipitous cliffs, wider than tall), though these are typically standalone remnants rather than projecting forms. These promontories function as critical divides, separating adjacent river systems by channeling into distinct drainage basins and influencing regional . They also promote by forming ecotones—transitional zones between ecosystems, such as grassland-to-forest edges—where habitat diversity supports a higher concentration of adapted to varying conditions. For instance, in settings, these interfaces facilitate species coexistence through microclimatic variations and gradients. In scale, inland promontories often rise 150 to 600 meters (500 to 2,000 feet) above surrounding terrain, though some exceed this in relative prominence. They are especially prevalent in arid landscapes like the American Southwest, where layered sedimentary rocks form prominent ridges and spurs.

Historical and Cultural Significance

Role in Navigation and Exploration

Promontories have long served as essential visual landmarks in ancient , particularly for Mediterranean seafarers who hugged coastlines to avoid open-sea perils. The Phoenicians, renowned for their maritime prowess, navigated by keeping routes close to land, utilizing promontories for shelter and orientation during voyages across the region. Similarly, Greek mariners incorporated these features into their lore and practice; Cape Malea, a prominent promontory on the eastern , is referenced in Homer's as a pivotal waypoint in Odysseus's perilous journey home, underscoring its role as a recognizable marker for ancient sailors. The Romans advanced this utility by erecting lighthouses on elevated promontories to guide ships at night or in fog; the , constructed in the late 1st or early 2nd century AD on a rocky promontory near modern , , remains the oldest functioning and exemplifies Roman engineering for maritime safety. During the Age of Exploration, promontories were instrumental in discovering and mapping global sea routes, often marking treacherous turning points. In 1488, Portuguese explorer became the first European to round the , a rocky promontory at Africa's southern tip, proving a viable ocean passage to the and opening trade paths to . His successor, , followed this route in 1497–1499, leveraging the cape as a critical navigational reference to reach . In , such landforms gained prominence in projections designed for navigation; Gerardus Mercator's 1569 cylindrical projection preserved angles to allow accurate plotting of rhumb lines around promontories and capes, facilitating safer voyages for explorers charting unknown coasts. In contemporary , promontories function as fixed GPS waypoints and natural reflectors, their elevated cliffs providing reliable echoes for electronic systems amid vast oceans. Yet, their protruding nature also contributes to hazards, as seen with —a stark promontory at South America's southern extremity—where over 800 shipwrecks have occurred due to fierce winds and currents since the 17th century. Paralleling maritime uses, inland promontories aided overland travel; in the , elevated features like Scotts Bluff in served as enduring landmarks for Native American hunters and migrants traversing ancient trails along river valleys for millennia.

Defensive and Cultural Uses

Promontories have long been utilized for defensive purposes due to their elevated positions and natural barriers, providing strategic advantages in . In the , communities in constructed promontory forts by fortifying the accessible sides of elevated landforms, leveraging the steep slopes as inherent defenses; a prominent example is Maiden Castle in Dorset, which encloses approximately 47 acres and features complex ramparts. During the medieval period, such sites continued to host fortifications, as seen with , built atop the resistant of Castle Rock, which offered commanding views and protection against sieges for over 800 years. These landforms played pivotal roles in major historical conflicts, amplifying their tactical value. The Rock of Gibraltar, a limestone promontory rising over 1,300 feet, was central to the Great Siege of 1779–1783, where British forces repelled combined Spanish and French assaults, preserving control of this Mediterranean gateway essential for naval operations. In , promontories along coastlines were fortified with concrete bunkers and gun emplacements to deter invasions; for instance, the coastal defenses at St. John's in Newfoundland included batteries on rocky promontories like , guarding the harbor approaches with 10-inch guns until 1945. Beyond military applications, promontories hold profound cultural and symbolic significance, often revered as sacred or mythical spaces. in , a 6,670-foot promontory , has been a monastic sanctuary since the 9th century, housing 20 Eastern Orthodox monasteries and embodying spiritual isolation as the "Garden of the Virgin Mary," where access is restricted to male pilgrims. In art and literature, these dramatic features inspired Romantic-era works that evoked the sublime power of nature, such as Caspar David Friedrich's Chalk Cliffs on Rügen (1818), which portrays human figures dwarfed by towering white cliffs on the island's promontory, symbolizing existential awe and the Romantic fascination with untamed landscapes. Today, promontories with are preserved through international recognition to protect their historical and mythical narratives. The in , a promontory formed by ancient volcanic activity, was designated a in 1986 for its geological and cultural value, tied to the Irish legend of the giant Finn McCool constructing a pathway to across the sea.

