Showing total 2,529 results

1. Special Paper: Pollen-Based Reconstructions of Biome Distributions for Australia, Southeast Asia and the Pacific (SEAPAC Region) at 0, 6000 and 18,000 14 C yr BP

Author

Pickett, Elizabeth J., Harrison, Sandy P., Hope, Geoff, Harle, Kate, Dodson, John R., Kershaw, A. Peter, Prentice, I. Colin, Backhouse, John, Colhoun, Eric A., D'Costa, Donna, Flenley, John, Grindrod, John, Haberle, Simon, Hassell, Cleve, Kenyon, Christine, Macphail, Mike, Martin, Helene, Martin, Anthony H., McKenzie, Merna, Newsome, Jane C., Penny, Daniel, Powell, Jocelyn, Raine, J. Ian, Southern, Wendy, Stevenson, Janelle, Sutra, Jean-Pierre, Thomas, Ian, van der Kaars, Sander, and Ward, Jerome

Published

2004

2. Late Quaternary micromammals and the precipitation history of the southern Cape, South Africa — comment on the published paper by Faith et al., Quaternary Research (2019), Vol. 91, 848–860

Author

J. Francis Thackeray

Subjects

Faith, Arts and Humanities (miscellaneous), media_common.quotation_subject, Cape, General Earth and Planetary Sciences, Last Glacial Maximum, Precipitation, Quaternary, Archaeology, Geology, Earth-Surface Processes, media_common

Published

2020

3. Solutrean Points of the Iberian Peninsula: Tool Making and Using Behaviour of Hunter-Gatherers during the Last Glacial Maximum. Isabell Schmidt. Oxford: British Archaeological Reports S-2778, 2015, 206 pp. £40.00, paper. ISBN 978-1-4073-1470-9

Author

Lawrence Guy Straus

Subjects

geography, geography.geographical_feature_category, History, Arts and Humanities (miscellaneous), Peninsula, Anthropology, Last Glacial Maximum, Solutrean, Archaeology

Published

2016

4. Comments on the paper 'Stratigraphy and geochronology of Quaternary marine terraces of Tasmania, Southeastern Australia: implications on neotectonism' by Jaeryul Shin, Geosciences Journal, 17, 429-443.

Author

McIntosh, Peter

Subjects

*STRATIGRAPHIC geology, *GEOLOGICAL time scales, *MARINE terraces, *MARINE sediments, *LAST Glacial Maximum

Abstract

The uplift rates calculated for Tasmania by Shin (2013) are not supported by the data presented in his paper. The OSL ages obtained indicate a Last Glacial age and fluvial origin for many of the deposits analysed. OSL ages obtained on sediments at Mary Ann Bay in southern Tasmania confirm recent research indicating a Last Glacial age and aeolian deposition of the sands rather than marine (Last Interglacial) deposition. Anomalously high uplift rates for southern Tasmania, proposed by earlier researchers and Shin (2013), are discounted. [ABSTRACT FROM AUTHOR]

Published

2015

5. Comments on the paper of Yokoyama et al. (2000), entitled 'Timing of the Last Glacial Maximum from observed sea level minima'

Author

W. R. Peltier

Subjects

Archeology, Global and Planetary Change, Paleontology, Northern australia, Significant difference, Quaternary science, Geology, Last Glacial Maximum, Ecology, Evolution, Behavior and Systematics, Sea level, Holocene

Abstract

In their analysis of relative sea level observations from the J. Bonaparte Gulf of Northern Australia, the authors interpret the raw observations of the Last Glacial Maximum (LGM) lowstand of the sea by invoking the notion that there is a significant difference between the “spatially averaged change in sea level at any time” and what is referred to as ice-equivalent eustatic sea level in Peltier (On eustatic sea level history, Last Glacial Maximum to Holocene, Quaternary Science Review 21 (2002), in press; companion paper). This notion is incorrect as it violates the principle of mass conservation. The implications of this error of interpretation to the primary conclusion of the Yokoyama et al. (Nature 406 (2000) 713–716) analysis, that “the ice-volume equivalent sea level at LGM lies between −135 and −130 m” is discussed herein. It is concluded on the basis of this discussion that, although the argument presented in this paper for such a deep LGM depression of sea level relies upon this invalid notion, it may nevertheless be true that the LGM low stand was greater than the 120 m conventionally assumed.

Published

2002

6. Last glacial maximum (LGM) primary productivity in the northern North Atlantic OceanThis article is one of a series of papers published in this Special Issue on the theme Polar Climate Stability Network

Author

Anne de Vernal and Taoufik Radi

Subjects

Gulf Stream, Series (stratigraphy), Oceanography, North Atlantic Deep Water, General Earth and Planetary Sciences, Dinocyst, Thermohaline circulation, Last Glacial Maximum, Geology, Polar climate, Primary productivity

Abstract

To reconstruct oceanic primary productivity in the northern North Atlantic Ocean during the last glacial maximum (LGM), we have applied the modern analogue technique to dinocyst assemblages using a Northern Hemisphere database that includes 1171 reference sites. The reconstructions were made in LGM sediments (21 ± 2 ka) of a set of 62 cores collected from 36°N to 75°N. Here, we present the compilation of reconstructed seasonal and annual productivity during the LGM. Results show lower mean annual productivity during the LGM than at present in the northern North Atlantic. At most high-latitude locations, LGM productivity has been estimated at –2 a–1, with extremely low values (–2 a–1) in the Labrador Sea, Baffin Bay, and along the margins of Greenland. Such low values might be the result of reduced Atlantic Meridional Overturning Circulation and stratified water that characterized the glacial episode of the North Atlantic Ocean.

Published

2008

7. Impact of melting of the Laurentide Ice Sheet on sediments from the upper continental slope off southeastern Canada: evidence from Sm–Nd isotopesThis article is one of a series of papers published in this Special Issue on the theme Polar Climate Stability Network

Author

Claude Hillaire-Marcel, Ross Stevenson, and X. W. Meng

Subjects

geography, geography.geographical_feature_category, Proterozoic, Continental shelf, Geochemistry, Last Glacial Maximum, Isotopic signature, chemistry.chemical_compound, Oceanography, chemistry, General Earth and Planetary Sciences, Carbonate, Glacial period, Ice sheet, Polar climate, Geology

Abstract

We present new Sm–Nd isotope data for sediments from a core located on the continental slope of the St. Pierre Bank of Canada’s east coast. The Nd analyses indicate that the sediments were derived from two principal sources: the North American Shield that yields an average early Proterozoic isotopic signature and a younger Proterozoic signature attributed to Appalachian crustal sources. The Appalachian-sourced sediments predominated during the last glacial maximum (LGM) and were associated with low sedimentation rates (

Published

2008

8. New data for the Last Glacial Maximum in Great Britain and Ireland: a Scottish perspective on the paper by Bowen et al. (2002)

Author

J.D. Peacock, Adrian M. Hall, and E.R. Connell

Subjects

Shetland, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Geology, Last Glacial Maximum, Dynamic feature, Archaeology, language.human_language, law.invention, Irish, law, language, Radiocarbon dating, Glacial period, Ice sheet, North sea, Ecology, Evolution, Behavior and Systematics

Abstract

The recent reconstruction by Bowen et al. (2002) of the history of the last British and Irish Ice sheet (BIIS) at the Last Glacial Maximum (LGM) resumes a debate over the extent and behaviour of the last Scottish Ice Sheet (ScIS) that extends back over 20 years (Sutherland, 1984). The ScIS at the LGM is seen as restricted in extent, with ice-free peripheral areas that include Buchan, Caithness, Orkney, Shetland, together with extensive areas of the North Sea and the Hebridean and Shetland shelves (Fig. 1). Moreover, the BIIS is viewed as a long-lived, if dynamic feature throughout Oxygen Isotope Stages 4-2. We consider it unfortunate that Bowen et al. (2002) do not refer to much long-standing and recent work in Scotland that indicates extensive glaciation at the LGM yet a ScIS of very limited extent around 30 ka BP. This note seeks to redress that balance. ‘Uncorrected’ radiocarbon ages rather than calibrated ages are referred to below, because calibration before 17 cal ka BP is uncertain (van der Plicht, 2002). A reservoir age of ca. 400 years has been applied to marine C ages, though we recognise that this may be in error prior to ca. 12.5 ka BP (cf. Voelker et al., 1998).

Published

2003

9. A response to the commentary of M. Dąbski about the paper ‛Asynchronous Little Ice Age glacial maximum extent in southeast Iceland’ (Geomorphology (2010), 114, 253–260)

Author

Daniel Cooley, Marie Chenet, Erwan Roussel, Delphine Grancher, Vincent Jomelli, Université Paris 1 Panthéon-Sorbonne (UP1), Laboratoire de géographie physique : Environnements Quaternaires et Actuels (LGP), Université Paris 1 Panthéon-Sorbonne (UP1)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Géographie Physique et Environnementale (GEOLAB), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut Sciences de l'Homme et de la Société (IR SHS UNILIM), Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA), Colorado State University [Fort Collins] (CSU), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Université Panthéon-Sorbonne (UP1), Centre National de la Recherche Scientifique (CNRS)-Institut Sciences de l'Homme et de la Société (IR SHS UNILIM), Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Université Clermont Auvergne (UCA), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Université Paris 1 Panthéon-Sorbonne (UP1), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Université Clermont Auvergne (UCA)-Institut Sciences de l'Homme et de la Société (IR SHS UNILIM), and Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, [SDE.MCG]Environmental Sciences/Global Changes, Bayesian approach, Lichenometry, Iceland, Last Glacial Maximum, [SHS.GEO]Humanities and Social Sciences/Geography, GEV method, 01 natural sciences, [SDE.ES]Environmental Sciences/Environmental and Society, Moraine, Asynchronous communication, [SHS.ENVIR]Humanities and Social Sciences/Environmental studies, Generalized extreme value distribution, Fláajökull, [SDU.STU.GM]Sciences of the Universe [physics]/Earth Sciences/Geomorphology, Little ice age, Geomorphology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

International audience; In a commentary about the paper ‛Asynchronous Little Ice Age glacial maximum extent in southeast Iceland’ (Geomorphology 114 (2010) 253-260), M. Dąbski questioned the validity of the generalized extreme value method and the Bayesian approach in lichenometric dating of the outermost LIA Fláajökull moraines in SE Iceland. This paper responds to these criticisms by explaining the relevance of the method applied and the relevance of the dates obtained.

