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Mount Kirkpatrick
Mount Kirkpatrick
Mount Kirkpatrick
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Mount Kirkpatrick (84°20′S 166°25′E / 84.333°S 166.417°E / -84.333; 166.417 (Mount Kirkpatrick)) is a lofty, generally ice-free mountain in Queen Alexandra Range 5 nautical miles (9.3 km; 5.8 mi) west of Mount Dickerson. At 4,528 metres (14,856 ft) it is the highest point in the Queen Alexandra Range, Antarctica.[1]

Key Information

Exploration and name

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Mount Kirkpatrick was discovered and named by the British Antarctic Expedition, 1907–1909. It was named for a Glasgow businessman, who was one of the original supporters of the expedition.[1]

Location

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Mount Kirkpatrick is in the central Queen Alexandra Range to the south of Grindley Plateau, north of the Adams Mountains and northeast of the Marshall Mountains. Prebble Glacier forms on its west slopes and flows west to Lennox-King Glacier. Mount Dickerson is to its east and Decennial Peak to its south. Martin Ridge extends southwest from Decennial Peak to the head of Berwick Glacier.[2]

Fossil site

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Map showing location of the Mount Kirkpatrick dinosaur site, with stratigraphic context on the right

Mount Kirkpatrick holds one of the most important fossil sites in Antarctica, the Hanson Formation. Because Antarctica used to be warmer and supported dense conifer and cycad forest, and because all the continents were fused into a giant supercontinent called Pangaea, many ancient Antarctic wildlife share relatives elsewhere in the world. Among these creatures are tritylodonts, herbivorous mammal-like reptiles that are prevalent elsewhere at the time. A crow-sized pterosaur has been identified. In addition to these finds, numerous dinosaur remains have been uncovered. Fossils of dinosaurs resembling Plateosaurus, Coelophysis, and Dilophosaurus were excavated. Mount Kirkpatrick holds the first dinosaur scientifically named on the continent: the large predatory Cryolophosaurus. In 2004, scientists have even found partial remains of a large sauropod plant-eating dinosaur.

Glacialisaurus hammeri, an herbivorous dinosaur thought to be around 25 feet (7.6 m) long and weighing perhaps 4-6 tons, was also identified from fossils on Mount Kirkpatrick in 2007, the only known site of Glacialisaurus hammeri.[3]

Features

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Nearby features include:

Map all coordinates using OpenStreetMap Download coordinates as KML
Mount Kirkpatrick in northwest of map

Fleming Summit

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84°20′S 166°18′E / 84.333°S 166.300°E / -84.333; 166.300. A peak rising to over 4,200 metres (13,800 ft) high, 1.5 kilometres (0.93 mi) west of Mount Kirkpatrick. Named by the United States Advisory Committee on Antarctic Names (US-ACAN) in 1995 after Thomas H. Fleming, geologist, Ohio State University, who conducted field research in this area, 1985-86 and 1990-91.[4]

Mount Dickerson

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84°20′S 167°08′E / 84.333°S 167.133°E / -84.333; 167.133. A prominent mountain, 4,120 metres (13,520 ft) high, standing 4 nautical miles (7.4 km; 4.6 mi) east of Mount Kirkpatrick. Named by the US-ACAN for Lieutenant Commander Richard G. Dickerson, United States Navy, VX-6 aircraft commander during United States Navy Operation Deep Freeze, 1964.[5]

Decennial Peak

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84°22′S 166°02′E / 84.367°S 166.033°E / -84.367; 166.033. A peak 4,020 metres (13,190 ft) high situated 3 nautical miles (5.6 km; 3.5 mi) southwest of Mount Kirkpatrick. Mapped by the United States Geological Survey (USGS) from surveys and United States Navy air photos, 1958-65. Named by US-ACAN in recognition of the Decennial of the Institute of Polar Studies, Ohio State University, in 1970, the same year the University celebrated its Centennial. The University and the Institute have been very active in Antarctic investigations since 1960.[6]

Martin Ridge

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84°25′S 165°30′E / 84.417°S 165.500°E / -84.417; 165.500. A broad ice-covered ridge bordering the west side of upper Moody Glacier. Named by US-ACAN for Major Wilbur E. Martin, United States Army, in charge of trail operations during United States Navy Operation Deep Freeze, 1963.[7]

References

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Sources

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  • Alberts, Fred G., ed. (1995), Geographic Names of the Antarctic (PDF) (2 ed.), United States Board on Geographic Names, retrieved 2023-12-03 Public Domain This article incorporates public domain material from websites or documents of the United States Board on Geographic Names.
  • "Fleming Summit", Geographic Names Information System, United States Geological Survey, United States Department of the Interior
  • The Cloudmaker, USGS: United States Geological Survey, retrieved 2024-03-17{{citation}}: CS1 maint: publisher location (link)
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Mount Kirkpatrick

