14 results on '"Shi, Jiyan"'
Search Results
2. Soil Chromium Accumulation in Industrial Regions across China: Pollution and Health Risk Assessment, Spatial Pattern, and Temporal Trend (2002–2021).
- Author
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Li, Yifan, Pan, Siyi, Wang, Lubin, Jia, Fei, Lu, Feiyu, and Shi, Jiyan
- Subjects
POLLUTION risk assessment ,HEALTH risk assessment ,CHROMIUM ,INDUSTRIAL concentration ,SOIL pollution ,HEXAVALENT chromium ,SOIL salinity - Abstract
This study conducted a nationwide specific assessment of soil chromium (Cr) contamination status in 506 of China's industrial regions. The overall soil Cr concentrations were 0.74–37,967.33 mg/kg, and the soil Cr content in 4.15% of the regions exceeded the reference screening value (2500 mg/kg). Geochemical accumulation index (I
geo ) and monomial potential ecological risk index (E) revealed Cr salt production and tanning were the primary control industries. The non-carcinogenic risks posed by Cr salt production and tanning industries were higher than the national average values, and children were the most vulnerable groups. The heavily polluted regions were mainly located at the Yangtze River Delta, the Bohai Rim, the Pearl River Delta, the Yangtze River Basin, and the Yellow River Basin. The Yangtze River Delta was further identified as the high priority control area based on the class distribution of Igeo and E. Regression analysis showed the soil Cr concentrations in industrial regions increased during 2002–2009 and then turned into a declining trend in 2009–2021. This paper gives detailed insights into soil Cr pollution status in industrial regions across China and the results may serve as references for formulating tailored control measures for different industries and areas. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
3. Chemical forms of manganese in the leaves of manganese hyperaccumulator Phytolacca acinosa Roxb. (Phytolaccaceae)
- Author
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Xu, Xianghua, Shi, Jiyan, Chen, Xincai, Chen, Yingxu, and Hu, Tiandou
- Published
- 2009
4. Distribution and mobility of manganese in the hyperaccumulator plant Phytolacca acinosa Roxb. (Phytolaccaceae)
- Author
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Xu, Xianghua, Shi, Jiyan, Chen, Yingxu, Chen, Xincai, Wang, Hui, and Perera, Anton
- Published
- 2006
5. Impact of sulfur (S) fertilization in paddy soils on copper (Cu) accumulation in rice ( Oryza sativa L.) plants under flooding conditions.
- Author
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Sun, Lijuan, Zheng, Cuiqing, Yang, Jianjun, Peng, Cheng, Xu, Chen, Wang, Yi, Feng, Jiabei, and Shi, Jiyan
- Subjects
SULFUR fertilizers ,COPPER ,SOIL pollution ,BIOAVAILABILITY ,X-ray absorption near edge structure - Abstract
As the biogeochemical cycling of S in soil is closely associated with the mobility and bioavailability of heavy metals, in this study, we investigated the influence of S fertilization (S and SO) in paddy soils on rice growth, iron plaque formation over root surface, and Cu speciation of rice rhizosphere soil under flooding conditions. The dry weight and height of rice plants increased significantly after S fertilization, indicating that S fertilization of Cu-contaminated paddy soils can enhance rice growth. Sulfur fertilization (less than 500 mg/kg) promoted the formation of iron plaque, thus sequestering a large amount of Cu on root surface and decreasing the bioavailability of Cu by inducing transformation of Cu bioavailable fractions (exchangeable, carbonate oxides, or iron and manganese oxide bound to Cu) to Cu bound to organic matter. Copper K-edge X-ray absorption near-edge structure (XANES) revealed that S fertilization increased the percentage of Cu present as CuS and Cu-cysteine in rice rhizosphere soil, thus reducing Cu mobility. As Cu concentration in rice plants decreased and the biomass of rice plants increased after S fertilization, it can be suggested that S fertilization may be an effective approach for managing Cu-contaminated paddy soils. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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6. Multi-element pollution in soil, ground and surface water from abandoned chromate chemical plants: a case study in Hangzhou, China.
