Your search keyword '"Lane, Christine"' showing total 3 results

1. Volcanic ash reveals time-transgressive abrupt climate change during the Younger Dryas.

Author

Lane, Christine S., Brauer, Achim, Blockley, Simon P. E., and Dulski, Peter

Subjects

*CLIMATE change, *CONTINENTS, *VOLCANIC ash, tuff, etc., *YOUNGER Dryas, *MERIDIONAL overturning circulation, *ECOLOGY

Abstract

Knowledge of regional variations in response to abrupt climatic transitions is essential to understanding the climate system and anticipating future changes. Global climate models typically assume that major climatic changes occur synchronously over continental to hemispheric distances. The last major reorganization of the ocean-atmosphere system in the North Atlantic realm took place during the Younger Dryas (YD), an ~1100 yr cold period at the end of the last glaciation. Within this region, several terrestrial records of the YD show at least two phases, an initial cold phase followed by a second phase of climatic amelioration related to a resumption of North Atlantic overturning. We show that the onset of climatic amelioration during the YD cold period was locally abrupt, but timetransgressive across Europe. Atmospheric proxy signals record the resumption of thermohaline circulation midway through the Younger Dryas, occurring 100 yr before deposition of ash from the Icelandic Vedde eruption in a German varve lake record, and 20 yr after the same isochron in western Norway, 1350 km farther north. Synchronization of two high-resolution continental records, using the Vedde Ash layer (12,140 ± 40 varve yr B.P.), allows us to trace the shifting of the polar front as a major control of regional climate amelioration during the YD in the North Atlantic realm. It is critical that future climate models are able to resolve such small spatial and chronological differences in order to properly encapsulate complex regional responses to global climate change. [ABSTRACT FROM AUTHOR]

Published

2013

2. Volcanic ash layers illuminate the resilience of Neanderthals and early modern humans to natural hazards.

Author

Lowe, John, Barton, Nick, Blockley, Simon, Ramsey, Christopher Bronk, Cullen, Victoria L., Davies, William, Gamble, Clive, Grant, Katharine, Hardiman, Mark, Housley, Rupert, Lane, Christine S., Lee, Sharen, Lewis, Mark, MacLeod, Alison, Menzies, Martin, Müller, Wolfgang, Pollard, Mark, Price, Catherine, Roberts, Andrew P., and Rohling, Eelco J.

Subjects

NEANDERTHALS, VOLCANIC ash, tuff, etc., HUMAN Development Index, UPPER Paleolithic Period, VOLCANIC eruptions, NATURAL disasters

Abstract

Marked changes in human dispersal and development during the Middle to Upper Paleolithic transition have been attributed to massive volcanic eruption and/or severe climatic deterioration. We test this concept using records of volcanic ash layers of the Campanian Ignimbrite eruption dated to ca. 40,000 y ago (40 ka B.P.). The distribution of the Campanian Ignimbrite has been enhanced by the discovery of cryptotephra deposits (volcanic ash layers that are not visible to the naked eye) in archaeological cave sequences. They enable us to synchronize archaeological and paleoclimatic records through the period of transition from Neanderthal to the earliest anatomically modern human populations in Europe. Our results confirm that the combined effects of a major volcanic eruption and severe climatic cooling failed to have lasting impacts on Neanderthals or early modern humans in Europe. We infer that modern humans proved a greater competitive threat to indigenous populations than natural disasters. [ABSTRACT FROM AUTHOR]

Published

2012

3. Towards a dendrochronologically refined date of the Laacher See eruption around 13,000 years ago.

Author

Reinig, Frederick, Cherubini, Paolo, Engels, Stefan, Esper, Jan, Guidobaldi, Giulia, Jöris, Olaf, Lane, Christine, Nievergelt, Daniel, Oppenheimer, Clive, Park, Cornelia, Pfanz, Hardy, Riede, Felix, Schmincke, Hans-Ulrich, Street, Martin, Wacker, Lukas, and Büntgen, Ulf

Subjects

*ANATOMY, *SYNCHRONIZATION, *EXPLOSIVE volcanic eruptions, *ARCHIVES, *RELEVANCE, *CARBON isotopes

Abstract

The precise date of the Laacher See eruption (LSE), central Europe's largest Late Pleistocene volcanic event that occurred around 13,000 years ago, is still unknown. Here, we outline the potential of combined high-resolution dendrochronological, wood anatomical and radiocarbon (14C) measurements, to refine the age of this major Plinian eruption. Based on excavated, subfossil trees that were killed during the explosive LSE and buried under its pyroclastic deposits, we describe how a firm date of the eruption might be achieved, and how the resulting temporal precision would further advance our understanding of the environmental and societal impacts of this event. Moreover, we discuss the relevance of an accurate LSE date for improving the synchronization of European terrestrial and lacustrine Late Glacial to Holocene archives. • Previous age estimates of the Laacher See Eruptions (LSE) around 12,900 years are still diverging and imprecise. • The combination of dendrochronology, wood anatomy, and 14C measurements holds the potential to establish a precise LSE date. • An absolute calendric date of the LSE would improve the synchronization of European Late Glacial to Holocene archives. [ABSTRACT FROM AUTHOR]

Published

2020