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1. Ice and ocean constraints on early human migrations into North America along the Pacific coast

Author

Praetorius, Summer K, Alder, Jay R, Condron, Alan, Mix, Alan C, Walczak, Maureen H, Caissie, Beth E, and Erlandson, Jon M

Subjects
Earth Sciences, Physical Geography and Environmental Geoscience, Geology, Life Below Water, Climate Action, Humans, North America, Ecosystem, Fresh Water, Human Migration, Oceans and Seas, Ice Cover, paleoceanography, sea ice, human migration, North Pacific, paleoclimate
Abstract

Founding populations of the first Americans likely occupied parts of Beringia during the Last Glacial Maximum (LGM). The timing, pathways, and modes of their southward transit remain unknown, but blockage of the interior route by North American ice sheets between ~26 and 14 cal kyr BP (ka) favors a coastal route during this period. Using models and paleoceanographic data from the North Pacific, we identify climatically favorable intervals when humans could have plausibly traversed the Cordilleran coastal corridor during the terminal Pleistocene. Model simulations suggest that northward coastal currents strengthened during the LGM and at times of enhanced freshwater input, making southward transit by boat more difficult. Repeated Cordilleran glacial-calving events would have further challenged coastal transit on land and at sea. Following these events, ice-free coastal areas opened and seasonal sea ice was present along the Alaskan margin until at least 15 ka. Given evidence for humans south of the ice sheets by 16 ka and possibly earlier, we posit that early people may have taken advantage of winter sea ice that connected islands and coastal refugia. Marine ice-edge habitats offer a rich food supply and traversing coastal sea ice could have mitigated the difficulty of traveling southward in watercraft or on land over glaciers. We identify 24.5 to 22 ka and 16.4 to 14.8 ka as environmentally favorable time periods for coastal migration, when climate conditions provided both winter sea ice and ice-free summer conditions that facilitated year-round marine resource diversity and multiple modes of mobility along the North Pacific coast.

Published
2023

2. Global reorganization of deep-sea circulation and carbon storage after the last ice age

Author

Rafter, Patrick A, Gray, William R, Hines, Sophia KV, Burke, Andrea, Costa, Kassandra M, Gottschalk, Julia, Hain, Mathis P, Rae, James WB, Southon, John R, Walczak, Maureen H, Yu, Jimin, Adkins, Jess F, and DeVries, Timothy

Subjects
Earth Sciences, Oceanography, Physical Geography and Environmental Geoscience, Geology, Life Below Water
Abstract

Using new and published marine fossil radiocarbon (14C/C) measurements, a tracer uniquely sensitive to circulation and air-sea gas exchange, we establish several benchmarks for Atlantic, Southern, and Pacific deep-sea circulation and ventilation since the last ice age. We find the most 14C-depleted water in glacial Pacific bottom depths, rather than the mid-depths as they are today, which is best explained by a slowdown in glacial deep-sea overturning in addition to a "flipped" glacial Pacific overturning configuration. These observations cannot be produced by changes in air-sea gas exchange alone, and they underscore the major role for changes in the overturning circulation for glacial deep-sea carbon storage in the vast Pacific abyss and the concomitant drawdown of atmospheric CO2.

Published
2022

8. Ice and ocean constraints on early human migrations into North America along the Pacific coast

Author

Praetorius, Summer K., Alder, Jay R., Condron, Alan, Mix, Alan C., Walczak, Maureen H., Caissie, Beth E., Erlandson, Jon M., Praetorius, Summer K., Alder, Jay R., Condron, Alan, Mix, Alan C., Walczak, Maureen H., Caissie, Beth E., and Erlandson, Jon M.