- Author
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Zou, Lina, Wang, Shaoxian, Liu, Lei, Hashmi, Muhammad, Tang, Xianjin, and Shi, Jiyan
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SOIL pollution ,GROUNDWATER pollution ,CHROMATES ,CHEMICAL plants & the environment - Abstract
The concentrations, leachability and vertical distributions of chromium (Cr) and other metal elements were determined in soil and the level was also determined in groundwater and surface water around an abandoned chromate chemical plant located in Hangzhou, China. The results showed that Cr, Pb, Zn, Cd, Cu, Hg and As heavily polluted the surface soil and groundwater. However, the surface water from a river near the abandoned chemical plant was not heavily polluted by the aforementioned heavy metals. The leachability of metals was not uniform within different sampling points. The highest concentrations of Cr (170.18 mg/L) and Cr(VI) (130.59 mg/L) in the soil leaching solution were recorded at a depth of 0-20 cm at the warehouse in the center of the plant. However, the attenuation of heavy metals (Cr, Pb, Zn, Cd and Hg) toward the vertical distribution was fast with increasing depth. Our results suggest that the multi-element pollution in soil and water may pose a drastic risk to the environment and human health surrounding those abandoned chemical plants in China and other developing countries with fast urbanization. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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- View/download PDF
7. Spatial variability of bacteria in the rhizosphere of Elsholtzia splendens under Cu contamination.
- Author
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Yuan, Xiaofeng, Luan, Jing, and Shi, Jiyan
- Subjects
BACTERIA ,RHIZOSPHERE microbiology ,COPPER in soils ,SOIL pollution ,CARBON compounds ,SPATIAL variation - Abstract
Elsholtzia splendens is a well-known Cu-tolerant plant; yet, the impact of Cu-contaminated soil on bacterial community in its rhizosphere is not known. We studied the spatial variability of bacteria in the rhizosphere using Cu-contaminated soil with polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) and real-time PCR. In the uncontaminated soil, the content of the dissolved organic carbon (DOC) and bacterial diversity gradually increased in the rhizosphere soil along the root growth direction (from the interface zone to the meristematic zone), while for the Cu-contaminated soil, the highest DOC content and the strongest potential bioavailability of Cu were found in the interface zone, which also had the lowest bacteria diversity. Bacteria diversity was positively correlated with DOC in the uncontaminated soil ( p < 0.01) but not in the contaminated soil. Compared with uncontaminated soil, some species such as Firmicutes only existed in the rhizosphere of contaminated soil, while the very small amount (if any) of some species exists such as Deinococcus- Thermus, indicating that the contaminated environment altered the bacterial composition. Moreover, spatial variation of the bacterial community was found among different soil zones. Real-time PCR confirmed the spatial variation via the gene expression of flagellin ( fliC) and chemotaxis gene ( cheA). The spatial characteristics of cheA expression were consistent with that of DOC and bacterial diversity. In conclusion, we demonstrated that the spatial variation of the bacterial community in the rhizosphere was present, independent of Cu contamination. DOC and Cu toxicity may affect specific gene expressions such as fliC and cheA, resulting in bacterial spatial variation. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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- View/download PDF
8. Differences in the Rhizosphere Microbial Activity and Community Composition of Commelina communis along a Copper Contamination Gradient.
- Author
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Wang Yuan Peng, Li Qing Biao, Lin Qi, Shi JiYan, and Chen YingXu
- Subjects
PHYTOREMEDIATION ,PLANT-soil relationships ,PLANT roots ,SOIL pollution ,SOIL science - Abstract
We studied the effects of copper (Cu) phytoremediation on microbial community composition under laboratory conditions. A Cu accumulator, Commelina communis, was grown on a soil containing different gradients of Cu. Results showed that the biomass of C. communis grown with Cu differed from that of the control. Concentrations of Cu in the shoots of C. communis were 73.6, 160.9, and 319.1 mg kg-1 under 200, 500, and 1000 mg kg-1 Cu treatments, respectively. Polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) fingerprint analysis revealed that additions of Cu decreased the number of bands in the soil with C. communis or without plants. The principal component analysis explained 52.7% of the variance for the different rhizospheres of soil and Cu treatments in the soil samples. These results indicated significant effects on soil bacteria activity and community composition in the rhizosphere of C. communis and provided a basis for further studies of metal-accumulator plant effects on soil microorganisms. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
