Your search keyword '"GLACIATION"' showing total 24 results

1. Simulation of a former ice field with Parallel Ice Sheet Model – Snežnik study case.

Author

Depolli, Matjaž, Žebre, Manja, Stepišnik, Uroš, and Kosec, Gregor

Subjects

LAST Glacial Maximum, ICE fields, ICE sheets, GLACIERS, GLACIATION

Abstract

In this paper, we present a reconstruction of climate conditions during the Last Glacial Maximum on a karst plateau Snežnik, which lies in Dinaric Mountains (southern Slovenia) and bears evidence of glaciation. The reconstruction merges geomorphological ice limits, classified as either clear or unclear, and a computer modelling approach based on the Parallel Ice Sheet Model (PISM). Based on extensive numerical experiments where we studied the agreements between simulated and geomorphological ice extent, we propose using a combination of a high-resolution precipitation model that accounts for orographic precipitation combined with a simple elevation-based temperature model. The geomorphological ice extent can be simulated with climate to be around 6 °C colder than the modern day and with a lower-than-modern-day amount of precipitation, which matches other state-of-the art climate reconstructions for the era. The results indicate that an orographic precipitation model is essential for the accurate simulation of the study area, with moist southern winds from the nearby Adriatic Sea having a predominant effect on the precipitation patterns. Finally, this study shows that transforming climate conditions towards wetter and warmer or drier and colder does not significantly change the conditions for glacier formation. [ABSTRACT FROM AUTHOR]

Published

2024

2. A rare piedmont glaciation in the Mediterranean: Insights from cosmogenic 36Cl dating of Davraz hummocky moraine field (SW Türkiye).

Author

Altınay, Onur, Sarıkaya, Mehmet Akif, and Wilcken, Klaus M.

Subjects

GLACIATION, MORAINES, LAST Glacial Maximum, ICE sheets, ICE caps, GLACIERS, ALPINE glaciers

Abstract

Piedmont glaciers (lobes), typically found in high latitudes and large mountainous regions, extend from ice sheets and ice caps to lower altitudes. However, they can also occur, although less commonly, on mid‐latitude mountains. When these fan‐like glaciers retreat, they leave behind hummocky moraines scattered in a chaotic pattern. In this study, we have mapped one of these mid‐latitude sites and established a Terrestrial cosmogenic nuclide (TCN) glacial chronology on Mount Davraz, namely Davraz hummocky moraine field (37°46′00″N, 30°43′15″E). Our findings indicate that the glaciers in this area started receding from the early local Last Glacial Maximum (LGM) period (21.8 ± 2.4 ka) to the early Late‐glacial period (17.7 ± 2.2 ka), and eventually disappearing. The deglaciation of the Mt. Davraz palaeoglacier matches nearby mountains, supported by southerly winds as significant for regional glaciation. Our discoveries reveal a robust connection between southerly winds and nearby glaciation, contributing to our understanding of how climate influences glaciers. Likewise, the glacial timelines of the neighbouring mountains align with the glacial history of Mt. Davraz. [ABSTRACT FROM AUTHOR]

Published

2024

3. Age and sedimentology of a Late Pleistocene dammed paleolake in the middle Yarlung Tsangpo River, southern Tibetan Plateau.

Author

Wang, Huiying, Wang, Ping, Hu, Gang, Xu, Bo, Yuan, Renmao, Shi, Lingfan, and Ding, Ziyue

Subjects

*LAST Glacial Maximum, *PLEISTOCENE Epoch, *SEDIMENTOLOGY, *GLACIATION, *ALPINE glaciers, *DAMS, *GLACIERS

Abstract

The Yarlung Tsangpo River on the southern Tibetan Plateau flows between alternating broad shallow valley and deep gorge sections. Many damming events caused by glaciers or glacial moraines have occurred in the gorges during the last glacial period, which play an important role in shaping river landscapes. In this study, we used geomorphological, sedimentological and chronological techniques to analyze the dammed paleolake in the Shan'nan-Gyaca stretch of the middle reaches of the Yarlung Tsangpo River. Four sedimentary sections were studied, delineating three major lithofacies associations. We also summarized previous research. Our results suggest that the paleolake was formed before ∼16 ka BP and drained at ∼10 ka BP, developing at least two deltaic-lacustrine sedimentary cycles. The paleolake's highest water surface was ∼3620 m above sea level, with a minimum area and volume of ∼140 km2 and ∼86 km3, respectively. The dam located at the entrance of the Gyaca Gorge may have been formed by glacial moraines during the Last Glacial Maximum; the subsequent outburst event had probably triggered a megaflood downstream. [ABSTRACT FROM AUTHOR]

Published

2024

4. Timing and extent of glaciation since the Last Glacial Maximum in the upper Kalguty basin, Russian Altai Mountains.

Author

Deline, Philip, Ravanel, Ludovic, Delannoy, Jean‐Jacques, Le Roy, Melaine, Team, Aster, Léanni, Laëtitia, Cheremisin, Dimitri V., Zotkina, Lydia V., Cretin, Catherine, Geneste, Jean‐Michel, Plisson, Hugues, and Molodin, Vyacheslav I.

Subjects

LAST Glacial Maximum, LITTLE Ice Age, GLACIATION, ATMOSPHERIC circulation, ALPINE glaciers, GLACIERS

Abstract

The mountains systems of Central Asia are primary targets to study late Pleistocene climate evolution given their location at the crossroads of several atmospheric circulation systems. The timing of glacier extent during this period remains understudied, especially in the Altai Mountains. Here, we have reconstructed glacier extent during three main Late Pleistocene stadials in the upper Kalguty basin (south‐eastern Russian Altai) based on field‐based geomorphic analysis. Additionally, surface exposure dating with 10Be and 26Al at a key site was used to infer a minimum‐limiting age for the outermost well‐preserved Pleistocene frontal moraine system and to date the inception of glacier withdrawal. According to our data, around 20.6 ± 1.8 ka Kalguty Glacier was still 200 m thick at the key site, 10 km upstream of the outermost moraine, and the site was totally deglaciated shortly after 20.4 ± 0.4 ka. These results point to a rapid retreat of this low‐gradient valley glacier after its probably MIS 2 maximum which was prior to 21 ka and probably prior to 22.5 ka. Two other glacier stages have been identified upvalley, characterized by a depression of the equilibrium‐line altitude of 420 and 314 m with respect to the Little Ice Age, thus corresponding to Lateglacial advances. Our glacier reconstruction further provides a geomorphological and geochronological background to put into context archaeological findings in this area. [ABSTRACT FROM AUTHOR]

Published

2023

5. Palaeoclimate Reconstruction of the Central Gangdise Mountains, Southern Tibetan Plateau, Based on Glacier Modelling.

Author

Jiang, Zihan, Zhang, Qian, Xu, Hanyue, Wang, Ninglian, Zhang, Li, and Capolongo, Domenico

Subjects

ICE cores, LAST Glacial Maximum, GLACIERS, LAKE sediments, HOLOCENE Epoch

Abstract

Palaeoglacier modelling is an important approach for reconstructing the palaeoclimate. The timing of glaciations in the central part of the Gangdise Mountains has been constrained previously, but the palaeoclimate remains unclear. In this paper, the palaeo-temperature and precipitation of the early marine isotope stage (MIS) 2, the Last Glacial Maximum (LGM), and the early Holocene were reconstructed using coupled mass balance and ice flow models. The results show that a series of temperature changes (ΔT) and precipitation factors (Fp) resulted in optimum palaeoglacial extents. The modelled palaeoglaciers during the early MIS 2, the LGM, and the early Holocene cover areas of ~18.1 km2, ~17.4 km2, and ~16.3 km2, respectively, with ice volumes of ~2.18 km3, ~1.99 km3, and ~1.95 km3, respectively. Previous studies on ice cores, pollen samples, and lake sediments were referenced to narrow the range of palaeo-temperatures and precipitations. The reconstructed temperatures during the early MIS 2, LGM, and early Holocene were constrained to 2.4–2.9 °C, 2.15–3.05 °C, and 0.95–1.5 °C lower than today, respectively. Their precipitation levels were 60–80%, 50–80%, and 100–150% of the present-day level, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

6. Two glaciers and one sedimentary sink: the competing role of the Aare and the Valais glaciers in filling an overdeepened trough inferred from provenance analysis.