Abstract

Founding populations of the first Americans likely occupied parts of Beringia during the Last Glacial Maximum (LGM). The timing, pathways, and modes of their southward transit remain unknown, but blockage of the interior route by North American ice sheets between ~26 and 14 cal kyr BP (ka) favors a coastal route during this period. Using models and paleoceanographic data from the North Pacific, we identify climatically favorable intervals when humans could have plausibly traversed the Cordilleran coastal corridor during the terminal Pleistocene. Model simulations suggest that northward coastal currents strengthened during the LGM and at times of enhanced freshwater input, making southward transit by boat more difficult. Repeated Cordilleran glacial-calving events would have further challenged coastal transit on land and at sea. Following these events, ice-free coastal areas opened and seasonal sea ice was present along the Alaskan margin until at least 15 ka. Given evidence for humans south of the ice sheets by 16 ka and possibly earlier, we posit that early people may have taken advantage of winter sea ice that connected islands and coastal refugia. Marine ice-edge habitats offer a rich food supply and traversing coastal sea ice could have mitigated the difficulty of traveling southward in watercraft or on land over glaciers. We identify 24.5 to 22 ka and 16.4 to 14.8 ka as environmentally favorable time periods for coastal migration, when climate conditions provided both winter sea ice and ice-free summer conditions that facilitated year-round marine resource diversity and multiple modes of mobility along the North Pacific coast.

Published
2023
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9. Mid-Pleistocene climate transition drives net mass loss from rapidly uplifting St. Elias Mountains, Alaska

Author

Gulick, Sean P. S., Jaeger, John M., Mix, Alan C., Asahi, Hirofumi, Bahlburg, Heinrich, Belanger, Christina L., Berbel, Glaucia B. B., Childress, Laurel, Cowan, Ellen, Drab, Laureen, Forwick, Matthias, Fukumura, Akemi, Ge, Shulan, Gupta, Shyam, Kioka, Arata, Konno, Susumu, LeVay, Leah J., März, Christian, Matsuzaki, Kenji M., McClymont, Erin L., Moy, Chris, Müller, Juliane, Nakamura, Atsunori, Ojima, Takanori, Ribeiro, Fabiana R., Ridgway, Kenneth D., Romero, Oscar E., Slagle, Angela L., Stoner, Joseph S., St-Onge, Guillaume, Suto, Itsuki, Walczak, Maureen D., Worthingtona, Lindsay L., Baileyb, Ian, Enkelmannc, Eva, Reeced, Robert, and Swartz, John M.

Published
2015

14. A 5.3-million-year history of monsoonal precipitation in northwestern Australia

Author

Stuut , Jan-Berend Willem, De Deckker , Patrick, Saavedra-Pellitero , Mariem, Bassinot , Franck, Drury , Anna Joy, Walczak , Maureen, and Nagashima , Kana

Abstract

NIOZ - Royal Netherlands Institute for Sea Research, and Utrecht University, Texel, the Netherlands (1); MARUM – Center for Marine Environmental Sciences, Bremen University, Bremen, Germany (2); Department of Earth Sciences, Faculty of Science, Vrije Universiteit Amsterdam, The Netherlands (3); ANU – Australian National University, Research School of Earth Sciences, Canberra, Australia (4); School of Geography, Earth and Environmental Sciences at University of Birmingham, Edgbaston Birmingham, United Kingdom (5); LSCE - Laboratoire des Sciences du Climate et de l’Environnement, Gif-sur-Yvette, France (6); University College London, UCL, dept of Earth Sciences, London, United Kingdom (7); Oregon State University, College of Earth, Ocean, and Atmospheric Sciences, Corvallis, USA (8); JAMSTEC – Japan Agency for Marine Earth Science and Technology, Yokosuka, Japan (9) Australia is the driest inhabited continent on the planet, with its moisture mostly sourced from the tropical monsoon in the north and the southern westerlies in the south. The continent has experienced large climate fluctuations in the geologic past, but long continuous records of palaeo-environmental changes are lacking, particularly prior to ~0.55Ma. Here, we address this paucity by presenting a continuous record of continental aridity and monsoonal activity in northwestern Australia since the Pliocene (5.3 Ma). Our records are based on bulk-chemical XRF-scans and particle-size distributions of the terrigenous fraction, in two cores from the northwestern Australian continental shelf: MD002361 and ODP122-762B. In our records we distinguish between aeolian- and fluvial sediments that were deposited at sea. Support for the distinction between aeolian and fluvial sediment fractions in the two marine sediment cores is found in the bulk-chemical composition of aeolian- and fluvial material in the potential source areas in northern West Australia. Our records show a warm and dry early Pliocene (~5.3 Ma) on the northwestern Australian continent, which experienced a gradual increase in humidity peaking at about 3.8 Ma with higher than present-day rainfall. Between 3.8 and about 2.8 Ma, climate became progressively more arid with more rainfall variability. Coinciding with the onset of the northern hemisphere glaciations and the intensification of the northern-hemisphere monsoon, aridity continued to increase overall from 2.8 Ma until today, with greater variance in precipitation and an increased frequency of large rainfall events. We associate the observed large-scale fluctuations in Australian aridity with variations in Indian Ocean sea-surface temperatures, which largely control the monsoonal precipitation in northwestern Australia.

