Magnetic Properties as Indicators of Cu and Zn Contamination in Soils1
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Cited by (33)
Magnetic susceptibilites of suspended sediment and microplastic abundance in a tropical volcanic estuary
2023, Regional Studies in Marine ScienceRelationships between heavy metal content and magnetic susceptibility in road side loess profiles: A possible way to detect pollution
2019, Quaternary InternationalCitation Excerpt :Reliable mathematical models for estimation of loess magnetic properties are scarce due to the complex deposition mechanisms of heavy metals (Petrovsky et al., 2001; Terhorst et al., 2001; Jin et al., 2003; Lu et al., 2007; Qian et al., 2011; El Baghdadi et al., 2012; Wang et al., 2013; Lachká et al., 2016). Various investigators have pointed out the importance of different variables including soil and loess properties using different statistical approaches for the selection of pertinent properties (Hopke et al., 1980; Hoffmann et al., 1999; Lu et al., 2008; Qian et al., 2011; Karimi et al., 2013; Jaffar et al., 2017). Most studies of loess magnetic properties have focused on the development of linear (Zeeden et al., 2016) and polynomial models (Han et al., 1996; Liu et al., 2013; Song et al., 2014; Dong et al., 2015; Hu et al., 2015; Bayat et al., 2017).
Lithogenic and anthropogenic pollution assessment of Ni, Zn and Pb in surface soils of Mashhad plain, northeastern Iran
2017, CatenaCitation Excerpt :Zn and Pb pollution of urban and industrial areas are considerably higher than that of agricultural or virgin lands (Sterckeman et al., 2000; Imperato et al., 2003; Cicchella et al., 2008; Ordonez et al., 2003). Zn and Pb that result from fuel combustion and wearing or abrasion of tires enhance the content of these elements in the soil (Thorpe and Harrison, 2008; Yesilonis et al., 2008; Sheng-Gao et al., 2012). Zn and Pb are known as the indicators of traffic contamination (Xia et al., 2014).
Impacts of geology and land use on magnetic susceptibility and selected heavy metals in surface soils of Mashhad plain, northeastern Iran
2017, Journal of Applied GeophysicsCitation Excerpt :In recent decades, magnetic properties was commonly used to study soil and sediment contamination with heavy metals (Karimi et al., 2011; Morton-Bermea et al., 2009; Lu et al., 2008).
Spatial distribution of soil magnetic susceptibility and correlation with heavy metal pollution in Kaifeng City, China
2016, CatenaCitation Excerpt :The environmental magnetism technology is increasingly applied as proxy methods for pollution screening and soil monitoring for its simple, sensitive, inexpensive and nondestructive characteristics (Schmidt et al., 2005; Wang and Qin, 2005; Lu and Bai, 2008; D'Emilio et al., 2010; Duan et al., 2010; Karimi et al., 2011). Many studies on magnetic characteristics in urban soils have been conducted mainly in several industrially developed cities including Beijing (Zheng and Zhang, 2008), Shanghai (Hu et al., 2007), Nanjing (Duan et al., 2010), Hangzhou (Lu and Bai, 2006, 2008; Lu et al., 2008), Wuhan (Yang et al., 2007, 2012), Lanzhou (Xia et al., 2011; Wang et al., 2013), Xuzhou (Wang and Qin, 2005; Wang, 2013a, 2013b), Mexico (Morton-Bermea et al., 2009) and Isfahan (Karimi et al., 2011), but less in medium and small sized cities. Kaifeng is a medium-sized city in China, and a tourism developed city with a relatively weak industry.
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Project supported by the National Natural Science Foundation of China (No. 40371056) and the Natural Science Foundation of Zhejiang Province, China (No. R305078).