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Mount Kirkpatrick is a prominent peak in the Queen Alexandra Range of the in , rising to an elevation of 4,528 meters (14,856 feet) above sea level. It is best known for its exceptional paleontological importance, as exposures of the on its slopes have preserved one of the richest vertebrate fossil assemblages from the Antarctic continent, including the theropod Cryolophosaurus ellioti, the first carnivorous named from . Discovered and mapped during the British Antarctic Expedition of 1907–1909 led by , the mountain was named in honor of Hugh Kirkpatrick, a businessman and key financial supporter of the venture. Situated in the central sector of the at approximately 84°20′S 166°25′E, Mount Kirkpatrick overlooks the polar plateau to the east and the to the west, exemplifying the range's role as a natural divide between East and West . The peak's rugged terrain, shaped by tectonic uplift and extensive volcanism from the nearby Ferrar , features basalt-capped mesas and deep glacial valleys that have long challenged explorers and scientists. Paleontological expeditions since the late 20th century, beginning with the 1990–1991 field season, have uncovered a diverse fauna on Mount Kirkpatrick, dating to about 190–183 million years ago and revealing close biological ties to contemporaneous ecosystems in , , and as part of the ancient supercontinent . Key discoveries include partial skeletons of basal sauropodomorphs such as Glacialisaurus hammeri and additional theropod remains, alongside non-dinosaurian fossils like temnospondyl amphibians and synapsids, which underscore the mountain's value in reconstructing high-latitude life before the fragmentation of . These findings, studied through ongoing international collaborations, continue to inform evolutionary patterns in polar dinosaurs and the paleoclimate of ancient .

Geography

Location

Mount Kirkpatrick is situated at 84°20′S 166°25′E in the central portion of the Queen Alexandra Range, which forms part of the in . This range extends along the western edge of the , dividing East and . The mountain lies within the , a sector of claimed by . Positioned 5 miles west of Mount Dickerson, Mount Kirkpatrick is south of the Grindley Plateau, north of the Adams Mountains, and northeast of the Marshall Mountains. These surrounding features contribute to the rugged of the region, characterized by steep escarpments and ice-covered valleys. Prebble originates on the western slopes of Mount Kirkpatrick and flows westward to join the larger Lennox-King Glacier, which drains into the .

Physical Characteristics

Mount Kirkpatrick stands as the highest peak in the Queen Alexandra Range, reaching an elevation of 4,528 meters (14,856 feet). Its terrain features generally ice-free slopes with rugged rocky outcrops, providing exposed that facilitates geological and paleontological fieldwork despite the challenging environment. The mountain experiences extreme conditions typical of the continental interior, with average summer temperatures below -30°C (-22°F) and winter averages dropping to -60°C (-76°F) or lower. High winds, often exceeding 100 km/h (62 mph) due to katabatic flows, and low annual precipitation—less than 200 mm (8 inches) of water equivalent—characterize the , creating a that aids in the long-term preservation of exposed rock layers by minimizing erosion and ice cover. Due to its remote position in the , approximately 400 miles (644 km) from the , access to Mount Kirkpatrick requires specialized expeditions supported by aircraft or overland traverses from bases like , often limited to the austral summer for safety and logistics.

History and Exploration

Early Expeditions

Mount Kirkpatrick was first sighted during the British Antarctic Expedition of 1907–1909, led by aboard the ship Nimrod, as part of efforts to reach the via the route. The expedition's southern party, led by Shackleton with members including Jameson Boyd Adams, , and Eric Marshall, traversed the region and discovered the Queen Alexandra Range, documenting prominent peaks including Mount Kirkpatrick amid broader geological and topographical surveys. Subsequent exploration occurred during U.S. expeditions in the 1960s, with geological surveys conducted by teams from Ohio State University's Institute of Polar Studies, which had been actively investigating sites since 1960. These efforts included fieldwork in the Central , where researchers collected rock samples and mapped exposures around Mount Kirkpatrick during the 1967–1968 season, contributing foundational data on the region's . Paleontological interest intensified with the 1990–1991 fieldwork led by William R. Hammer of Augustana College, who established a base camp near the mountain to prospect for fossils in the . Hammer's team, supported by mountaineers and logistics from U.S. Program operations, conducted systematic surveys over the austral summer, yielding significant remains that advanced understanding of life in high-latitude . Since the 1990s, access to Mount Kirkpatrick for research has relied on helicopter-supported teams departing from , facilitating periodic expeditions under the U.S. Antarctic Program. These operations, often involving paleontologists and geologists, have enabled targeted fieldwork at elevations up to 4,000 meters, with logistics including fuel caches and weather-dependent flights to sustain multi-week camps.