Notable Examples

Europe

Europe hosts a variety of prominent promontories shaped by ancient tectonic processes, including elements influenced by the , which resulted from the collision between the and Eurasian plates beginning in the period. These landforms often feature dramatic coastal cliffs and unique rock compositions, serving as natural landmarks with significant geological and historical value. Notable examples include the Rock of Gibraltar, Lizard Point in , and the Giant's Causeway in , each illustrating distinct formation histories and cultural roles. The , a striking promontory rising to 426 meters, exemplifies a coastal feature uplifted during the as part of the broader tectonic interactions along the . Its formation was elevated through compressional forces from the convergence of the and Eurasian plates, creating a strategic elevated ridge overlooking the . Historically, this promontory gained prominence when Moorish forces under captured it in 711 AD, establishing a fortified base that controlled Mediterranean access for centuries. Lizard Point, the southernmost point of mainland , protrudes from the Lizard Peninsula in , characterized by serpentine rock derived from an ancient complex representing uplifted . Formed around 400 million years ago at a divergent plate margin and later deformed by the approximately 380 million years ago, the area's green and red bands mark the boundary between and . Its rugged, wave-eroded coastline has historically been shipwreck-prone, earning the peninsula the moniker "graveyard of ships" due to hazardous conditions that claimed numerous vessels over centuries. Further north, the in showcases a volcanic promontory with approximately 40,000 interlocking columns emerging from the sea, formed by intense volcanic activity around 50–60 million years ago during the opening of the North Atlantic. These hexagonal pillars, resulting from rapid cooling of lava flows, extend along the base of cliffs on the Antrim plateau, providing a classic locality for studying igneous processes. Although not directly tied to the , its formation aligns with broader tectonic shifts in . European promontories like Cape Finisterre in Spain have played key roles in historical navigation and conflict, with Finisterre—known to Romans as Finis Terrae, or "end of the world"—serving as a perceived oceanic terminus that influenced Viking raids along the Galician coast during the 9th–11th centuries. In the 20th century, its strategic position off the Iberian coast factored into World War II naval operations, including Allied convoy protections against German U-boat threats in the Battle of the Atlantic. Similarly, the Rock of Gibraltar's defensive role extended into modern conflicts, underscoring these features' enduring military significance. Today, these promontories attract significant while emphasizing efforts. The , designated a in 1986, features managed access via the North Antrim Coastal Path, including a prominent section allowing visitors to explore the columns and cliffs responsibly under stewardship. initiatives focus on preserving geological integrity, such as discouraging coin insertions into formations to prevent damage. At Lizard Point and , protected status supports and , balancing visitor numbers with habitat preservation amid rising coastal pressures.

North America and Beyond

In North America, promontories exhibit diverse geological and ecological features shaped by tectonic, glacial, and erosional processes. Cape Flattery, located in Washington state, marks the northwesternmost point of the continental United States and features a rugged coastline within the Olympic Coast National Marine Sanctuary, supporting high species diversity in a temperate rainforest ecosystem characterized by rocky headlands, cliffs, and high wave energy. Further south, Point Reyes in California exemplifies tectonic origins, with the peninsula—spanning approximately 218 km²—formed by the interaction of the Pacific Plate and the San Andreas Fault, resulting in ongoing uplift and a dynamic landscape of granitic rocks, conglomerates, sandstones, and shales overlaid on Franciscan Complex formations. This region has a rich earthquake history, including the 1906 San Francisco earthquake, which displaced the peninsula about 6 meters northwest, contributing to its current position over 160 km from its original Miocene location near Monterey. Promontory Summit in represents an inland elevated promontory within the Promontory Mountains, a range formed by tectonic uplift and erosion in the . This high-desert pass, at about 6,000 feet (1,800 m) elevation, gained historical prominence as the site of the completion, highlighting its role in American expansion. Extending beyond , promontories in the highlight mineral wealth and cultural heritage. in is renowned for its extensive bauxite deposits, particularly in the Weipa district, where blanket laterite formations average 2.4 meters thick and yield high-grade ore with 54-56% Al₂O₃ content, formed through tropical weathering of