12 results on '"Shi, Jiyan"'
Search Results
2. Impact of sulfur (S) fertilization in paddy soils on copper (Cu) accumulation in rice (Oryza sativa L.) plants under flooding conditions
- Author
-
Sun, Lijuan, Zheng, Cuiqing, Yang, Jianjun, Peng, Cheng, Xu, Chen, Wang, Yi, Feng, Jiabei, and Shi, Jiyan
- Published
- 2016
- Full Text
- View/download PDF
3. Sorption and genotoxicity of sediment-associated pentachlorophenol and pyrene influenced by crop residue ash
- Author
-
Cui, Xinyi, Wang, Hailong, Lou, Liping, Chen, Yingxu, Yu, Yunlong, Shi, Jiyan, Xu, Lei, and Khan, Mohammad I.
- Published
- 2009
- Full Text
- View/download PDF
4. Does the compositional change of soil organic matter in the rhizosphere and bulk soil of tea plants induced by tea polyphenols correlate with Pb bioavailability?
- Author
-
Duan, Dechao, Wang, Meng, Yu, Mingge, Long, Dongyan, Ullah, Naveed, Liu, Tingting, Shi, Jiyan, and Chen, Yingxu
- Subjects
HUMUS ,RHIZOSPHERE ,TEA -- Composition ,POLYPHENOLS ,SOIL microbiology ,BIOAVAILABILITY ,HUMIC acid content of soils - Abstract
Purpose: Soil organic matter (SOM) plays a vital role in controlling metal bioavailability. However, the relationship between SOM and its fractions, including water-soluble substances (WSS), fulvic acid (FA), humic acid (HA), and soil microbial biomass (SMB), to metal bioavailability in plants has not been thoroughly investigated. This study examined the compositional change of SOM after tea polyphenols (TPs) were added to the soil and its correlation with Pb bioavailability. Materials and methods: Ultisol samples were collected from Fuyang, spiked with two levels (0 and 300 mg kg DW) of Pb, and aged for 30 days. Four uniform seedlings were transplanted to each plastic pot, which were filled with 3 kg of air-dried soil. After successful transplantation, three levels (0, 300, and 600 mg kg DW) of TPs were amended as irrigation solution for the pots. The Pb concentrations in different tissues of the tea plants were determined after 6 months. SOM, WSS, FA, HA, and SMB were extracted and quantified using a Multi N/C Total Organic Carbon Analyser. Results and discussion: Adding TPs to Pb-polluted soils alleviated Pb toxicity to microorganisms and increased SMB and the rhizosphere effect. The rhizosphere SOM was lower than bulk SOM in Pb-unspiked soils, while the opposite results were observed in Pb-spiked soils. A similar inconsistency for HA in the rhizosphere and bulk soil between Pb-unspiked and Pb-spiked soils might explain the difference in SOM. FA increased with the addition of TPs in both the rhizosphere and bulk soils, which might be the result of TP transformation. Positive correlations are present between the compositions of rhizosphere SOM and Pb in different tissues of the tea plant. SMB correlated negatively with Pb in young leaves and stems. Compared to rhizosphere soil, SOM components in bulk soil were less strongly correlated with Pb in tea plants. Conclusions: Addition of TPs to soil changes the components of SOM and Pb bioavailability. SOM and its fractions, including WSS, FA, HA, and SMB, show a close relationship to Pb in different tissues of the tea plants. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
5. Assessment of phenanthrene bioavailability in aged and unaged soils by mild extraction.
- Author
-
Khan, Muhammad, Cheema, Sardar, Shen, Chaofeng, Zhang, Congkai, Tang, Xianjin, Shi, Jiyan, Chen, Xincai, Park, Joonhong, and Chen, Yingxu
- Subjects
PHENANTHRENE ,BIOAVAILABILITY ,BIOCHEMISTRY ,SOILS ,POLLUTANTS - Abstract
It has become apparent that the threat of an organic pollutant in soil is directly related to its bioavailable fraction and that the use of total contaminant concentrations as a measure of potential contaminant exposure to plants or soil organisms is inappropriate. In light of this, non-exhaustive extraction techniques are being investigated to assess their appropriateness in determining bioavailability. To find a suitable and rapid extraction method to predict phenanthrene bioavailability, multiple extraction techniques (i.e., mild hydroxypropyl- β-cyclodextrin (HPCD) and organic solvents extraction) were investigated in soil spiked to a range of phenanthrene levels (i.e., 1.12, 8.52, 73, 136, and 335 μg g dry soil). The bioaccumulation of phenanthrene in earthworm ( Eisenia fetida) was used as the reference system for bioavailability. Correlation results for phenanthrene suggested that mild HPCD extraction was a better method to predict bioavailability of phenanthrene in soil compared with organic solvents extraction. Aged (i.e., 150 days) and fresh (i.e., 0 day) soil samples were used to evaluate the extraction efficiency and the effect of soil contact time on the availability of phenanthrene. The percentage of phenanthrene accumulated by earthworms and percent recoveries by mild extractants changed significantly with aging time. Thus, aging significantly reduced the earthworm uptake and chemical extractability of phenanthrene. In general, among organic extractants, methanol showed recoveries comparable to those of mild HPCD for both aged and unaged soil matrices. Hence, this extractant can be suitable after HPCD to evaluate risk of contaminated soils. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