Author

Schwenk, Michael A., Stutenbecker, Laura, Schläfli, Patrick, Bandou, Dimitri, and Schlunegger, Fritz

Subjects

GLACIERS, LAST Glacial Maximum, GARNET, PROVENANCE (Geology), GLACIATION, LAKE sediments, HEAVY minerals

Abstract

The extent and distribution of glaciers on the Swiss Plateau during the Last Glacial Maximum (LGM) can be determined from the geological record. However, similar reconstructions for the glaciations that preceded the LGM are far more difficult to be made due to the destruction of suitable sedimentary records through recurring glaciations or due to the inaccessibility of preserved records. Here, we explored Quaternary sediments that were deposited during the Marine Isotope Stage (MIS) 8 glaciation at least around 250 ka, and which were recovered in a drilling that was sunk into an overdeepened bedrock trough west of Bern (Switzerland). We analyzed the sediment bulk chemical composition of the deposits to investigate the supply of the material to the area by either the Aare Glacier, the Saane Glacier, or the Valais Glacier, and we complement this investigation with the results of heavy mineral analyses and geochemical information from detrital garnet. The potential confluence of the Valais and the Aare glaciers in the Bern area makes this location ideal for such an analysis. We determined the sediment bulk chemical signal of the various lithological units in the central Swiss Alps where the glaciers originated, which we used as endmembers for our provenance analysis. We then combined the results of this fingerprinting with the existing information on the sedimentary succession and its deposition history. This sedimentary suite is composed of two sequences, Sequence A (lower) and Sequence B (upper), both of which comprise a basal till that is overlain by lacustrine sediments. The till at the base of Sequence A was formed by the Aare Glacier. The overlying lacustrine deposits of an ice-contact lake were mainly supplied by the Aare Glacier. The basal till in Sequence B was also formed by the Aare Glacier. For the lacustrine deposits in Sequence B, the heavy mineral and garnet geochemical data indicate that the sediment was supplied by the Aare and the Saane glaciers. We use these findings for a paleogeographic reconstruction. During the time when Sequence A and the basal till in Sequence B were deposited, the Aare Glacier dominated the area. This strongly contrasts with the situation during the LGM, when the Aare Glacier was deflected by the Valais Glacier towards the northeast. The Valais Glacier was probably less extensive during MIS 8, but it was potentially present in the area, and it could have been essential for damming a lake in which the material supplied by the Aare and the Saane glaciers accumulated. In conclusion, combining provenance with sedimentological data, we could document how sediment was supplied to the investigated overdeepened basin during the MIS 8 glacial period and how glaciers were arranged in a way that was markedly different from the LGM. Kurzfassung: Die Gletscherstände und die Verbreitung der Gletscher im Schweizer Mittelland während des letztglazialen Maximums (LGM) lassen sich aus den erhaltenen Ablagerungen und der Oberflächenmorphologie ableiten. Ähnliche Rekonstruktionen für die dem LGM vorangegangenen Vergletscherungen sind ungleich schwerer anzustellen, da entsprechende Ablagerungen durch die wiederkehrenden Gletschervorstöße zerstört wurden oder da entsprechende Sedimentsequenzen unzugänglich sind. In der vorliegenden Arbeit untersuchten wir Quartäre Sedimente, die während des marinen Isotopenstadiums (MIS) 8 abgelagert wurden. Erbohrt wurden diese Sedimente in einem übertieften Trog, der ins Molassegestein westlich von Bern (Schweiz) erodiert wurde. An diese Stelle konnte Sediment möglicherweise durch einen von drei Gletschern, den Aaregletscher, den Saanegletscher oder den Wallisergletscher transportiert werden. Um zu ermitteln, welche der Gletscher Sediment in den Trog lieferten, untersuchten wir die chemische Zusammensetzung der Ablagerungen und ergänzten diese Untersuchung mit Daten aus der Analyse der Schwermineralzusammensetzung sowie der Analyse detritischer Granate. Da hier möglicherweise der Aare– und der Wallisergletscher zusammenflossen, bietet sich die Gegend um Bern für eine solche Untersuchung an. Um den Ursprung des Sediments feststellen zu können, definierten wir verschiedene lithologische Einheiten der zentralen Schweizer Alpen, in denen die Gletscher sich bildeten, als Endglieder unserer Provenienzanalyse und bestimmten ebenfalls deren chemische Zusammensetzung. Die Ergebnisse aus der Untersuchung dieser chemischen Fingerabdrücke ergänzten wir anschließend mit den bereits vorhandenen Informationen über die Sedimentationsabfolge und deren Ablagerungsverhältnisse. In dieser Abfolge können zwei Sequenzen unterschieden werden, eine untere Sequenz A und eine obere Sequenz B. Beide Sequenzen bestehen aus einer Grundmoräne, die von lakustrischem Sediment überlagert wird. Der Aaregletscher lagerte die Moräne an der Basis der Sequenz A ab. Die Sedimente, die sich anschließend in einem Eisrandsee bildeten, wurden ebenfalls hauptsächlich vom Aaregletscher geliefert. Die basale Moräne der Sequenz B wurde ebenfalls durch den Aaregletscher gebildet. Daraufhin wurde das Seebecken mit Sediment aufgefüllt, das vermutlich durch den Aare– sowie den Saanegletscher herantransportiert wurde, wie die Schwermineralzusammensetzung und Granatgeochemie zeigen. Anhand dieser Ergebnisse erstellen wir eine paläogeographische Rekonstruktion. Es zeigt sich darin die Dominanz des Aaregletschers im Gebiet um Bern während des Ablagerungszeitraums der unteren Sequenz A sowie der Moräne an der Basis der Sequenz B. Dieses Bild der Verbreitung der Gletscher im Raum Bern steht in starkem Kontrast zur Situation während des LGM, als der Aaregletscher vom Wallisergletscher in Richtung Nordost abgedrängt wurde. Augenscheinlich war der Wallisergletscher während der MIS 8 Vergletscherung weniger weit ausgedehnt. Jedoch kann hier die vollständige Abwesenheit des Wallisergletschers nicht ausgeschlossen werden und möglicherweise war er sogar essenziell, um einen See in der Gegend um Bern aufzustauen, in welchen der Aare– und der Saanegletscher ihr mitgeführtes Material schütteten. Letztlich zeichnen die hier präsentierten Ergebnisse, eine Kombination aus Provenienzanalyse und sedimentologischen Daten, ein Bild des Sedimenttransportes in den hier untersuchten übertieften Trog während des MIS 8 Glazials, und den deutlichen Unterschied zur Gletscherverbreitung während des LGM. [ABSTRACT FROM AUTHOR]