9. Chromium Distribution, Leachability and Speciation in a Chrome Plating Site.
- Author
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Sun, Jiacong, Luo, Yating, Ye, Jien, Li, Chunhui, and Shi, Jiyan
- Subjects
SOIL pollution ,X-ray photoelectron spectroscopy ,HEXAVALENT chromium ,CHROMIUM ,ECOLOGICAL risk assessment ,CHEMICAL speciation ,SEWAGE purification - Abstract
Hexavalent chromium (Cr(VI)) waste produced by chrome plating activities pollutes the surrounding environment and harms human health. However, information about the chromium (Cr) pollution characteristics of actual electroplating sites is still lacking. In this study, the concentration, leachability and speciation of Cr in soils from a typical chrome plating site were analyzed. Our results showed that this site was severely contaminated by Cr (7.2 to 7735.2 mg/kg) and Cr(VI) reached the mean concentration of 138.7 mg/kg. The spatial distribution of Cr(VI) was related to the plating processes. Chrome plating and sewage treatment areas could be considered as the hot spots of contaminated sites. The vertical distribution of Cr(VI) was mainly affected by soil properties, where the loam layer retained and reduced a large amount of Cr(VI) due to its high content of iron minerals and finer particle fractions. Additionally, the chemical extraction results showed that Cr was mainly in non-residual fractions and the existence of Cr(VI) led to a high leaching toxicity based on the toxicity characteristic leaching procedure (TCLP) results. Moreover, X-ray photoelectron spectroscopy (XPS) results revealed the speciation of Cr in the long-term contaminated soils. A large amount of Cr(VI) was reduced into Cr(III) and mainly existed as Cr(OH)
3 and Cr2 O3 . Furthermore, Cr(VI) tended to precipitate as CaCrO4 and persisted in soils. Therefore, it is necessary to find appropriate strategies to remediate these contaminated soils. Overall, these findings strengthen our understanding of Cr(VI) behaviors and lay a foundation for the future pollution investigation, ecological remediation and risk assessment of sites contaminated by electroplating. [ABSTRACT FROM AUTHOR]- Published
- 2022
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- View/download PDF
10. Derivation of empirical model to predict the accumulation of Pb in rice grain.
- Author
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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
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11. Overestimate of remediation efficiency due to residual sodium persulfate in PAHs contaminated soil and a solution.
- Author
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He, Liping, Tong, Jianhao, Yang, Yuanqiang, Wu, Jianxun, Li, Linqian, Wei, Zhonghua, Long, Wei, Pang, Jingli, and Shi, Jiyan
- Subjects
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SOIL solutions , *SOIL remediation , *SOIL pollution , *SODIUM , *OXIDIZING agents - Abstract
Oxidation remediation is a commonly used technology for PAHs contaminated soil presently, but the overestimate of efficiency due to ongoing remediation by residual oxidants during extraction and testing has not been paid enough attention. In this study, persulfate was activated by Fe(II) to investigate the effects of residual oxidants on PAHs removal during detection process and the elimination effects of adding Na 2 SO 3 and extending sampling time on residual oxidants. Results verified that the residual oxidants removed PAHs in extraction process, making the results lower than the actual values: the detection recovery rate η of ∑PAHs and 3-6 ring PAHs ranged from 24.3% (25% Na 2 S 2 O 8 treatment) to 87.4% (5% Na 2 S 2 O 8 +4/4Fe2+ treatment), 20.1%-99.0%, 28.9%-87.9%, 20.8%-89.4%, and 18.6%-76.9%, respectively. After adding Na 2 SO 3 , the accuracy of detection results increased significantly: the η of ∑PAHs and 3-6 ring PAHs increased to 64.1%-96.5%, 58.8%-95.5%, 73.8%-114.4%, 60.6%-95.6%, and 45.4%-77.1%, respectively. After 49 days of adding oxidants, residual oxidants had no considerable effect on the detection of PAHs, indicating it was appropriate to start soil remediation verification sampling49 days after the remediation was completed. The observed results will help scientific evaluation of the remediation effects of chemical oxidation on organic contaminated soil. [Display omitted] [ABSTRACT FROM AUTHOR]
- Published
- 2022
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12. Nano hydroxyapatite pre-treatment effectively reduces Cd accumulation in rice (Oryza sativa L.) and its impact on paddy microbial communities.
- Author
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Wu, Hanxin, Tong, Jianhao, Jia, Fei, Jiang, Xiaohan, Zhang, Haonan, Wang, Jing, Luo, Yating, Pang, Jingli, and Shi, Jiyan
- Subjects
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MICROBIAL communities , *HYDROXYAPATITE , *SOIL pollution , *PADDY fields , *IRON , *MICROBIAL diversity , *RICE - Abstract
Cadmium (Cd) contamination in paddy soil has become a worldwide concern and severely endangered human health. Nano hydroxyapatite (n-HAP) is a practical material to manage paddy Cd pollution, but its dosage should not be excessive. Based on previous studies, we validated the effect of n-HAP pre-treatment on rice Cd uptake in pot and field experiments. The results indicated that n-HAP pre-treatment effectively restricted Cd translocation in the soil-rice system. In pot experiment, when soil n-HAP concentration was 5000 mg/kg, the Cd content in the grains of n-HAP pre-treated rice was 0.171 mg/kg, decreased by 29.3% compared with normal rice (0.242 mg/kg). In field experiment, when soil n-HAP concentration was 20,000 mg/kg, the Cd content in the grains of n-HAP pre-treated rice was 0.156 mg/kg, decreased by 35.3% compared with normal rice (0.241 mg/kg). The primary mechanism was that n-HAP pre-treatment altered the formation and composition of iron plaque and therefore enhanced the Cd binding ability of iron plaque. The available N and P content and urease activity in paddy field were increased. We further investigated the impact of n-HAP on the diversity and structure of paddy microbial communities. The Chao1 and Shannon diversity indices showed no significant difference. The relative abundance of Actinobacteria and Proteobacteria was significantly decreased by n-HAP, indicating that Cd pollution might be alleviated. Desulfobacterota , Gemmatimonadota , and Geobacteraceae were significantly enriched by n-HAP. The declining relative abundance of Basidiomycota and the increasing relative abundance of other fungal taxa also suggested that n-HAP could alleviate Cd toxicity in soil. [Display omitted] • n-HAP pre-treatment reduced Cd accumulation in rice grains effectively. • n-HAP pre-treatment restricted Cd translocation from root to stem by regulating iron plaque formation and composition. • n-HAP significantly increased available N, P content and urease activity in paddy field. • n-HAP did not significantly affect the abundance and diversity of paddy microbial communities but altered their structure. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