6. Derivation of empirical model to predict the accumulation of Pb in rice grain.
- Author
-
Xu, Qiao, Gao, Yu, Wu, Xiaoshuai, Ye, Jien, Ren, Xinyue, Zhou, Zhen, Cai, Qiongyao, Wu, Hanxin, Pang, Jingli, Luo, Yating, and Shi, Jiyan
- Subjects
LEAD toxicology ,SOIL pollution ,X-ray absorption ,RHIZOSPHERE ,GAUSSIAN distribution ,LEAD in soils ,RICE - Abstract
Lead contamination in soil has become a worldwide threat on food security and human health. To assess the Pb bioavailability and evaluate the safe use of low Pb polluted soil for food production, the speciation of Pb in 19 types of paddy soil were investigated by chemical extraction and X-ray absorption near-edge structure (XANES), and the uptake and accumulation characteristics of Pb in different soil-rice systems were investigated. Moreover, an empirical model was established to predict the content of Pb in rice grain, and field validation was conduct to evaluate model performance. Results showed that the proportion of available Pb in different soil satisfied normal distribution N (0.47, 0.23). Pb(CH 3 COO) 2 , GSH-Pb, PbO, PbHPO 4 and Pb 3 (PO 4) 2 performed well in characterizing the speciation of Pb in different rhizosphere soils, and PbHPO 4 accounted for more than 70%. The exceedance of Pb in grain in CK, 0.5X and 1X treatment were 10.5%, 36.1% and 42.1%, respectively, and the accumulation of Pb in grain was significantly related with Pb content in root. Carbonate and organic bound Pb in rhizosphere soil were two major Pb species that influenced the accumulation of Pb in rice. Moreover, content of total Pb, clay and SOM performed well in predicting the Pb content in grain, both for pot and field samples. Above all, our predicting model worked well in evaluating Pb accumulation in rice grain among low polluted paddy farmland (Total Pb < 300 mg/kg). Image 1 • Edible Pb content was positively related to the carbonate and organic bounded Pb in rhizosphere soil. • The specific speciation of Pb in different rhizosphere soils was clarified using XANES. • The content of total Pb, clay and SOM performed well in predicting the Pb content in rice grain. • Our model worked well in evaluating Pb content in rice grain among low polluted farmland. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
7. Wheat (Triticum aestivum L.) grains uptake of lead (Pb), transfer factors and prediction models for various types of soils from China.
- Author
-
Wu, Xiaoshuai, Cai, Qiongyao, Xu, Qiao, Zhou, Zhen, and Shi, Jiyan
- Subjects
SOIL classification ,PREDICTION models ,GRAIN ,SODIC soils ,ACID soils ,SOIL acidity ,WHEAT - Abstract
Lead (Pb) contaminated in farmlands has become a deep threat to global food security and human health. In this study, the bioavailability of Pb in 18 types of soil to wheat (Triticum aestivum L.) grains were investigated, and reliable empirical models of Pb in wheat grains were established based on soil properties. The results showed that the average bioconcentration factor (BCF grain/total-Pb) in acidic soils was approximately 3.30 times than that in alkaline soils (ANOVA P < 0.05). Significant positive relationships between wheat grain Pb concentration and soil total Pb or EDTA extractable Pb were presented through the results of simple linear regressions (P < 0.001). The stepwise multiple linear regression models indicated that soil pH and soil total Pb were determined to be the two most reliable and reasonable factors in predicting wheat grain Pb concentration, with 83.8% explanation of variation. Soil total Pb compared with EDTA extractable Pb was applied to better improve prediction models in describing Pb transfer from soils to wheat grains. Furthermore, grouped models divided into two parts with pH of 7.5 also generated well prediction in wheat grain Pb concentration. Our prediction models were successfully verified within 95% prediction intervals for published literature data (including other wheat varieties). Moreover, the results indicated that ungrouped models performed better in predicting accuracy within 400 mg kg
−1 of soil total Pb, and grouped models showed better extrapolation stability when Pb in soil were overly high. Our results in the study were conduce to evaluate food security of Pb in contaminated agricultural soils. Image 1 • Leading factors are further determined of Pb transfer in soil-wheat system. • Soil total Pb and pH explain 83.8% variation of Pb in wheat grain. • Grouped models divided as pH 7.5 well extrapolate in wheat grain Pb. • Ungrouped models have better prediction accuracy and complement with grouped models. [ABSTRACT FROM AUTHOR]- Published
- 2020
- Full Text
- View/download PDF
8. The response of arsenic bioavailability and microbial community in paddy soil with the application of sulfur fertilizers.
