Postglacial alluvial terraces and an incorporated bison skeleton, Ghostpine Creek, southern Alberta

1994 ◽  
Vol 31 (10) ◽  
pp. 1501-1509 ◽  
Author(s):  
R. Bruce Rains ◽  
James A. Burns ◽  
Robert R. Young
Keyword(s):  
Red Deer ◽  
Skeletal Remains ◽  
Bison Bison ◽  
Glacial Lake ◽  
Alluvial Terrace ◽  
Point Bar ◽  
Southern Alberta ◽  
Alluvial Terraces

Ghostpine Creek near Three Hills, southern Alberta, is a tributary of the Red Deer River. It has three sets of paired alluvial terraces (T-1 to T-3) in a downstream part of the valley. The rare discovery of a largely intact skeleton of plains bison (Bison bison bison) in a T-2 point bar prompted terrace mapping, 14C dating, and interpretation of the postglacial evolution of the valley. Downvalley portions of the creek began incision into the newly drained bed of glacial Lake Drumheller probably about 13 000 BP. Localized valley deepening up to 20 m, the production of erosional benches and residual spurs, and the development of partly convex-up creek paleothalwegs occurred between about 13 000 and 7600 BP, by which time basal T-1 alluvium was beginning to accumulate. Subsequent aggradation of T-1 sediment and then degradation of about 3–4 m were followed by aggradation of T-2 alluvium. These trends had taken place by 2600 BP, when the bison died and its skeletal remains were buried in uppermost sediment of a T-2 point bar. Between 2600 BP and now, the creek incised about 5 m below the former T-2 channel position and aggraded, partly synchronously, up to 3 m of T-3–floodplain alluvium. Radiocarbon-dated alluvial terrace sequences in Alberta show generally comparable trends of rapid early creek incision followed by partially overlapping episodes of net aggradation and degradation from basin to basin. However, such episodes were not closely synchronized between basins.

Taphonomy of the Danek Bonebed: a monodominant Edmontosaurus (Hadrosauridae) bonebed from the Horseshoe Canyon Formation, Alberta

2014 ◽  
Vol 51 (11) ◽  
pp. 992-1006 ◽  
Author(s):  
Phil R. Bell ◽  
Nicolás E. Campione
Keyword(s):  
Cause Of Death ◽  
Skeletal Remains ◽  
Bite Marks ◽  
Southern Alberta ◽  
Bone Fragments ◽  
Faunal Diversity ◽  
Horseshoe Canyon Formation

The Danek Bonebed (Horsethief Member, Horseshoe Canyon Formation, Late Campanian) is dominated by the remains of at least 12 Edmontosaurus regalis. Skeletal remains of a tyrannosaurid and ceratopsid are also known. The predominantly disarticulated remains were interred on a periodically inundated floodplain and, although the cause of death is unknown, a sudden, catastrophic death explains the demographic spread, faunal diversity, rare greenstick fractures, and homogeneous weathering/abrasion categories of the assemblage. The Danek Bonebed shares a similar taphonomic signature to the Liscomb Bonebed (Prince Creek Formation, Alaska), but it is unique among all other described hadrosaurid bonebeds in the unusually high proportion of bite-marked bones (∼30%), suggesting scavenging played a major role in the reworking of the assemblage. The highest frequency of bite marks is found on small, often unidentifiable (and commonly ignored) bone fragments, underscoring the role that such fragments can play in taphonomic interpretation. Finally, the recognition of E. regalis from central Alberta is an important datum linking contemporaneous occurrences in southern Alberta with slightly older records of this species from the Wapiti Formation in northwestern Alberta.

