Your search keyword '"Buryak, Serhiy D."' showing total 7 results

1. Laser-ablation ICP-MS zircon U-Pb ages for key Pliocene-Pleistocene tephra beds in unglaciated Yukon and Alaska

Author

Buryak, Serhiy D., Reyes, Alberto V., Jensen, Britta J.L., Davies, Joshua H.F.L., Westgate, John A., DuFrane, S. Andrew, Luo, Yan, Froese, Duane G., Pearson, D. Graham, and Benowitz, Jeff A.

Published

2022

2. A new, Late Cretaceous gonorynchiform fish in the genus †Notogoneus from drill core of crater-lake deposits in a kimberlite maar, Northwest Territories, Canada

Author

Grande, Terry C., Wilson, Mark V.H., Reyes, Alberto V., Buryak, Serhiy D., Wolfe, Alexander P., and Siver, Peter A.

Published

2022

3. Paleobotanical Evidence for Mediterranean Climates in the Western Canadian Paleoarctic During the Late Middle Eocene.

Author

West, Christopher K., Reichgelt, Tammo, Reyes, Alberto V., Buryak, Serhiy D., Staniszewska, Kasia J., and Basinger, James F.

Subjects

CLIMATIC classification, TEPHROCHRONOLOGY, MEDITERRANEAN climate, GLOBAL warming, PALEOCLIMATOLOGY

Abstract

Paleogene age deposits east of the Fifteenmile River, northwest of Dawson City, Yukon, Canada preserve a diverse high‐latitude fossil flora. Here, we provide new data on the age of the fossil site based on laser ablation–inductively coupled plasma–mass spectrometry (LA‐ICP‐MS) U‐Pb dating of tephra zircons, paleobotanical paleoclimate reconstructions, and growing season length estimates based on photoperiod. These new data indicate an age of the Fifteenmile River fossil locality as late middle Eocene and likely within the Middle Eocene Climatic Optimum episode. The paleoflora‐based paleoclimate reconstruction indicates the region was relatively wet and warm with non‐freezing winters, but also experienced seasonal dryness, with an approximate 7 months long growing season as suggested by photoperiod. We interpret this paleoclimate as summer dry and winter wet—a climate analogous to modern day warm Mediterranean climates in the Köppen‐Geiger climate classification system. These findings provide a new perspective on the past climate and environment of high‐latitude ecosystems during warm greenhouse intervals and contribute to our understanding of the Earth's climate history and its potential future changes. Key Points: New U‐Pb data show the Fifteenmile River fossil flora age is late middle Eocene, potentially within the Middle Eocene Climatic OptimumWest central Yukon had a warm Mediterranean climate, with wet, mild winters and a distinct summer‐dry season during the late middle EoceneGrowing season length at high latitudes during greenhouse intervals would be determined by photoperiod, not temperature [ABSTRACT FROM AUTHOR]

Published

2024

4. Tephra zircon U-Pb geochronology of kimberlite maar sedimentary fills in subarctic Canada: Implications for Eocene paleoclimate and Late Cretaceous paleogeography.

Author

Buryak, Serhiy D., Reyes, Alberto V., West, Christopher K., Jensen, Britta J. L., DuFrane, S. Andrew, Davies, Joshua H. F. L., Yan Luo, Galloway, Jennifer M., Siver, Peter A., Westgate, John A., Reimink, Jesse R., Pearson, D. Graham, and Wolfe, Alexander P.

Subjects

*FISSION track dating, *DRILL cores, *PALEOGEOGRAPHY, *GEOLOGICAL time scales, *URANIUM-lead dating