Published

2011

10. Human Ecology of Beringia Hoffecker John F. Scott A. Elias 2007.Human ecology of Beringia.Columbia University Press, New York. xi + 290 p. $45.00, ISBN: 978-0-231-13060-8 (alk. paper)

Author

Becky M. Saleeby

Subjects

Geography, Ecology, Human ecology, Last Glacial Maximum, Late Glacial Maximum, Younger Dryas, Ecology, Evolution, Behavior and Systematics, Beringia

Published

2008

11. Response to: 'New data for the Last Glacial Maximum in Great Britain and Ireland: a Scottish perspective on the paper by Bowen et al. (2002) by A.M. Hall, J.D. Peacock, E.R. Connell

Author

A.M. McCabe and D.Q. Bowen

Subjects

Archeology, Global and Planetary Change, Perspective (graphical), Geology, Last Glacial Maximum, Archaeology, Ecology, Evolution, Behavior and Systematics

Published

2003

12. Understanding Arctic–Alpine Plants from Ecological and Evolutionary Perspectives.

Author

Kozlowski, Gregor

Subjects

TUNDRAS, MOUNTAIN ecology, GLOBAL warming, MOUNTAIN plants, LAST Glacial Maximum, PLANT ecology

Abstract

This document discusses the challenges faced by arctic and alpine plants in extreme environments and the threats they face from global warming, resource demand, and tourism. The document highlights the need to improve our understanding of these plants from ecological, biogeographical, and evolutionary perspectives. It presents several review papers and studies that explore various aspects of arctic and alpine plant life, including adaptations, polyploidy, species distribution, and the effects of climate change and human activities. The document concludes that further research and field work are necessary to better understand and conserve these unique plants. [Extracted from the article]

Published

2024

13. Special Paper: A Palaeoecological Perspective on the Origin of Afromontane Grasslands

Author

M.E. Meadows and H. P. Linder

Subjects

Palynology, geography, Plateau, geography.geographical_feature_category, Ecology, Biogeography, Last Glacial Maximum, Vegetation, Species richness, Phytogeography, Ecology, Evolution, Behavior and Systematics, Grassland

Abstract

This paper offers a review and reassessment of the biogeography of the Afromontane region. Much of the montane vegetation of Africa, especially in the southern part of its distribution (the southern Afromontane region) is characterized by a mosaic of forest 'islands' in a 'sea' of grassland, with or without heathland elements. Controversy has arisen as to the origin of these grasslands and the view has emerged, based on a variety of phytogeographical, zoogeographical, ecological, pedological and historical evi- dence, that the grassland element has been derived, or at least markedly extended, in the recent past by forest clear- ance through human agency. An alternative hypothesis holds that the grassland is a much older component of the Afromontane landscape. The paper assesses these two op- posing viewpoints in the light of published palaeoecological and biogeographical evidence not previ- ously brought to bear on the problem of Afromontane grassland origins in general. The physical environment and vegetation of the southern Afromontane region is reviewed and the suggestions put forward to account for the wide- spread occurrence of grasslands in the region are presented. The competing hypotheses are then tested against data on plant species richness and diversity from a number of upland areas within the region and against published Qua- ternary palynological data from the Nyika Plateau, Malawi, the Inyanga Mountains, Zimbabwe and the Winterberg Escarpment area of South Africa. The resulting reassess- ment offers strong support for the idea that the grasslands have been prominent in the southern Afromontane region since before the permanent occupation of the mountains by people. Environmental changes, especially of the late Qua- ternary, are suggested as having been important in establishing the vegetation pattern and, while increased magnitude of human impact in recent times is apparent, the so-called 'relict' nature of montane forest patches is ques- tionable. It is argued that the southern Afromontane grasslands are themselves relict from a time, around the last glacial maximum, when the climatic conditions were more suited to these formations than to forest.

Published

1993

14. Editorial: Large scale coastal processes and their interactions with changing coastal environments.

Author

Carnacina, Iacopo, Ming Li, and Leonardi, Nicoletta

Subjects

SAND dunes, STORM surges, COASTAL wetlands, ECOSYSTEM management, TIDAL flats, SALT marshes, LAST Glacial Maximum, EFFECT of human beings on climate change

Abstract

This document is an editorial from the journal Frontiers in Marine Science, discussing the importance of coastal areas as ecosystems and the pressures they face. The objective of the research topic was to explore large-scale coastal processes and their impacts over longer periods of time. The editorial highlights six papers that cover topics such as morphological processes, extreme water levels, dating of coastal dunes, and the impact of reclamation projects on tidal flats. The findings emphasize the need for interdisciplinary approaches and innovative technologies to understand and manage coastal environments in the face of climate change and human activities. The authors state that their claims are their own and do not necessarily represent the views of their affiliated organizations or the publisher, and any products or claims made by manufacturers are not guaranteed or endorsed by the publisher. [Extracted from the article]

Published

2024

15. Geomorphic markers tell a different story about fault slip rates in Tierra del Fuego, Patagonia.

Author

Vassallo, Riccardo, Martinod, Joseph, and Roy, Sandrine

Subjects

LAST Glacial Maximum, STORYTELLING, RIVER channels, GEOMORPHOLOGY

Abstract

The article focuses on challenging the validity of geomorphic markers and dating methods used in a previous study of fault slip rates along the Magallanes Fault System in Tierra del Fuego, Patagonia. It critiques the suitability of the markers selected and the robustness of the dating techniques applied, arguing that the conclusions drawn from the original study may be unreliable due to these methodological issues.

Published

2024

16. A response to the commentary of M. Dąbski about the paper ‛Asynchronous Little Ice Age glacial maximum extent in southeast Iceland’ (Geomorphology (2010), 114, 253–260)

Author

Chenet, Marie, Roussel, Erwan, Jomelli, Vincent, Grancher, Delphine, and Cooley, Daniel

Subjects

*PLEISTOCENE stratigraphic geology, *LAST Glacial Maximum, *GEOMORPHOLOGY, *EXTREME value theory, *BAYESIAN analysis, *MORAINES, *GENERALIZATION

Abstract

Abstract: In a commentary about the paper ‛Asynchronous Little Ice Age glacial maximum extent in southeast Iceland’ (Geomorphology 114 (2010) 253-260), M. Dąbski questioned the validity of the generalized extreme value method and the Bayesian approach in lichenometric dating of the outermost LIA Fláajökull moraines in SE Iceland. This paper responds to these criticisms by explaining the relevance of the method applied and the relevance of the dates obtained. [Copyright &y& Elsevier]

Published

2011

17. Ice-sheet configuration in the CMIP5/PMIP3 Last Glacial Maximum experiments.

Author

Abe-Ouchi, A., Saito, F., Kageyama, M., Braconnot, P., Harrison, S. P., Lambeck, K., Otto-Bliesner, B. L., Peltier, W. R., Tarasov, L., Peterschmitt, J. -Y., and Takahashi, K.

Subjects

ICE sheets, LAST Glacial Maximum, BOUNDARY value problems, TOPOGRAPHY, PALEOCLIMATOLOGY

Abstract

We describe the creation of boundary conditions related to the presence of ice sheets, including ice sheet extent and height, ice shelf extent, and the distribution and altitude of ice-free land, at the Last Glacial Maximum (LGM) for use in LGM experiments conducted as part of the fifth phase of the Coupled Modelling Intercomparison Project (CMIP5) and the third phase of the Palaeoclimate Modelling Intercomparison Project (PMIP3). The CMIP5/PMIP3 data sets were created from reconstructions made by three different groups, which were all obtained using a model-inversion approach but differ in the assumptions used in the modelling and in the type of data used as con straints. The ice sheet extent, and thus the albedo mask, for the Northern Hemisphere (NH) does not vary substantially between the three individual data sources. The difference in the topography of the NH ice sheets is also moderate, and smaller than the differences between these reconstructions (and the resultant composite reconstruction) and ice-sheet reconstructions used in previous generations of PMIP. Only two of the individual reconstructions provide information for Antarctica. The discrepancy between these two reconstructions is larger than the difference for the NH ice sheets although still less than the difference between the composite reconstruction and previous PMIP ice-sheet reconstructions. Differences in the climate response to the individual LGM reconstructions, and between these reconstructions and the CMIP5/PMIP3 composite, are largely confined to the ice-covered regions, but also extend over North Atlantic Ocean and Northern Hemisphere continents through atmospheric stationary waves. There are much larger differences in the climate response to the latest reconstructions (or the derived composite) and ice-sheet reconstructions used in previous phases of PMIP. [ABSTRACT FROM AUTHOR]

Published

2015

18. Relative roles of local disturbance, current climate and palaeoclimate in determining phylogenetic and functional diversity in Chinese forests.

Author

G. Feng, X. C. Mi, Bøcher, P. K., L. F. Mao, Sandel, B., M. Cao, W. H. Ye, Z. Q. Hao, H. D. Gong, Y. T. Zhang, X. H. Zhao, G. Z. Jin, K. P. Ma, and Svenning, J.-C.

