Your search keyword '"Bo-Han Liao"' showing total 91 results

1. [Effect of Citric Acid and Mowing on Enhancing the Remediation of Cadmium Contaminated Soil by Napier Grass (

Author

Qi, Tang, Gang-Fan, Wu, Jiao-Feng, Gu, Hang, Zhou, Peng, Zeng, and Bo-Han, Liao

Subjects

Pennisetum, Soil, Biodegradation, Environmental, Soil Pollutants, Plants, Citric Acid, Cadmium

Abstract

A pot experiment was conducted to investigate the effects of citric acid application and mowing frequency on the remediation of cadmium (Cd) contaminated soil by napier grass (

Published

2022

2. Tolerance capacities of Broussonetia papyrifera to heavy metal(loid)s and its phytoremediation potential of the contaminated soil

Author

Zhaohui Guo, Bo-Han Liao, Hang Zhou, Peng Zeng, Jiao-Feng Gu, and Xiyuan Xiao

Subjects

Antioxidant, biology, Chemistry, medicine.medical_treatment, food and beverages, Biomass, Plant Science, Broussonetia, biology.organism_classification, Pollution, Soil contamination, Phytoremediation, Horticulture, Catalase, Shoot, biology.protein, medicine, Environmental Chemistry, Woody plant

Abstract

Broussonetia papyrifera, is a promising fast-growing woody plant for the phytoremediation of heavy metal(loid) (HM)-contaminated soil. In this study, a greenhouse experiment was conducted to explore the tolerance capacities of B. papyrifera and its phytoremediation potential in the HM-contaminated soil. The results indicated that B. papyrifera could effectively decrease malondialdehyde (MDA) content by enhancing the antioxidant enzyme activities along with the cultivation in the HM-contaminated soil. Significant (p

Published

2021

3. [Effects of Phosphorus Sufficiency and Deficiency on Cadmium Uptake and Transportation by Rice]

Author

Wen-Tao, Tan, Yang, Huo, Hang, Zhou, Yin-Yan, Qiu, Peng, Zeng, Jiao-Feng, Gu, and Bo-Han, Liao

Subjects

Chlorophyll A, Soil Pollutants, Oryza, Phosphorus, Cadmium

Abstract

Phosphorus (P) is an essential nutrient element for crop growth. The effects of P surplus or deficit on Cd absorption and transport in rice in Cd-polluted farmland is not clear. The effects of P deficiency and P sufficiency on Cd uptake, transport, and accumulation in rice under Cd stress were investigated by applying different levels of phosphorus (NaH

Published

2022

4. The Fe3O4-modified biochar reduces arsenic availability in soil and arsenic accumulation in indica rice (Oryza sativa L.)

Author

Xiao Yang, Juan Liu, Yao Yao, Li-Juan Li, Kang-Wen Huang, Bo-Han Liao, Xiulan Yan, Jiao-Feng Gu, Yaoyu Zhou, Jing-Yi Zhang, and Hang Zhou

Subjects

Oryza sativa, Chemistry, Environmental remediation, Health, Toxicology and Mutagenesis, Amendment, food and beverages, chemistry.chemical_element, General Medicine, 010501 environmental sciences, 01 natural sciences, Pollution, Husk, Horticulture, Biochar, Cation-exchange capacity, Environmental Chemistry, Brown rice, Arsenic, 0105 earth and related environmental sciences

Abstract

Arsenic (As)-contaminated paddy soil could result in elevated levels of As in rice plants and sequentially harm human health. The Fe3O4-modified biochar (NBC-Fe) prepared by the coprecipitation method was applied in a pot experiment to investigate its effect on mobility and bioavailability of As in soil and to reduce As accumulation in rice tissues (brown rice, husks, spikelets, leaves, stems, and roots). Compared with non-application (CK), application of NBC-Fe significantly increased the cation exchange capacity (CEC), decreased As availability, and raised the As concentration of crystalline hydrous oxide–bound fraction in the soil. The addition of 0.05–1.6% (w/w) NBC-Fe significantly reduced the As concentrations in brown rice by 9.4–47.3%, which was lower than the level set by the National Food Safety Standards of China (0.2 mg/kg). The NBC-Fe treatment decreased As concentrations in iron plaque (DCB-As), and the DCB-As had the very significant correlations (P

