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North Atlantic controlled depositional cycles in MIS 5e layered sediments from the deep Dead Sea basin (2017)

Palchan, Daniel ; Neugebauer, Ina ; Amitai, Yael ; [et al.]

Cambridge University Press

In: Quaternary Research. 2017; 87(1): 168-179. Published 2017 Jan 01. doi: 10.1017/qua.2016.10.

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Publication Date: 2017-01-01

Description: The drilled Inter-Continental Drilling Project core at the deeps of the Dead Sea reveals thick sequences of halite deposits from the last interglacial period, reflecting prevailing arid conditions in the lake’s watershed. Here, we examine sequences of intercalating evaporates (halite or gypsum) and fine-detritus laminae and apply petrographic, micro-X-ray fluorescence, and statistical tools to establish in high-temporal resolution the hydroclimatic controls on the sedimentation in the last interglacial Dead Sea. The time series of the thickness of the best-recovered core sections of the layered halite, detritus, and gypsum reveals periodicities of ~11, 7–8, and 4–5 yr, pointing to a North Atlantic control and possibly solar influence on the hydrology of the Dead Sea watershed during the regionally arid period of the last interglacial period. Similar periodicities were detected in the last glacial and modern sedimentary sequences of the Dead Sea and other archives of the central Levant, indicating a persistent impact of the solar cycles on regional hydrology, possibly through the effects of the North Atlantic Oscillation.

Print ISSN: 0033-5894

Electronic ISSN: 1096-0287

Topics: Geography , Geosciences

Published by Cambridge University Press

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Control of wind strength and frequency in the Aral Sea basin during the late Holocene (2007)

Sorrel, Philippe ; Oberhänsli, Hedi ; Boroffka, Nikolaus ; [et al.]

Cambridge University Press

In: Quaternary Research. 2007; 67(3): 371-382. Published 2007 May 01. doi: 10.1016/j.yqres.2006.12.003.

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Publication Date: 2007-05-01

Description: Changing content of detrital input in laminated sediments traced by XRF scanning and microfacies analyses reflect prominent variations in sedimentation processes in the Aral Sea. A high-resolution record of titanium from a core retrieved in the northwestern Large Aral Sea allows a continuous reconstruction of wind strength and frequency in western Central Asia for the past 1500 yr. During AD 450–700, AD 1210–1265, AD 1350–1750 and AD 1800–1975, detrital inputs (bearing titanium) are high, documenting an enhanced early spring atmospheric circulation associated with an increase in intensity of the Siberian High pressure system over Central Asia. In contrast, lower titanium content during AD 1750–1800 and AD 1980–1985 reflects a diminished influence of the Siberian High during early spring with a reduced atmospheric circulation. A moderate circulation characterizes the time period AD 700–1150. Unprecedented weakened atmospheric circulation over western Central Asia are inferred during ca. AD 1180–1210 and AD 1265–1310 with a considerable decrease in dust storm frequency, sedimentation rates, lamination thickness and detrital inputs (screened at 40-μm resolution). Our results are concurrent with changes in the intensity of the Siberian High during the past 1400 yr as reported in the GISP2 Ice Core from Greenland.

Print ISSN: 0033-5894

Electronic ISSN: 1096-0287

Topics: Geography , Geosciences

Published by Cambridge University Press

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The Iberian–Roman Humid Period (2600–1600 cal yr BP) in the Zoñar Lake varve record (Andalucía, southern Spain) (2009)

Martín-Puertas, Celia ; Valero-Garcés, Blas L. ; Brauer, Achim ; [et al.]

Cambridge University Press

In: Quaternary Research. 2009; 71(2): 108-120. Published 2009 Mar 01. doi: 10.1016/j.yqres.2008.10.004.

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Publication Date: 2009-03-01

Description: The Iberian–Roman Humid Period (IRHP, 2600–1600 cal yr BP), is the most humid phase of the last 4000 yr in southern Spain as recorded in the sedimentary sequence of Zoñar Lake (37°29′00″N, 4°41′22″ W, 300 m a.s.l.). A varve chronology supported by several AMS 14C dates allows study of the lake evolution at annual scale in response to human impact and climate changes. There are four climate phases within this period: i) gradual transition (2600–2500 yr ago, 650–550 BC) from a previous arid period; ii) the most humid interval during the Iberian–Early Roman Epoch (2500–2140 yr ago, 550–190 BC); iii) an arid interval during the Roman Empire Epoch (2140–1800 yr ago, 190 BC AD 150); and iv) a humid period synchronous with the decline of the Roman Empire (1800–1600 yr ago, AD 150–350). Varve thickness and geochemical proxies show a multi-decadal cyclicity similar to modern North Atlantic Oscillation (NAO) (60, 20 years) and solar variability cycles (11 yr). The timing and the structure of this humid period is similar to that described in Eastern Mediterranean and northern European sites and supports the same large-scale climate control for northern latitudes and the Mediterranean region.

Print ISSN: 0033-5894

Electronic ISSN: 1096-0287

Topics: Geography , Geosciences

Published by Cambridge University Press

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REY Patterns and Their Natural Anomalies in Waters and Brines: The Correlation of Gd and Y Anomalies (2021)

Möller, Peter ; Dulski, Peter ; De Lucia, Marco

Molecular Diversity Preservation International

In: Hydrology. 2021; 8(3): 116. Published 2021 Aug 06. doi: 10.3390/hydrology8030116.

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Publication Date: 2021-08-06

Description: Rare earths and yttrium (REY) distribution patterns of the hydrosphere reveal systematic correlations of Gd and Y anomalies besides the non-correlated redox-dependent Ce and Eu anomalies. Eu anomalies are inherited by dissolution of feldspars in igneous rocks, whereas Ce, Gd and Y anomalies develop in aqueous systems in contact with minerals and amorphous matter. Natural, positive Gd and Y anomalies in REY patterns characterize high-salinity fluids from the Dead Sea, Israel/Jordan, the Great Salt Lake, USA, the Aral Sea, Kazakhstan/Uzbekistan, ground- and surface water worldwide. Extreme Gd anomalies mostly originate from anthropogenic sources. The correlation of Gd and Y anomalies at low temperature in water bodies differ from geothermal ones. In nature, dynamic systems prevail in which either solids settle in water columns or water moves through permeable sediments or sedimentary rocks. In both cases, the anomalies in water develop due to repeated equilibration with solid matter. Thus, these anomalies provide information about the hydrological history of seawater, fresh groundwater and continental brines. When migrating, the interaction of aqueous phases with mineral surfaces leads to increasing anomalies because the more hydrophillic Gd and Y preferentially remain in the aqueous phase compared to their nearest neighbors. The correlation coefficients between Gd and Y anomalies in groundwater is 0.5–0.9. In lakes and oceans, it is about 0.1–0.8, under anomalous conditions it can increase to 1.

Electronic ISSN: 2306-5338

Topics: Architecture, Civil Engineering, Surveying , Geography

Published by Molecular Diversity Preservation International

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