Subjects

PHYLOGENY, PALEOCLIMATOLOGY, FOREST biodiversity, SPECIES, LAST Glacial Maximum, ECOLOGICAL disturbances, FORESTS & forestry

Abstract

The main processes underlying the generation and maintenance of biodiversity include both local factors such as competition and abiotic filtering and regional forces such as palaeoclimate, speciation and dispersal. While the effects of regional and local drivers on species diversity are increasingly studied, their relative importance for other aspects of diversity, notably phylogenetic and functional diversity is so far little studied. Here, we link data from large Chinese forest plots to data on current and Last Glacial Maximum (LGM) climate as well as local disturbance regimes to study their relative roles in determining woody plant phylogenetic and functional diversity in this important hotspot for woody plant diversity. Local disturbance was the best predictor of functional diversity as represented by maximum canopy height (Hmax), probably reflecting the dominant role of competition for light in determining the forest Hmax structure. In contrast, the LGM-present anomaly in temperature was the factor with the strongest explanatory power for phylogenetic diversity, with modern climate also important. Hence, local contemporary and regional historical factors have highly contrasting importance for the geographic patterns of the functional and phylogenetic aspects of Chinese forest woody plant diversity. Importantly, contemporary factors are of overriding importance for functional diversity, while palaeoclimate has left a strong signature in the phylogenetic diversity patterns. [ABSTRACT FROM AUTHOR]

Published

2013

19. A comparison of benthic foraminiferal Mn/Ca and sedimentary Mn/Al as proxies of relative bottom water oxygenation in the low latitude NE Atlantic upwelling system.

Author

McKay, C. L., Groeneveld, J., Filipsson, H. L., Gallego-Torres, D., Whitehouse, M., Toyofuku, T., and Romero, O. E.

Subjects

FORAMINIFERA, BENTHIC ecology, OXYGENATION (Chemistry), LAST Glacial Maximum, INDUCTIVELY coupled plasma atomic emission spectrometry, OCEAN bottom

Abstract

Trace element incorporation into foraminiferal shells (tests) is governed by physical and chemical conditions of the surrounding marine environment and therefore foraminiferal geochemistry provides a means of palaeoceanographic reconstructions. With the avail- ability of high spatial resolution instrumentation with high precision, foraminiferal geochemistry has become a major research topic over recent years. However, reconstructions of past bottom water oxygenation using foraminiferal tests remain in their infancy. In this study we explore the potential of using Mn/Ca determined by Secondary Ion Mass Spectrometry (SIMS) as well as by Flow-Through Inductively Coupled Plasma Optical Emission Spectroscopy (FT-ICP-OES) in the benthic foraminiferal species Eu- buliminella exilis as a proxy for recording changes in bottom water oxygen conditions in the low latitude NE Atlantic upwelling system. Furthermore, we compare the SIMS and FT-ICP-OES results with published Mn/Al in the bulk sediment from the same sediment core. This is the first time that benthic foraminiferal Mn/Ca is directly com pared with Mn/Al in the bulk sediment, which largely agree on the former oxygen conditions. Samples were selected to include different productivity regimes related to Marine Isotope Stage 3 (35-28 ka), the Last Glacial Maximum (28-19 ka), Heinrich Event 1 (18-15.5 ka), Bølling Allerød (15.5-13.5 ka) and the Younger Dryas (13.5-11.5 ka). Foraminiferal Mn/Ca determined by SIMS and FT-ICP-OES are comparable. Mn/Ca was higher during periods with high primary productivity, such as during the Younger Dryas which indicates low oxygen conditions. This is further supported by the benthic foraminiferal faunal composition. Our results highlight the proxy potential of Mn/Ca in benthic foraminifera from upwelling systems for reconstructing past variations in oxygen conditions of the sea floor environment as well as the need to use it in combination with other proxy records such as faunal assemblage data. [ABSTRACT FROM AUTHOR]

Published

2015

20. 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

21. Evolution of a late Quaternary succession by interpretation of high‐resolution seismic and bathymetric data, Adriatic Sea.

Author

Da Col, Federico, Zecchin, Massimo, Civile, Dario, Baradello, Luca, Deponte, Michele, and Accaino, Flavio

Subjects

GAS seepage, OCEAN bottom, TIDAL currents, ALLUVIUM, LAST Glacial Maximum, LIMESTONE

Abstract

This paper presents the results of the interpretation of a set of high‐resolution seismic lines integrated with multibeam echosounder data acquired in a coastal area in the Northern Adriatic Sea. The aim of the study was to reconstruct the stratigraphic evolution of a late Quaternary sedimentary succession offshore the town of Bibione, North‐Eastern Italy, by recognising the key unconformities, identifying the main depositional units, dating them and reconstructing the depositional environments in relation to relative sea‐level variations. Specifically, four sedimentary units, separated by erosional unconformities associated with the development of deep channels, were identified and dated based on literature information. By interpreting the seismic data, sedimentary dynamics were reconstructed and palaeoenvironments identified. The lower unit corresponds to a paludal environment, showing abundant gas seeps and accumulations (bright spots); the two intermediate units correspond to fluvial deposits, filling the deep incisions that characterise the bounding surfaces. Finally, the shallowest unit, bounded by a wave‐ravinement surface incised by tidal currents, corresponds to the Holocenic progradation of the coastal wedge. In addition, several vertical gas chimneys were identified, ranging in width from a few metres to 20–30 m. These were present in all units, often reaching the sea floor. Finally, elongated mounds, about 300 m wide, at the sea floor were recognised. The bathymetric and seismic characteristics of these elongated bodies and their relationship to adjacent sedimentary bodies suggest that they are probably methane‐derived carbonate formations known as 'Trezze' or 'Tegnùe'. These names recall the fact that the trawls of the local fishermen were often hindered ('tegnù' in the Venetian language) or even cut off by these formations. [ABSTRACT FROM AUTHOR]

Published

2024

22. Artificial Interpretation: An Investigation into the Feasibility of Archaeologically Focused Seismic Interpretation via Machine Learning.

Author

Fraser, Andrew Iain, Landauer, Jürgen, Gaffney, Vincent, and Zieschang, Elizabeth

Subjects

MACHINE learning, LAST Glacial Maximum, ARTIFICIAL intelligence, LANDSCAPE archaeology, REMOTE sensing, ENERGY industries, ARCHAEOLOGY

Abstract

The value of artificial intelligence and machine learning applications for use in heritage research is increasingly appreciated. In specific areas, notably remote sensing, datasets have increased in extent and resolution to the point that manual interpretation is problematic and the availability of skilled interpreters to undertake such work is limited. Interpretation of the geophysical datasets associated with prehistoric submerged landscapes is particularly challenging. Following the Last Glacial Maximum, sea levels rose by 120 m globally, and vast, habitable landscapes were lost to the sea. These landscapes were inaccessible until extensive remote sensing datasets were provided by the offshore energy sector. In this paper, we provide the results of a research programme centred on AI applications using data from the southern North Sea. Here, an area of c. 188,000 km2 of habitable terrestrial land was inundated between c. 20,000 BP and 7000 BP, along with the cultural heritage it contained. As part of this project, machine learning tools were applied to detect and interpret features with potential archaeological significance from shallow seismic data. The output provides a proof-of-concept model demonstrating verifiable results and the potential for a further, more complex, leveraging of AI interpretation for the study of submarine palaeolandscapes. [ABSTRACT FROM AUTHOR]

Published

2024

23. Can sparse proxy data constrain the strength of the Atlantic meridional overturning circulation?

Author

Kurahashi-Nakamura, T., Losch, M., and Paul, A.

Subjects

OCEAN circulation, ATLANTIC meridional overturning circulation, LAST Glacial Maximum, OCEAN temperature, SEAWATER salinity, MATHEMATICAL models

Abstract

In a feasibility study, the potential of proxy data for the temperature and salinity during the Last Glacial Maximum (LGM, about 19 000 to 23 000 yr before present) in constraining the strength of the Atlantic meridional overturning circulation (AMOC) in a general ocean circulation model was explored. The proxy data were simulated by drawing data from four different model simulations at the ocean sediment core locations of the Multiproxy Approach for the Reconstruction of the Glacial Ocean surface (MARGO) project and perturbing these data with realistic noise estimates. The results suggest that our method has the potential of providing estimates of the past strength of the AMOC even from sparse data, but in general paleo-sea surface temperature data without additional prior knowledge about the ocean state during the LGM is not adequate to constrain the model. On the one hand, additional salinity data in the deep ocean and at the sea surface are shown to be highly important in estimating the LGM circulation and as expected, reducing proxy-data errors improves the solutions. Whereas increasing the amount of surface data alone does not appear to be enough for better estimates. Finally, better initial guesses to start the state estimation procedure from greatly improve the performance of the method. Indeed, with a sufficiently good first guess, just the sea-surface temperature data from the MARGO project appear sufficient for reliable estimates of the strength of the AMOC. [ABSTRACT FROM AUTHOR]

Published

2013

24. High-resolution interpolar difference of atmospheric methane around the Last Glacial Maximum.

Author

Baumgartner, M., Schilt, A., Eicher, O., Schmitt, J., Schwander, J., Spahni, R., Fischer, H., and Stocker, T. F.

Subjects

ATMOSPHERIC methane, LAST Glacial Maximum, ICE cores, WETLANDS, STATISTICAL correlation

Abstract

Reconstructions of past atmospheric methane concentrations are available from ice cores from both, Greenland and Antarctica. The difference observed between the two polar methane concentration levels is a valuable additional parameter which allows to constrain the geographical location of the responsible methane sources. Here we present new high-resolution methane records from the North Greenland Ice Core Project (NGRIP) and the European Project for Ice Coring in Antarctica (EPICA) Dronning Maud Land (EDML) ice cores covering Termination 1, the Last Glacial Maximum, and parts of the last glacial back to 32 000 years before present. Due to the highresolution records the synchronisation between the ice cores from NGRIP and EDML is considerably improved and the interpolar concentration difference of methane is determined with unprecedented precision and temporal resolution. Relative to the mean methane concentration, we find a rather stable positive interpolar difference throughout the record with its minimum value of 3.7±0.7% between 21 900-21 200 years before present, which is higher than previously estimated in this interval close to the Last Glacial Maximum. This implies that Northern Hemisphere boreal wetland sources were never completely shut off during the peak glacial. Starting at 21 000 years before present, i.e. severval millenia prior to the transition into the Holocene, the relative interpolar difference becomes even more positive and stays at a fairly stable level of 6.5±0.8% during Termination 1. We hypothesise that the anti-correlation observed in the monsoon records from the Northern and Southern Hemispheres induces a methane source redistribution within lower latitudes, which could explain parts of the variations in the interpolar difference. [ABSTRACT FROM AUTHOR]

Published

2012

25. High-resolution LGM climate of Europe and the Alpine region using the regional climate model WRF.

Author

Russo, Emmanuele, Buzan, Jonathan, Lienert, Sebastian, Jouvet, Guillaume, Velasquez Alvarez, Patricio, Davis, Basil, Ludwig, Patrick, Joos, Fortunat, and Raible, Christoph C.