Published

2021

5. Adsorption Characteristics and Mechanisms of Fe-Mn Oxide Modified Biochar for Pb(II) in Wastewater

Author

Shang-Feng Tang, Hang Zhou, Wen-Tao Tan, Jun-Guo Huang, Peng Zeng, Jiao-Feng Gu, and Bo-Han Liao

Subjects

Kinetics, Lead, Manganese Compounds, Health, Toxicology and Mutagenesis, Charcoal, Public Health, Environmental and Occupational Health, Oxides, Adsorption, Fe-Mn oxide composite, biochar, wastewater, lead, adsorption mechanism, Organic Chemicals, Wastewater, Water Pollutants, Chemical

Abstract

This study prepared iron-manganese oxide-modified biochar (FM-BC) by impregnating rice straw biochar (BC) with a mixed solution of ferric nitrate and potassium permanganate. The effects of pH, FM-BC dosage, interference of coexisting ions, adsorption time, incipient Pb(II) concentration, and temperature on the adsorption of Pb(II) by FM-BC were investigated. Moreover, the Pb(II) adsorption mechanism of FM-BC was analyzed using a series of characterization techniques. The results showed that the Fe-Mn oxide composite modification significantly promoted the physical and chemical functions of the biochar surface and the adsorption capacity of Pb(II). The specific surface area of FM-BC was 18.20 times larger than that of BC, and the maximum Pb(II) adsorption capacity reached 165.88 mg/g. Adsorption kinetic tests showed that the adsorption of Pb(II) by FM-BC was based on the pseudo-second-order kinetic model, which indicated that the adsorption process was mainly governed by chemical adsorption. The isothermal adsorption of Pb(II) by FM-BC conformed to the Langmuir model, indicating that the adsorption process was spontaneous and endothermic. Characterization analyses (Fourier transform infrared spectroscopy and X-ray photoelectron spectroscopy) showed that the adsorption mechanism of Pb(II) by FM-BC was mainly via electrostatic adsorption, chemical precipitation, complexation, ion exchange, and the transformation of Mn2O3 into MnO2. Therefore, FM-BC is a promising adsorbent for Pb(II) removal from wastewater.

Published

2022

6. Health risk assessment of Cd pollution in irrigated paddy field system: A field investigation in Hunan Province, China

Author

Xiao Deng, Xia Dong, Jing Huang, Jian Long, Pei-Qin Peng, Hong-Bo Hou, Kai Jiang, Bo-Han Liao, and Hang Zhou

Subjects

Pollution, chemistry.chemical_classification, 021110 strategic, defence & security studies, Cadmium, Health risk assessment, Health, Toxicology and Mutagenesis, Ecological Modeling, media_common.quotation_subject, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, System a, chemistry, Agronomy, Paddy field, Environmental science, Organic matter, China, media_common

Abstract

Paddy crops cadmium (Cd) pollution has received widespread attention. Here, we assessed levels of Cd and organic matter fractions in sediments and paddy system of 19 paddy fields that were located ...

Published

2020

7. Dynamic Responses of Soil Enzymes at Key Growth Stages in Rice after the in Situ Remediation of Paddy Soil Contaminated with Cadmium and Arsenic

Author

Yi Jiang, Xuan-Tao Yi, Meng-Yu Liu, Bei-bei Liu, Hang Zhou, Peng Zeng, Bo-Han Liao, and Jiao-Feng Gu

Subjects

History, Environmental Engineering, Polymers and Plastics, Iron, Acid Phosphatase, Oryza, Catalase, Pollution, Urease, Industrial and Manufacturing Engineering, Arsenic, Soil, Environmental Chemistry, Soil Pollutants, Calcium, Business and International Management, Fertilizers, Waste Management and Disposal, Cadmium

Abstract

The practical application of in situ remediation techniques requires an understanding of the dynamic changes in soil enzyme activity as indicators of soil fertility and health. Experiments were carried out in paddy soils co-contaminated with cadmium (Cd) and arsenic (As) at low (L) and high (H) levels. A calcium and iron (CaFe)-based amendment (limestone + iron powder + silicon fertilizer + calcium‑magnesium-phosphate fertilizer) was applied to the soil at concentrations of 0, 450, and 900 g·m

Published

2022

8. Increasing Phosphorus Inhibits the Retention and Isolation of Cadmium by Iron Plaque and Promotes Cadmium Accumulation in Rice Plants