High-precision U–Pb CA–ID–TIMS dating and chronostratigraphy of the dinosaur-rich Horseshoe Canyon Formation (Upper Cretaceous, Campanian–Maastrichtian), Red Deer River valley, Alberta, Canada

2020 ◽  
Vol 57 (10) ◽  
pp. 1220-1237 ◽  
Author(s):  
David A. Eberth ◽  
Sandra L. Kamo
Keyword(s):  
High Precision ◽  
Coastal Plain ◽  
Upper Cretaceous ◽  
Red Deer ◽  
Alluvial Plain ◽  
Type Area ◽  
Southern Alberta ◽  
Dinosaur Evolution ◽  
Horseshoe Canyon Formation ◽  
Upper Campanian

The non-marine Horseshoe Canyon Formation (HCFm, southern Alberta) yields taxonomically diverse, late Campanian to middle Maastrichtian dinosaur assemblages that play a central role in documenting dinosaur evolution, paleoecology, and paleobiogeography leading up to the end-Cretaceous extinction. Here, we present high-precision U–Pb CA–ID–TIMS ages and the first calibrated chronostratigraphy for the HCFm using zircon grains from (1) four HCFm bentonites distributed through 129 m of section, (2) one bentonite from the underlying Bearpaw Formation, and (3) a bentonite from the overlying Battle Formation that we dated previously. In its type area, the HCFm ranges in age from 73.1–68.0 Ma. Significant paleoenvironmental and climatic changes are recorded in the formation, including (1) a transition from a warm-and-wet deltaic setting to a cooler, seasonally wet-dry coastal plain at 71.5 Ma, (2) maximum transgression of the Drumheller Marine Tongue at 70.896 ± 0.048 Ma, and (3) transition to a warm-wet alluvial plain at 69.6 Ma. The HCFm’s three mega-herbivore dinosaur assemblage zones track these changes and are calibrated as follows: Edmontosaurus regalis – Pachyrhinosaurus canadensis zone, 73.1–71.5 Ma; Hypacrosaurus altispinus – Saurolophus osborni zone, 71.5–69.6 Ma; and Eotriceratops xerinsularis zone, 69.6–68.2 Ma. The Albertosaurus Bonebed — a monodominant assemblage of tyrannosaurids in the Tolman Member — is assessed an age of 70.1 Ma. The unusual triceratopsin, Eotriceratops xerinsularis, from the Carbon Member, is assessed an age of 68.8 Ma. This chronostratigraphy is useful for refining correlations with dinosaur-bearing upper Campanian–middle Maastrichtian units in Alberta and elsewhere in North America.

Red Deer River shakedown: a history of the Captain Marshall field paleontological expedition to Alberta, 1922, and its aftermath

2013 ◽  
Vol 32 (2) ◽  
pp. 204-234 ◽  
Author(s):  
Paul Brinkman
Keyword(s):  
South America ◽  
Late Cretaceous ◽  
Red Deer ◽  
Vertebrate Paleontology ◽  
Fossil Plants ◽  
Southern Alberta ◽  
History Of ◽  
Fossil Vertebrate ◽  
The Moment ◽  
Provincial Park

A Field Museum expedition to collect Late Cretaceous dinosaurs operated for three and a half months in the summer of 1922 in the Red Deer River badlands (Oldman and Dinosaur Park formations, Belly River Group) in an area now known as Dinosaur Provincial Park in southern Alberta, Canada. Associate Curator of Vertebrate Paleontology Elmer S. Riggs led the expedition. He was ably assisted by veteran collectors George F. Sternberg and John B. Abbott. A trio of novice collectors, Anthony Dombrosky, George Bedford and C. Harold Riggs, Elmer's youngest son, rounded out the party. The expedition was a success, netting several quality specimens of duckbilled dinosaurs; one small, partial theropod skeleton; an unidentified duckbilled dinosaur skull; four turtles; other miscellaneous fossil vertebrate remains; numerous fossil plants and invertebrates; and a large fossil log. In 1956, one of these specimens—a nearly complete lambeosaurine hadrosaur reconstructed as Lambeosaurus—debuted as the less fortunate partner of Gorgosaurus in the museum's iconic ‘Dinosaurs, Predator and Prey’ exhibit in Stanley Field Hall. Both of these specimens are still on display in a permanent exhibit called ‘Evolving Planet’. Another notable specimen prepared in 1999-2000 after nearly eighty years in an unopened field jacket has been identified as a juvenile Gorgosaurus. This specimen—nicknamed ‘Elmer’—was recently touring the globe as part of the ‘Dinosaurs: Ancient Fossils, New Discoveries’ exhibit. More importantly, the expedition was an invaluable shakedown experience for the fossil hunting crew and their new equipment in the months before they left on an ambitious, multi-year fossil mammal collecting expedition to Argentina and Bolivia. An oft-repeated myth holds that Riggs viewed the Alberta expedition as a failure and departed the field the moment he obtained permission to go to South America. This paper shows that myth to be unfounded.

