Effects of ageing on bioavailability of selenium in soils assessed by diffusive gradients in thin-films and sequential extraction

Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction....

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Published in	Plant and soil Vol. 436; no. 1/2; pp. 159 - 171
Main Authors	Peng, Qin, Li, Jun, Wang, Dan, Wei, Tian-Jiao, Chen, Chang-Er L., Liang, Dong-Li
Format	Journal Article
Language	English
Published	Cham Springer Science + Business Media 01.03.2019 Springer International Publishing Springer Springer Nature B.V
Subjects	Aging Aging (Biology) Bioavailability Biomedical and Life Sciences Brassica rapa chinensis Brassica rapa subsp. chinensis Chestnut desorption Ecology Gypsum Health aspects Life Sciences Methods Plant Physiology Plant Sciences REGULAR ARTICLE Response time roots selenates Selenite selenites Selenium Selenium (Chemical element) Selenium (Nutrient) Selenium compounds Soil investigations Soil properties Soil sampling Soil Science & Conservation Soil treatment Soils Thin films Toxicity DGT Soils Selenite Selenate Bioavailability Passive sampling
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Abstract	Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction. Results Soluble Se was the main fraction (29.3%–61.7%) for selenate-treated soils, and which decreased significantly (52.5% for chestnut soil and 44.2% for black soil) and transformed to less labile fractions with ageing. By contrast, exchangeable Se fraction was the main fraction in selenite-treated soils, which decreased by 38%–71.8% with ageing. The DGT measurement ( C DGT ) of selenate treatment was 1.8–96.7 times higher than that of selenite treatment. Dynamic analysis showed that shorter response time T c (44 s) and higher desorption rate constant k −1 (≥ 1.5E-3 s −1 ) were observed in selenite-treated chestnut soil than black soil, which coincided with the higher Se contents in pak choi planted in chestnut soil than black soil. The opposite result was found for selenate, demonstrating that Se bioavailability was affected by soil properties and Se species. Conclusions This study demonstrated that DGT can describe the changes of Se bioavailability caused by ageing and predict Se uptake by pak choi roots in selenite- or selenate-aged soils.
AbstractList	Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction. Results Soluble Se was the main fraction (29.3%–61.7%) for selenate-treated soils, and which decreased significantly (52.5% for chestnut soil and 44.2% for black soil) and transformed to less labile fractions with ageing. By contrast, exchangeable Se fraction was the main fraction in selenite-treated soils, which decreased by 38%–71.8% with ageing. The DGT measurement ( C DGT ) of selenate treatment was 1.8–96.7 times higher than that of selenite treatment. Dynamic analysis showed that shorter response time T c (44 s) and higher desorption rate constant k −1 (≥ 1.5E-3 s −1 ) were observed in selenite-treated chestnut soil than black soil, which coincided with the higher Se contents in pak choi planted in chestnut soil than black soil. The opposite result was found for selenate, demonstrating that Se bioavailability was affected by soil properties and Se species. Conclusions This study demonstrated that DGT can describe the changes of Se bioavailability caused by ageing and predict Se uptake by pak choi roots in selenite- or selenate-aged soils. BACKGROUND AND AIMS: Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. METHODS: The ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction. RESULTS: Soluble Se was the main fraction (29.3%–61.7%) for selenate-treated soils, and which decreased significantly (52.5% for chestnut soil and 44.2% for black soil) and transformed to less labile fractions with ageing. By contrast, exchangeable Se fraction was the main fraction in selenite-treated soils, which decreased by 38%–71.8% with ageing. The DGT measurement (CDGT) of selenate treatment was 1.8–96.7 times higher than that of selenite treatment. Dynamic analysis showed that shorter response time Tc (44 s) and higher desorption rate constant k₋₁ (≥ 1.5E-3 s⁻¹) were observed in selenite-treated chestnut soil than black soil, which coincided with the higher Se contents in pak choi planted in chestnut soil than black soil. The opposite result was found for selenate, demonstrating that Se bioavailability was affected by soil properties and Se species. CONCLUSIONS: This study demonstrated that DGT can describe the changes of Se bioavailability caused by ageing and predict Se uptake by pak choi roots in selenite- or selenate-aged soils. Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction. Results Soluble Se was the main fraction (29.3%-61.7%) for selenate-treated soils, and which decreased significantly (52.5% for chestnut soil and 44.2% for black soil) and transformed to less labile fractions with ageing. By contrast, exchangeable Se fraction was the main fraction in selenite-treated soils, which decreased by 38%-71.8% with ageing. The DGT measurement (C.sub.DGT) of selenate treatment was 1.8-96.7 times higher than that of selenite treatment. Dynamic analysis showed that shorter response time T.sub.c (44 s) and higher desorption rate constant k.sub.-1 ([greater than or equal to] 1.5E-3 s.sup.-1) were observed in selenite-treated chestnut soil than black soil, which coincided with the higher Se contents in pak choi planted in chestnut soil than black soil. The opposite result was found for selenate, demonstrating that Se bioavailability was affected by soil properties and Se species. Conclusions This study demonstrated that DGT can describe the changes of Se bioavailability caused by ageing and predict Se uptake by pak choi roots in selenite- or selenate-aged soils. Background and aimsAgeing is an important factor for controlling selenium bioavailability and toxicity in soil.MethodsThe ageing processes of selenite and selenate in two soils were systematically investigated by adopting diffusive gradients in thin film technique (DGT) and sequential extraction.ResultsSoluble Se was the main fraction (29.3%–61.7%) for selenate-treated soils, and which decreased significantly (52.5% for chestnut soil and 44.2% for black soil) and transformed to less labile fractions with ageing. By contrast, exchangeable Se fraction was the main fraction in selenite-treated soils, which decreased by 38%–71.8% with ageing. The DGT measurement (CDGT) of selenate treatment was 1.8–96.7 times higher than that of selenite treatment. Dynamic analysis showed that shorter response time Tc (44 s) and higher desorption rate constant k−1 (≥ 1.5E-3 s−1) were observed in selenite-treated chestnut soil than black soil, which coincided with the higher Se contents in pak choi planted in chestnut soil than black soil. The opposite result was found for selenate, demonstrating that Se bioavailability was affected by soil properties and Se species.ConclusionsThis study demonstrated that DGT can describe the changes of Se bioavailability caused by ageing and predict Se uptake by pak choi roots in selenite- or selenate-aged soils.
Audience	Academic
Author	Li, Jun Wei, Tian-Jiao Chen, Chang-Er L. Peng, Qin Liang, Dong-Li Wang, Dan
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Snippet	Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and... Background and aims Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. Methods The ageing processes of selenite and... Background and aimsAgeing is an important factor for controlling selenium bioavailability and toxicity in soil.MethodsThe ageing processes of selenite and... BACKGROUND AND AIMS: Ageing is an important factor for controlling selenium bioavailability and toxicity in soil. METHODS: The ageing processes of selenite and...
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SubjectTerms	Aging Aging (Biology) Bioavailability Biomedical and Life Sciences Brassica rapa chinensis Brassica rapa subsp. chinensis Chestnut desorption Ecology Gypsum Health aspects Life Sciences Methods Plant Physiology Plant Sciences REGULAR ARTICLE Response time roots selenates Selenite selenites Selenium Selenium (Chemical element) Selenium (Nutrient) Selenium compounds Soil investigations Soil properties Soil sampling Soil Science & Conservation Soil treatment Soils Thin films Toxicity
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Title	Effects of ageing on bioavailability of selenium in soils assessed by diffusive gradients in thin-films and sequential extraction
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