Your search keyword '"Liebrand, Diederik"' showing total 4 results

1. Orbital- and millennial-scale Asian winter monsoon variability across the Pliocene–Pleistocene glacial intensification.

Author

Ao, Hong, Liebrand, Diederik, Dekkers, Mark J., Roberts, Andrew P., Jonell, Tara N., Jin, Zhangdong, Song, Yougui, Liu, Qingsong, Sun, Qiang, Li, Xinxia, Huang, Chunju, Qiang, Xiaoke, and Zhang, Peng

Subjects

PLIOCENE-Pleistocene boundary, STALACTITES & stalagmites, WINTER, ICE sheets, MILANKOVITCH cycles, GRAIN size, MONSOONS, PLEISTOCENE Epoch

Abstract

Intensification of northern hemisphere glaciation (iNHG), ~2.7 million years ago (Ma), led to establishment of the Pleistocene to present-day bipolar icehouse state. Here we document evolution of orbital- and millennial-scale Asian winter monsoon (AWM) variability across the iNHG using a palaeomagnetically dated centennial-resolution grain size record between 3.6 and 1.9 Ma from a previously undescribed loess-palaeosol/red clay section on the central Chinese Loess Plateau. We find that the late Pliocene–early Pleistocene AWM was characterized by combined 41-kyr and ~100-kyr cycles, in response to ice volume and atmospheric CO2 forcing. Northern hemisphere ice sheet expansion, which was accompanied by an atmospheric CO2 concentration decline, substantially increased glacial AWM intensity and its orbitally oscillating amplitudes across the iNHG. Superposed on orbital variability, we find that millennial AWM intensity fluctuations persisted during both the warmer (higher-CO2) late Pliocene and colder (lower-CO2) early Pleistocene, in response to both external astronomical forcing and internal climate dynamics. Persistent millennial Asian winter monsoon variability is shown to be superposed on orbital 41-kyr and 100-kyr cycles across the Pliocene–Pleistocene glacial intensification using a paleomagnetically dated high-resolution Chinese Loess Plateau grain size record. [ABSTRACT FROM AUTHOR]

Published

2024

2. Concurrent Asian monsoon strengthening and early modern human dispersal to East Asia during the last interglacial.

Author

Hong Ao, Jiaoyang Ruan, Martinón-Torres, María, Krapp, Mario, Liebrand, Diederik, Dekkers, Mark J., Caley, Thibaut, Jonell, Tara N., Zongmin Zhu, Chunju Huang, Xinxia Li, Ziyun Zhang, Qiang Sun, Pingguo Yang, Jiali Jiang, Xinzhou Li, Xiaoxun Xie, Yougui Song, Xiaoke Qiang, and Peng Zhang

Subjects

MONSOONS, RAINFALL, HUMAN beings, GREENHOUSE gases, SOLAR radiation

Abstract

The relationship between initial Homo sapiens dispersal from Africa to East Asia and the orbitally paced evolution of the Asian summer monsoon (ASM)--currently the largest monsoon system--remains underexplored due to lack of coordinated synthesis of both Asian paleoanthropological and paleoclimatic data. Here, we investigate orbital-scale ASM dynamics during the last 280 thousand years (kyr) and their likely influences on early H. sapiens dispersal to East Asia, through a unique integration of i) new centennial-resolution ASM records from the Chinese Loess Plateau, ii) model-based East Asian hydroclimatic reconstructions, iii) paleoanthropological data compilations, and iv) global H. sapiens habitat suitability simulations. Our combined proxy-and model-based reconstructions suggest that ASM precipitation responded to a combination of Northern Hemisphere ice volume, greenhouse gas, and regional summer insolation forcing, with cooccurring primary orbital cycles of ~100-kyr, 41-kyr, and ~20-kyr. Between ~125 and 70 kyr ago, summer monsoon rains and temperatures increased in vast areas across Asia. This episode coincides with the earliest H. sapiens fossil occurrence at multiple localities in East Asia. Following the transcontinental increase in simulated habitat suitability, we suggest that ASM strengthening together with Southeast African climate deterioration may have promoted the initial H. sapiens dispersal from their African homeland to remote East Asia during the last interglacial. [ABSTRACT FROM AUTHOR]

Published

2024

3. Eccentricity-paced monsoon variability on the northeastern Tibetan Plateau in the Late Oligocene high CO2 world.

Author

Hong Ao, Liebrand, Diederik, Dekkers, Mark J., Peng Zhang, Yougui Song, Qingsong Liu, Jonell, Tara N., Qiang Sun, Xinzhou Li, Xinxia Li, Xiaoke Qiang, and Zhisheng An

Subjects

*OLIGOCENE Epoch, *MONSOONS, *PLATEAUS, *ATMOSPHERIC carbon dioxide, *EARTH sciences, *QUATERNARY Period, *CYCLOSTRATIGRAPHY, *GEOMAGNETIC reversals

Abstract

The article presents a study that explores the eccentricity-paced monsoon variability on the northeastern Tibetan Plateau in the Late Oligocene high carbon-dioxide world . It mentions that constraining monsoon variability and dynamics in the warm unipolar icehouse world of the Late Oligocene that provide important clues to future climate responses to global warming.

Published

2021

4. Orbitally Forced Hyperstratification of the Oligocene South Atlantic Ocean

Author

Liebrand, Diederik, Raffi, Isabella, Fraguas, Ángela, Laxenaire, Rémi, Bosmans, Joyce H.C., Hilgen, Frederik J., Wilson, Paul A., Batenburg, Sietske J., Beddow, Helen M., Bohaty, Steven M., Bown, Paul R., Crocker, Anya J., Huck, Claire E., Lourens, Lucas J., Sabia, Luciana, Stratigraphy & paleontology, Hydrologie, Stratigraphy and paleontology, and Landscape functioning, Geocomputation and Hydrology

Subjects

Atmospheric Science, Palaeontology, astronomical forcing of atmospheric and oceanic fronts, monsoons, Oligocene, eddies, surface ocean stratification, Oceanography, Braarudosphaera acmes

Abstract

Pelagic sediments from the subtropical South Atlantic Ocean contain geographically extensive Oligocene ooze and chalk layers that consist almost entirely of the calcareous nannofossil Braarudosphaera. Poor recovery and the lack of precise dating of these horizons in previous studies has limited the understanding of the number of acmes, their timing and durations, and therefore their likely cause. Here we present a high-resolution, astronomically tuned stratigraphy of Braarudosphaera oozes (29.5–27.9 Ma) from Ocean Drilling Program Site 1264 in the southeastern Atlantic Ocean. We identify seven episodes with highly abundant Braarudosphaera. Four of these acme events coincide with maxima and three with minima in the ~110 and 405-kyr paced eccentricity cycles. The longest lasting acme event corresponds to a pronounced minimum in the ~2.4-Myr eccentricity cycle. In the modern ocean, Braarudosphaera occurrences are limited to shallow marine and neritic settings, and the calcified coccospheres of Braarudosphaera are probably produced during a resting stage in the algal life cycle. Therefore, we hypothesize that the Oligocene acmes point to extensive and episodic (hyper) stratified surface water conditions, with a shallow pycnocline that may have served as a virtual seafloor and (partially/temporarily) prevented the coccospheres from sinking in the pelagic realm. We speculate that hyperstratification was either extended across large areas of the South Atlantic basin, through the formation of relatively hyposaline surface waters, or eddy contained through strong isopycnals at the base of eddies. Astronomical forcing of atmospheric and/or oceanic circulation could have triggered these conditions through either sustained rainfall over the open ocean and adjacent land masses or increased Agulhas Leakage.

Published

2018