Late Quaternary paleoenvironments and growth of intrusive ice in eastern Beringia (Eagle River valley, northern Yukon, Canada)

2010 ◽  
Vol 47 (7) ◽  
pp. 941-955 ◽  
Author(s):  
Bernard Lauriol ◽  
Denis Lacelle ◽  
Mélanie St-Jean ◽  
Ian D. Clark ◽  
Grant D. Zazula
Keyword(s):  
Late Quaternary ◽  
Maximum Level ◽  
River Valley ◽  
Bison Bison ◽  
Glacial Lake ◽  
Silty Clay ◽  
Uneven Surface ◽  
Ground Ice ◽  
Fluvial Terrace ◽  
Cut Marks

In this study, the sediments exposed in a fluvial terrace and in the headwall of a thaw slump in the Eagle River valley, northern Yukon, provide new data about the timing of flooding of glacial Lake Old Crow, the formation of massive ground ice bodies, and the vegetation and the fauna in eastern Beringia during the late Quaternary. The stratigraphy and radiocarbon ages establish the following chronology of events: (1) a gravel fluvial terrace was deposited by an overflow from glacial Lake Hughes into glacial Lake Old Crow; (2) a carbonate silty clay was deposited during the maximum level of glacial Lake Old Crow at 15 120 14C year BP; (3) permafrost and large intrusive ice bodies aggraded through the glaciolacustrine and underlying sediments following the drainage of glacial Lake Old Crow from the site; (4) at 11 290 14C year BP, a shrub–sedge tundra colonized an uneven surface deformed by the bodies of ground ice; (5) a thaw lake drained at 6730 14C year BP after flooding the site; (6) during the early Holocene and from the previous major event onwards, material from the slope nearby the site buried the previous organic and inorganic sediment and the ice bodies; and (7) a bison (Bison) vertebra with conspicuous cut marks was dated to 12 210 ± 70 14C year BP. The age from the bison bone is amongst the most recent of the late Pleistocene bison specimens yet found in eastern Beringia.

Late Quaternary events in the Lethbridge area, Alberta

1989 ◽  
Vol 26 (3) ◽  
pp. 551-560 ◽  
Author(s):  
Willem J. Vreeken
Keyword(s):  
Late Quaternary ◽  
Landscape History ◽  
Glacial Lake ◽  
The Holocene ◽  
Green Lake ◽  
Southern Alberta ◽  
Soil Landscape ◽  
Loess Deposition ◽  
Late Wisconsinan

New observations in the Lethbridge area permit a more complete reconstruction of the landscape history in Late Wisconsinan and Holocene time. The plain of glacial Lake Macleod, the Lethbridge moraine, and the plain of glacial Lake Lethbridge became exposed in that order and in quick succession. Almost immediately thereafter, a discontinuous mantle of loess began to accumulate on those surfaces. The presence of Glacier Peak layer G or Manyberries tephra near the base of the loess indicates these events occurred just before 11 200 BP. The similarity of this chronology to that established for the older Green Lake end moraine in the Cypress Hills region and the fact that the younger Buffalo Lake moraine was formed before 11 000 BP indicate that deglaciation of southern Alberta proceeded very rapidly.The oldest buried paleosol observed near Lethbridge began to form shortly after 11 200 BP. Subsequently, and throughout the Holocene, intervals of loess deposition alternated with soil-forming intervals. At least six soil–landscape cycles occurred between 11 200 and 6800 BP (before the Mazama tephra was deposited), and at least five cycles occurred subsequently. Occurrences of postglacial loess more than 3 m thick are common. A column of 6.7 m of loess, including 12 paleosols, was observed at one site.