Tertiary sandstones since the Late Tertiary period. These deposits support major operations, contributing significantly to 's global bauxite production of over 27 million tons annually in the late 1970s. The peninsula also holds profound indigenous significance, as a living for Aboriginal groups like the Olkola and Kuuku Ya'u peoples, who have maintained traditions tied to its parks and coastal sites for thousands of years, including seafaring practices and resource management in areas now protected as Aboriginal Land (CYPAL). At the southern tip of , in and stands as a promontory notorious for its severe storms and role in , serving as the gateway to the and site of numerous shipwrecks—estimated at over 800—due to unpredictable westerly winds and rogue waves that have challenged sailors since the . Geological diversity among these promontories underscores varied formative processes. In , the illustrates glacial origins, with its lowlands and fjords shaped by multiple glaciations, including the Naptowne glaciation (27,000–11,000 years ago), which deposited moraines, outwash plains, and U-shaped valleys across south-central through ice advance from the and Kenai Mountains. In tropical settings, the arise from accretion, where Pleistocene limestone platforms and coral growth have built low-relief islands and keys through biogenic sedimentation in the shallow waters of of Florida, forming a chain of emergent features over the past 5,000–7,000 years. Contemporary challenges, particularly climate change, threaten these landforms, while indigenous connections emphasize their cultural resilience. At Cape Lookout National Seashore in North Carolina, barrier island promontories face erosion rates averaging 0.7 meters per year along the state's coast, exacerbated by rising sea levels (projected at 0.3–2.0 meters by 2100) and intensified storms, leading to shoreline retreat and habitat loss in this dynamic system. In Canada, promontories on Haida Gwaii, such as headlands and islets used for Haida Nation cemeteries, memorials, and octopus traps, carry deep indigenous significance as sacred sites tied to burial practices, seafaring commemorations, and traditional resource management, with features like intertidal rock piles and crabapple orchards maintained for millennia and now protected under co-management agreements to preserve cultural heritage amid environmental pressures.

References

  1. [1]
    [PDF] NOTES ON THE PROMONTORY DISTRICT, UTAH.
    GEOGRAPHY. The Promontory district is in Boxelder County, Utah, near the south end of the Promontory Mountains, a range that forms a long promontory on the ...
  2. [2]
    Basic Information - Golden Spike National Historical Park (U.S. ...
    Apr 29, 2025 · Golden Spike National Historical Park is located in a high desert environment in the Promontory Mountains near the north end of the Great Salt Lake.Operating Hours & Seasons · Alerts & Conditions · Fees & Passes
  3. [3]
    Promontory Summit - CCE - Utah.gov
    On May 10, 1869, the final spikes were laid in the tie and rails, marking the completion of the world's first transcontinental railroad.
  4. [4]
    [PDF] Promontory Summit, May 10, 1869 - National Park Service
    The six months voyage of the ox team is superseded, forever, by the four days journey of the iron horse. Daily Appeal, Carson City, May 11, 1869. No grander ...
  5. [5]
    May 10, 1869. Promontory Summit and the Transcontinental Railroad
    May 10, 2019 · May 10 marks the day that the last spike for the Transcontinental Railroad was struck 150 years ago in Promontory, Utah.
  6. [6]
    UP: Golden Spike and its Promontory Companions - Union Pacific
    The Golden Spike has symbolized one of the most audacious and significant undertakings in American history – completion of the world's first transcontinental ...
  7. [7]
    The Great Race to Promontory - Union Pacific
    Today, Promontory Summit is the home of the Golden Spike National Historic Monument. In 1870, this original junction point for Central Pacific and Union Pacific ...
  8. [8]
    Golden Spike National Historic Site | Visit Utah
    This path takes you on the Union Pacific Grade. Building the line through the Promontory Mountains was difficult. In only eight miles UPR blasted five cuts, and ...
  9. [9]
    Golden Spike National Historical Park (U.S. National Park Service)
    Visitors to the park can see the location of the Last Spike Site, 1869 railroad construction features, walk or drive on the original railroad grade.Plan Your Visit · Basic Information · Operating Hours & Seasons · FAQ
  10. [10]
    Golden Spike National Historic Site - Utah History to Go
    On 10 May 1869 from Promontory Summit northwest of Ogden, Utah, a single telegraphed word, “done,” signaled to the nation the completion of the first ...
  11. [11]
    The Golden Spike: Promontory Summit and the Transcontinental ...
    At Promontory Summit, on May 10, 1869, three spikes were driven into the ground to commemorate the completion of the transcontinental railroad.