Subjects

ATMOSPHERIC models, ALPINE regions, METEOROLOGICAL research, CLIMATE research, WEATHER forecasting, LAST Glacial Maximum, ALPINE glaciers

Abstract

In this study we present a series of sensitivity experiments conducted for the Last Glacial Maximum (LGM, ∼21 ka) over Europe using the regional climate Weather Research and Forecasting model (WRF). Using a four-step two-way nesting approach, we are able to reach a convection-permitting horizontal resolution over the inner part of the study area, covering central Europe and the Alpine region. The main objective of the paper is to evaluate a model version including a series of new developments better suitable for the simulation of paleo-glacial time slices with respect to the ones employed in former studies. The evaluation of the model is conducted against newly available pollen-based reconstructions of the LGM European climate and takes into account the effect of two main sources of model uncertainty: a different height of continental glaciers at higher latitudes of the Northern Hemisphere and different land cover. Model results are in good agreement with evidence from the proxies, in particular for temperatures. Importantly, the consideration of different ensemble members for characterizing model uncertainty allows for increasing the agreement of the model against the proxy reconstructions that would be obtained when considering a single model realization. The spread of the produced ensemble is relatively small for temperature, besides areas surrounding glaciers in summer. On the other hand, differences between the different ensemble members are very pronounced for precipitation, in particular in winter over areas highly affected by moisture advection from the Atlantic. This highlights the importance of the considered sources of uncertainty for the study of European LGM climate and allows for determining where the results of a regional climate model (RCM) are more likely to be uncertain for the considered case study. Finally, the results are also used to assess the effect of convection-permitting resolutions, at both local and regional scales, under glacial conditions. [ABSTRACT FROM AUTHOR]

Published

2024

26. Simulation of a former ice field with PISM – Snežnik study case.

Author

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

Subjects

ICE fields, LAST Glacial Maximum, ICE sheets, ALPINE glaciers, GLACIERS

Abstract

In this paper we present a reconstruction of climate conditions during the Last Glacial Maximum on a karst plateau in Dinaric Mountains (southern Slovenia) that bares evidence of glaciation. The reconstruction merges geomorphological ice limits, classified as either clear or unclear, and computer modelling approach based on Parallel Ice Sheet Model, which is an established numerical model for simulating glacier dynamics ranging from ice sheets to alpine glaciers. Based on extensive numerical experiments, where we studied the agreements between simulated and geomorphological ice extent, we propose to use a combination of high resolution precipitation model that accounts for orographic precipitation combined with simple elevation based temperature model. The geomorphological ice extent can be simulated with climate around 6 °C colder than modern and with a lower than modern amount of precipitation, which matches other state-of-the art climate reconstructions for the era. The results indicate that orographic precipitation model is essential for accurate simulation of the Snežnik with moist southern winds from the nearby Adriatic Sea having 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 conditions for glacier formation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Pre-LGM loess deposits in caves of Polish Jura - occurrence and stratigraphic importance.

Author

KRAJCARZ, MACIEJ T.

Subjects

LOESS, CAVES, LAST Glacial Maximum, STRATIGRAPHIC correlation, PALEOECOLOGY

Abstract

Loess is an important component of cave deposits. Loess and loess-like strata in caves and rock shelters may serve as stratigraphic correlative units and paleoclimate indicators. For the Polish Jura (southern Poland), one of the key regions of cave deposits studies in Europe, the published information concerning the stratigraphic importance of loess is limited to the sequences from around the Last Glacial Maximum (LGM). In this paper, a review of the archival data about loess deposits situated below the LGM strata in caves and rock shelters of the Polish Jura is presented. The paper discusses the occurrence, lithology, stratigraphy, chronology and paleoecology of the pre-LGM cave loess. The most important sites of the pre-LGM cave loess in the region include: Biśnik Cave, Nietoperzowa Cave, Mamutowa Cave, and Ciemna Cave (only the outer zones). The loess strata in these sites correlate with cold Marine Isotope Stages (MIS): mid-3, 4, 5b-d, 6, and possibly 10. They represent all the main facies of cave loess: typical eolian loess, colluviated loess-like deposits, loess with bedrock debris, and loams of complex grain-size composition but with the predominance of a loess component. Stratigraphic correlations with loess-paleosol sequences are proposed. [ABSTRACT FROM AUTHOR]

Published

2023

28. A 50% increase in the amount of terrestrial particles delivered by the Mackenzie River into the Beaufort Sea (Canadian Arctic Ocean) over the last 10 years.

Author

Doxaran, D., Devred, E., and Babin, M.

Subjects

GLOBAL warming, METEOROLOGICAL precipitation, PARTICULATE matter, LAST Glacial Maximum, SUSPENDED solids

Abstract

Global warming has a significant impact at the regional scale on the Arctic Ocean and surrounding coastal zones (i.e., Alaska, Canada, Greenland, Norway and Russia). The recent increase in air temperature has resulted in increased precipitations along the drainage basins of Arctic Rivers. It has also directly impacted land and seawater temperatures with the consequence of melting the permafrost and sea-ice. An increase in freshwater discharge by main Arctic rivers has been clearly identified in time series of field observations. The freshwater discharge of the Mackenzie River has increased by 25% since 2003. This may have increased the mobilization and transport of various dissolved and particulate substances, including organic carbon, as well as their export to the ocean. The release from land to the ocean of such organic material, which was sequestered as frozen since the last glacial maximum, may significantly impact the Arctic Ocean carbon cycle as well as marine ecosystems. In this study we use 11 years of ocean-colour satellite data and field observations collected in 2009 to estimate the amount of terrestrial suspended solids and particulate organic carbon delivered by the Mackenzie River into the Beaufort Sea (Arctic Ocean). Our results show that during the summer period the concentration of suspended solids at the river mouth, in the delta zone and in the river plume has increased by 46, 71 and 33%, respectively, since 2003. Combined with the variations observed in the freshwater discharge, this corresponds to a more than 50% increase in the particulate (terrestrial suspended particles and organic carbon) export from the Mackenzie River into the Beaufort Sea. [ABSTRACT FROM AUTHOR]

Published

2015

29. Antarctic sea ice over the past 130 000 years – Part 1: a review of what proxy records tell us.

Author

Crosta, Xavier, Kohfeld, Karen E., Bostock, Helen C., Chadwick, Matthew, Du Vivier, Alice, Esper, Oliver, Etourneau, Johan, Jones, Jacob, Leventer, Amy, Müller, Juliane, Rhodes, Rachael H., Allen, Claire S., Ghadi, Pooja, Lamping, Nele, Lange, Carina B., Lawler, Kelly-Anne, Lund, David, Marzocchi, Alice, Meissner, Katrin J., and Menviel, Laurie

Subjects

ANTARCTIC ice, NUTRIENT cycles, SEA ice, LAST Glacial Maximum, CARBON cycle, OCEAN circulation, ICE cores

Abstract

Antarctic sea ice plays a critical role in the Earth system, influencing energy, heat and freshwater fluxes, air–sea gas exchange, ice shelf dynamics, ocean circulation, nutrient cycling, marine productivity and global carbon cycling. However, accurate simulation of recent sea-ice changes remains challenging and, therefore, projecting future sea-ice changes and their influence on the global climate system is uncertain. Reconstructing past changes in sea-ice cover can provide additional insights into climate feedbacks within the Earth system at different timescales. This paper is the first of two review papers from the Cycles of Sea Ice Dynamics in the Earth system (C-SIDE) working group. In this first paper, we review marine- and ice core-based sea-ice proxies and reconstructions of sea-ice changes throughout the last glacial–interglacial cycle. Antarctic sea-ice reconstructions rely mainly on diatom fossil assemblages and highly branched isoprenoid (HBI) alkenes in marine sediments, supported by chemical proxies in Antarctic ice cores. Most reconstructions for the Last Glacial Maximum (LGM) suggest that winter sea ice expanded all around Antarctica and covered almost twice its modern surface extent. In contrast, LGM summer sea ice expanded mainly in the regions off the Weddell and Ross seas. The difference between winter and summer sea ice during the LGM led to a larger seasonal cycle than today. More recent efforts have focused on reconstructing Antarctic sea ice during warm periods, such as the Holocene and the Last Interglacial (LIG), which may serve as an analogue for the future. Notwithstanding regional heterogeneities, existing reconstructions suggest that sea-ice cover increased from the warm mid-Holocene to the colder Late Holocene with pervasive decadal- to millennial-scale variability throughout the Holocene. Studies, supported by proxy modelling experiments, suggest that sea-ice cover was halved during the warmer LIG when global average temperatures were ∼2 ∘ C above the pre-industrial (PI). There are limited marine (14) and ice core (4) sea-ice proxy records covering the complete 130 000 year (130 ka) last glacial cycle. The glacial–interglacial pattern of sea-ice advance and retreat appears relatively similar in each basin of the Southern Ocean. Rapid retreat of sea ice occurred during Terminations II and I while the expansion of sea ice during the last glaciation appears more gradual especially in ice core data sets. Marine records suggest that the first prominent expansion occurred during Marine Isotope Stage (MIS) 4 and that sea ice reached maximum extent during MIS 2. We, however, note that additional sea-ice records and transient model simulations are required to better identify the underlying drivers and feedbacks of Antarctic sea-ice changes over the last 130 ka. This understanding is critical to improve future predictions. [ABSTRACT FROM AUTHOR]