Published
2020
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15. The role of Northeast Pacific meltwater events in deglacial climate change

Author

Praetorius, Summer K., Condron, Alan, Mix, Alan C., Walczak, Maureen H., Mckay, Jennifer L., Du, Jianghui, Praetorius, Summer K., Condron, Alan, Mix, Alan C., Walczak, Maureen H., Mckay, Jennifer L., and Du, Jianghui

Abstract

Columbia River megafloods occurred repeatedly during the last deglaciation, but the impacts of this fresh water on Pacific hydrography are largely unknown. To reconstruct changes in ocean circulation during this period, we used a numerical model to simulate the flow trajectory of Columbia River megafloods and compiled records of sea surface temperature, paleo-salinity, and deep-water radiocarbon from marine sediment cores in the Northeast Pacific. The North Pacific sea surface cooled and freshened during the early deglacial (19.0-16.5 ka) and Younger Dryas (12.9-11.7 ka) intervals, coincident with the appearance of subsurface water masses depleted in radiocarbon relative to the sea surface. We infer that Pacific meltwater fluxes contributed to net Northern Hemisphere cooling prior to North Atlantic Heinrich Events, and again during the Younger Dryas stadial. Abrupt warming in the Northeast Pacific similarly contributed to hemispheric warming during the Bølling and Holocene transitions. These findings underscore the importance of changes in North Pacific freshwater fluxes and circulation in deglacial climate events.

Published
2020
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16. Modern foraminiferal assemblages in northern Nares Strait, Petermann Fjord, and beneath Petermann ice tongue, NW Greenland

Author

Jennings, Anne, Andrews, John, Reilly, Brendan, Walczak, Maureen, Jakobsson, Martin, Mix, Alan, Stoner, Joe, Nicholls, Keith W., Cheseby, Maziet, Jennings, Anne, Andrews, John, Reilly, Brendan, Walczak, Maureen, Jakobsson, Martin, Mix, Alan, Stoner, Joe, Nicholls, Keith W., and Cheseby, Maziet

Abstract

Calving events of Petermann Glacier, northwest Greenland, in 2010 and 2012 reduced the length of its ice tongue by c. 25 km, allowing exploration of newly uncovered seafloor during the Petermann 2015 Expedition. This article presents the results of foraminiferal analysis and environmental data from thirteen surface sediment samples in northern Nares Strait and Petermann Fjord, including beneath the modern ice tongue. This is the first study of living foraminifera beneath an arctic ice tongue and the first modern foraminiferal data from this area. Modern assemblages were studied to constrain species environmental preferences and to improve paleoenvironmental interpretations of foraminiferal assemblages. Sub-ice tongue assemblages differed greatly from those at all other sites, with very low faunal abundances and being dominated by agglutinated fauna, likely reflecting low food supply under the ice tongue. Fjord fauna were comprised of 80 percent or more calcareous species. Notably,Elphidium clavatumis absent beneath the ice tongue although it is dominant in the fjord. Increasing primary productivity associated with the transition to mobile sea ice, diminishing influence of the Petermann Glacier meltwater with distance from the grounding line, and increased influence of south-flowing currents in Nares Strait are the important controls on the faunal assemblages.