13. Oxalic acid enhances bioremediation of Cr(VI) contaminated soil using Penicillium oxalicum SL2.
- Author
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Long, Bibo, Liao, Lingling, Jia, Fei, Luo, Yating, He, Junyu, Zhang, Wenhua, and Shi, Jiyan
- Subjects
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OXALIC acid , *SOIL pollution , *HEXAVALENT chromium , *BIOREMEDIATION , *SCANNING transmission electron microscopy , *PENICILLIUM - Abstract
Oxalic acid is the most abundant low molecular weight organic acid (LMWOA) in many environments and offers enormous prospects for treating Cr(VI) contamination. In this study, laboratory batch experiments were conducted to estimate the roles of oxalic acid in Cr(VI) removal by Penicillium oxalicum SL2. Oxalic acid changed the initial pH and provided a suitable condition for the growth of strain SL2 when the penicillium was applied to bioremediation of Cr(VI) contamination in alkaline soil. Gompertz model analysis indicated that initial pH affected the lag time of the growth curve of strain SL2. Scanning electron microscopy and scanning transmission X-ray microscopy analysis showed strain SL2 sufficiently contacted with contaminated soil and reduced Cr(VI) to Cr(III) in the hyphae. The results suggested that oxalic acid could enhance the bioremediation efficiency of strain SL2 though improving chromium bioleaching from the contaminated soil and strengthening Cr(VI) removal in the leaching solution. This study provided oxalic acid as a green reagent for stimulating Cr(VI) removal by strain SL2 and would expand knowledge on the roles of LMWOA in Cr(VI) bioremediation. [Display omitted] • Gompertz model could simulate the growth curve of strain SL2 under initial pH5 to pH9. • Growth of strain SL2 had a strong correlation with Cr(VI) removal. • Oxalic acid improved chromium bioleaching by strain SL2 from contaminated soil. • Oxalic acid enhanced Cr(VI) removal by strain SL2 in the leaching solution. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. Impact of S fertilizers on pore-water Cu dynamics and transformation in a contaminated paddy soil with various flooding periods.
- Author
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Yang, Jianjun, Zhu, Shenhai, Zheng, Cuiqing, Sun, Lijuan, Liu, Jin, and Shi, Jiyan
- Subjects
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SOIL pollution , *ENVIRONMENTAL impact analysis , *PADDY fields , *AMMONIUM in soils , *X-ray fluorescence - Abstract
Impact of S fertilization on Cu mobility and transformation in contaminated paddy soils has been little reported. In this study, we investigated the dynamics and transformation of dissolved and colloidal Cu in the pore water of a contaminated paddy soil after applying ammonium sulphate (AS) and sulfur coated urea (SCU) with various flooding periods (1, 7 and 60 days). Compared to the control soil, the AS-treated soil released more colloidal and dissolved Cu over the entire flooding period, while the SCU-treated soil had lower colloidal Cu after 7-day flooding but higher colloidal and dissolved Cu after 60-day flooding. Microscopic X-ray fluorescence (μ-XRF) analysis found a close relationship between Fe and Cu distribution on soil colloids after 60-day flooding, implying the formation of colloidal Fe/Cu sulphide coprecipitates. Cu K-edge X-ray absorption near-edge structure (XANES) spectroscopy directly revealed the transformation of outer-sphere complexed Cu(II) species to Cu(II) sulphide and reduced Cu 2 O in the colloids of S-treated soils after 60-day flooding. These results demonstrated the great influence of S fertilization on pore-water Cu mobility by forming Cu sulphide under flooding conditions, which facilitated our understanding and control of Cu loss in contaminated paddy soils under S fertilization. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
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