Published

2022

30. Integrating Different Data Sources Using a Bayesian Hierarchical Model to Unveil Glacial Refugia.

Author

Campos, Mauricio, Li, Bo, de Lafontaine, Guillaume, Napier, Joseph, and Hu, Feng Sheng

Subjects

*FOSSIL pollen, *LAST Glacial Maximum, *EFFECT of human beings on climate change, *SPECIES distribution, *COMMUNITY forests, *TUNDRAS

Abstract

Rapid anthropogenic climate change has elevated the interest in studying the biotic responses of species during the Last Glacial Maximum. During this period, species retreated to highly spatially restricted geographic regions where survival was possible, known as glacial micro-refugia, from which they migrated and expanded when conditions became more suitable. Several distinct sources of evidence have contributed to developing a new understanding of how these regions might have impacted the sustainability of the natural populations of many species. Pollen records in Eastern Beringia have been used to explore the possibility that the region harbored glacial refugia for several plants from the arctic tundra and/or the boreal forest biomes common to the region. Our study focuses on Alnus viridis and Picea glauca, two predominant species of arcto-boreal vegetation. We propose to integrate genomic, SDM, and existing fossil data in a hierarchical Bayesian modeling (HBM) framework to determine whether multiple refugia existed in isolated geographic areas. This study demonstrates how the flexibility of HBMs makes the formal synthesis of such disparate data sources feasible. Our results highlight the regions of plausible refugia that can guide future investigations into studying the role of glacial refugia during climate change. Supplementary materials accompanying this paper appear online. [ABSTRACT FROM AUTHOR]

Published

2024

31. A tribute to Narr (1952): On the stratigraphy of Upper Palaeolithic types and type groups.

Author

Conard, Nicholas J.

Subjects

PALEOLITHIC Period, LAST Glacial Maximum

Published

2021

32. Human occupations of upland and cold environments in inland Spain during the Last Glacial Maximum and Heinrich Stadial 1: The new Magdalenian sequence of Charco Verde II.

Author

Aragoncillo-del Río, Javier, Alcolea-González, José-Javier, Luque, Luis, Castillo-Jiménez, Samuel, Jiménez-Gisbert, Guillermo, López-Sáez, José-Antonio, Maíllo-Fernández, José-Manuel, Ruiz-Alonso, Mónica, Triguero, Ignacio, Yravedra, José, and Alcaraz-Castaño, Manuel

Subjects

LAST Glacial Maximum, UPLANDS, PALEOLITHIC Period, COLD adaptation, HUMAN settlements, EXTREME environments, HUMAN ecology

Abstract

The settlement of cold and arid environments by Pleistocene hunter-gatherers has been a heated topic in Paleolithic Archaeology and the Quaternary Sciences for years. In the Iberian Peninsula, a key area for studying human adaptations to such environments is composed by the large interior and upland regions of the northern and southern plateaus (Mesetas) and bordering areas. As, traditionally, these regions have been relatively under-investigated compared to the ecologically more favored coastal areas of the peninsula, our knowledge of the human settlement of the whole Iberian hinterland remains scarce for the Last Glacial. In this paper we present the discovery and first geoarcheological, paleoenvironmental and chronometric evidence obtained at Charco Verde II, a new site close to the southwestern foothills of the Iberian system range (Guadalajara province, Spain), bearing a sequence of Magdalenian human occupations starting at least at 20.8–21.4 ka cal BP during the Last Glacial Maximum, and covering Greenland Stadial 2 until ∼15.1–16.6 ka cal BP, including Heinrich stadial 1. As this site is located in an upland region which today faces one of the harshest climates in Iberia, such occupation sequence, occurred during some of the coldest and most arid phases of the Last Glacial, has relevant implications for our understanding of human-environment-climate interactions and population dynamics in Iberia and Western Europe. These findings support the hypothesis that the Iberian hinterland was not avoided by Upper Paleolithic hunter-gatherers due to ecological constraints, but it hosted a complex and relatively dense settlement at least in some areas, even during cold periods. This suggest, one more time, that the historical scarcity of Upper Paleolithic sites in inland Iberia is, to a significant extent, an artifact of research bias. [ABSTRACT FROM AUTHOR]

Published

2023

33. Photogrammetric Monitoring of Rock Glacier Motion Using High-Resolution Cross-Platform Datasets: Formation Age Estimation and Modern Thinning Rates.

Author

Meng, Tyler M., Aguilar, Roberto, Christoffersen, Michael S., Petersen, Eric I., Larsen, Christopher F., Levy, Joseph S., and Holt, John W.

Subjects

ROCK glaciers, LAST Glacial Maximum, GEOLOGICAL time scales, TOPOGRAPHIC maps, DIGITAL elevation models, REMOTE sensing, BAROCLINICITY

Abstract

The availability of remote sensing imagery at high spatiotemporal resolutions presents the opportunity to monitor the surface motion of rock glaciers, a key constraint for characterizing the dynamics of their evolution. In this paper, we investigate four North American rock glaciers by automatically measuring their horizontal surface displacement using photogrammetric data acquired with crewed and uncrewed aircraft along with orbital spacecraft over monitoring periods of up to eight years. We estimate vertical surface changes on these rock glaciers with photogrammetrically generated digital elevation models (DEM) and digitized topographic maps. Uncertainty analysis shows that the imagery with the highest resolution and most precise positioning have the best performance when used with the automated change detection algorithm. This investigation produces gridded velocity fields over the entire surface area of each study site, from which we estimate the age of rock glacier formation using along-flow velocity integration. Though the age estimates vary, the ice within the modern extent of these landforms began flowing between 3000 and 7000 years before present, postdating the last glacial maximum. Surface elevation change maps indicate present-day thinning at the lower latitude/higher elevation sites in Wyoming, while the higher latitude/lower elevation sites in Alaska exhibit relatively stable surface elevations. [ABSTRACT FROM AUTHOR]

Published

2023

34. Geomorphology, Geoarchaeology, and Geochronology of the Upper Pleistocene Archaeological Site of El Olivo Cave (Llanera, Asturias, Northern Spain).

Author

Jordá Pardo, Jesús F., Álvarez-Alonso, David, de Andrés-Herrero, María, Ballesteros, Daniel, Carral, Pilar, Hevia-Carrillo, Aitor, Sanjurjo, Jorge, Giralt, Santiago, and Jiménez-Sánchez, Montserrat

Subjects

GEOLOGICAL time scales, ARCHAEOLOGICAL excavations, PLEISTOCENE Epoch, LAST Glacial Maximum, CAVES, SPELEOTHEMS, GEOMORPHOLOGY

Abstract

El Olivo Cave (Pruvia de Arriba, Llanera, Asturias, Spain) is a small karst cave located in the Aboño River basin and formed in the Cretaceous limestone of the Mesozoic cover of the Cantabrian Mountains (north of the Iberian Peninsula). It contains an important upper Pleistocene sedimentary, archaeological, and paleontological record, with abundant technological evidence and faunal remains. The archaeological record shows a first occupation that could correspond to the Middle Paleolithic and a second occupation in the Middle Magdalenian. The stratigraphic sequence inside and outside the cave was studied with geoarchaeological methodology. In this paper, the lithostratigraphic sequence is analyzed, and the data from the granulometric, mineralogical, edaphological, and radiometric analyses are presented. The results of these analyses enable an accurate interpretation of both the lithostratigraphy of the deposit and the processes responsible for its formation and subsequent evolution. The available numerical dates allow us to locate the first sedimentation episode in the cave in OIS 7a, in the Middle Pleistocene, the base of the outer fluvial sedimentation in the cold OIS 3a stage of the Upper Pleistocene and the Magdalenian occupation in the Last Glacial Maximum (OIS 2) at the end of the Late Pleistocene. [ABSTRACT FROM AUTHOR]

Published

2023

35. Evolution of the Groundwater Flow System since the Last Glacial Maximum in the Aksu River Basin (Northwest China).

Author

Su, Hu, Deng, Yinger, Nai, Weihua, Zhang, Rui, Huang, Jihan, Li, Pengjie, Yang, Hongkun, Chen, Lin, and Wang, Ning

Subjects

LAST Glacial Maximum, GROUNDWATER flow, GLACIERS, WATERSHEDS, SEDIMENTARY basins, FLUVIAL geomorphology, HOLOCENE Epoch, PARTICLE size distribution

Abstract

Thoroughly investigating the evolution of groundwater circulation and its controlling mechanism in the Aksu River Basin, where human activities are intensifying and the groundwater environment is increasingly deteriorating, is highly urgent and important for promoting the theory, development and implementation of groundwater flow systems (GFSs) and protecting groundwater resources. Based on a detailed analysis of the sediment grain size distribution, chronology, electrofacies, glacial sedimentary sequence, palaeoclimate indicators and existing groundwater age, this paper systematically reconstructs the palaeosedimentary environment of the basin-scale aquifer system in the study area and scientifically reveals the evolutionary pattern and formation mechanism of the GFS. The results showed that the later period of the late Pleistocene experienced a rapid downcutting erosional event caused by tectonic uplift, and the sedimentary environment transitioned from a dry–cold deep downcutting environment in the Last Glacial Maximum (LGM) to a coarse-grained fast-filling fluvial facies sedimentary environment in the Last Glacial Deglaciation (LDP) as the temperature rose; then, it shifted to an environment of fine-grained stable alternating accumulation of fluvial facies and lacustrine facies that was dominated by the warm and arid conditions of the Holocene megathermal period (HMP); this process changed the previous river base level via erosion, glacier elongation or shortening and river level, thus resulting in a complex coupling relationship between the palaeosedimentary environment, palaeoclimate and basin GFS. Furthermore, the existing GFS pattern in the basin exhibits a vertically unconformable groundwater age distribution, which indicates that it is the outcome of the complex superposition of groundwater flow controlled by the palaeosedimentary environment in different periods. Therefore, neotectonic movement and climate fluctuation have jointly acted on the variation in the river level, resulting in the "seesaw" effect, thereby fundamentally controlling the strength of the driving force of groundwater and resulting in the gradual evolution of the GFS from the fully developed regional GFS pattern during the LGM to the current multihierarchy nested GFS pattern. [ABSTRACT FROM AUTHOR]

Published

2023

36. De‐Tuning Albedo Parameters in a Coupled Climate Ice Sheet Model to Simulate the North American Ice Sheet at the Last Glacial Maximum.