Author

Gu Jiaofeng, Huo Yang, Peng ZENG, Bo-Han Liao, and Hang ZHOU

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

9. Simultaneous alleviation of Cd availability in contaminated soil and accumulation in rice (Oryza sativa L.) by Fe-Mn oxide-modified biochar

Author

Wen-Tao, Tan, Hang, Zhou, Shang-Feng, Tang, Qiong, Chen, Xia, Zhou, Xin-Hui, Liu, Peng, Zeng, Jiao-Feng, Gu, and Bo-Han, Liao

Subjects

History, Environmental Engineering, Polymers and Plastics, Oryza, Oxides, Pollution, Industrial and Manufacturing Engineering, Soil, Charcoal, Soil Pollutants, Environmental Chemistry, Organic Chemicals, Business and International Management, Waste Management and Disposal, Cadmium

Abstract

Fe-Mn oxide-modified biochar (BC-FM) was used to remediate Cd-contaminated soil and mitigate Cd accumulation in rice. The roles of Fe and Mn in soil Cd immobilization and in controlling Cd uptake by rice were investigated via X-ray photoelectron spectroscopy (XPS) characterization and chemical analysis. Fe and Mn loaded on BC-FM increased the removal efficiencies of CaCl

Published

2023

10. Facilitation of Morus alba L. intercropped with Sedum alfredii H. and Arundo donax L. on soil contaminated with potentially toxic metals

Author

Zhaohui Guo, Bo-Han Liao, Hang Zhou, Chi Peng, Jiao-Feng Gu, Xiyuan Xiao, and Peng Zeng

Subjects

Environmental Engineering, Environmental remediation, Health, Toxicology and Mutagenesis, Biomass, Poaceae, Plant Roots, Sedum, Soil, Environmental Chemistry, Soil Pollutants, Hyperaccumulator, biology, Public Health, Environmental and Occupational Health, Arundo donax, Intercropping, General Medicine, General Chemistry, biology.organism_classification, Pollution, Phytoremediation, Biodegradation, Environmental, Agronomy, Sedum alfredii, Morus, Woody plant, Cadmium

Abstract

Tree-herb intercropping is a prospective approach for the ecological remediation of soil contaminated with potentially toxic metals (PTMs). In this study, the facilitation and microbial community response of woody plant Morus alba L. intercropped with Cd/Zn hyperaccumulator Sedum alfredii H. and pioneer plant Arundo donax L. were carried out in the PTM-contaminated soil. The results indicated that the intercropping system can improve M. alba L. growth, as well as increase its PTMs uptake. The dried biomass of M. alba L. in the intercropping system was increased observably (p 0.05) by 55.1%. Meanwhile, the contents of chlorophyll in M. alba L. leaves, PTMs contents in M. alba L. roots, and the relative abundance of Rhizobiaceae, Singulisphaera, Isosphaeraceae, and Arthrobacter in the M. alba L. rhizosphere were also notably (p 0.05) enhanced. Meanwhile, the interactions of microorganisms in the intercropped plants rhizosphere might contribute to improving the biological quality of the contaminated soil. Soil sucrase and acid phosphatase activities in the intercropping system were significantly (p 0.05) increased by 97.03% and 34.91% relative to the control. Furthermore, in the intercropping system, 93.61%, 61.30%, and 79.18% of Cd, Pb, and Zn were extracted by S. alfredii H., 72.16% of Cu was extracted by A. donax L., and 46.38% of Mn was extracted by M. alba L., which indicated that the extraction amounts of PTMs among the intercropped plants were relatively compensated. The results suggested that the tree-herb intercropping might increase the coexistence of plants and facilitate the adaptability for ecological remediation of PTM-contaminated soils.

Published

2021

11. Co-application of water management and foliar spraying silicon to reduce cadmium and arsenic uptake in rice: A two-year field experiment

Author

Bo-Han Liao, Jiao-Feng Gu, Hang Zhou, Peng Zeng, and Bin-Yun Wei

Subjects

Cadmium, 2019-20 coronavirus outbreak, Silicon, Environmental Engineering, Moisture, Chemistry, Field experiment, food and beverages, chemistry.chemical_element, Water, Oryza, Pollution, Bioavailability, Arsenic, Soil, Animal science, Water Supply, Environmental Chemistry, Paddy soils, Soil Pollutants, Brown rice, Waste Management and Disposal

