Rock magnetism in loess from the middle Tian Shan: Implications for paleoenvironmental interpretations of magnetic properties of loess deposits in Central Asia

Zan, Jinbo; Fang, Xiaomin; Nie, Junsheng; Teng, Xiaohua; Yang, Shengli

doi:10.1029/2012gc004251

Cited by 19 publications

(13 citation statements)

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“…Moreover, recent major element chemical analyses of the Baishui eolian sequence confirmed that the ratios of MgO/Al 2 O 3 , Na 2 O/Al 2 O 3 , and K 2 O/Al 2 O 3 increased significantly after 0.6 Ma, probably because of the increasing input of fresh silicates, which was closely related to active tectonics and intensive erosion under global cooling (Xiong et al, ). In addition, loess deposits from the northern slope of the West Kunlun Mountains and the northern slope of the middle Tian Shan, where paleosols are very weakly developed due to the low precipitation, and detrital magnetic minerals provide the main control on the magnetic properties of the eolian deposits; both exhibit a significant increase in magnetic susceptibility values at around 0.6–0.5 Ma (Zan et al, , ). Furthermore, the increase in rock magnetic concentration parameters is accompanied by a coarsening of the magnetic grain size and a “softening” of the magnetic mineralogy (i.e., an increased representation of low‐coercivity ferrimagnetic minerals), which may be associated with the increasing input of fresh detritus from the surrounding mountains due to intensive physical weathering and erosional processes.…”

Section: Discussionmentioning

confidence: 99%

Long‐Term Variations in the Lithogenic Susceptibility of Chinese Eolian Deposits Since the Late Pliocene

Zan

Fang

et al. 2019

Geophysical Research Letters

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In contrast to the extensive investigation of the pedogenic magnetic component, the origin of long‐term variations in the lithogenic susceptibility of Chinese eolian deposits has rarely been investigated. In this study, we conducted a linear correlation analysis of rock magnetic parameters of representative loess‐red clay sections from the Chinese Loess Plateau. We found that lithogenic susceptibility of the deposits exhibited three dramatic increases, at ~2.75, 0.6, and 0.13 Ma. We argue that intensive erosion or physical weathering in the NE Tibetan Plateau, induced by late Pliocene global cooling and tectonic uplift, may be responsible for the increases in lithogenic susceptibility over the past 3.6 Ma. Furthermore, the magnetic properties of water‐reworked sediments deviate from the linear regression line for the eolian deposits of the Chinese Loess Plateau, suggesting that regression analysis may provide a rapid method for distinguishing between sediments of eolian and fluvial origin in the region.

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Section: Discussionmentioning

confidence: 99%

Long‐Term Variations in the Lithogenic Susceptibility of Chinese Eolian Deposits Since the Late Pliocene

Zan

Fang

et al. 2019

Geophysical Research Letters

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“…However, often there is only a negligible contribution of ultrafine, pedogenicallyproduced magnetic grains to the magnetic susceptibility signal (see e.g. Zan et al 2012 and references therein). Measurement of magnetic susceptibility of loessic deposits has quickly become an effective tool of correlation between marine and terrestrial records both in international (Thompson and Oldfield 1986;Heller et al 1987;Kukla et al 1988) as well as in Hungarian practice (Horváth and Bradák 2004).…”

Section: Introductionmentioning

confidence: 99%

“…Zan et al 2012 and references therein). Measurement of magnetic susceptibility of loessic deposits has quickly become an effective tool of correlation between marine and terrestrial records both in international (Thompson and Oldfield 1986;Heller et al 1987;Kukla et al 1988) as well as in Hungarian practice (Horváth and Bradák 2004). Anisotropy of magnetic susceptibility within the magnetic minerals of loess sediments provides additional information relating to paleoenvironmental conditions and wind direction (Bradák 2009).…”

Section: Introductionmentioning

confidence: 99%

“…Environmental magnetism in loessic sediments is based on the enhancement of magnetic minerals, primarily iron oxides and hydroxides, through either pedogenesis (Babanin et al 1975;Maher 1984;Singer and Fine 1989;Heller and Evans 1995;Maher 1998;Evans and Heller 2001;Hambach et al 2008;Hambach 2010) or the accumulation of coarse eolian ferrimagnetic minerals (Zan et al 2012). Since pedogenesis is controlled by climate, tectonism, dust input as well as geomorphic position, variations in the intensity of laboratory-induced remanent magnetization and magnetic susceptibility, which result from this process, can be linked to orbitally-tuned records of climatic change from marine archives (Heller and Liu 1982, 1984.…”