Author

Gandy, N., Astfalck, L. C., Gregoire, L. J., Ivanovic, R. F., Patterson, V. L., Sherriff‐Tadano, S., Smith, R. S., Williamson, D., and Rigby, R.

Subjects

LAST Glacial Maximum, ICE sheets, ABLATION (Glaciology), ALBEDO, GREENLAND ice, GLACIAL Epoch, CLOUDINESS

Abstract

The Last Glacial Maximum extent of the North American Ice Sheets is well constrained empirically but has proven to be challenging to simulate with coupled Climate‐Ice Sheet models. Coupled Climate‐Ice Sheet models are often too computationally expensive to sufficiently explore uncertainty in input parameters, and it is unlikely that values calibrated to reproduce modern ice sheets will reproduce the known extent of the ice at the Last Glacial Maximum. To address this, we run an ensemble with a coupled Climate‐Ice Sheet model (FAMOUS‐ice), simulating the final stages of growth of the last North American Ice Sheets' maximum extent. Using this large ensemble approach, we explore the influence of numerous uncertain ice sheet albedo, ice sheet dynamics, atmospheric, and oceanic parameters on the ice sheet extent. We find that ice sheet albedo parameters determine the majority of uncertainty when simulating the Last Glacial Maximum North American Ice Sheets. Importantly, different albedo parameters are needed to produce a good match to the Last Glacial Maximum North American Ice Sheets than have previously been used to model the contemporary Greenland Ice Sheet due to differences in cloud cover over ablation zones. Thus, calibrating coupled climate‐ice sheet models on one ice sheet may produce strong biases when the model is applied to a new domain. Plain Language Summary: At the peak of the last ice age, an ice sheet covered much of North America. The extent of this ice sheet is well‐understood after decades of intensive data collection, but producing a computer simulation of the ice sheet which matches our observations has been a challenge. This is partly because of uncertainty about the "correct" model set‐up to create the best simulation, and partly because the computer models used in the simulations require large computing resources. In this paper, we present a series of simulations of the North American Ice Sheet at the peak of the last ice age using a fast‐running computer model in which the atmosphere and ice sheets interact. We run hundreds of simulations to tackle the uncertainty about the optimum values for unknown input parameters. We find that the model's representation of how reflective the ice sheet surface is has the most impact on the size and shape of the simulated ice sheet. Importantly, the parameter values that produce the best simulations of modern‐day Greenland produce poor simulations of the North American Ice Sheets during the last ice age, calling into question whether the parameters chosen for modern Greenland are appropriate from simulating ice sheets under different conditions. Key Points: Simulating the Last Glacial Maximum North American Ice Sheets successfully requires de‐tuning the coupled Climate‐Ice Sheet model FAMOUS‐iceAfter running a large ensemble, we identify multiple acceptable simulations of the LGM North American Ice SheetThe LGM North American cloud cover revealed overtuned albedo parameters to compensate for modern Greenland cloud biases [ABSTRACT FROM AUTHOR]

Published

2023

37. Retreat and extinction of the Late Pleistocene cave bear (Ursus spelaeus sensu lato)

Author

Adrian Marciszak, Danijela Popović, Mikołaj Urbanowski, Krzysztof Stefaniak, Paweł Mackiewicz, Mateusz Baca, and Adam Nadachowski

Subjects

Megafauna, 0106 biological sciences, 010506 paleontology, Pleistocene, Climate, Cave bear, Extinction, Biological, 010603 evolutionary biology, 01 natural sciences, Refugium (population biology), Animals, Glacial period, Stadial, Pleistocene megafauna, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Original Paper, Ancient DNA, biology, Fossils, Ecology, Last glacial maximum, Last Glacial Maximum, Extinction, General Medicine, biology.organism_classification, Geography, Haplotypes, Refugium, Animal Distribution, Ursidae

Abstract

The cave bear (Ursus spelaeus sensu lato) is a typical representative of Pleistocene megafauna which became extinct at the end of the Last Glacial. Detailed knowledge of cave bear extinction could explain this spectacular ecological transformation. The paper provides a report on the youngest remains of the cave bear dated to 20,930 ± 140 14C years before present (BP). Ancient DNA analyses proved its affiliation to the Ursus ingressus haplotype. Using this record and 205 other dates, we determined, following eight approaches, the extinction time of this mammal at 26,100–24,300 cal. years BP. The time is only slightly earlier, i.e. 27,000–26,100 cal. years BP, when young dates without associated collagen data are excluded. The demise of cave bear falls within the coldest phase of the last glacial period, Greenland Stadial 3. This finding and the significant decrease in the cave bear records with cooling indicate that the drastic climatic changes were responsible for its extinction. Climate deterioration lowered vegetation productivity, on which the cave bear strongly depended as a strict herbivore. The distribution of the last cave bear records in Europe suggests that this animal was vanishing by fragmentation into subpopulations occupying small habitats. One of them was the Kraków-Częstochowa Upland in Poland, where we discovered the latest record of the cave bear and also two other, younger than 25,000 14C years BP. The relatively long survival of this bear in karst regions may result from suitable microclimate and continuous access to water provided by deep aquifers, indicating a refugial role of such regions in the Pleistocene for many species.

Published

2016

38. Hominin adaptations in the Lesser Sunda Islands: exploring the vertebrate record to investigate fauna diversity before, during and after the Last Glacial Maximum.

Author

Samper Carro, Sofia C.

Subjects

LAST Glacial Maximum, ZOOARCHAEOLOGY, VERTEBRATES, ISLANDS, RESOURCE exploitation

Abstract

This paper reviews the available vertebrate record from the Lesser Sunda Islands to explore the effect the Last Glacial Maximum had on human subsistence strategies. By focusing on vertebrate assemblages from Laili and Matja Kuru 2 in Timor Leste, Tron Bon Lei in Alor Island, and Here Sorot Entapa in Kisar, this paper investigates biodiversity and resource availability in these nearby islands through the application of standardising indices and statistical testing. Results indicate that vertebrate biodiversity remained fairly stable through and after the Last Glacial Maximum, suggesting that in terms of available mammals, birds and reptiles, this period did not led to severe resource depletion. Hence, potential variations in human subsistence practices or occupation dynamics might not be due to changes in vertebrate diversity. As such, this analysis contributes to investigating anatomically modern humans' subsistence adaptation in the Lesser Sunda Islands pre- and post-Last Glacial Maximum. [ABSTRACT FROM AUTHOR]

Published

2022

39. PREFACE.

Subjects

LAST Glacial Maximum, GEOLOGIC hot spots, ENVIRONMENTAL sciences, CAVES

Abstract

The article presents the discussion on Southern Africa presenting a complex setting for the development of a unified late Quaternary chronostratigraphy covering the last 200 000 years. Topics include playing an important regional role in ocean productivity and carbon dioxide storage and exchange contributing to global climate feedbacks; and engagement between experts from the cognate disciplines in developing inter- and multi-disciplinary projects focusing at the scale of a river catchment.

Published

2021

40. Parallel patterns of genetic diversity and structure in circumboreal species of the Sphagnum capillifolium complex.

Author

Imwattana, Karn, Aguero, Blanka, Nieto‐Lugilde, Marta, Duffy, Aaron, Jaramillo‐Chico, Juan, Hassel, Kristian, Afonina, Olga, Lamkowski, Paul, and Jonathan Shaw, A.

Subjects

*GENETIC variation, *LAST Glacial Maximum, *PEAT mosses, *SPECIES, *TUNDRAS, *PLANT anatomy, *BOGS

Abstract

Premise: Shared geographical patterns of population genetic variation among related species is a powerful means to identify the historical events that drive diversification. The Sphagnum capillifolium complex is a group of closely related peat mosses within the Sphagnum subgenus Acutifolia and contains several circumboreal species whose ranges encompass both glaciated and unglaciated regions across the northern hemisphere. In this paper, we (1) inferred the phylogeny of subg. Acutifolia and (2) investigated patterns of population structure and genetic diversity among five circumboreal species within the S. capillifolium complex. Methods: We generated RAD sequencing data from most species of the subg. Acutifolia and samples from across the distribution ranges of circumboreal species within the S. capillifolium complex. Results: We resolved at least 14 phylogenetic clusters within the S. capillifolium complex. Five circumboreal species show some common patterns: One population system comprises plants in eastern North America and Europe, and another comprises plants in the Pacific Northwest or around the Beringian and Arctic regions. Alaska appears to be a hotspot for genetic admixture, genetic diversity, and sometimes endemic subclades. Conclusions: Our results support the hypothesis that populations of five circumboreal species within the S. capillifolium complex survived in multiple refugia during the last glacial maximum. Long‐distance dispersal out of refugia, population bottlenecks, and possible adaptations to conditions unique to each refugium could have contributed to current geographic patterns. These results indicate the important role of historical events in shaping the complex population structure of plants with broad distribution ranges. [ABSTRACT FROM AUTHOR]

Published

2024

41. A High Arctic inner shelf–fjord system from the Last Glacial Maximum to the present: Bessel Fjord and southwest Dove Bugt, northeastern Greenland.