Abstract

Water management is an effective measure for the control of cadmium (Cd) and arsenic (As) in situ uptake and transport in rice. In this study, the effects of the co-application of foliar spraying silicon (Si) and water management on Cd and As uptake and transport in rice were studied under paddy soils that were seriously co-contaminated with Cd and As with a two-year field experiment. The results showed that the co-application of water management and foliar spraying Si could effectively decrease the bioavailability of Cd and As in soil and reduce the uptake and transport of Cd and As in rice. The co-application of water management and foliar spraying Si treatments decreased the exchangeable and TCLP extractable Cd and As contents in the soil. Especially for moisture at the maturing stage combined with foliar spraying Si treatment (MMS), the exchangeable and TCLP extractable Cd and As contents were significantly decreased by 48.49%-55.14% and 45.50%-54.67%, and 41.95%-56.73% and 37.80%-46.76% in the two seasons, respectively. The moisture at the maturing stage treatment significantly decreased the Cd and As contents in brown rice by 44.26%-48.59% and 23.90%-38.16% in the two seasons relative to the control, respectively. Furthermore, MMS treatment simultaneously inhibited Cd and As transport and accumulation in rice among all co-application treatments. The translocation factor (TF)stem-brown rice of Cd, TFstem-leaf of As, and TFstem-brown rice of As values in the MMS treatment were significantly decreased as compared with the MM treatment. Furthermore, both the Cd and As contents in brown rice under the MMS treatment significantly decreased by 15.33%-30.74% and 33.84%-40.80%, respectively, in the two seasons. The results suggested that foliar spraying Si combined with moisture at the maturing stage might be a promising measure to synchronously inhibit the transport and accumulation of Cd and As in rice.

Published

2021

12. Cadmium accumulation and bioavailability in paddy soil under different water regimes for different growth stages of rice (Oryza sativa L.)

Author

Runyu Jia, Min Zeng, Qianqian Wang, Hang Zhou, Bo-Han Liao, Tao Tian, Jiao-Feng Gu, and Hongcheng Li

Subjects

0106 biological sciences, Cadmium, Irrigation, Oryza sativa, Moisture, Crop yield, Soil Science, chemistry.chemical_element, 04 agricultural and veterinary sciences, Plant Science, 01 natural sciences, Soil contamination, chemistry, Agronomy, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Brown rice, Cultivar, 010606 plant biology & botany

Abstract

Cadmium (Cd) is a ubiquitous environmental pollutant, and rice (Oryza sativa L.) is the main staple food in China. Water regimes are promising, controllable, and environment-friendly agricultural measures for remediation Cd contaminated soil. The optimum water regime for ensuring high rice yield with low Cd contents in brown rice was investigated. A pot experiment was conducted to study the effects of Cd migration and accumulation from paddy soil to rice plants under four water regimes with three growth stages of two rice cultivars, ‘Xiangwanxian 12’ (X12) and ‘Weiyou 46’ (W46) grown in a polluted soil with 5 mg kg−1 of Cd. The relationship between Cd accumulation amounts in rice plant and soil Eh was also investigated. The four regimes were moisture throughout growth (M), moisture before the filling stage and flooding after filling (M-F), flooding before filling and moisture after filling (F-M), and continual flooding (F). Water regimes effectively reduced Cd accumulation in rice at the three growth stages, whereas the filling stage was suggested to be as the key stage for interventions to prevent Cd transport and accumulation. Compared with M, the M-F, F-M, and F regimes significantly reduced Cd contents of rice tissues (root, stem, husk, and brown rice) at the maturity stage. Under the M, F-M, M-F, and F regimes, Cd contents were 2.17, 2.10, 0.21, 0.06 mg kg−1 in X12 brown rice and 3.27, 0.47, 0.19, 0.10 mg kg−1 in W46 brown rice, respectively. Importantly, Cd contents of brown rice of X12 (0.06 mg kg−1 under regime F) and W46 (0.19 mg kg−1 under regime M-F and 0.10 mg kg−1 under regime F) did not exceed China’s food safety standard of 0.20 mg kg−1 (GB 2762–2017). Moreover, there were significant positive exponential relationships between soil Eh and Cd accumulation amounts in belowground and aboveground parts of rice. The M-F regime (W46) and F regime (X12) could ensure high rice yield with low Cd contents in brown rice and could be recommended as the irrigation management in rice production. Simultaneously, keeping soil Eh under 50 mV is also necessary after the rice filling stage.