Published
2020
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18. Phasing of millennial-scale climate variability in the Pacific and Atlantic Oceans

Author

Walczak, Maureen H., primary, Mix, Alan C., additional, Cowan, Ellen A., additional, Fallon, Stewart, additional, Fifield, L. Keith, additional, Alder, Jay R., additional, Du, Jianghui, additional, Haley, Brian, additional, Hobern, Tim, additional, Padman, June, additional, Praetorius, Summer K., additional, Schmittner, Andreas, additional, Stoner, Joseph S., additional, and Zellers, Sarah D., additional

Published
2020
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19. Deriving paleo-perspectives on polar systems: Continued results from the 2012 Sawtooth Lake (Ellesmere Island) and 2015 Petermann (North Greenland) Expeditions

Author

Stoner, Joseph, primary, Reilly, Brendan, additional, Mix, Alan, additional, Jakobsson, Martin, additional, Walczak, Maureen, additional, Abbott, Mark, additional, Lapointe, Francois, additional, Francus, Pierre, additional, Balascio, Nicholas, additional, Jennings, Anne, additional, Hogan, Kelly, additional, and Mayer, Larry, additional

Published
2020
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22. A 5.3‐million‐year history of monsoonal precipitation in northwestern Australia

Author

Stuut, Jan‐berend W., De Deckker, Patrick, Saavedra‐pellitero, Mariem, Bassinot, Franck, Drury, Anna‐joy, Walczak, Maureen H., Nagashima, Kana, Murayama, Masafumi, Stuut, Jan‐berend W., De Deckker, Patrick, Saavedra‐pellitero, Mariem, Bassinot, Franck, Drury, Anna‐joy, Walczak, Maureen H., Nagashima, Kana, and Murayama, Masafumi

Abstract

New proxy records from deep‐sea sediment cores from the northwestern continental margin of Western Australian reveal a 5.3 million‐year (Ma) history of aridity and tropical‐monsoon activity in northwestern Australia. Following the warm and dry early Pliocene (~5.3 Ma), the northwestern Australian continent experienced a gradual increase in humidity peaking at about 3.8 Ma with higher than present‐day rainfall. Between 3.8 and about 2.8 Ma, climate became progressively more arid with more rainfall variability. Coinciding with the onset of the northern hemisphere glaciations and the intensification of the northern hemisphere monsoon, aridity continued to increase overall from 2.8 Ma until today, with greater variance in precipitation and an increased frequency of large rainfall events. We associate the observed large‐scale fluctuations in Australian aridity with variations in Indian Ocean sea‐surface temperatures (SST), which largely control the monsoonal precipitation in northwestern Australia. Key Points Continental‐margin sediments off northwestern Australia record large continental‐aridity shifts at 5.3, 3.8, 2.8 and 1.4 Ma. Grain size and chemistry of the terrigenous fraction of sea‐floor sediments and source areas on land allow a characterisation of river mud. Monsoonal activity responds to changes in Indian‐Ocean SSTs and drives river run‐off in northwestern Australia.

Published
2019
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23. Holocene break-up and reestablishment of the Petermann Ice Tongue, Northwest Greenland

Author

Reilly, Brendan T., Stoner, Joseph S., Mix, Alan C., Walczak, Maureen H., Jennings, Anne, Jakobsson, Martin, Dyke, Laurence, Glueder, Anna, Nicholls, Keith, Hogan, Kelly A., Mayer, Larry A., Hatfield, Robert G., Albert, Sam, Marcott, Shaun, Fallon, Stewart, Cheseby, Maziet, Reilly, Brendan T., Stoner, Joseph S., Mix, Alan C., Walczak, Maureen H., Jennings, Anne, Jakobsson, Martin, Dyke, Laurence, Glueder, Anna, Nicholls, Keith, Hogan, Kelly A., Mayer, Larry A., Hatfield, Robert G., Albert, Sam, Marcott, Shaun, Fallon, Stewart, and Cheseby, Maziet