Author

Zoller, Kevin, Laberg, Jan Sverre, Rydningen, Tom Arne, Husum, Katrine, and Forwick, Matthias

Subjects

LAST Glacial Maximum, FJORDS, GREENLAND ice, WATERSHEDS, ICE caps

Abstract

The Greenland Ice Sheet (GrIS) responds rapidly to the present climate; therefore, its response to the predicted future warming is of concern. To learn more about the impact of future climatic warming on the ice sheet, decoding its behavior during past periods of warmer than present climate is important. However, due to the scarcity of marine studies reconstructing ice sheet conditions on the Northeast Greenland shelf and adjacent fjords, the timing of the deglaciation over marine regions and its connection to forcing factors remain poorly constrained. This includes data collected in fjords that encompass the Holocene thermal maximum (HTM), a period in which the climate was warmer than it is at present. This paper aims to use new bathymetric data and the analysis of sediment gravity cores to enhance our understanding of ice dynamics of the GrIS in a fjord and inner shelf environment as well as give insight into the timing of deglaciation and provide a palaeoenvironmental reconstruction of southwestern Dove Bugt and Bessel Fjord since the Last Glacial Maximum (LGM). North–south-oriented glacial lineations and the absence of pronounced moraines in southwest Dove Bugt, an inner continental shelf embayment (trough), suggest the southwards and offshore flow of Storstrømmen, the southern branch of the Northeast Greenland Ice Stream (NEGIS). Sedimentological data suggest that an ice body, theorized to be the NEGIS, may have retreated from the region slightly before ∼ 11.4 cal ka BP. The seabed morphology of Bessel Fjord, a fjord terminating in southern Dove Bugt, includes numerous basins separated by thresholds. The position of basin thresholds, which include some recessional moraines, suggest that the GrIS had undergone multiple halts or readvances during deglaciation, likely during one of the cold events identified in the Greenland Summit temperature records. A minimum age of 7.1 cal ka BP is proposed for the retreat of ice through the fjord to or west of its present-day position in the Bessel Fjord catchment area. This suggests that the GrIS retreated from the marine realm in Early Holocene, around the onset of the HTM in this region, a period when the mean July temperature was at least 2–3 ∘ C higher than at present and remained at or west of this onshore position for the remainder of the Holocene. The transition from predominantly mud to muddy sand layers in a mid-fjord core at ∼ 4 cal ka BP may be the result of increased sediment input from nearby and growing ice caps. This shift may suggest that in the Late Holocene (Meghalayan), a period characterized by a temperature drop to modern values, ice caps in Bessel Fjord probably fluctuated with greater sensitivity to climatic conditions than the northeastern sector of the GrIS. [ABSTRACT FROM AUTHOR]

Published

2023

42. High resolution LGM climate over Europe and the Alpine region using the regional climate model WRF.

Author

Russo, Emmanuele, Buzan, Jonathan, Lienert, Sebastian, Jouvet, Guillaume, Alvarez, Patricio Velasquez, Davis, Basil, Ludwig, Patrick, Joos, Fortunat, and Raible, Christoph

Subjects

ALPINE regions, ATMOSPHERIC models, METEOROLOGICAL research, WEATHER forecasting, CLIMATE research, LAST Glacial Maximum

Abstract

In this study we present a series of sensitivity experiments conducted for the Last Glacial Maximum (LGM, ~21000 years ago) over Europe using the regional climate Weather Research and Forecasting model (WRF). Using a 4 step 2-way nesting approach, we are able to reach a convection-permitting horizontal resolution over the inner part of the study area, covering Central Europe and the Alpine region. The main objective of the paper is to evaluate a model version including a series of new developments better suitable for the simulation of paleo-glacial time slices with respect to the ones employed in former studies. The evaluation of the model is conducted against newly available pollen-based reconstructions of the LGM European climate and takes into account the effect of two main sources of model uncertainty: a different height of continental glaciers at higher latitudes of the northern hemisphere and different land cover. Model results are in good agreement with evidence from the proxies, in particular for temperatures. Importantly, the consideration of different ensemble members for characterizing model uncertainty allows to increase the agreement of the model against the proxy reconstructions that would be obtained when considering a single model realization. The spread of the produced ensemble is relatively small for temperature, beside areas surrounding glaciers in summer. On the other hand, differences between the different ensemble members are very pronounced for precipitation, in particular in winter over areas highly affected by moisture advection from the Atlantic. This highlights the importance of the considered sources of uncertainty for the study of European LGM climate and allows to determine where the results of an RCM are more likely to be uncertain for the considered case study. Finally, the results are also used to demonstrate the added value of convection-permitting resolutions, at both local and regional scales, under glacial conditions. [ABSTRACT FROM AUTHOR]

Published

2023

43. Dispersal limitation and fire feedbacks maintain mesic savannas in Madagascar: Comment.

Author

Joseph, Grant S. and Seymour, Colleen L.

Subjects

GRASSLANDS, SAVANNAS, FIRE ecology, LAST Glacial Maximum, BIOLOGICAL extinction, LIFE sciences, ENVIRONMENTAL sciences

Abstract

Moreover, grassland specialist species on the MCH are rare; other studies affirm I c i . 90% of species are forest limited, with only I c i . 2% limited to grassland (Dufils, [7]; Joseph & Seymour, [17]). However, as noted by Joseph and Seymour ([18]), that study is flawed, overreporting grassland-limited species and arguing for predominant C SB 4 sb -grazing Malagasy hippos that coevolved with grasslands based on carbon isotope data from "several" African hippos dated to I c i . 1950 (Bond et al., [3]). Extensive empirical research on the Malagasy Central Highlands (MCH) - including multiple papers published over the past few years - does not support the conclusion of the modeling study by Goel et al. ([11]) that forests are "range pinned" to the east of the MCH by an escarpment causing dispersal limitation. Although Goel et al. label these "savanna trees", no MCH trees are unequivocally "savanna trees" (Joseph et al., [15]) and omitting them is likely to favor grassland over forest in model outcomes. [Extracted from the article]

Published

2023

44. Exploring Spatiotemporal Paleoenvironmental and Paleoceanographic Changes on the Continental Shelf Using Authigenic Greigite: A Case Study From the East China Sea.

Author

Liu, Jianxing, Xu, Taoyu, Zhang, Qiang, Yu, Xiaoxiao, Wu, Yonghua, Liu, Qingsong, and Shi, Xuefa

Subjects

CONTINENTAL shelf, LAST Glacial Maximum, PYRITES, FOSSIL microorganisms, ENVIRONMENTAL sciences, PALEOENVIRONMENTAL studies, OCEAN circulation

Abstract

The lack of suitable indicators of changes in such as sea‐level and circulation has been a major limit to paleoenvironmental and paleoceanographic investigations in continental shelf regions. This paper presents an environmental magnetic study by comparing two late‐Quaternary sediment cores (DH02 and DH03) from the outer shelf of the East China Sea (ECS). Late and early Marine Isotope Stage (MIS) 3 sediments were deposited in a prodelta under cold coastal currents and an open‐shelf with the Taiwan Warm Current and upwelling. The dominant iron‐bearing minerals of the late and early MIS 3 sediments are authigenic greigite (Fe3S4) and pyrite (FeS2), respectively, which were assumed to be formed nearly syndepositionally. The overlying sediments, however, are magnetically dominated by detrital magnetite. This pattern corresponds well to the temporal changes in sea‐level over this period. The widespread occurrence of greigite in the late MIS 3 sediments can also be used for future stratigraphic division and correlation in the ECS. Additionally, compared to microfossil assemblages, rock magnetic parameters based on greigite may be more sensitive to environmental changes on continental shelves. Furthermore, the inter‐borehole spatial comparisons imply not only a sedimentary hiatus/erosion of at least 30‐m thickness in core DH02, most probably during the Last Glacial Maximum, but also that core DH02 was in a more reductive environment than core DH03 during late MIS 3. The findings highlight the potential of authigenic greigite as an indicator of spatiotemporal changes in paleoenvironmental and paleoceanographic conditions on the continental shelf at orbital or even suborbital timescales. Plain Language Summary: Environmental and oceanographic conditions on continental shelves are vital for sedimentation processes and human settlements, but the reconstruction of their evolution is hindered by the lack of effective indicators. Recent studies have indicated that syndepositional formation of greigite, a precursor to pyrite, is highly likely in shallow‐water environments with rapid sedimentation. Here, two sediment cores meridionally traversing the outer shelf of the East China Sea were investigated. The magnetic mineral assemblage and sedimentary environment exhibited almost identical change patterns, with pyrite, greigite, and magnetite as the major magnetic minerals of the early and late Marine Isotope Stage 3, and Last Glacial Maximum/last deglacial deposits, respectively. This agreeably reflects the temporal fluctuations in sea‐level and ocean circulation. By comparing the two cores, the spatial characteristics of stratigraphy and redox conditions could be determined clearly. This study thus provides a good reference for paleoenvironmental and paleoceanographic research based on authigenic greigite in continental shelf sediments. Key Points: Greigite was further confirmed as the major magnetic mineral of the late Marine Isotope Stage 3 deposits widespread on the outer shelf of the East China SeaSpatiotemporal changes in environmental and oceanographic conditions on the continental shelf are well revealed by greigite‐based parametersAuthigenic greigite can serve as a sensitive indicator for paleoenvironmental and paleoceanographic studies in continental shelf regions [ABSTRACT FROM AUTHOR]

Published

2023

45. Areography, environmental heterogeneity and spatial models explain patterns of past and present diversity in Edraianthus (Campanulaceae).

