2021
DOI: 10.1016/j.chemosphere.2020.129428
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Fe–Mn oxide modified biochar decreases phthalate uptake and improves grain quality of wheat grown in phthalate-contaminated fluvo-aquic soil

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Cited by 15 publications
(7 citation statements)
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“…18-20.9% (20.3-49.3%), 24.4-49.7% (18.4-36.7%), and 4.22-17.7% (10.1-43.2%) at the seedling, booting and ripening stages, respectively, while FM application declined DEHP content in leaves (and roots) by 16.3-30.6% (34.4-70.1%), 30.0-60.8% (30.2-60.5%), and 16.3-30.6% (17.4-45.0%) at the seedling, booting and ripening stages, respectively, compared to the control. The results indicated that BC and FM supplements effectively improved the DEHP accumulation in wheat tissues because of their relatively high surface area and alkaline nature (Gao et al 2021). This result was similar to the previous study, which indicated that the addition of BC to soil enhanced the adsorption of DEHP and decreased the desorption and flow activity in the soil, thus reducing the degradation of DEHP in soil and its uptake by crop plants (Zhang et al 2014).…”
Section: Resultssupporting
confidence: 85%
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“…18-20.9% (20.3-49.3%), 24.4-49.7% (18.4-36.7%), and 4.22-17.7% (10.1-43.2%) at the seedling, booting and ripening stages, respectively, while FM application declined DEHP content in leaves (and roots) by 16.3-30.6% (34.4-70.1%), 30.0-60.8% (30.2-60.5%), and 16.3-30.6% (17.4-45.0%) at the seedling, booting and ripening stages, respectively, compared to the control. The results indicated that BC and FM supplements effectively improved the DEHP accumulation in wheat tissues because of their relatively high surface area and alkaline nature (Gao et al 2021). This result was similar to the previous study, which indicated that the addition of BC to soil enhanced the adsorption of DEHP and decreased the desorption and flow activity in the soil, thus reducing the degradation of DEHP in soil and its uptake by crop plants (Zhang et al 2014).…”
Section: Resultssupporting
confidence: 85%
“…Original Paper https://doi.org/10.17221/130/2022-PSE mobility and degradation of PAEs in soils (Gao et al 2021). Similarly, He et al (2016) observed that bamboo sawdust and rice straw BC prolonged the degradation of DEHP in soil and successfully prevented its uptake by B. chinensis L. Importantly, the application of FM produced a better reduction of DEHP bioavailability than did the BC treatments.…”
Section: Plant Soil and Environmentmentioning
confidence: 96%
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“…The interaction between soil and FMBC the connectivity, pore size, and volume shape of FMBC, which can furtherly impact the water-holding capacity and adsorption properties of FMBC (Chang et al 2021). Gao et al reported that DBP and DEHP accumulations in grains decrease by 38.2-74.3% and 25.9-65.6%, 27.6-69.8% and 22.9-67.9%, 19.9-65.6% and 33.2-73.9%, respectively with an increase in FMBC, when the initial concentration of PAEs is 10 mg kg − 1 , 20 mg kg − 1 , 40 mg kg − 1 , respectively (Gao et al 2021b). This shows that FMBC is more effective at decreasing DBP and DEHP uptake.…”
Section: Organic Pollutantsmentioning
confidence: 94%
“…The soil micronutrients such as zinc and iron have direct and major effects on biosynthesis and concentration of secondary metabolites, thus influencing the essential oil content and chemical composition of medicinal herbs [17][18][19] . In previous reports, using the nutrient-enriched biochar as a soil amendment and an alternative slow release fertilizer was beneficial for the plants nutrition [20][21][22] . Biochar-based nanocomposites with particular physicochemical properties and sodium adsorption capacity can positively affect nutrient absorption rate in poor-nutrient soils that finally lead to stress tolerance of plants 6,8 .…”
mentioning
confidence: 99%