Published

2022

7. LGM Glaciations in the Northeastern Anatolian Mountains: New Insights.

Author

Reber, Regina, Akçar, Naki, Tikhomirov, Dmitry, Yesilyurt, Serdar, Vockenhuber, Christof, Yavuz, Vural, Ivy-Ochs, Susan, and Schlüchter, Christian

Subjects

ALPINE glaciers, LAST Glacial Maximum, GLACIATION, GLACIERS, ROCK glaciers, SEA ice, SEA level

Abstract

Barhal Valley belongs to the Çoruh Valley System in the Kaçkar Mountains of northeastern Anatolia. This 13 km long valley is located to the south of the main weather divide and to the east of Mt. Kaçkar, with the highest peak of the mountain range being 3932 m. Today, source of an average yearly precipitation of 2000 mm of moisture is the Black Sea, situated approximately 40 km to the north of the study site. Glaciers of the Last Glacial Maximum (LGM) descended directly from Mt. Kaçkar and reached an altitude of ca. 1850 m a.s.l. (above sea level). In this study, we are exploring whether the position of Barhal Valley to the south of the main weather divide and its east–west orientation have an influence on the existence and expansion of paleoglaciers. Here, we present 32 new cosmogenic 36Cl dates on erratic boulders from the Çoruh Valley System. We reconstructed three geomorphologically well-contained glacier advances in the Barhal Valley, namely at 34.0 ± 2.3 ka, 22.2 ± 2.6 ka, and 18.3 ± 1.7 ka within the time window of the global LGM. Field evidence shows that the glacier of the 18.3 ± 1.7 ka advance disappeared rapidly and that by the latest time, at 15.6 ± 1.8 ka, the upper cirques were ice-free. No evidence for Lateglacial glacier fluctuations was found, and the Neoglacial activity is restricted to the cirques with rock glaciers. A range of 2700 to 3000 m for the Equilibrium Line Altitude (ELA) at the LGM was reported based on modeling of the glacial morphology. We determined that the most likely position of the LGM ELA in the Çoruh Valley System was at 2900 m a.s.l. We suggest an alternative moisture source to the direct transport from the Black Sea for the ice accumulation in the Eastern Black See Mountains. The shift of the Polar Front and of the Siberian High Pressure System to the south during the LGM resulted in the domination of easterly airflow to the Caucasus and Kaçkar Mountains with moisture from expanded lakes in central–western Siberia and from the enlarged Aral- and Caspian Seas. [ABSTRACT FROM AUTHOR]

Published

2022

8. Reconstructing the post-LGM deglacial history of Hollingsworth Glacier on Ricker Hills, Transantarctic Mountains, Antarctica.

Author

Rhee, Hyun-Hee, Seong, Yeong-Bae, Woo, Ju-Sun, Oh, Changhwan, and Yu, Byung-Yong

Subjects

GLACIATION, GLACIERS, LAST Glacial Maximum, ANTARCTIC ice, GLACIAL landforms, ICE sheets, ICE shelves

Abstract

The Transantarctic Mountains are an important corridor between the East Antarctic Ice Sheet and the Western Ross Sea, where most current ice streams and outlet glaciers arise. We investigated Ricker Hills, the largest exposed mountainous region between Southern Victoria Land and Terra Nova Bay, and dated the glacial landforms using in-situ cosmogenic-nuclide 10Be surface exposure dating to reconstruct the paleo-glacial dynamics. The surface of the Hollingsworth glacier lowered since the middle of Marine Isotope Stage (MIS) 2 (22.1 ka); therefore, the Last Glacial Maximum (LGM) occurred before that period. Cosmogenic, geomorphic, and climatic records constrained the glacial surface slope to be between 5.4° and 6.8°. The ice was 270–320 m thicker at the LGM (MIS 2) than presently but did not override the top surface of the Benson Knob. Moreover, previous glacial periods such as the local LGM (MIS 4) or Penultimate Glacial Maximum (MIS 6) maintained thicker ice than the LGM (MIS 2). The Ross Ice Shelf opening during the mid-Holocene (∼6 ka) caused the rapid collapse of the terminal outlet glaciers and supplied notable snow accumulation upstream, which stagnated lowering. The greatest lowering and retreat occurred during the late Holocene (2.3 ∼ 0.8 ka), when elephant seal colonies thrived in the Ross Embayment. [ABSTRACT FROM AUTHOR]

Published

2022

9. To the southern margin of the (last) northern glaciation – a field trip through the young moraine area south-east of Berlin.

Author

Juschus, Olaf, Błaszkiewicz, Mirosław, and Böttner, Lars

Subjects

MORAINES, LAST Glacial Maximum, GLACIATION, ICE sheets, RIVER channels, GLACIERS, DRUMLINS, MELTWATER

Abstract

The young moraine area to the south-east of Berlin was repeatedly overrun and covered by Scandinavian ice sheets (SISs). The last glaciation took place during the Last Glacial Maximum (LGM), when the last/most recent SIS reached its furthest southern extent. An incompletely formed chain of terminal moraines marks the Brandenburg ice stage. The most recent glacier had its greatest environmental impact due to the large quantities of released meltwaters. Many subglacial channels, massive proglacial sands and huge meltwater streamways (Urstromtäler) were formed at that time. During the Holocene, the landscape was finally shaped mainly by the rivers Dahme and Spree. [ABSTRACT FROM AUTHOR]

Published

2022

10. Late Pleistocene glaciations on the sub-Antarctic Kerguelen Archipelago: new evidence from 36Cl CRE dating and comparison with other southern mid-latitude glacier records.

Author

Charton, Joanna, Schimmelpfennig, Irene, Jomelli, Vincent, Verfaillie, Deborah, Delpech, Guillaume, Guillaume, Damien, Favier, Vincent, Menviel, Laurie, Robert, Thierry, Rinterknecht, Vincent, Legentil, Claude, and Team, A.S.T.E.R.

Subjects

*GLACIERS, *ALPINE glaciers, *LAST Glacial Maximum, *ARCHIPELAGOES, *BEDROCK, *GLACIATION, *PLEISTOCENE Epoch