  12. [12]
    PROMONTORY Definition & Meaning - Dictionary.com
    a high point of land or rock projecting into the sea or other water beyond the line of coast; a headland. · a bluff, or part of a plateau, overlooking a lowland.
  13. [13]
    [PDF] Gazetteer of coastal and offshore features of the Chukchi and ...
    PROMONTORY - a projection, headland, or cliff protruding into the sea, commonly with offshore rocks. PROVINCE - a region composed of a group of similar ...Missing: definition | Show results with:definition
  14. [14]
    Rocky Coast Landforms (U.S. National Park Service)
    Mar 20, 2019 · Eventually sea caves may form in less resistant, easily erodible bedrock located on promontories. These caves are distinctive environments ...
  15. [15]
    GCSE - Physical landscapes in the UK - Coolgeography
    Headlands and bays - A rocky coastal promontory made of rock that is resistant to erosion; headlands lie between bays of less resistant rock where the land has ...
  16. [16]
    Promontory - Etymology, Origin & Meaning
    Originating from 1540s French and Medieval Latin promontorium, promontory means a high point of land or rock projecting into the sea beyond the coast line.
  17. [17]
    Promontory - Websters Dictionary 1828
    In geography, a high point of land or rock, projecting into the sea beyond the line of the coast; a head land. It differs from a cape in denoting high land; a ...Missing: definition | Show results with:definition
  18. [18]
    Ness of Burgi: An Iron Age Mystery | Shetland.org
    Aug 13, 2020 · In Old Norse – from which almost all of Shetland's place names spring – ness is a promontory, and there are scores of such names throughout the ...Missing: scandinavian | Show results with:scandinavian
  19. [19]
    Geography Terms and Abbreviations - Pleiades Stoa
    Feb 11, 2013 · Greek Terms ; Aigialos: coast, shore ; Akra, Akron, Akroterion: cape, promontory ; Ano: upper ; Antron: cave ; Aulon: glen (land), gulf (sea) ...
  20. [20]
    Promontory in Spanish | English to Spanish Translation - SpanishDict
    promontory. promontory. el promontorio. Dictionary. Examples. promontory. noun. 1. (geography). a. el promontorio (M). You can see all the islets from that ...
  21. [21]
    Environments of Coastal Zones
    Mar 20, 2014 · Bays and Headlands formed along this coastline due to differential erosion. CONCORDANT COASTLINE (Rocks parallel to coastline). Wave Direction.
  22. [22]
    [PDF] GEOLOGY OF THE WASHINGTON COAST· - dnr.wa.gov
    Jun 29, 1973 · Differential erosion . ... Today, these rocks are steeply tilted and form one of the major promontories along the Washington coast.
  23. [23]
    [PDF] Formation, Evolution, and Stability of Coastal Cliffs–Status and Trends
    Understanding the geology of coastal cliffs is essential to addressing the impact of landward cliff retreat in developed areas. Professional Paper 1693. U.S. ...Missing: caprock | Show results with:caprock
  24. [24]
    Rapid post-glacial bedrock weathering in coastal Norway
    Jan 15, 2022 · Post-glacial weathering and erosion rates can be locally rapid (4–10 cm kyr −1 ) in cold temperate to subarctic coastal locations.Missing: headlands | Show results with:headlands
  25. [25]
    Coastal Erosion and the Promontory Fort: Appearance and Use ...
    Promontory forts are an understudied but distinctive maritime archaeological feature from the Iron Age to the early medieval period from northern Spain to ...Missing: inland | Show results with:inland
  26. [26]
    Headland Erosion by Waves - jstor
    (in press) estimated just over 5,100 m3/year was eroded from Story Head between 1945 and 1982, translated as a cliff retreat rate of c. 0.7 m/year. The drumlin ...
  27. [27]
    Mohs Hardness Scale (U.S. National Park Service)
    Apr 12, 2023 · The Mohs Hardness Scale is used as a convenient way to help identify minerals. A mineral's hardness is a measure of its relative resistance to scratching.Missing: erosion | Show results with:erosion
  28. [28]
    [PDF] Geology of the Summer Ranch and North Promontory Mountains, Utah
    The Summer Ranch Mountain block is essentially a horst structure with its longitudinal axis trending about N. 25° E. A series of low hills to the south ...