Section: Introductionmentioning

confidence: 99%

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Climatic fluctuations inferred for the Middle and Late Pleniglacial (MIS 2) based on high-resolution (∼ca. 20 y) preliminary environmental magnetic investigation of the loess section of the Madaras brickyard (Hungary)

Sümegi

Gulyás

Csökmei

et al. 2012

Central European Geology

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The Madaras brickyard section found at the northernmost fringe of the Backa loess plateau is one of the thickest and best-developed last glacial loess sequences of Central Europe. In the present work high-resolution magnetic susceptibility measurements (at 2 cm) were implemented on samples from the 10 m-section corresponding to a period between 29 and 11 KY cal b2K. One aim was to compare the findings with the ice core records of northern Greenland in order to establish a high-resolution paleoclimatic record for the last climatic cycle and with findings documented in other biotic and abiotic proxies so far. Our results revealed a strong variability of loess/paleosol formation during MIS 2. Millennial time-scale climatic events that characterize the North Atlantic during the last climatic cycle have been identified. From 29 ka up to the start of the LGM, the recorded MS values show a weak, negative correlation with the temperature proxy, and a weak positive correlation with the dust concentration of Greenland. A strong correlation was observed with the local paleotemperatures. Local climatic factors must have had a more prominent effect here on loess/paleosol development than the climate shifts over Greenland. During the LGM the same pattern is seen with a stronger

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“…All of these observations indicate that the medium‐coarse silt fraction provides the main control on the magnetic properties of the samples. This result is consistent with previous rock magnetic investigations of bulk samples, which suggest that the magnetic properties of Central Asian loess and paleosol deposits are dominated by larger PSD and MD ferrimagnetic grains [ Xia et al ., ; Song et al ., ; Zan et al ., ; Liu et al ., ]. However, we also note that the >75 μm fraction exhibits the minimum values of χ, χ ARM , and SIRM in all of the particle‐sized fractions and its contribution to bulk magnetic properties is negligible.…”

Section: Discussionmentioning

confidence: 99%

Bulk particle size distribution and magnetic properties of particle‐sized fractions from loess and paleosol samples in Central Asia

Zan

Fang

Yang

et al. 2015

Geochem Geophys Geosyst

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Recent studies demonstrate that particle size separation based on gravitational settling and detailed rock magnetic measurements of the resulting fractionated samples constitutes an effective approach to evaluating the relative contributions of pedogenic and detrital components in the loess and paleosol sequences on the Chinese Loess Plateau. So far, however, similar work has not been undertaken on the loess deposits in Central Asia. In this paper, 17 loess and paleosol samples from three representative loess sections in Central Asia were separated into four grain size fractions, and then systematic rock magnetic measurements were made on the fractions. Our results demonstrate that the content of the <4 lm fraction in the Central Asian loess deposits is relatively low and that the samples generally have a unimodal particle distribution with a peak in the medium-coarse silt range. We find no significant difference between the particle size distributions obtained by the laser diffraction and the pipette and wet sieving methods.Rock magnetic studies further demonstrate that the medium-coarse silt fraction (e.g., the 20-75 lm fraction) provides the main control on the magnetic properties of the loess and paleosol samples in Central Asia. The contribution of pedogenically produced superparamagnetic (SP) and stable single-domain (SD) magnetic particles to the bulk magnetic properties is very limited. In addition, the coarsest fraction (>75 lm) exhibits the minimum values of v, v ARM , and SIRM, demonstrating that the concentrations of ferrimagnetic grains are not positively correlated with the bulk particle size in the Central Asian loess deposits.

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Rock magnetism in loess from the middle Tian Shan: Implications for paleoenvironmental interpretations of magnetic properties of loess deposits in Central Asia

Cited by 19 publications

References 56 publications

Long‐Term Variations in the Lithogenic Susceptibility of Chinese Eolian Deposits Since the Late Pliocene

Long‐Term Variations in the Lithogenic Susceptibility of Chinese Eolian Deposits Since the Late Pliocene

Climatic fluctuations inferred for the Middle and Late Pleniglacial (MIS 2) based on high-resolution (∼ca. 20 y) preliminary environmental magnetic investigation of the loess section of the Madaras brickyard (Hungary)

Bulk particle size distribution and magnetic properties of particle‐sized fractions from loess and paleosol samples in Central Asia

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