Abstract

Previous paleo-glacial studies on Kerguelen showed a singular pattern of Holocene glacier evolution on this archipelago in comparison with other southern mid-latitude glacier records. In this study, we aim to test this singularity on a longer timescale, based on 26 new in situ -produced 36Cl ages from pre-Holocene glacio-geomorphic features. Samples from moraine boulders and glacially polished bedrock were extracted at six different sites, located near the Port-aux-Français scientific station (PAF site), on Longue Island, Australia Island, on the Port-Jeanne d'Arc Peninsula (PJDA site), on the Gallieni Peninsula at Baie Larose (BLR site) and the McMurdo Island. The moraine ages indicate that glacier culminations occurred during Marine Isotopic Stage 3 (MIS 3) at 42.2 ± 4.9 ka on the PAF site, and during the global Last Glacial Maximum (gLGM) at 21.5 ± 3.2 ka on the PJDA site and at 21.4 ± 3.7 ka and 19.4 ± 2.6 on Baie Larose site. This is the first time that Late Pleistocene glacier culminations are evidenced on Kerguelen by direct moraine dating, thus allowing comparison with other moraine records from the southern mid-latitudes. While it remains speculative whether or not the MIS 3 glacial maximum at ⁓42.2 ka is in phase with other glaciers at this latitude (due to high age uncertainties), the gLGM glacial maximum is synchronous with that in other southern mid-latitude regions. 36Cl CRE ages of glacially polished bedrock surfaces sampled in different locations of the archipelago vary from ⁓39 ka to ⁓19 ka. We interpret these results as reflecting periods of deglaciation that occurred in between the two glacier culminations and right after the gLGM on Kerguelen. These ages also suggest that some places of the archipelago were free of ice at least since ⁓ 39 ka. The presence of a MIS 3 moraine at PAF site that has not been obliterated by a gLGM advance suggests that the ⁓ 42.2 ka glacier extent was at least as large as gLGM glacial maxima on the archipelago. The glacier culmination during MIS 3 being larger than that during the gLGM on the Kerguelen Archipelago matches observations in other southern mid-latitude regions. Late Pleistocene glacier culminations on Kerguelen may have been in phase with cold temperatures recorded in SST records, which suggest a cooling around Kerguelen. However, climate drivers responsible for the larger MIS 3 glacier culmination on Kerguelen still remain unclear even if we hypothesize that changes in precipitation may have superimposed on temperature changes. • We investigate glacier evolution on the Kerguelen Archipelago for the past 45 ka. • Glacier chronologies are based on 26 new 36Cl ages from moraines and bedrocks. • Preserved moraines attest to glacier culminations at ∼42 ka and during the LGM. • Evidence of larger MIS 3 than gLGM glacier culmination. • This pattern matches records from other southern mid-latitude regions. [ABSTRACT FROM AUTHOR]

Published

2024

11. Southern limit of the Patagonian Ice Sheet.

Author

Hodgson, Dominic A., Roberts, Stephen J., Izagirre, Eñaut, Perren, Bianca B., De Vleeschouwer, François, Davies, Sarah J., Bishop, Thomas, McCulloch, Robert D., and Aravena, Juan-Carlos

Subjects

*ICE sheets, *ICE streams, *GLACIERS, *LAST Glacial Maximum, *RADIOCARBON dating, *GEOMORPHOLOGY

Abstract

The southern limit of the Patagonian Ice Sheet at glacial maxima is poorly constrained due to a paucity of field data. This particularly applies to southern outlet glaciers of the Cordillera Darwin whose full extents have been debated by glacial geologists since 1899 CE, introducing uncertainty into estimates of total ice volume. Here we report on the stratigraphy of exposed stratigraphic sections on the west coast of Isla Hermite which include glacial diamict with discontinuous boulder pavement, overlain by successions of peats and sandy silt. The location of these sections, orientation of clasts within the glacial diamict, and geomorphology of the adjacent marine trough, suggest that an ice stream extended south from an ice centre at Cordillera Darwin across an extended Magellan outwash plain, through Paso Mantellero, to Islas Hermite and Cabo de Hornos (Cape Horn). This was similar in extent to the Canal Beagle and Lago Fagnano Ice Lobes which extended to the east. Retreat occurred sometime before 12,880 cal yr BP based on radiocarbon dated peat macrofossils immediately overlying the glacial diamict. We discuss whether this is a close minimum age, or a product of delayed onset of peat accumulation at the sampling site. • Glacial tills described on the west coast of Isla Hermite. • Confirm Paso Mantellero ice lobe extended from Cordillera Darwin to Cape Horn. • This marks the southern limit of the Patagonian Ice Sheet during the last glacial. • Maximum ice extent occurred sometime before 12,880 cal Yr BP. • Peat accumulated on Isla Hermite from 15,400 cal Yr BP. [ABSTRACT FROM AUTHOR]

Published

2023

12. A cosmogenic 10Be moraine chronology of arid, alpine Late Pleistocene glaciation in the Pioneer Mountains of Montana, USA.

Author

Schoenemann, Spruce W., Bryant, Mana M., Larson, Will B., Corbett, Lee B., and Bierman, Paul R.

Subjects

*GLACIATION, *ALPINE glaciers, *MORAINES, *LAST Glacial Maximum, *ICE caps, *PLEISTOCENE Epoch, *GLACIERS

Abstract

We test the hypothesis that glacier systems, located in continental regions proximal to the Laurentide Ice Sheet (LIS), had local ice maxima considerably earlier than the LIS maximum and thus before the insolation minima at ∼21 ka. Ranges located in the northwest US exhibit earlier deglaciation timing between ∼23 and 22 ka, except for the Yellowstone region where younger time-transgressive ages complicate regional interpretations and the northern Montana ice cap where late glacial ages have recently been produced. Constraining the glacial history of more ice sheet-proximal alpine glaciers provides insight into whether the contrasting maximum-ice times in the northern Rocky Mountains were caused by regional climatic differences, such as anticyclonic wind patterns driven by the presence of the LIS. In the Pioneer Mountains of Montana, we measured in situ cosmogenic 10Be in 35 boulders on moraines marking the maximum Late Pleistocene positions of alpine glaciers from three valleys. The 10Be samples produced a range of ages, spanning pre Bull Lake to the last glaciation (i.e., Pinedale/Marine Isotope Stage (MIS) 2). We find an average exposure age for initial deglaciation of 18.2 ± 0.9 during the local Last Glacial Maximum, indicative of synchronous retreat in the Pioneer Mountains. The similarity of initial deglaciation timing of the Pioneer Mountain glaciers with the northwestern Yellowstone glacial system and northern MT ice cap suggests that topography more proximal to the LIS margin maintained full ice extent longer. Our findings, in context of previous work, suggest that in the case of the Pioneer Mountains their more proximal location to the ice margin may have delayed onset of deglaciation by greater exposure to local cooling from katabatic winds and/or additional moisture sourced from large ice-marginal glacial lakes, hence the lack of earlier deglacial ages like those found further to the west and east of the northern Rocky Mountain cordillera. [ABSTRACT FROM AUTHOR]

Published

2023

13. Glacier fluctuations since the global Last Glacial Maximum in the eastern Tanggula Mountains, China.

Author

Zhao, Jingdong, Harbor, Jonathan M., Qiu, Jinkun, Caffee, Marc W., Guo, Wanqin, Ji, Huihan, Liu, Ruilian, and Ma, Haonan

Subjects

*LAST Glacial Maximum, *LITTLE Ice Age, *VALLEYS, *GLACIERS, *GLACIATION, *MORAINES

Abstract

Distinct moraine complexes are well-preserved at the headwaters of the Requ River valley on the southern slope of Bujia Gangri, the largest center of modern glaciation in the eastern Tanggula Mountains in western China. Dating these moraines is an important step in understanding glacial history, palaeoclimate, and landscape evolution in this region. Surface exposure dating using 10Be was done on twenty-three rock samples from large granitic boulders embedded in moraine crests were collected from the Yongqu River valley and the Daxiong River valley, two glaciated valleys at the headwaters of the Requ River valley. The moraines (M W1 and M E1) closest to the current glaciers in the west (main) and east (hanging) valleys of the Yongqu River valley were dated to 203 ± 51 a (n = 4) and 162 ± 58 a (n = 3); the inner four end moraines (M W3 – 1) and outer ones (M W3 – 2) of the third moraine complex (M W3) in the main valley date to 16.8 ± 1.8 ka (n = 3) and 20.7 ± 1.3 ka (n = 2); end moraines (M E2) near the mouth of the east valley and a high lateral moraine (M EL) on its east side date to 18.9 ± 3.0 ka (n = 4); and a high lateral moraine in the Daxiong valley (M DXL) dates to 18.6 ± 1.3 ka (n = 3). The dating results indicate that these moraines were formed during the Little Ice Age (LIA), the Heinrich 1 (H1) event period, and the global Last Glacial Maximum (LGM G). These glacial events are synchronous with those across the Tibetan Plateau (TP) and its surrounding mountains. Combining the palaeoclimatic and palaeoenvironmental proxies in the TP and its surroundings, we infer that the cooling during the LIA, H1, and LGM G was a main control for these glacial advances. • A preliminary 10Be chronological framework since LGM G has been established in the eastern Tanggula Mountains. • Cooling during LIA, Heinrich 1 and LGM G glacial periods is the main determinant for palaeoglacier fluctuations. • A teleconnection between the North Atlantic cooling and palaeoglaciations since LGM G in the TP has been established. [ABSTRACT FROM AUTHOR]

Published

2023

14. The Prados del Cervunal morainic complex: Evidence of a MIS 2 glaciation in the Iberian Central System synchronous to the global LGM.