  29. [29]
    Tectonic Landforms and Mountain Building - National Park Service
    Dec 28, 2020 · Tectonic processes shape landforms through faulting, folding, extension, and mountain building. Horst and graben topography forms when crust is ...<|control11|><|separator|>
  30. [30]
    appalachian promontories and the structural evolution of the orogen
    Oct 31, 2007 · ... New York and St. Lawrence promontories. Post-accretion, transcurrent motion in the orogen appears to be recorded by a displaced promontory.
  31. [31]
    Anatomy and global context of the Andes: Main geologic features ...
    Aug 6, 2025 · The Andes make up the largest orogenic system developed by subduction of oceanic crust along a continental margin. Subduction began soon ...
  32. [32]
    Geology of Hawai'i Volcanoes National Park - USGS.gov
    Kīlauea: Kīlauea is the youngest and most active Hawaiian volcano. This 280,000-year-old volcano is a textbook shield volcano with long and shallow slopes, 90 ...
  33. [33]
    16.4 Glacial Deposition – Physical Geology - BC Open Textbooks
    The end moraine that represents the farthest advance of the glacier is a terminal moraine. Sediments transported and deposited by glacial ice are known as till.Missing: promontories conglomerates
  34. [34]
    [PDF] Pembrokeshire Geology - South Wales Geologists' Association
    The classic Carboniferous limestones (Dinantian) of south Wales were formed in warm equatorial seas, and fossils of corals, brachiopods, crinoids and molluscs ...Missing: reefs | Show results with:reefs
  35. [35]
    [PDF] Geology of the Central Great Smoky Mountains Tennessee
    Gatlinburg fault; (b) the northern mountain spurs, between the Gatlinburg and Mingus faults, where the rocks are largely homoclinal, but have been somewhat.
  36. [36]
    About - Arches, Buttes & Rock Formations (U.S. National Park Service)
    Feb 18, 2020 · Plateaus are flat areas, mesas are flat-topped mountains with steep sides, buttes are smaller flat-topped mountains with steep slopes, and ...
  37. [37]
    Landforms in the upper course of a river - Internet Geography
    Interlocking Spurs. Interlocking spurs are fingers of land that jut out into the river valley where streams and rivers are forced to flow around in the upper ...
  38. [38]
    Butte - National Geographic Education
    Apr 23, 2024 · Buttes are tall, flat-topped, steep-sided towers of rock, formed by erosion and weathering, and are taller than they are wide.
  39. [39]
    Watersheds and Drainage Basins | U.S. Geological Survey
    Ridges and hills that separate two watersheds are called the drainage divide. The watershed consists of surface water--lakes, streams, reservoirs, and wetlands ...
  40. [40]
    What Are Ecotones and How Do They Contribute to Biodiversity?
    Oct 17, 2024 · Ecotones, also known as transition zones, provide unique environments and resources that foster the coexistence of diverse species.Missing: spurs | Show results with:spurs
  41. [41]
    (PDF) Landscape context and long-term tree influences shape the ...
    Forest-meadow ecotones are prominent and dynamic features of mountain ecosystems. Understanding how vegetation changes are shaped by long-term interactions with ...
  42. [42]
    Mesa and Butte - The shape of the land, Forces and changes ...
    A mesa is an isolated, flat-topped hill or mountain with steep sides that is smaller in area than a plateau. A butte is also a flat-topped hill with steep ...<|control11|><|separator|>
  43. [43]
    Geology - Canyonlands National Park (U.S. National Park Service)
    Apr 18, 2025 · Today, the average elevation here is over 5,000 feet ... American southwest. It consists of a rugged landscape of canyons, mesas, buttes ...Missing: height | Show results with:height
  44. [44]
    A16: Phoenician Navigation - Pharology: The Study of Lighthouses
    Routes were certainly kept close to the land whenever possible and maximum use was made of shelter in protected waters behind promontories or islands.
  45. [45]
    Homeric Odyssey - The Center for Hellenic Studies
    But when he was just about to reach the high promontory of Malea, [515] a gust of wind [thuella] 516 carried him, heavily groaning, over the fishy ...
  46. [46]
    Analysis of the Tower of Hercules, the World's Oldest Extant ... - MDPI
    May 5, 2023 · The Tower of Hercules is an icon of the city where it is located, A Coruña, and it is supposed to be the world's only surviving Roman lighthouse.
