The relationship between environmental factors and magnetic susceptibility in the Ili loess, Tianshan Mountains, Central Asia

Zeng, Mengxiu; Song, Yougui; Li, Yue; Fu, Chaofeng; Qiang, Xiaoke; Chang, Hong; Zhu, L.; Zhang, Zhiping; Cheng, Liangqing

doi:10.1002/gj.3182

Cited by 11 publications

(3 citation statements)

References 55 publications

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“…Based on a synthesis of the rock magnetic and meteorological data, we define the relationship between pedogenic magnetite and/or maghemite content and precipitation. In addition, combined with previous research in the northern TP (Jia et al, 2013;Zan et al, 2020;Zeng et al, 2018), our findings provide a comprehensive picture of the spatial distribution of precipitation in the TP and its adjacent regions. The results further demonstrate the possibility of using soil magnetic properties to characterize the precipitation distribution across the TP and its adjacent areas, where no long-term climate records and meteorological stations exist.…”

supporting

confidence: 68%

A Combined Rock Magnetic and Meteorological Investigation of the Precipitation Boundary Across the Tibetan Plateau

Ning

Zan

Yang

et al. 2021

Geophysical Research Letters

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The Tibetan Plateau (TP) and its adjacent areas are located in the transitional zone of the high and cold mountainous regions, monsoonal humid regions, and arid regions of Central Asia. The TP is the highest plateau on Earth, with a complex terrain of plateaus, broad basins, high mountains, arid deserts and lakes. Due to its unique geographical location, the TP is influenced by the East Asian and Indian summer monsoons, and the Westerlies circulation (Chen et al., 2019;Machalett et al., 2008). Characterizing and interpreting the precipitation and temperature gradients across this vast region can potentially improve our knowledge of the effects of topography and atmospheric circulation on regional climatic patterns and the origins of dust outbreaks in the Asian interior. However, because of the sparse distribution of meteorological stations in the region, our understanding of the climatic gradients across the TP relies mainly on numerical simulations or satellite data. The climatic boundary (i.e., of precipitation and temperature) across the TP is still debated (

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confidence: 68%

A Combined Rock Magnetic and Meteorological Investigation of the Precipitation Boundary Across the Tibetan Plateau

Ning

Zan

Yang

et al. 2021

Geophysical Research Letters

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“…SOFT mainly reveals the low coercivity magnetic particle content of multidomain and single domain boundary ranges, which closely reveals the concentration of magnetite [35]. The soil samples SOFT in the study area ranged from 588.75 ×10 -5 to 3577.86 ×10 -5 Am 2 /kg with average values of 1368.95 × 10 -5 Am 2 /kg.…”

Section: Magnetic Mineral Typementioning

confidence: 90%

Magnetic Response of Heavy Metal Pollution in Soil of Urban Street Greenbelts

Zhang¹,

Qing²,

Liu³

et al. 2022

Pol. J. Environ. Stud.

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The magnetic characteristics and heavy metal elements of surface soil samples in Baoji urban street greenbelts were systematically analyzed in order to explore the feasibility of using magnetic parameters to indicate heavy metal pollution in urban street greenbelts soil. The results of the study showed that ferromagnetic minerals with low-coercivity and coarse magnetic grains dominated magnetic properties of the samples. The average values of low-frequency magnetic susceptibility (χ lf ) was 200.65×10 -8 m 3 /kg, which was much higher than the background value. The spatial variation of magnetic mineral content was remarkable, with high levels observed in heavy traffic areas and industrial gathering areas, and low content in areas heavily covered by short vegetation, which was basically consistent delineated by pollution load index (PLI). Magnetic parameters χ lf , saturated isothermal remanent magnetization (SIRM) and soft remanent magnetization (SOFT) can be used as the effective indicators for monitoring heavy metals pollution in soil of urban street greenbelts.

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“…The experiments indicate that the process of loess MS enhancement in Central Asia differs from that on the CLP, consistent with other geochemical and magnetism investigations. [19][20][21]35,39,56,57 These results help in understanding the paleoclimatic signicance and paleoenvironmental reconstruction in the Central Asia arid area.…”

Section: Discussionmentioning

confidence: 99%

Effect of chemical pretreatments on magnetic susceptibility of loess from Central Asia and the Chinese Loess Plateau

Song

Wang

et al. 2018

RSC Adv.

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The relationship between environmental factors and magnetic susceptibility in the Ili loess, Tianshan Mountains, Central Asia

Cited by 11 publications

References 55 publications

A Combined Rock Magnetic and Meteorological Investigation of the Precipitation Boundary Across the Tibetan Plateau

A Combined Rock Magnetic and Meteorological Investigation of the Precipitation Boundary Across the Tibetan Plateau

Magnetic Response of Heavy Metal Pollution in Soil of Urban Street Greenbelts

Effect of chemical pretreatments on magnetic susceptibility of loess from Central Asia and the Chinese Loess Plateau

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