Author

Carrasco, Rosa M., Turu, Valentí, Soteres, Rodrigo L., Fernández-Lozano, Javier, Karampaglidis, Theodoros, Rodés, Ángel, Ros, Xavier, Andrés, Nuria, Granja-Bruña, José Luis, Muñoz-Martín, Alfonso, López-Sáez, José Antonio, Braucher, Regis, Pedraza, Javier, and Palacios, David

Subjects

*LAST Glacial Maximum, *GLACIATION, *GLACIERS, *COSMIC rays, *GLACIAL landforms, *ICE fields, *GEOMORPHOLOGY

Abstract

The area of Prados del Cervunal (PC) is an intra-morainic topographic depression located at 1800 m asl in the divide or interfluve between Garganta de Gredos and Garganta del Pinar valleys (Central Gredos; Iberian Central System, ICS). Both valleys, along with the adjacent Hoya Nevada, were occupied by glaciers during the Upper Pleistocene, leading to the development of the Prados del Cervunal moraine complexes studied in this work. Using cartographic methods and morphostratigraphic analysis, the three main glacial formations established in the Regional Chrono-Evolutionary Pattern for the ICS, Peripheral Deposits (PD), Principal Moraine (PM) and Internal Deposits (ID), have been identified and mapped in this area. The chronology of these formations has been implemented by Cosmic Ray Exposure (CRE) techniques using 10Be (new data) and 26Cl (previous data, recalculated in this work) in samples from morainic boulders. With these data, the following chrono-evolutionary sequence has been established: (stage 1) local-Maximum Ice Extent (MIE), dated in 25.0 ± 1.4 ka and corresponding to the maximum age obtained in these paleoglaciers; (stage 2) period of oscillations around the MIE, corresponding to the development of the PD Formation between ∼25 ka and ∼21 ka; (stage 3) period of readvance and stabilisation, dated after ∼21 ka (average age obtained for the PD moraines attached to PM moraines) and previous to ∼18 (minimum age obtained for a main crest of the PM formation); and (stage 4) onset of deglaciation dated around to ∼18 ka (average of ages obtained for the first main crest of the ID formation). During the stages of maximum ice expansion, these three glaciers formed an Ice field whose tongues were interconnected on the PC flat by an ice transfluence system (stages 1 and 2, Plateau Glacier Period). In later stages, the ice masses were partitioned, giving rise to valley glaciers and large moraines forming morainic complexes like those of PC (stages 2, 3 and 4, Valley Glaciers Period). The local MIE and onset of deglaciation stages in this area show a good fit with the ages stablished to global level for the global Last Glacial Maximum (LGM) and the onset of the Last Glacial Termination (Termination I). They also show good correlation at local (with other areas of the ICS), peninsular (with other Iberian mountains) and continental (some areas of the Alps and mountains of Central Europe) level. Finally, this evolutionary sequence and its correlations allowed us to adjust and validate some units of the Regional Chrono-Evolutionary Pattern model and propose the Gredos-Pinar-Cabeza Nevada glacial system as benchmark for the glaciation of Marine Isotope Stage (MIS) 2 in the Iberian Peninsula. • Glacial Geomorphology in Gredos-Pinar-Hoya Nevada paleoglaciers (Sierra de Gredos) was established. • New chronological data using 10Be-CRE and previous data using 36Cl-CRE allowed precise dating of the morainic sequence. • Previous morphology, aspect and debris supply as control factors of the layout and the dynamic of ice masses. • The local-MIE and the subsequent major readvance stage occurred within the LGM period. • Model from MIS 2 glaciation in the area: MIE and readvance post-MIE intra-LGM immediately followed by Termination-I. [ABSTRACT FROM AUTHOR]

Published

2023

15. Late Quaternary modeling and paleoclimate evolution of the Mount Taibai glacier (Qinling Mountains, China) constrained by cosmogenic radionuclide exposure dating.

Author

Liu, Liang, Zhang, Hongjie, Chai, Le, Harbor, Jonathan M., Xu, Shan, Zhang, Wei, He, Zhen, and Zhang, Junyu

Subjects

*GLACIERS, *GLACIAL landforms, *PALEOCLIMATOLOGY, *LAST Glacial Maximum, *RADIOISOTOPES, *GLACIATION

Abstract

Glacial landforms on Mount Taibai, the main peak of the Qinling Mountains, China, are investigated to improve understanding of Quaternary palaeoclimate evolution in this key region of China's geographical north and south junction. Cosmogenic radionuclide 10Be exposure dating and glacier-climate modeling are used to reconstruct glacier evolution during the last glaciation in the Eryehai Valley, on the slopes of Mount Taibai. Chronological results indicate that the earliest initiation of the Mount Taibai glaciation was earlier than the global Last Glacial Maximum (gLGM). The glacier subsequently advanced further reaching its greatest extent during the gLGM between ∼23.50 ka and 21.76 ka. After this time, the glacier receded rapidly, before disappearing completely between ∼17.9 ka and 17.7 ka. We also analyzed a compilation of 229 recalculated 10Be exposure ages from the mountain ranges on the eastern Tibetan Plateau (TP), as well as in the Jaggang Mountains on the south-central TP, and found that a few mountain ranges on the eastern TP experienced two distinct millennial-scale moraine building events during the gLGM. Using glacier-climate modeling, temperature was calculated to have fallen from between ∼9.0 and 9.4 °C during the gLGM, with precipitation being 60–80% of the present-day value. If precipitation during the rapid retreat of the glacier between ∼21.76 ka and 18.10 ka were to be consistent with present trends, then the temperature would have needed to increase by a total of ∼1.3 °C during this period, with a mean rate of increase of 0.4 °C/ka. Combining our findings with other paleoclimate proxies, we infer that the main reason that there was no further glacial advance after the gLGM on Mount Taibai was the lower altitude of its peak relative to the Equilibrium-line Altitude (ELA). Our results provide the paleoclimatic conditions of the last glaciation in this critical area of China's geographical north and south junction, and deepen the understanding of how the East Asian Summer Monsoon (EASM) influences glaciers on the TP. • New CRN 10Be exposure age results elucidate the glacial evolutionary process since the last glaciation on Mount Taibai. • The earliest initiation of the Mount Taibai glaciation was earlier than the global Last Glacial Maximum. • The East Asian summer monsoonal was an important factor influencing the fluctuations in paleoglaciers of eastern China. • Some mountains on the eastern TP may have experienced two millennial-scale moraine building events during the gLGM. [ABSTRACT FROM AUTHOR]

Published

2023

16. The last two glacial cycles in central Patagonia: A precise record from the Ñirehuao glacier lobe.

Author

Peltier, Carly, Kaplan, Michael R., Sagredo, Esteban A., Moreno, Patricio I., Araos, José, Birkel, Sean D., Villa-Martínez, Rodrigo, Schwartz, Roseanne, Reynhout, Scott A., and Schaefer, Joerg M.