  47. [47]
    Cape of Good Hope | History, Location, Map, & Facts - Britannica
    Oct 26, 2025 · Cape of Good Hope, rocky promontory at the southern end of Cape Peninsula, Western Cape province, South Africa.
  48. [48]
    Vasco da Gama - Ages of Exploration
    Vasco da Gama found a direct sea route from Europe to Asia, and was the first European to sail to India by going around Africa.
  49. [49]
    https://www.historic-uk.com/HistoryMagazine/DestinationsUK/Maiden-Castle/
  50. [50]
    Modern navigation - GPS, Radar, Sonar - Britannica
    Sep 11, 2025 · Accurate and detailed sea charts and books of sailing directions were available for the planning of any proposed voyage.<|control11|><|separator|>
  51. [51]
    Cape Horn: why it is the most dangerous cape in the world | YACHT
    Aug 23, 2025 · Cape Horn is home to the largest ship graveyard in the world. Over 800 ships sank there and 10,000 sailors found their watery graves in the area ...Cape Horn gets its name · Cape Horn remains... · The sailors discover Cape Horn
  52. [52]
    Retracing the Oregon Trail: A Guide to Scotts Bluff National Monument
    Sep 25, 2025 · ... promontory was a familiar landmark for Paleo-Indian hunters following animal trails along the river. Over millennia, it became a significant ...
  53. [53]
    Maiden Castle, Iron Age Hill Fort - Historic UK
    Maiden Castle is one of the largest Iron Age hill forts in Europe and covers an area of 47 acres. 'Maiden' derives from the Celtic 'Mai Dun' which means 'great ...Missing: promontory | Show results with:promontory
  54. [54]
    The History of Edinburgh Castle - Historic UK
    The igneous rock intrusion, now known as Castle Rock, was formed by volcanic activity millions of years ago. This plug was more resistant to erosion by ...
  55. [55]
    The Great Siege of Gibraltar
    Gibraltar was so strategically important that it became an obvious target for attack, so its defences were considerably strengthened. 1772 saw the formation of ...Missing: promontory | Show results with:promontory
  56. [56]
    St. John's WWII Coastal Defences National Historic Site of Canada
    The site comprises the ruins of three coastal fort batteries: Fort Cape Spear, Fort Chain Rock and Fort Amherst. All three batteries stand on rocky promontories ...
  57. [57]
    Mount Athos – Garden of the Mother of God and Holiest of Holy ...
    Feb 15, 2019 · Mount Athos, known also as the Holy Mountain, is a mountain located in Greece. The site is a semi-autonomous republic of Eastern Orthodox monks.
  58. [58]
    https://www.science.gov/topicpages/i/iberian%2Bpeninsula%2Bspain
  59. [59]
    The Giant's Causeway and Causeway Coast
    The Giant's Causeway and Causeway Coast form Northern Ireland's only UNESCO World Heritage ... Finn McCool, but violent volcanic eruptions are much more exciting!
  60. [60]
    Seismic signature of the Alpine indentation, evidence from the ...
    Since late Cretaceous the Adriatic microplate, acting as a promontory of Africa, has deeply indented Europe, resulting in yielding the Alpine orogeny (Platt et ...Missing: formed | Show results with:formed
  61. [61]
    Gibraltar - The World Factbook - CIA
    Dec 6, 2023 · a narrow coastal lowland borders the Rock of Gibraltar. Elevation. highest point: Rock of Gibraltar 426 m lowest point: Mediterranean Sea 0 m ...
  62. [62]
    iberian peninsula spain: Topics by Science.gov
    ... AD), the original Andalusi irrigated fields of Ricote were possibly built shortly after 711 AD. The communication, in sum, will show through a case study ...
  63. [63]
    The lizard | The Geological Society of London
    When the rocks of the Lizard were formed around 400 million years ago, the area was completely submerged by water. The area of what is now Cornwall was at that ...
  64. [64]
    [PDF] the atlantic gate: the anglo-huguenot channel community, 1554-1685
    The Lizard peninsula is known colloquially as the. “graveyard of ships” due to its challenging coastline and history as a site of many shipwrecks. The Raz de.
  65. [65]
    Giant's Causeway and Causeway Coast
    The Giant's Causeway lies at the foot of the basalt cliffs along the sea coast on the edge of the Antrim plateau in Northern Ireland. It is made up of some 40, ...Gallery · Documents · Maps · IndicatorsMissing: eruption | Show results with:eruption
  66. [66]
    [PDF] Periodic Reporting Cycle 3, Section II
    The Giant's Causeway and Causeway Coast is a spectacular area of global geological importance on the sea coast at the edge of the Antrim plateau in Northern ...