Author

Glasnović, Peter, Fišer, Živa, Jančič, Matic, Balant, Manica, and Surina, Boštjan

Subjects

LAST Glacial Maximum, CAMPANULACEAE, PLANT diversity, GENETIC variation, ECOLOGICAL niche, GENETIC correlations, SPECIES diversity, HABITATS

Abstract

This paper aims to shed light on distribution patterns and the relationship between species diversity and environmental heterogeneity of 17 Edraianthus taxa. We examined present and past distributions (Last Glacial Maximum) by applying ecological niche modelling. The environmental space occupied by the taxa was analysed using niche comparison methods. The results support the idea that the central and southern Dinaric Alps represent a centre of diversity and endemism in the western Balkan Peninsula. Diversity in Edraianthus is best explained by topographic (slope) and bioclimatic predictors (maximum temperature of warmest month, precipitation seasonality, precipitation of warmest quarter, precipitation of coldest quarter), suggesting that mountain areas with the most diversified relief have higher diversity. Niche modelling results suggest considerable range dynamics during the climatically unstable Quaternary. Thermophilic and lowland taxa responded with longitudinal shifts to ecologically suitable areas farther south, whereas high-mountain taxa responded mainly with elevational shifts. The greatest niche similarity is found among phylogenetically closely related taxa and among ecologically similar and often sympatric taxa. The least similarity was observed in species with marked differences in habitat elevation and in more geographically isolated species. Our results suggest that the extent of range and niche overlap varied among some taxa throughout their evolutionary history, which may have led to diversification at both allopatric and sympatric levels. The correlation between the genetic diversity of the most widespread taxon and the richness of taxa could be a consequence of past and present contacts. On the other hand, alternate periods of isolation may have favoured the emergence of taxa that are reproductively isolated and ecologically specialized. [ABSTRACT FROM AUTHOR]

Published

2023

46. Deglaciation and postglacial evolution of the Cère Valley (Cantal, French Massif Central) based on geomorphological mapping, 36Cl surface exposure dating and glacier modelling.

Author

Ancrenaz, Arthur, Pochat, Stéphane, Rinterknecht, Vincent, Rodríguez‐Rodríguez, Laura, Defive, Emmanuelle, Poiraud, Alexandre, Jomelli, Vincent, Schimmelpfennig, Irene, and Team, Aster

Subjects

ALPINE glaciers, GEOMORPHOLOGICAL mapping, GLACIERS, LAST Glacial Maximum, GLACIAL melting, YOUNGER Dryas, SEA level

Abstract

The landform assemblage in the Cère Valley (Cantal, France) provides one of the most complete sequences for Late Pleistocene glacial fluctuations in the French Massif Central. However, the associated glacial chronology has been debated since the 1980s. This paper aims to improve the glacial chronology of the Cère Valley using 36Cl surface exposure ages. Geomorphological results define two glacier stadials with reconstructed equilibrium line altitudes of 1078 ± 43 and 1152 ± 34 m above sea level. These results are comparable to those obtained in the Alps or the Pyrenees during the Last Glacial Maximum (26–19.5 ka). However, 36Cl surface exposure ages are centred around the Younger Dryas (YD), between 13 and 11 ka (n = 4). We suggest that these 36Cl ages are not related to a standstill during the YD but rather to the effects of the postglacial evolution of the Cère Valley. We investigate two geomorphological end‐member scenarios to explain the postponed exposure of sampled boulders: the Aurillac Lake scenario and the later fluvial incision scenario. While the nature of the geomorphological events leading to the boulder exhumation is not fully resolved, we highlight a long phase of postglacial evolution in the Cère Valley. [ABSTRACT FROM AUTHOR]

Published

2023

47. Journal of Biogeography Innovation Awards, 2023.

Author

Dawson, Michael N, Fraser, Ceridwen, Matthews, Thomas J., Procheş, Şerban, and Sadler, Jon P.

Subjects

BIOGEOGRAPHY, LAST Glacial Maximum

Published

2023

48. River incision, 10Be production and transport in a source-to-sink sediment system (Var catchment, SW Alps).

Author

Petit, Carole, Salles, Tristan, Godard, Vincent, Rolland, Yann, and Audin, Laurence

Subjects

SEDIMENT transport, RIVER sediments, LAST Glacial Maximum, MARINE sediments, COSMIC rays, COSMOGENIC nuclides, EROSION, FLUVIAL geomorphology, AGGRADATION & degradation

Abstract

Detrital 10Be from continental river sands or submarine sediments has been extensively used to determine the average long-term denudation rates of terrestrial catchments, based on the assumption that the rate of cosmogenic nuclide production by the interaction of source rocks with cosmic radiation balances out the loss of these nuclides by surface denudation. However, the 10Be signal recorded in sediments may be affected at the source by the response time of mountainous catchments to high-frequency forcings. In addition, transient sediment storage in piedmonts, alluvial plains and lakes or near the coast may also induce a difference between the erosive signal and its record in the sedimentary sink. Consequently, a significant part of the signal recorded in shallow-water sediments can be lost, as deep marine sediments may simultaneously record a signal coming from newly eroded source rocks along with one coming from the destabilization of previously deposited sediments. In this paper, we use the landscape evolution model Badlands to simulate erosion, deposition and detrital 10Be transfer from a source-to-sink sedimentary system (the Var River catchment, southern French Alps) over the last 100 kyr. We first compare model-based denudation rates with the ones that would be extracted from the 10Be record of local continental sediments (equivalent to river sands) and from sediments deposited offshore over time in order to examine if this record provides an accurate estimate of continental denudation rates. Then, we examine which conditions (precipitation rate, flexure, ice cover) satisfy published measured river incision rates and 10Be concentration in submarine sediments. Our results, based on the Var catchment cosmic ray exposure dating and modelling indicate that, while river sands do accurately estimate the average denudation rate of continental catchments, this is much less the case for deep submarine sediments. We find that deep-sea sediments have a different and often much smoother 10Be signature than continental ones and record a significant time lag with respect to imposed precipitation rate changes, representing the geomorphological response of the margin. A model which allows us to fit both measured 10Be concentration in marine sediments and river incision rates on land involves an increase in precipitation rates from 0.3 to 0.7 m yr -1 after 20 ka, suggesting more intense precipitation starting at the end of the Last Glacial Maximum. [ABSTRACT FROM AUTHOR]

Published

2023

49. Desertification and Related Climate Change in the Alashan Plateau since the Last 40 ka of the Last Glacial Period.

Author

Zhu, Bingqi and Yang, Limin

Subjects

DESERTIFICATION, GLACIATION, CLIMATE change, GLOBAL environmental change, LAST Glacial Maximum, WIND power

Abstract

Clues of climate change on the Alashan Plateau since the last glacial period (40 ka) are important for revealing the mechanism of desertification of middle-latitude deserts in the Northern Hemisphere (NH). Studies are still rare for the understanding of the specific relationship of climate changes between the Alashan Plateau and the global. Based on a systematic and comparative analysis of the existing research in China and the international academic community, this paper reviews the environmental evolution history of the Alashan Plateau since the last glacial period from the records of paleo-environment and geomorphological characteristics in different deserts of the plateau (e.g., Badanjilin, Tenggeli, and Wulanbuhe). From about 40 ka to the end of the last glacial maximum, the climate on the plateau was wetter than it is today, and to the end of the Pleistocene, the climate was generally dry and the aeolian activities were enhanced. However, the climate was arid during the whole last glacial period in the Wulanbuhe Desert, evidently different from the overall pattern of the plateau. The Tenggeli Desert was characterized by an arid climate in the early Holocene. The most controversial events for the Alashan Plateau are the drought events in the middle Holocene in the Badanjilin Desert. The role and impact of the westerlies and the East Asian Summer Monsoon (EASM) systems on the climate change of the desert and even the whole plateau is a vexed question that brings different views in different periods. There is still a lack of definite evidence representing the events of global environmental change that occurred on the plateau during the discussed period. The distinctive morphology of dune mountains and the distribution of sand dunes are mutually indicative of the direction and energy of wind systems on the plateau. It is suggested that appropriate wind energy is the significant key to the desertification in these middle-latitude deserts on the plateau. From a global-scale review of climate change, the desertification of the modern-scale sandy desert landscapes on the Alashan Plateau is generally related to the global glacial period and the cold and dry climate during the past 40 ka. [ABSTRACT FROM AUTHOR]

Published

2023

50. The Influence of Increased CO2 Concentrations on AMOC Interdecadal Variability Under the LGM Background.

Author

Gao, Yang, Liu, Jian, Wen, Qin, Chen, Deliang, Sun, Weiyi, Ning, Liang, and Yan, Mi

Subjects

ATLANTIC meridional overturning circulation, LAST Glacial Maximum, SEA ice, OCEAN dynamics

Abstract

This study explores the impact of rising CO2 levels on the Atlantic meridional overturning circulation's (AMOC) interdecadal variability within the context of the Last Glacial Maximum (LGM) background climate. Under heightened CO2 concentrations, the AMOC interdecadal variability intensifies dramatically, which is very different from the future warming case that shows a weakening of AMOC interdecadal variability in response to increased CO2 concentration. This unexpected phenomenon primarily results from the extensive retreat of sea ice, which exposes a larger portion of the ocean surface to efficiently feel the heat flux fluctuations from atmospheric processes. These findings underscore the significance of background climate conditions in shaping AMOC responses to increased CO2 and emphasize the necessity of considering these nuances to develop a more accurate understanding of AMOC dynamics in an evolving climate. Plain Language Summary: The Atlantic meridional overturning circulation (AMOC) is an important component of the Earth system, and its interdecadal variability is predicted to be significantly weakened under future warming scenarios. In this paper, we analyze the response of AMOC interdecadal variability to rising CO2 levels under the background of the Last Glacial Maximum (LGM) and find that the AMOC interdecadal variability is intensified under increased CO2, which is totally different from its response at the background of modern climate. Analyses suggest that this unexpected result is mainly caused by dramatic sea ice retreat, which exposes much seawater to efficiently receive large fluctuations of heat flux from atmospheric forcing. The findings reveal that the response of AMOC to increased CO2 and relevant dominant mechanism differs significantly under different climate conditions. Key Points: The Atlantic meridional overturning circulation (AMOC) interdecadal variability is intensified with increased CO2 under the Last Glacial Maximum (LGM) background climate, diverging from that in future warmingThe intensified AMOC variability cannot be explained by ocean dynamics as shown in future warming casesLarge sea ice retreat drives the intensification of AMOC interdecadal variability under the LGM warming [ABSTRACT FROM AUTHOR]

Published

2024