Subjects

*MILANKOVITCH cycles, *GLACIERS, *LAST Glacial Maximum, *SEA ice, *GLACIAL Epoch, *CLIMATE change

Abstract

Milankovitch orbital parameters control cycles of insolation, a primary pacer of long term changes in climate, but exactly how insolation signals are transmitted around the globe in the climate system is unclear. In order to address the fundamental questions of when and how ice age climates begin and end, how fast glaciers retreated during the last deglaciation, and how glaciers behaved before anthropogenic influence, we need robust glacial chronologies. The timing of local glacial maxima beyond the last glacial cycle, however, has remained largely unconstrained due to moraine degradation over time, limiting our ability to fully explore these questions. By developing a detailed geomorphic surficial map and targeting relatively tall, ridge-top boulders, we have constructed a new, precise 10Be chronology of glacial maxima of the Ñirehuao glacier lobe (45°S) for the last two glacial cycles. We report one of the first directly dated records of a MIS 6 glacier advance in Patagonia, which formed a major set of moraines by at least 153 ± 5.1 ka, with a stillstand or smaller readvance by 137 ± 4.2 ka, corresponding to the two coldest and dustiest periods of MIS 6 in Antarctica. The next largest advance occurred at 23.6 ± 0.9 ka, at the end of peak Southern Hemisphere MIS 2 cooling. Retreat of the glacier commenced by ∼18.5 cal ka BP when lakes in a tributary valley just to the southwest became ice-free. Overall we find that advances of the Ñirehuao glacier lobe occur when winter sea ice around Antarctica is expansive and both obliquity and eccentricity are at their minima. • We present a new, detailed geomorphic map and 10Be chronology of the Ñirehuao glacier lobe for the last two glacial cycles • We report one of the first directly dated records of a MIS 6 glacier advance in Patagonia • The Ñirehuao glacier lobe formed a major set of moraines by 153±5.1 ka with a stillstand or smaller readvance by 137±4.2 ka • The MIS 2 glacial maximum occurred at 23.6±0.9 ka and subsequent retreat of the glacier commenced by ∼18.5 cal ka BP • Overall, advances occurred when winter sea ice around Antarctica was expansive and obliquity and eccentricity were at minima [ABSTRACT FROM AUTHOR]

Published

2023

17. Glacimarine sediments from outer Drygalski Trough, sub-Antarctic South Georgia – evidence for extensive glaciation during the Last Glacial Maximum.

Author

Lešić, Nina-Marie, Streuff, Katharina Teresa, Bohrmann, Gerhard, and Kuhn, Gerhard

Subjects

*LAST Glacial Maximum, *POLAR climate, *GLACIATION, *ANTARCTIC Circumpolar Current, *GLACIAL landforms, *GLACIERS

Abstract

South Georgia, one of the largest sub-Antarctic islands, is located within the Southern Ocean and is influenced by the moisture-supplying Southern Westerlies and the Antarctic Circumpolar Current, which are highly susceptible to Southern Hemisphere climate variability. Its unique location causes South Georgia's remaining ice masses to react sensitively to climate change, resulting in highly dynamic ice cap waxing and waning, as well as in geomorphological and sedimentological changes on the island and its continental shelf. Sediments around the island have been archiving this ice cap behaviour since at least the Last Glacial Maximum (LGM) and are therefore an important target to investigate past ice cap evolution and climate. Despite several interdisciplinary studies on land and in coastal areas, much of the glacial history is still poorly constrained due to a lack of offshore data. This study presents the, thus far, most distal marine sediment succession from outer Drygalski Trough on the mid-continental shelf of South Georgia. Composite multi-proxy-analyses, together with radiocarbon dating, sub-bottom profiler and high-resolution bathymetric data provide first insights into the evolution of a large glacial trough south of South Georgia since the LGM. Several moraines close to the shelf edge indicate shelf-wide glaciation during the local LGM, which, based on extrapolation of the oldest reliable radiocarbon date, occurred before 30 ka BP at the earliest. Basal stratified diamicton at the core site was interpreted as waterlain till deposited in a subglacial cavity with restricted seawater access and suggests grounding zone-proximal sedimentation in the early phases of deglaciation. The ice margin remained stable until ∼17.5 cal ka BP, when ice quickly retreated from the mid-continental shelf and sedimentation at the core site was dominated by hemipelagic suspension settling with some iceberg melting. Further retreat was interrupted by a local ice readvance and associated increased hinterland erosion during the Antarctic Cold Reversal (14.5–12.8 ka), as indicated by peak sedimentation rates (>190 cm ka−1) between 13.4 and 12.4 cal ka BP. In contrast, the continuous deposition of ice-distal to open-marine mud at rates of only ∼30 cm ka−1 throughout the Holocene indicate that any other LGM-subsequent glacier readvances reached significantly lesser extents and were probably confined to the fjord. Our data provide new evidence in support of a shelf-wide glaciation during the LGM and suggest rapid, but stepwise ice retreat during deglaciation. • Waterlain till proves ice-proximal sedimentation on the mid-continental shelf. • South Georgia ice cap extended to the shelf edge, likely during the LGM. • Glacial landforms show extensive ice streaming and intermittent retreat. • Peak shelf sedimentation rates imply enhanced terrestrial erosion during the ACR. • Ice-distal to open-marine conditions prevailed throughout the Holocene. [ABSTRACT FROM AUTHOR]

Published

2022

18. The Ticino-Toce glacier system (Swiss-Italian Alps) in the framework of the Alpine Last Glacial Maximum.

Author

Kamleitner, Sarah, Ivy-Ochs, Susan, Monegato, Giovanni, Gianotti, Franco, Akçar, Naki, Vockenhuber, Christof, Christl, Marcus, and Synal, Hans-Arno

Subjects

*LAST Glacial Maximum, *GLACIERS, *ALPINE glaciers, *AIR flow

Abstract

We present a new glacier chronology from one of the major end moraine systems of the Southern Alps. Timing and extent of the Last Glacial Maximum (LGM) advance of the Ticino-Toce glacier were reconstructed in detail based on landform relationships and surface exposure dating. 10Be and 36Cl ages from 41 erratic boulders constrain the last maximum of the Ticino-Toce glacier to have lasted from 25.0 ± 0.9 ka to 19.9 ± 0.7 ka. Over this period of ca. 5000 years the Ticino-Toce glacier underwent only minor oscillations, during which the glacier front remained close to its LGM maximum position. Underpinned by our detailed geomorphological reconstruction, the ages further demonstrate that the Verbano piedmont lobe was significantly larger (about 200 km2) than shown on recent maps. A short-lived glacier readvance around 19.7 ± 1.1 ka terminated internal to the LGM maximum margins. Collapse of the Verbano lobe must have set in soon after and final withdrawal from the foreland occurred no later than 19 ka. The new Ticino-Toce chronology matches temporal constraints of major glacier systems emerging from adjacent Alpine accumulation areas. This points to in-phase glacier advances across the Western Alps, apart from the southwestern massifs for which a slightly earlier reaching of the Late Pleistocene maximum position of the Lyon lobe was shown recently. A two- potentially three-fold LGM advance structure with intervening retreat intervals, as reported for two major amphitheatres (Garda, Tagliamento) to the east is distinctly not supported by our data for the Ticino-Toce glacier. This contrast in glacier behaviour between the central and eastern Southern Alps is ascribed to shifting precipitation patterns after ca. 23–22 ka, away from southern to predominantly northwestern air flow and a greater independence of southerly moisture transport for the central Southern Alps. • Last Glacial Maximum of Ticino-Toce glacier was ∼200 km2 larger than thought. • From ∼25 to 19.9 ka Ticino-Toce glacier oscillated close to its maximum position. • A glacier readvance around 19.7 ± 1.1 ka was short-lived. • Ticino-Toce glacier was in phase with other glacier systems of the Western Alps. • Central southern Alpine glaciers may have been less dependent on southerly moisture. [ABSTRACT FROM AUTHOR]

Published

2022

19. Ice-sheet expansion from the Ross Sea into McMurdo Sound, Antarctica, during the last two glaciations.

Author

Heath, Stephanie, Hall, Brenda L., Denton, George H., Henderson, Gideon M., and Hendy, Chris H.