A multivariate analysis of alluvial terrace soils of the clarendon and cranebrook formations, Nepean River, NSW

Soil Research ◽  
1988 ◽  
Vol 26 (2) ◽  
pp. 243 ◽  
Author(s):  
G Atkinson
Keyword(s):  
Principal Component Analysis ◽  
Cluster Analysis ◽  
Multivariate Analysis ◽  
Principal Component ◽  
Soil Samples ◽  
The Other ◽  
Soil Profiles ◽  
Alluvial Terrace ◽  
Southern Boundary ◽  
Alluvial Terraces

The techniques of cluster analysis and principal component analysis (PCA) were applied to soils data from two Pleistocene alluvial terraces on the Nepean River, N.S.W., the Clarendon and Cranebrook Formations, to address issues raised in the literature regarding their stratigraphic relationships. A total of 160 profiles were sampled at four fixed depths to 1 8 m. Profiles were located in four 1000 by 400 m sample areas, two on each terrace. Soil samples were analysed for colour, pH, and 2.8 M HCl extractable Fe2+, Mn2+, Na2+, K+, Ca2+ and Mg2+. Data were analysed by using whole profiles as the soil entities. One branch of the dendrogram resulting from the cluster analysis contained soil profiles exclusively from sample areas on the Cranebrook Formation, whilst the other branch contained profiles exclusively from sample areas on the Clarendon Formation. Soils typical of the Lowlands Formation, Londonderry Clay and minor subdivisions within the terraces could be distinguished on the dendrogram. Similar subdivisions could also be observed on a PCA scattergram. The Clarendon and Cranebrook Formations are complex units which contain minor terrace features. Each has a distinctly different suite of soils which is consistent with their continued designation as separate stratigraphic units. The Lowlands Formation can be separated from the Cranebrook Formation upstream of Castlereagh and the Clarendon Formation should have its southern boundary to the Londonderry Clay moved north towards Richmond and its stratigraphy redefined.

scholarly journals Identification of Macrofossils within Stone Tools: a possibility for tracing the source of artifacts?

COMPASS ◽  
2017 ◽  
Vol 1 (1) ◽  
pp. 1-12
Author(s):  
Timothy E. Allan ◽  
Matthew Bolton
Keyword(s):  
Diagnostic Tool ◽  
Red Deer ◽  
Sedimentary Rocks ◽  
Stone Tools ◽  
Depositional Environments ◽  
Stone Artifacts ◽  
Southern Alberta ◽  
River Confluence

This paper discusses the application of malacological identification of macrofossils in stone tools. A macroscopically distinct toolstone utilized by prehistoric peoples, reported widely in archaeological consulting literature across central and southern Alberta (Meyer et al. 2007; de Mille 2009; Bohach 2010; Porter 2014), features fossilized root traces and occasional large fossil shells. These fossils can be identified, and correlated with temporal and geologic formations indicative of the environments within which the taxa occurred. Artifacts with fossils morphologically coherent with Hydrobia, Lioplacodes, and Viviparus spp. are identified in stone artifacts analyzed in this paper. These taxa are consistent with depositional environments of Paleocene period Paskapoo Formation sedimentary rocks, particularly, as identified at the Blindman-Red Deer River confluence and Joffre roadcut paleontological localities (Hoffman and Stockey 2011). In this paper we explore how the identification of these fossils offer clues to the procurement areas which were sought out by prehistoric toolmakers. We do not suggest that all Red Deer Mudstone is from these localities, though the fossil molluscs presented so far do not refute this conclusion, but we do suggest that identifying large fossil shells can be a critical diagnostic tool for identifying the geologic origin of artifacts.

scholarly journals Incidence of bovine tuberculosis in wild and domestic animals other than cattle in six Central European countries during 1990–1999