Published

2019

13. Cadmium and arsenic accumulation during the rice growth period under in situ remediation

Author

Pei-qin Peng, Min Zeng, Zhiming Liu, Hui-ling Tang, Wen-Tao Yang, Bo-Han Liao, Hang Zhou, and Jiao-Feng Gu

Subjects

China, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Amendment, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Arsenic, Soil, Spectroscopy, Fourier Transform Infrared, Biochar, Soil Pollutants, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Cadmium, Aqueous solution, Oryza sativa, Chemistry, Extraction (chemistry), Public Health, Environmental and Occupational Health, food and beverages, Oryza, General Medicine, Hydrogen-Ion Concentration, Pollution, Charcoal, Environmental chemistry, Zeolites, Brown rice, Edible Grain

Abstract

Rice (Oryza sativa L.) planted in cadmium (Cd)- and arsenic (As)-contaminated soil is considered the main source of dietary Cd and As intake for humans in Southeast Asia and thereby poses a threat to human health. Minimizing the transfer of these pollutants to rice grain is an urgent task for environmental researchers. The main objective of this study was to investigate the effects and the mechanisms of a combined amendment (hydroxyapatite + zeolite + biochar, HZB) on decreasing Cd and As accumulation in rice. In situ remediation and aqueous solution adsorption experiments were conducted. The results showed that after application of HZB, Cd and As concentrations of the exchangeable fraction and TCLP extraction in soil decreased with the growth of rice plants. Cd concentrations in rice tissues were decreased at the tillering, filling and maturing stages after in situ remediation, while As concentrations in rice tissues were decreased only at the maturing stage. When 8 kg·plot−1 (9000 kg ha−1) HZB was applied, concentrations of Cd and inorganic As in brown rice were decreased to 0.18 and 0.16 mg kg−1, respectively, lower than the levels permissible for grain in China, i.e., 0.2 mg kg−1. Application of HZB reduced Cd accumulation in rice tissues, and the suppression of Cd accumulation was significantly greater than that of As. Furthermore, HZB significantly increased rice grain yield. An aqueous solution adsorption experiment demonstrated that HZB could adsorb and covalently bind Cd and As (V) via -OH, -COOH, -Si-O-Si and CO32- groups to produce carboxylates, silicates and carbonates, thereby promoting in situ immobilization of Cd and As in soil solution.

Published

2019

14. Effects of soil properties on the Cd threshold in typical paddy soils using BCR sequential extraction

Author

Hong-Bo Hou, Xianqing Ding, Qi Chen, Jian Long, Xin-Yang Li, Pei-Qin Peng, and Bo-Han Liao

Subjects

021110 strategic, defence & security studies, Cadmium, Health, Toxicology and Mutagenesis, Ecological Modeling, Extraction (chemistry), 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, Soil type, Pollution, Soil quality, chemistry, Agronomy, Agricultural land, Paddy soils, Environmental science, Soil properties

Abstract

Soil quality standards used for agricultural land do not fully consider the effect of soil properties on cadmium (Cd) uptake by crops. A pot experiment with six types of soil derived from two typic...

Published

2019

15. Nano-Fe

Author

Jing-Yi, Zhang, Hang, Zhou, Peng, Zeng, Shi-Long, Wang, Wen-Jun, Yang, Fang, Huang, Yang, Huo, Shu-Ning, Yu, Jiao-Feng, Gu, and Bo-Han, Liao

Subjects

Soil, Charcoal, Iron, Soil Pollutants, Oryza, Plant Roots, Cadmium

Abstract

Rice as a paddy field crops, iron-containing materials application could induce its iron plaque formation, thereby affecting cadmium (Cd) transportation in the rhizosphere and its uptake in root. In this study, a hydroponic experiment was conducted to investigate the effects of three exogenous iron materials, namely nano-Fe

Published

2021

16. [Regulation Control of a Tribasic Amendment on the Chemical Fractions of Cd and As in Paddy Soil and Their Accumulation in Rice]

Author

Yi, Jiang, Ya, Liu, Jiao-Feng, Gu, Shi-Tong, Yang, Xiong, Zeng, Xuan-Ning, Wang, Hang, Zhou, and Bo-Han, Liao