- Author
-
Tang, Xianjin, Li, Luyao, Wu, Chuan, Khan, Muhammed Imran, Manzoor, Maria, Zou, Lina, and Shi, Jiyan
- Subjects
SULFUR fertilizers ,SULFUR in soils ,FERTILIZER application ,SULFATE-reducing bacteria ,MICROBIAL communities ,IRON fertilizers - Abstract
Arsenic (As) has been recognized as one of the most toxic metalloids present in the surface soil contaminating food chain and posing threat to human life. Sulfur (S) fertilizer is often supplied in paddy soil for rice growth, but its impact on As mobility and related bacteria remains poorly understood. In this study, a pot experiment was set up with two different types of sulfur treatments (element sulfur and Na 2 SO 4) to evaluate the effect of sulfur fertilizers on As speciation in porewater, As fractions in soil, As accumulation in rice plants. Besides, rhizosphere bacterial composition and functional genes that might influence As mobility were also studied. The results revealed that the addition of 150 mg/kg Na 2 SO 4 decreased As(III) and As(V) concentrations in soil porewater at maturation stage by 77% and 64%, respectively. With the same sulfur content, Na 2 SO 4 was more effective than element sulfur. The addition of sulfur fertilizers promoted rice growth and reduced As accumulation in shoots, further reduced As translocation from root to above-ground parts by 39–59%. The addition of sulfur fertilizers had little effect on genes involved in As metabolism. However, the relative abundance of Fe(III) and sulfate reduction related genera increased with the addition of 150 mg/kg Na 2 SO 4 , consistent with the increase of Fe(III) reducing bacteria Geobacteraceae and sulfate reducing gene dsrA. The phenomenon likely influenced the decrease of As concentrations in soil porewater and rice uptake. The outcomes indicate that promoting Fe- and S- reducing bacteria in the rhizosphere by sulfur fertilizers may be one way to reduce As risk in the soil-rice system. Image 1 • Addition of sulfur fertilizers decreased As(III) in soil solution and reduced the mobility of As. • Addition of sulfur fertilizers decreased As accumulation in rice shoots. • Application of Na 2 SO 4 increased the relative abundance of Fe(III) and sulfate reducing related bacteria. • Application of Na 2 SO 4 did not affect the relative abundance of as functional genes significantly. Sulfur fertilizers decreases As bioavailability likely via increasing the rhizospheric Fe(III) and sulfate reducing bacteria. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
9. Effects of RAMEB and/or mechanical mixing on the bioavailability and biodegradation of PCBs in soil/slurry.
- Author
-
Hu, Jinxing, Wang, Yalin, Su, Xiaomei, Yu, Chunna, Qin, Zhihui, Wang, Hui, Hashmi, Muhammad Z., Shi, Jiyan, and Shen, Chaofeng
- Subjects
- *
BIOAVAILABILITY , *BIODEGRADATION , *POLYCHLORINATED biphenyls , *SLURRY , *CYCLODEXTRINS - Abstract
Microbial remediation is preferred as a clean and cost-effective method for restoring environments polluted by organics. But the biodegradation rates of hydrophobic organic contaminants (HOCs) are usually extremely restricted by their low bioavailability, especially in soil. Here, a physical method (mechanical mixing) and a chemical method (randomly methylated- β -cyclodextrins, RAMEB) were adopted to improve the bioavailability and biodegradation of polychlorinated biphenyls (PCBs) of an aged soil. The bioavailability of tri-CBs was increased by adding RAMEB in soil/slurry or assisting mechanical mixing in slurry, but these methods had no effects on the bioavailability of tetra-CBs and high chlorinated PCBs (Cl > 4). The degradation rate of tri-CBs could be obviously enhanced by adding RAMEB in soil or assisting mechanical mixing in slurry. The highest removal amount of tri-CBs reached 43.8% in 100 d with a first-order decay kinetics constant of 0.0059 d −1 . But the removal of tetra-CBs and high chlorinated PCBs (Cl > 4) were not significant in all mesocosms, possibly due to the lack or weakness of the native degrading microflora. Based on the analysis of the richness and diversity of bacterial communities, the characteristics of the heatmap and the variation of bphC copy numbers in the soil/slurry mesocosms, it could be inferred that there was no obvious corresponding relationship between the variation of the bacterial communities and the physical/chemical measures. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
10. Long-term and high-bioavailable potentially toxic elements (PTEs) strongly influence the microbiota in electroplating sites.