2012 ◽  
Vol 47 (No. 5) ◽  
pp. 122-131 ◽  
Author(s):  
I. Pavlik ◽  
M. Machackova ◽  
W. Yayo Ayele ◽  
J. Lamka ◽  
I. Parmova ◽  
...  
Keyword(s):  
Cervus Elaphus ◽  
Bovine Tuberculosis ◽  
Sus Scrofa ◽  
Red Deer ◽  
Puma Concolor ◽  
Domestic Animals ◽  
Bison Bison ◽  
European Bison ◽  
Domestic Sheep ◽  
Wild Animals

The study was undertaken in Croatia, Czech Republic, Hungary, Poland, Slovakia and Slovenia laying between Baltic and Adriatic seas on 610 402 km<sup>2</sup>. Mycobacterium bovis infection was diagnosed in 70 animals belonging to 17 species other than cattle. The set of wild animals comprised 12 European bison (Bison bonasus), one red deer (Cervus elaphus), five wild boars (Sus scrofa), and one European wild goat (Capra aegagrus) bred in a game park. Further positive animals included two farmed red deer (Cervus elaphus) and one bactrian camel (Camelus ferus) owned by a circus. The infection was also demonstrated in 18 domestic animals belonging to 3 species living on farms where bovine tuberculosis was diagnosed in cattle. This set included 12 domestic pigs (Sus scrofa f. domestica), two domestic sheep (Ovis ammon f. aries), and four dogs (Canis lupus f. familiaris). The set of animals bred in zoological gardens consisted of 30 animals belonging to 9 species as follows: three bison (Bison bison), four tapirs (Tapirus terrestris), one cassowary (Casuarius casuarius &ndash; isolate identified by the biological assay in guinea pigs only), eight sitatungas (Tragelaphus spekei), three elands (Taurotragus oryx), one gnu (Connochaetes taurinus), eight reticulated giraffes (Giraffa cameloparadlis reticulata), one puma (Puma concolor), and one Vietnamese pot-bellied pig (Sus bucculentus). Although, considering the population sizes, absolute numbers of the infected individuals are rather low, wild animals or such animals bred in captivity should be regarded as possible reservoirs of the causative agent of bovine tuberculosis. Tests for bovine tuberculosis are therefore necessary before transportation of all wild animals. Any lesion arousing suspicion of tuberculosis found on necropsy of wild animals must be laboratory examined for the presence of mycobacteria.

A new prairie dog, Cynomys churcherii, from the Late Pleistocene of southern Alberta

1989 ◽  
Vol 67 (11) ◽  
pp. 2633-2639 ◽  
Author(s):  
James A. Burns ◽  
W. Bruce McGillivray
Keyword(s):  
Skeletal Remains ◽  
Prairie Dogs ◽  
New Taxon ◽  
Habitat Association ◽  
Third Molars ◽  
Prairie Dog ◽  
Skull Length ◽  
Morphometric Analyses ◽  
Southern Alberta ◽  
Feature Characteristic

Excavation of fossil burrows in the Hand Hills, about 30 km northeast of Drumheller, Alberta, has produced over 3000 skeletal remains, including major portions of nine associated skeletons of a species of prairie dog (Cynomys) dating from 22 000 to 33 000 BP. All lower third molars possess the stylid feature characteristic of white-tailed prairie dogs (subgenus Leucocrossuromys). Similarly, the conformation of the zygomatic arch is peculiar to whitetails. Morphometric analyses based on 10 characters from 9 skulls and 6 characters from 22 mandibles show that the fossil population is significantly different from extant C. ludovicianus, C. leucurus, and C. gunnisoni. Skull length, a good measure of overall size, is significantly greater in the fossil population than in any Recent Cynomys species. The fossil localities are not montane sites typical of extant whitetail populations, and the fossil mammal community differs little from the modern assemblage expected in an aspen groveland in Alberta. The morphological distinctiveness of the fossils, plus the uncharacteristic (for whitetails) habitat association, suggest the erection of a new taxon, Cynomys churcherii n.sp.

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