Abstract

A pot experiment was conducted to identify the effect of a tribasic amendment (limestone+diatomite+ferric sulfate, LDF) on chemical fractions of Cd and As in paddy soils and their accumulation in brown rice. LDF was set to seven levels (0, 0.5, 1.0, 2.0, 4.0, 8.0, and 16.0 g·kg

Published

2020

17. Enhancing Cd(II) adsorption on rice straw biochar by modification of iron and manganese oxides

Author

Wen-Tao TAN, Hang ZHOU, Shang-Feng TANG, Peng ZENG, Jiao-Feng GU, and Bo-Han LIAO

Subjects

History, Manganese, Polymers and Plastics, Iron, Health, Toxicology and Mutagenesis, Oryza, Oxides, General Medicine, Toxicology, Pollution, Industrial and Manufacturing Engineering, Kinetics, Charcoal, Adsorption, Business and International Management, Water Pollutants, Chemical, Cadmium

Abstract

Metal oxide-modified biochar showed excellent adsorption performance in wastewater treatment. Iron nitrate and potassium permanganate were oxidative modifiers through which oxygen-containing groups and iron-manganese oxides could be introduced into biochar. In this study, iron-manganese (Fe-Mn) oxide-modified biochar (BC-FM) was synthesized using rice straw biochar, and the adsorption process, removal effect, and the mechanism of cadmium (Cd) adsorption on BC-FM in wastewater treatment were explored through batch adsorption experiments and characterization (SEM, BET, FTIR, XRD, and XPS). Adsorption kinetics showed that the maximum adsorption capacity of BC-FM for Cd(II) was 120.77 mg/g at 298 K, which was approximately 1.5-10 times the amount of adsorption capacity for Cd(II) by potassium-modified or manganese-modified biochar as mentioned in the literature. The Cd(II) adsorption of BC-FM was well fit by the pseudo-second-order adsorption and Langmuir models, and it was a spontaneous and endothermic process. Adsorption was mainly controlled via a chemical adsorption mechanism. Moreover, BC-FM could maintain a Cd removal rate of approximately 50% even when reused three times. Cd(II) capture by BC-FM was facilitated by coprecipitation, surface complexation, electrostatic attraction, and cation-π interaction. Additionally, the loaded Fe-Mn oxides also played an important role in the removal of Cd(II) by redox reaction and ion exchange in BC-FM. The results suggested that BC-FM could be used as an efficient adsorbent for treating Cd-contaminated wastewater.

Published

2022

18. [Key Stage of As Accumulation in Rice Under As Stress at Different Growth Stages]

Author

Peng-Hui, Deng, Ya-Qin, Cai, Hang, Zhou, Ya, Liu, Wen-Jun, Yang, Jiao-Feng, Gu, and Bo-Han, Liao

Subjects

Soil, Oryza, Biomass

Abstract

The absorption and accumulation of As at different stages of rice growth are significantly different. To study the key growth stages of As accumulation in brown rice and to determine the contribution of As accumulation at different growth stages to As contribution in brown rice, a rice hydroponics experiment was carried out by adding external As during the different rice growth stages: tillering stage (30 d), jointing stage (16 d), booting stage (13 d), filling stage (17 d), dough stage (15 d), maturity stage (13 d), and full growth period (104 d). The results showed that: ① As stress at different growth stages had a significant effect on the biomass of rice plants. In comparison with the control CK, the treatments of As stress with five single-stages decreased the rice biomass, except during the tillering stage. Among these treatments, although the As stress at booting stage had the lowest rice biomass, the biomass of all the rice plants were higher than that for As stress in the full growth period. ② The content of As in brown rice for all the treatments of As stress at six single-stages, ranging from 0.08-0.24 mg ·kg

Published

2020

19. [Effects of Different Treatments with Water Management Combined with Leaf Spraying Silicon Fertilizer on Cd Accumulation in Rice]

Author

Bin-Yun, Wei, Hang, Zhou, Jia-Wei, Liu, Jing-Yi, Zhang, Fang, Huang, Yang, Huo, Yu-Dan, Hu, Jiao-Feng, Gu, Jun, Liu, and Bo-Han, Liao

Subjects

Plant Leaves, Silicon, Soil, Water Supply, Soil Pollutants, Water, Oryza, Fertilizers, Cadmium

Abstract

A field experiment involving eight treatments with water management combined with leaf spraying silicon fertilizer was conducted in a paddy field heavily contaminated with Cd (2.83 mg·kg