  67. [67]
    Cruising in the Old Navy - Naval History and Heritage Command
    Sep 5, 2017 · From Oporto we cruised around Cape Finisterre, passing Vigo at the head of the Bay of that name, and entered Coruna Bay on which the historic ...
  68. [68]
    [PDF] Brief Descriptions - UNESCO World Heritage Centre
    Giant's Causeway and Causeway Coast. 1986. (N i, iii). The Giant's Causeway lies at the foot of the basalt cliffs along the sea coast on the edge of the Antrim ...
  69. [69]
    Giant's Causeway | Northern Ireland - National Trust
    May 28, 2025 · The Giant's Causeway and Visitor Centre is located on the B147 Causeway road. It is 2 miles from Bushmills village, 11 miles from Coleraine and ...Coins in the Causeway · History of Giant's Causeway · Giant's Causeway Blue Trail
  70. [70]
    https://www.nps.gov/pore/learn/nature/faults.htm
  71. [71]
    [PDF] Olympic Coast | Condition Report 2008–2019 - NET
    Jan 14, 2020 · Cover photo: Cape Flattery is the northwesternmost point in the continental United States and is known for its iconic, rugged coastline and ...
  72. [72]
    Marine shorelines | Washington Department of Fish & Wildlife
    The northern shoreline from Cape Flattery south to Point Grenville has long sections of rugged, rocky cliffs, high wave energy, and high species diversity. This ...
  73. [73]
    [PDF] Aerial survey estimates of fallow deer abundance
    STUDY AREA. The 218 square kilometer (km2) Point Reyes Peninsula (38°42'48” N, 122°52'30”. W) is located in Marin County, approximately 60 km north of San ...
  74. [74]
    Faults - Point Reyes National Seashore (U.S. National Park Service)
    Jun 26, 2025 · The cumulative effect of countless earthquakes and gradual plate movement along the San Andreas Fault over the past 16 million years has shaped ...
  75. [75]
    [PDF] World Bauxite Resources - USGS Publications Warehouse
    Jan 1, 1975 · Average grades of bauxite from Weipa, Cape York Peninsula, Australia. [In percent. From Roberts (1977)]. A13O3. SiO2 Quartz Fe2O3. Gibbsite ...
  76. [76]
    Olkola National Park (CYPAL) Tropical North Queensland - QLD Parks
    Olkola National Park (Cape York Peninsula Aboriginal Land) (CYPAL) is a living, cultural landscape which is of great importance to the Olkola People. For ...
  77. [77]
    Ma'alpiku Island National Park (CYPAL) Tropical North Queensland
    Apr 16, 2020 · The Aboriginal Traditional Owners of Ma'alpiku Island National Park (Cape York Peninsula Aboriginal Land) (CYPAL) are the Kuuku Ya'u ...<|separator|>
  78. [78]
    The Wager - Connecticut College
    ... Cape Horn at the southern tip of South America. In reality, the Wager had wrecked on a desolate island off the southern coast of Chile, and the 145 ...
  79. [79]
    [PDF] Quaternary Geology of the Kenai Lowland and Glacial History of the ...
    Climatic zonation, regional snowline, and present and past distribution of glacial ice in southwestern, south-central, and southeastern Alaska.
  80. [80]
    [PDF] the historical ecology of the florida keys coral reef ecosystem - NET
    Sep 19, 2007 · Promontory Formerly called Tegeste now East Florida: Drawn from the marks existing in its present figure surveyed 1771 Pursuant to His.Missing: precursors | Show results with:precursors
  81. [81]
    [PDF] Coastal Hazards - the NOAA Institutional Repository
    The average statewide rate of change from 2002–2016 was -0.7 m (-2.3 ft) per year; 65 percent of locations (transects) studied eroded, and 42 percent eroded at ...
  82. [82]
    [PDF] Cape Lookout National Seashore - Geologic Resources Inventory ...
    Table 7 Holocene rates of sea level change along the North Carolina Coast 45. Table 8 Climate change trends and projections for Cape Lookout National Seashore ...
  83. [83]
    [PDF] Indigenous Heritage Features Handbook - Gov.bc.ca
    This handbook aims for a uniform understanding of Indigenous Heritage Features in the Great Bear Rainforest, to support their protection and stewardship.