- Author
-
Luo, Yating, Pang, Jingli, Li, Chunhui, Sun, Jiacong, Xu, Qiao, Ye, Jien, Wu, Hanxin, Wan, Yuanyan, and Shi, Jiyan
- Published
- 2022
- Full Text
- View/download PDF
11. Lead availability and soil microbial community composition in rice rhizosphere affected by thiosulfate addition
- Author
-
Lin, Huirong, Chen, Xincai, Hu, Shaoping, Shen, Chaofeng, Chen, Guangcun, Shi, Jiyan, and Chen, Yingxu
- Subjects
- *
LEAD in soils , *BIOAVAILABILITY , *SOIL microbial ecology , *RICE , *RHIZOSPHERE , *SULFUR in soils , *THIOSULFATES , *POLYMERASE chain reaction - Abstract
Abstract: A pot experiment was carried out to study the sulfur (S) and lead (Pb) interaction and its impact on soil microbial community composition in rice rhizosphere soil under flooded conditions. Paddy soil was treated with a Pb gradient with and without thiosulfate addition and then planted with rice. The increasing addition of Pb resulted in plant yield reduction and high, phytotoxic concentrations of Pb in roots with relatively low concentration of Pb in shoots. Under the impact of thiosulfate, Pb uptake in plants and NH4OAc extractable Pb did not increase dramatically. PCR-DGGE experiment suggested that S action led to new bands. Specific clones (T3 and T6) found in S addition soils had high similarity to Thiobacillus, which indicated relatively high rates of potential S oxidation. S addition did not affect the availability Pb and the composition of soil microbial community. S addition is not a suitable amendatory tool of phytoremediation for Pb polluted soil. [Copyright &y& Elsevier]
- Published
- 2010
- Full Text
- View/download PDF
12. Bioavailability and translocation of metal oxide nanoparticles in the soil-rice plant system.
- Author
-
Peng, Cheng, Tong, Hong, Shen, Chensi, Sun, Lijuan, Yuan, Peng, He, Miao, and Shi, Jiyan
- Abstract
To determine the bioavailability and translocation of metal oxide nanoparticles (MONPs) in the soil-rice plant system, we examined the accumulation and micro-distribution of ZnO nanoparticles (NPs), CuO NPs and CeO 2 NPs (50, 100 and 500 mg/kg) in the paddy soil and rice plants under flooded condition for 30 days using single-step chemical extraction and diffusive gradients in thin films (DGT) technique combined with micro X-ray fluorescence spectroscopy (μ-XRF). The results show that various MONPs changed the soil properties, especially the redox potential was enhanced to −165.33 to −75.33 mV compared to the control. The extraction efficiency of Zn, Cu and Ce in the paddy soil from high to low was EDTA, DTPA, CaCl 2 and DGT. Moreover, exposure to 500 mg/kg CuO NPs and CeO 2 NPs induced the primary accumulation of Cu and Ce elements in rice roots as high as 235.48 mg Cu/kg and 164.84 mg Ce/kg, respectively, while the Zn concentration in shoots was up to 313.18 mg/kg under highest ZnO NPs with a 1.5 of translocation factor. The effect of MONPs on the plant growth was mainly related to the chemical species and solubility of MONPs. Micro-XRF analysis shows that Zn was mostly located in the root cortex while Cu was primarily accumulated in the root exodermis and few Ce distributed in the root. Pearson correlation coefficients indicate that only DTPA-extracted metals in soil were significantly and well correlated to the Zn, Cu and Ce accumulation in rice seedlings exposed to MONPs. This work is of great significance for evaluating the environmental risks of MONPs in soil and ensuring the safety of agricultural products. Unlabelled Image • Various MONPs altered the soil properties, especially the redox potential. • DTPA was more suitable for evaluating the bioavailability of MONPs. • DGT could hardly extract heavy metals from the MONP-amended soil. • ZnO NPs caused much higher accumulation and translocation of Zn in the rice plants. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.