Naming

Mount Kirkpatrick was discovered and named during the British Antarctic Expedition of 1907–1909, led by , in honor of a businessman who provided financial support as one of the expedition's original backers. The name was formally approved for use in the United States by the United States Advisory Committee on Antarctic Names (US-ACAN), which standardizes Antarctic nomenclature for American mapping and scientific purposes. Several nearby features in the Queen Alexandra Range have also received names through similar advisory processes. For instance, Fleming Summit, a prominent peak on Mount Kirkpatrick, was named by US-ACAN in 1995 after Thomas H. Fleming, a from who conducted extensive field research in the region during the 1985–1986 and 1990–1991 austral summers. Other adjacent landmarks, such as Mount Dickerson and Decennial Peak, were likewise designated by US-ACAN to recognize contributions to Antarctic exploration and survey efforts.

Geology and Paleontology

Geological Setting

Mount Kirkpatrick is primarily composed of rocks from the , an unit within the Victoria Group of the Beacon Supergroup. This formation consists of interbedded sandstones, mudstones, and , including pebbly to medium-grained quartzo-feldspathic sandstones, coarse arkoses, and reworked tuffaceous strata derived from distal Plinian eruptions. These sediments were deposited in ancient fluvial and lacustrine environments along basins, reflecting a continental setting with river channels, lakes, and periodic falls. The rocks of the date to approximately 190–180 million years ago, corresponding to the and stages of the . This age is constrained by palynological correlations with underlying strata and of overlying volcanic units, such as the Kirkpatrick Basalt. As part of the , Mount Kirkpatrick's geology records the initial rifting phase leading to the breakup of the supercontinent around 180 million years ago, when occupied a position within at mid-to-high southern latitudes. During this period, the region experienced a warmer that supported forested landscapes near the poles, contrasting sharply with modern polar conditions. Subsequent tectonic uplift along the Transantarctic Mountains, particularly during the Cenozoic era through range-front faulting associated with the West Antarctic Rift System, combined with extensive glacial erosion, has exposed these Mesozoic strata at the surface. This exposure makes Mount Kirkpatrick a critical locality for studying the continental rift-to-drift transition in the Antarctic sector of Gondwana, providing insights into the evolution of the East Antarctic craton margin and the broader assembly and disassembly of supercontinents.

Fossil Discoveries

The vertebrate fossils from Mount Kirkpatrick, primarily preserved in the , provide crucial evidence of a diverse in a high-latitude setting during a period when was part of the supercontinent and experienced a warmer climate supporting and forests. These deposits, consisting of sandstones and tuffs dated to approximately 194–188 million years ago through of associated volcanic units, have yielded remains indicating the presence of dinosaurs and other reptiles in polar regions. The most prominent discovery is Cryolophosaurus ellioti, a large theropod first identified in 1990 by geologist David Elliot on the slopes of Mount Kirkpatrick and excavated during the 1990–1991 field season led by paleontologist William R. Hammer. This nearly complete skeleton, including over 100 elements such as a distinctive transverse cranial crest resembling a "frozen crest of waves," was formally described in 1994 and represents the first species named from . Estimated at 6–7 meters long and weighing around 465 kilograms, C. ellioti was a top predator adapted to high-latitude environments, with phylogenetic analyses placing it as a basal neotheropod. From the same 1990–1991 expedition, partial hindlimb bones (including a , , , astragalus, calcaneum, and metatarsals) of Glacialisaurus hammeri, a basal sauropodomorph formally described in 2007 and named in honor of William Hammer, were also collected. Approximately 6–7.5 meters in length and weighing 4–6 tons, this herbivorous species highlights the early diversification of long-necked in southern high latitudes. The specimens, collected at elevations over 3,900 meters near the , suggest G. hammeri foraged in forested floodplains. Additional discoveries from the 1990–1991 expedition include a tritylodont synapsid postcanine tooth, representing a mammal-like , and a crow-sized humerus, indicating aerial s coexisted with s in this ecosystem. Fragmentary theropod remains resembling Coelophysis and Dilophosaurus were also recovered, alongside a prosauropod foot comparable to Plateosaurus, further diversifying the assemblage. In 2003, a large sauropod —potentially from a more derived long-necked —was unearthed, expanding evidence of presence. Since 1990, over 100 specimens have been collected from these sites through multiple expeditions, contributing to ongoing studies of and phylogeny. These finds challenge earlier notions of Antarctic faunal isolation during the , demonstrating that dinosaurs and synapsids inhabited polar forests under milder climatic conditions, with implications for understanding continental connectivity and migration patterns across . The high paleolatitude (around 70–80°S) of the deposits underscores adaptations to seasonal light cycles, informing models of .