Abstract

The Wombat and Giraffe kimberlite pipes in the Lac de Gras kimberlite field (64°N, 110°W) of the Northwest Territories, Canada, preserve unique post-eruptive lacustrine and paludal sedimentary records that offer rare insight into high-latitude continental paleoclimate. However, depositional timing—a key datum for atmospheric CO2 and paleoclimatic proxy reconstructions—of these maar infills remains ambiguous and requires refinement because of the large range in the age of kimberlites within the Lac de Gras kimberlite field. Existing constraints for the Giraffe pipe post-eruptive lacustrine and paludal maar sedimentary facies include a maximum Rb-Sr age of ca. 48 Ma (Ypresian, Eocene) based on kimberlitic phlogopite and a glass fission-track age of ca. 38 Ma (Bartonian, Eocene). The age of the Wombat pipe lacustrine maar sediments remains unclear, with unpublished pollen-based biostratigraphy suggesting deposition in the Paleocene (66–56 Ma). In this study, we examine distal rhyolitic tephra beds recovered from exploration drill cores intersecting the Wombat and Giraffe maar facies. We integrate zircon U-Pb laser ablation–inductively coupled plasma–mass spectrometry (LA-ICP-MS) and chemical abrasion–isotope dilution– thermal ionization mass spectrometry (CA-ID-TIMS) geochronology, glass fission-track dating, palynology, and tephra glass geochemistry to refine chronological frameworks for these sedimentary deposits. The Giraffe maar CA-ID-TIMS tephra zircon U-Pb dating yielded a Bayesian model age of 47.995 ± 0.082|0.087 Ma (Ypresian) for the upper portion of the lacustrine sediments, while a single zircon grain from tephra in the lowermost lacustrine sediments had an age of 48.72 ± 0.29|0.30 Ma. The revised geochronology for the Giraffe maar provides a working age model for the ∼50 m record of lacustrine silt and indicates an age ∼10 m.y. older than previously thought. The Wombat maar LA-ICP-MS zircon U-Pb dating yielded an age of 80.9 ± 1.0 Ma (Campanian), which indicates deposition during the Late Cretaceous. This first radiometric age for the Wombat maar deposits is substantially older than earlier biostratigraphic inferences of a Paleocene age. This new age suggests that the Wombat maar sediments preserve evidence of some of the oldest known freshwater diatoms and synurophytes and provide key constraints for the paleogeography of the Western Interior Seaway during the Late Cretaceous. [ABSTRACT FROM AUTHOR]

Published

2024

5. Detrital glass in a Bering Sea sediment core yields a ca. 160 ka Marine Isotope Stage 6 age for Old Crow tephra

Author

Reyes, Alberto V., primary, Jensen, Britta J.L., additional, Woudstra, Shaun H., additional, Bolton, Matthew S.M., additional, Buryak, Serhiy D., additional, Cook, Mea S., additional, Harvey, Jordan, additional, and Westgate, John A., additional

Published

2022

6. Geochronology and bulk sediment geochemistry of the Late Cretaceous maar lake sedimentary fill of the Wombat kimberlite pipe, subarctic Canada

Author

Buryak, Serhiy D.

Published

2020

7. Detrital glass in a Bering Sea sediment core yields a ca. 160 ka Marine Isotope Stage 6 age for Old Crow tephra.

Author

Reyes, Alberto V., Jensen, Britta J. L., Woudstra, Shaun H., Bolton, Matthew S. M., Buryak, Serhiy D., Cook, Mea S., Harvey, Jordan, and Westgate, John A.

Abstract

For decades, the Old Crow tephra has been a prominent stratigraphic marker for the onset of Marine Isotope Stage (MIS) 5e, the last interglaciation, in subarctic northwest North America. However, new zircon U-Pb dates for the tephra suggest that the tephra was deposited ca. 207 ka during MIS 7, with wide-ranging implications for chronologies of glaciation, paleoclimate, relict permafrost, and phylogeography. We analyzed -1900 detrital glass shards from 28 samples collected at Integrated Ocean Drilling Program Site U1345 in the Bering Sea, which has a well-constrained age model from benthic foraminiferal 18O. Except for one possibly contaminant shard dated at 165 ka, Old Crow tephra was absent from all samples spanning 220-160 ka. Old Crow tephra appeared abruptly at 157 ka, comprising >40% of detrital shards between 157 and 142 ka. This abrupt increase in the concentration of detrital Old Crow tephra, its absence in earlier intervals, and its presence at low concentrations in all samples between 134 and 15 ka collectively indicate that the tephra was deposited during the middle of MIS 6 with a likely age of 159 - 8 ka. As a result, the late Quaternary chronostratigraphic framework for unglaciated northwest North America remains intact, and the timing of key events in the region (e.g., bison entry into North America; interglacial paleoclimate; permafrost history; the penultimate glaciation) does not require wholesale revision. [ABSTRACT FROM AUTHOR]

Published

2023