Subjects

*SUBGLACIAL lakes, *DEPTH sounding, *GLACIATION, *LAST Glacial Maximum, *URANIUM-thorium dating, *ICE sheets, *GLACIERS, *MELTWATER

Abstract

An understanding of Antarctic Ice Sheet (AIS) behavior is important for future sea-level predictions. Here, we examine past ice-sheet history in the McMurdo Sound region of the western Ross Sea over the last two glacial-interglacial cycles in order to gain insight into the drivers of ice-sheet change. Surficial mapping, along with radiocarbon dates of lacustrine algae and uranium-thorium disequilibrium dates of lacustrine carbonates from ice-dammed lakes, allow reconstruction of the timing and origin of grounded ice in McMurdo Sound during the last glacial maximum (LGM) and penultimate glaciation. During the LGM, ice-surface elevation profiles and distribution of erratics indicate ice flow into southern McMurdo Sound from the Ross Sea, rather than seaward expansion of local glaciers from the Royal Society Range. The grounded ice in McMurdo Sound flowed westward to block the mouths of valleys in the Royal Society Range and to dam proglacial lakes. In Marshall Valley, maximum ice extent during what is termed the Ross Sea glaciation, was achieved by 18 ka and remained close to this position until after 14 ka. The pattern of surficial deposits suggests that ice during the penultimate glaciation, locally named the Marshall glaciation, was slightly more extensive than that of the LGM but had a similar Ross Sea origin. Maximum ice extent in Marshall Valley occurred at ∼145–150 ka; the grounded ice may have receded from the valley mouth shortly after 138 ka. Both ice expansions occurred broadly during times of low Antarctic air temperatures, which have been linked to insolation minima. However, the lack of widespread surface melting ablation zones on the AIS indicates that the link between ice expansion and orbital forcing is likely to be indirect and possibly driven through the ocean. Closer examination of the precise timing of the glacial maxima in Marshall Valley shows that the Marshall glaciation occurred synchronously with the penultimate global maximum; ice recession took place during Termination II. In contrast, maximum ice extent during the Ross Sea glaciation along the Royal Society Range occurred after the global LGM, during Termination I. Deglaciation was primarily an early Holocene event. We attribute this delayed maximum and deglaciation (relative to global events) to the effect of rising accumulation on ice-sheet mass balance. • 4214C and 25 234U/230Th dates constrain Ross Sea ice during the last two glacial cycles. • The last glacial maximum in McMurdo Sound occurred at 14–18 ka. • The penultimate glacial maximum in McMurdo Sound occurred at 145–150 ka. • Ice in McMurdo Sound during these glaciations was from the Ross Sea, not local glaciers. • Grounding of ice in the Ross Sea likely was due to a marine mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

20. The lowest elevation Pleistocene glaciers in the Carpathians — The geomorphological and sedimentological record of glaciation in the Polonyna Rivna and Borzhava massifs (Ukraine Carpathians).

Author

Kłapyta, Piotr, Bryndza, Maciej, Zasadni, Jerzy, and Jasionek, Magdalena

Subjects

*ALPINE glaciers, *PLEISTOCENE Epoch, *LAST Glacial Maximum, *GLACIATION, *GLACIERS, *GLACIAL landforms, *ALTITUDES, *SNOW accumulation

Abstract

The Polonyna Rivna (1480 m asl) and Borzhava (1682 m asl) ranges represent medium-high mountain massifs located in the north-western part of the Ukrainian Carpathians, where the legacy of the Pleistocene glaciation has long been unexplored. Based on the first detailed mapping of glacial landforms and sedimentological analysis, we document the presence of freshly-shaped outer moraines and glacial cirques and reconstruct the extent and ice-surface geometry of the six very small (0.09–0.78 km2 area) palaeoglaciers. The specific feature of the area is the presence of extensive mountain-top plateaus that play an important role as additional areas for snowblow accumulation. The equilibrium line altitudes (ELAs) calculated from hypsometry of reconstructed local Last Glacial Maximum (LLGM) using the area x altitude balance ratio (AABR) 1.6 method is exceptionally low at 1138 m asl in the Polonyna Rivna and 1230 m asl in the Borzhava range. Excluding the topographic effect produced by additional snow accumulation the ELA shift upwards between 120 and 180 m which corresponds to 25–53% of the glacier elevation range. The resulted climatic ELA (1282–1352 m asl) together with the mean cirque floor altitude (1194 m asl) and mean elevation of the glacier fronts (994 m asl) represent the lowest values in the entire Carpathian arc. Our data indicate glacier-friendly conditions in the mountain massifs exceeding 1400 m asl in the windward NW part of the Ukrainian Carpathians where due to relatively cold air temperatures and orographic induced precipitation local topolimatic factors dictated the development of marginal glaciation. • The lowest Pleistocene glaciers, cirques, and ELA in the entire Carpathians • Mean climatic local Last Glacial Maximum ELA between 1280 and 1350 m asl. • Pleistocene climatic ELA largely controlled by local topoclimatic factors • Glacier-friendly conditions in the northern part of Ukraine Carpathians during the Pleistocene [ABSTRACT FROM AUTHOR]

Published

2022

21. Climate reconstructions for the Last Glacial Maximum from a simple cirque glacier in Fiordland, New Zealand.

Author

Moore, Emily M.M., Eaves, Shaun R., Norton, Kevin P., Mackintosh, Andrew N., Anderson, Brian M., Dowling, Lisa H., and Hidy, Alan J.