Abstract

Over the last decade, two major calving events of the Petermann Ice Tongue in Northwest Greenland have led to speculation on its future stability and contribution to further Greenland Ice Sheet mass loss. However, it has been unclear if these events are anomalous or typical within the context of limited historical observations. We extend the historical record of the floating ice tongue using the stratigraphy of Petermann Fjord sediments to provide a longer-term perspective. Computed tomography (CT) scans, X-Ray Fluorescence (XRF) scans, Ice-Rafted Debris (IRD) counts, and the magnetic properties of specific particle size fractions constrain changes in depositional processes and sediment sources at our core sites, allowing for reconstructions of past behavior of the Petermann Ice Tongue. Radiocarbon dating of foraminifera, Pb-210, and paleomagnetic secular variation (PSV) provide age control and help to address uncertainties in radiocarbon reservoir ages. A floating ice tongue in Petermann Fjord formed in late glacial time as Petermann Glacier retreated from an advanced grounded position. This paleo-ice tongue broke-up during the early Holocene when high northern latitude summer insolation was higher than present. After gradual regrowth of the ice tongue associated with regional cooling, the ice tongue reached its historical extent only within the last millennium. Little or no ice tongue was present for nearly 5000 years during the middle Holocene, when decadal mean regional temperatures are estimated to be 0.8-2.9 degrees C higher than preindustrial (1750 CE) and seasonal sea-ice in the Lincoln Sea was reduced. This pre-historical behavior shows that recent anthropogenic warming may already be in the range of ice tongue instability and future projected warming increases the risk of ice tongue break-up by the mid-21st Century.

Published
2019
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24. A 5.3-Million-Year History of Monsoonal Precipitation in Northwestern Australia

Author

Stuut, Jan-Berend W, De Deckker, Patrick, Saavedra‐Pellitero, Mariem, Bassinot, Franck, Drury, Anna Joy, Walczak, Maureen, Nagashima, Kana, Murayama, Masafumi, Stuut, Jan-Berend W, De Deckker, Patrick, Saavedra‐Pellitero, Mariem, Bassinot, Franck, Drury, Anna Joy, Walczak, Maureen, Nagashima, Kana, and Murayama, Masafumi

Abstract

New proxy records from deep‐sea sediment cores from the northwestern continental margin of Western Australian reveal a 5.3 million year (Ma) history of aridity and tropical monsoon activity in northwestern Australia. Following the warm and dry early Pliocene (~5.3 Ma), the northwestern Australian continent experienced a gradual increase in humidity peaking at about 3.8 Ma with higher than present‐day rainfall. Between 3.8 and about 2.8 Ma, climate became progressively more arid with more rainfall variability. Coinciding with the onset of the Northern Hemisphere glaciations and the intensification of the Northern Hemisphere monsoon, aridity continued to increase overall from 2.8 Ma until today, with greater variance in precipitation and an increased frequency of large rainfall events. We associate the observed large‐scale fluctuations in Australian aridity with variations in Indian Ocean sea surface temperatures, which largely control the monsoonal precipitation in northwestern Australia.

Published
2019

25. Holocene break-up and reestablishment of the Petermann Ice Tongue, Northwest Greenland

Author

Reilly, Brendan T., primary, Stoner, Joseph S., additional, Mix, Alan C., additional, Walczak, Maureen H., additional, Jennings, Anne, additional, Jakobsson, Martin, additional, Dyke, Laurence, additional, Glueder, Anna, additional, Nicholls, Keith, additional, Hogan, Kelly A., additional, Mayer, Larry A., additional, Hatfield, Robert G., additional, Albert, Sam, additional, Marcott, Shaun, additional, Fallon, Stewart, additional, and Cheseby, Maziet, additional

Published
2019
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27. Southern Greenland glaciation and Western Boundary Undercurrent evolution recorded on Eirik Drift during the late Pliocene intensification of Northern Hemisphere glaciation

Author

Blake-Mizen, Keziah, primary, Hatfield, Robert G., additional, Stoner, Joseph S., additional, Carlson, Anders E., additional, Xuan, Chuang, additional, Walczak, Maureen, additional, Lawrence, Kira T., additional, Channell, James E.T., additional, and Bailey, Ian, additional

Published
2019
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29. Historical droughts in Southeast Australia recorded in a New South Wales stalagmite.