Notable Features

Fleming Summit

Fleming Summit is a subsidiary peak of Mount Kirkpatrick in the Queen Alexandra Range of the , situated approximately 1.4 km (0.87 mi) west of the main summit. Rising to an elevation of 4,200 m (13,780 ft), it forms part of the mountain's western ridge and contributes to the overall profile of this prominent landmark. The summit is characterized by prominent rocky exposures that align with the generally ice-free nature of the Queen Alexandra Range, allowing for visible geological features amid minimal glacial cover. These outcrops are part of the regional in the . Named in 1995 by the Advisory Committee on Antarctic Names (US-ACAN), Fleming Summit honors geologist Thomas H. Fleming of (now at ) for his extensive field research on during expeditions in 1985–86 and 1990–91. His work advanced understanding of the Ferrar and associated sedimentary sequences in the . While the summit serves primarily as a geological in traverses of Mount Kirkpatrick, the surrounding area features plant remains indicative of terrestrial environments, consistent with regional formations.

Mount Dickerson

Mount Dickerson is a prominent peak in the Queen Alexandra Range of the , , standing at an elevation of 4,120 meters (13,517 feet). It is located approximately 8 km east of Mount Kirkpatrick, with coordinates at 84°20′S 167°08′E. The mountain forms part of the eastern extension of the range, contributing to the rugged that characterizes this sector of the continent. The peak features steep, largely ice-free slopes composed primarily of sedimentary rocks from the Beacon Supergroup, a to sequence typical of the . These exposures include quartzose sandstones and related strata, similar to those on nearby Mount Kirkpatrick, providing a clear view over the surrounding glacial features of the Queen Alexandra Range. Mount Dickerson was named in 1964 by the Advisory Committee on Antarctic Names (US-ACAN) in honor of Richard G. Dickerson, a U.S. officer who served as an aircraft commander with Squadron VX-6 during that year. This commemorative naming reflects the contributions of U.S. personnel to exploration and logistics in the mid-20th century. As a neighboring feature to Mount Kirkpatrick, Mount Dickerson offers comparable geological exposures of the Beacon Supergroup, aiding in regional studies of sedimentary basin evolution and paleoenvironmental conditions in the . Its position enhances understanding of the structural continuity across the range without unique stratigraphic deviations from the broader formation.

Decennial Peak

Decennial Peak is a summit in the Queen Alexandra Range of , located approximately 6 km southwest of Mount Kirkpatrick at coordinates 84°22′S 166°02′E. It rises to an elevation of 4,020 m (13,190 ft). The feature was mapped by the (USGS) using ground surveys and U.S. Navy aerial photographs conducted between 1958 and 1965. In 1970, the peak was officially named by the Advisory Committee on Antarctic Names (US-ACAN) to honor the decennial anniversary of Ohio State University's Institute of Polar Studies, coinciding with the university's centennial year. This designation highlights the institute's foundational role in research efforts starting from 1960.

Martin

Martin Ridge is a broad, ice-covered ridge situated on the western flanks of Mount Kirkpatrick in Antarctica's Queen Alexandra Range, extending westward from the mountain and bordering the upper reaches of Moody Glacier at coordinates 84°25′S 165°30′E. This feature contrasts sharply with the ice-free summit of Mount Kirkpatrick, as it remains heavily glaciated, with elevations ranging approximately from 3,800 to 4,000 meters, contributing to the region's complex glacial landscape. The ridge was named in 1963 by the Advisory Committee on Antarctic Names (US-ACAN) to honor Major Wilbur E. Martin of the U.S. Army, who served as the officer in charge of trail operations during U.S. Navy that year. Martin's role involved critical logistical support for traverses, underscoring the collaborative efforts between military branches in . As a prominent glacial extension, Martin Ridge exemplifies the dynamic ice systems of the , where persistent cover limits accessibility and preserves underlying geological features from direct exposure.

References

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  5. https://nhmu.utah.edu/dinofest/2019
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  7. https://ui.adsabs.harvard.edu/abs/2007nsf....0634619H/abstract
  8. https://pubs.usgs.gov/of/2007/1047/ea/of2007-1047ea071.pdf
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  24. https://www.sciencedirect.com/science/article/pii/S0016787859800687
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