Subjects

*LAST Glacial Maximum, *GLACIERS, *ATMOSPHERIC carbon dioxide, *WESTERLIES, *ALPINE glaciers, *ALTITUDES, *OCEAN currents

Abstract

Mountain glacier records offer important constraints on the timing and magnitude of climate variability during the last glacial cycle. Existing moraine chronologies from the central Southern Alps indicate maximum ice extent was achieved during marine isotope stages 3–4, followed by repeated advances of similar, but gradually declining extent during marine isotope stage 2, until onset of the glacial termination. Questions remain over the precise role of climate in driving these changes, as most existing moraine chronologies come from large, complex former valley glacier systems, where non-climatic influences such as changing bed topography and proglacial lake formation may have influenced glacier length changes. Here we address this problem via a new cosmogenic 10Be chronology and equilibrium line altitude reconstruction from a cirque glacier situated in Fiordland, New Zealand. Our chronology shows moraine deposition at 32 ± 11 ka, 18.7 ± 0.2 ka, 18.1 ± 0.1 ka, and c. 17.2 ± 0.3 ka. The simple geometry of the former glacier supports the role of climate in driving a net decline of regional ice volume during marine isotope stages 3–2. Close spacing and good preservation of the 19–17 ka moraines permits 2D glacier reconstruction which suggests the equilibrium line altitude remained depressed by c.1130 m (equivalent to 5.8 ± 0.6 °C colder than present) during this interval. Onset of warming after 17.2 ± 0.2 ka is consistent with climate proxy evidence for a sustained southward shift in the southern westerly winds, which may have promoted deglaciation via shifting ocean currents and promoting increases in atmospheric carbon dioxide. • Moraine ages from southern New Zealand constrain ice extent during last glacial. • Equilibrium line altitude was 1100 m lower than present at the Last Glacial Maximum. • Regional air temperatures remained depressed by c. 6 °C until 17 ka. [ABSTRACT FROM AUTHOR]

Published

2022

22. Age of the Most Extensive Glaciation in the Alps.

Author

Dieleman, Catharina, Christl, Marcus, Vockenhuber, Christof, Gautschi, Philip, Graf, Hans Rudolf, and Akçar, Naki

Subjects

GLACIATION, LAST Glacial Maximum, ALPINE glaciers, GLACIAL landforms, COSMOGENIC nuclides, GLACIERS

Abstract

Previous research suggested that the Alpine glaciers of the Northern Swiss Foreland reached their maximum extensive position during the Middle Pleistocene. Relict tills and glaciofluvial deposits, attributed to the Most Extensive Glaciation (MEG), have been found only beyond the extents of the Last Glacial Maximum (LGM). Traditionally, these sediments have been correlated to the Riss glaciation sensu Penck and Brückner and have been morphostratigraphically classified as the Higher Terrace (HT) deposits. The age of the MEG glaciation was originally proposed to be intermediate to the Brunhes/Matuyama transition (780 ka) and the Marine Isotope Stage 6 (191 ka). In this study, we focused on the glacial deposits in Möhlin (Canton of Aargau, Switzerland), in order to constrain the age of the MEG. The sediments from these deposits were analyzed to determine the provenance and depositional environments. We applied isochron-burial dating, with cosmogenic 10Be and 26Al, to the till layer in the Bünten gravel pit near Möhlin. Our results indicate that a glacier of Alpine origin reached its most extensive position during the Middle Pleistocene (500 ± 100 ka). The age of the MEG thus appears to be synchronous with the most extensive glaciations in the northern hemisphere. [ABSTRACT FROM AUTHOR]

Published

2022

23. Timing of late quaternary glaciations in the Yankti Kuti valley of the upper Kali Ganga catchment, Northern India.

Author

Bisht, Pinkey and Rawat, Ashish

Subjects

*GLACIAL Epoch, *LAST Glacial Maximum, *ARID regions, *GLACIATION, *GEOMORPHOLOGICAL mapping, *GLACIERS, *GLACIAL landforms

Abstract

The Yankti Kuti valley which is located in the transitional climatic zone of the upper Kali Ganga catchment of northern India has witnessed multiple glacier advances since Marine Isotopic Stage 3 (MIS 3). The oldest glacial advance in the valley occurred during early MIS-3 and is dated to 52 ± 3 ka (52.8 ± 3 and 50.4 ± 3 ka), the second advance occurred during late MIS 3 and is dated to 35 ± 2 ka (36.4 ± 1.8 and 34.5 ± 2.2 ka). The termination of this stage occurred at ∼30.3 ± 2 ka and is reflected in the vertical shrinkage of the glacier. The third glacial advance which was more restricted is dated to the Last Glacial Maximum (LGM) 22 ± 1 ka (22.2 ± 1.1 and 21.4 ± 1.2 ka). Following this, a glacial advance is dated to 16.1 ± 1 ka corresponding to the Older Dryas cooling of the late glacial period. A subsequent minor re-advance is dated to 4.3 ± 2.0 ka (4.4 ± 0.4 and 4.2 ± 0.1 ka) and can be attributed to the globally identified 4.2 ka cooling (arid) event. The study is in accordance with earlier observations made from the monsoon-dominated central Himalayan region. It provides a robust chronology and climatic evidence indicating significant ice volume depicted by the moraine height during MIS 3, implying that the moisture-deficient valleys of semi-arid Himalayan regions respond sensitively to enhance precipitation. The study suggests a regional synchronicity of glacier response to climate variability since MIS 3 and was in accordance with the synoptic-scale, climatic perturbation triggered by the North Atlantic millennial-scale climate oscillations. • Geomorphological mapping reveals four events of Glaciation with decreasing magnitude. • Stratigraphically constrained OSL ages suggest glacier expansion during MIS 3, LGM and the mid-Holocene. • The-MIS 3 is well represented by the prominent lateral moraine. • LGM glaciation was associated with temperature decline and enhanced westerlies. • The mid-Holocene aridity is manifested by the marginal expansion of the glacier. [ABSTRACT FROM AUTHOR]

Published

2021

24. An early glacial maximum during the last glacial cycle on the northern Velebit Mt. (Croatia).

Author

Žebre, Manja, Sarıkaya, M. Akif, Stepišnik, Uroš, Colucci, Renato R., Yıldırım, Cengiz, Çiner, Attila, Candaş, Adem, Vlahović, Igor, Tomljenović, Bruno, Matoš, Bojan, and Wilcken, Klaus M.

Subjects

*LAST Glacial Maximum, *ICE sheets, *GLACIERS, *GLACIAL landforms, *GLACIATION, *TOPOGRAPHY, *COSMOGENIC nuclides

Abstract

Comprehensive glacial Quaternary studies involving geochronological methods, modelling of ice topography with the support of field geomorphological and geological data in the Balkan Peninsula are relatively scarce, although there is evidence of past glaciations in several mountain ranges. Here, we present research on the extent and timing of past glaciations on the northern Velebit Mt. in coastal Croatia and inferences of the climate during that time. Based on geomorphological and sedimentological evidence and using cosmogenic 36Cl surface exposure dating of moraine boulders, we provide an empirical reconstruction of past glaciers and compare this with the Parallel Ice Sheet Model (PISM) simulations under different palaeoclimate forcings. The dating results show that the northern Velebit glaciers reached their maximum extent during the last glacial cycle before the global Last Glacial Maximum (LGM). Maximum ice extent likely correlates with Marine Isotope Stage 5–4, although the exact timing cannot be determined at this point due to poorly known site- and time-specific denudation rates. Empirical reconstruction of the maximum extent suggests that the area covered by glaciers was ~116 km2. The-best fit PISM simulation indicates that the most likely palaeoclimate scenario for the glaciers of this size to form is a cooling of ~8 °C and a 10% reduction in precipitation from present-day levels. However, the best-fit simulation does not correctly model all mapped ice margins when changes in climatological parameters are applied uniformly across the model domain, potentially reflecting a different palaeoprecipitation pattern to today. • The Northern Velebit glaciers reached their maximum extent before the global LGM. • The minimum moraine ages are 16.5 ± 1.6 ka, 52.6 ± 9.3 ka, 57.0 ± 11.0 ka and 94.0 ± 24.0 ka. • The maximum ice limit likely correlates with MIS 5–4. • The palaeoclimate was ~8 °C colder and ~10% drier than today. [ABSTRACT FROM AUTHOR]

Published

2021