Author

Scroxton, Nick, Walczak, Maureen, Markowska, Monika, Zhao, Jian-xin, and Fallon, Stewart

Subjects
*STALACTITES & stalagmites, *DROUGHTS, *DROUGHT management, *STABLE isotopes, *TRACE elements
Abstract

The Murray Darling Basin contains 40% of Australia's farms and is subject to multi-year droughts that put severe pressure on southeast Australia's freshwater resources. Yet the long-term frequency, timing and potential severity of these droughts is unknown, as there are few high-resolution paleoclimate records from the basin that extend past the instrumental era. In this study, we investigate the potential of stalagmites from Careys Cave, Wee Jasper, in the Murray-Darling Basin to record past droughts. We use a multiproxy approach of stalagmite stable isotopes, trace element data, and climate reanalysis. We show that (a) stalagmite δ18O at this site likely records either local or regional precipitation amount and (b) stalagmite δ18O shows reasonable coherence with decadal-scale wet and dry changes in regional rainfall over the last 150 years, including the Federation Drought (1895–1902). Therefore, stalagmites from Wee Jasper can be used to draw regional inferences about past rainfall and have potential to extend the record of past droughts in the Murray Darling Basin beyond the limits of historical data. Extracting such a record will enable a better understanding of the causes of multi-year droughts in the region and consequently better planning, mitigation, and resilience in the basin. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Recent retreat of Columbia Glacier, Alaska: Millennial context

Author

Carlson, Anders E., primary, Kilmer, Zoe, additional, Ziegler, Leah B., additional, Stoner, Joseph S., additional, Wiles, Greg C., additional, Starr, Kaitlin, additional, Walczak, Maureen H., additional, Colgan, William, additional, Reyes, Alberto V., additional, Leydet, David J., additional, and Hatfield, Robert G., additional

Published
2017
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33. Late Glacial to Holocene radiocarbon constraints on North Pacific Intermediate Water ventilation and deglacial atmospheric CO2 sources.

Author

Davies-Walczak, Maureen, Mix, A.C., Stoner, J.S., Southon, J.R., Cheseby, M., and Xuan, C.

Subjects
*GLACIAL landforms, *HOLOCENE Epoch, *CARBON isotopes, *RADIOCARBON dating, *CONTINENTAL drift, *BENTHIC ecology
Abstract

Abstract: Radiocarbon reconstructions of past ocean ventilation rates constrain oceanic sources and sinks of CO2 and mechanisms of subsurface hypoxia. Here, 14C in coexisting benthic and planktonic foraminifera from a sediment core 682 m deep off Southeast Alaska documents paleoventilation over the past . A chronology based on calibrated planktonic foraminiferal dates, consistent with independent terrestrial dates for regional glacial retreat, yields deglacial projection ages moderately greater than those of the Holocene, suggesting comparatively limited ventilation. The observed Holocene increase of apparent ventilation at intermediate depths tracks inundation of the Bering Strait between and ago, suggesting that flooding of continental shelves and export of low-salinity surface waters to the Arctic enhanced intermediate water formation in the North Pacific. An abrupt increase in the benthic–planktonic radiocarbon age gradient, implying homogenization of abyssal radiocarbon in deep and intermediate waters, aligns with the younger of two episodes of rapid rise of atmospheric CO2 and depletion of atmospheric during deglaciation ( ago), suggesting the North Pacific as a possible pathway for venting of oceanic CO2 to the atmosphere during the second half of the deglacial transition. [Copyright &y& Elsevier]

Published
2014
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