Published

2020

20. [Key Growth Stage of Pb Accumulation in Rice Through a Hydroponic Experiment with Pb Stress]

Author

Yu-Dan, Hu, Hang, Zhou, Jiao-Feng, Gu, Yang, Huo, Peng-Hui, Deng, Bin-Yun, Wei, Jun, Liu, and Bo-Han, Liao

Subjects

Plant Leaves, Soil, Hydroponics, Lead, Soil Pollutants, Oryza, Biomass

Abstract

Pb accumulation in rice varies significantly at different growth stages. In this study, a hydroponic experiment was conducted to study the effects of exogenous Pb stress on Pb accumulation and transportation in rice plants and determine the key rice growth stages of Pb accumulation and their contribution to the Pb content in brown rice. For the hydroponic experiment, 0.5 mg ·L

Published

2020

21. Combined amendment reduces soil Cd availability and rice Cd accumulation in three consecutive rice planting seasons

Author

Jing-Yi Zhang, Zhi-Guang Sun, Zhaohui Guo, Fang Huang, Yi Hongwei, Shi-Long Wang, Wenjun Yang, Bo-Han Liao, Hang Zhou, Shiping Shan, Jiao-Feng Gu, and Min Zeng

Subjects

Environmental Engineering, Amendment, Growing season, 010501 environmental sciences, Biology, 01 natural sciences, Persistence (computer science), Soil, Animal science, Soil pH, Environmental Chemistry, Soil Pollutants, Health risk, 0105 earth and related environmental sciences, General Environmental Science, food and beverages, Sowing, Oryza, 04 agricultural and veterinary sciences, General Medicine, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Paddy field, Brown rice, Seasons, Cadmium

Abstract

The scientific application of stabilized materials has been considered an effective method for the in situ remediation of Cd-contaminated soil. This study aimed to investigate the persistence of the effect of a combined amendment of limestone and sepiolite (LS) on soil Cd availability and accumulation in rice grown in a mildly Cd-contaminated paddy field (0.45 mg/kg of Cd) over three consecutive rice seasons. 1125–4500 kg/ha of LS was applied to the soil before the first rice planting season and 562.5–2250 kg/ha of LS was supplemented before the third rice planting season. The application of LS (1125–4500 kg/ha) increased the soil pH by 0.44–1.09, 0.18–0.53, and 0.42–0.68 in the first, second, and third season, respectively, and decreased the soil acid-extractable Cd content by 18.2–36.4%, 17.7–33.5%, and 9.6–17.6%. LS application significantly decreased the Cd contents in the rice tissues. The application of 4500 kg/ha of LS decreased the Cd content in brown rice to below the National Food Limit Standard of 0.2 mg/kg (GB 2762-2017) in the three consecutive rice seasons. However, the effect of LS on the soil-rice system was significantly weakened in the third season. The supplementary application of 562.5–2250 kg/ha of LS further decreased the Cd content in brown rice by 26.1–56.5% and decreased the health risk index by 23.7–43.8%. Therefore, it was recommended to apply 4500 kg/ha of LS in the first season and to supplement 2250 kg/ha of LS in the third season to effectively guarantee the clean production of rice in three consecutive rice seasons.

Published

2020

22. Effect of Zero-Valent Iron on Arsenic Uptake by Rice (Oryza sativa L.) and its Relationship with Iron, Arsenic, and Phosphorus in Soil and Iron Plaque

Author

Li-Qiong Hu, Bo-Han Liao, Hang Zhou, Ming Lei, and Min Zeng

Subjects

Zerovalent iron, Environmental Engineering, Oryza sativa, Chemistry, Ecological Modeling, Phosphorus, food and beverages, chemistry.chemical_element, 010501 environmental sciences, Straw, 01 natural sciences, Pollution, Husk, Adsorption, Environmental chemistry, Environmental Chemistry, Rice plant, Arsenic, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

An outdoor pot experiment was conducted to study the control effects of zero-valent iron (Fe0) on arsenic (As) uptake by rice (Oryza sativa L.) and its relationship with iron (Fe), As, and phosphorus (P) in soil and Fe plaque. The results showed that Fe0 reduced total and inorganic As in root, husk, and grain but had no significant effect in straw, and almost all contents of As species in rice plant were decreased by Fe0. Total As contents in root, husk, and grain were decreased (54.8%, 39.9%, 30.1%), while reductions of inorganic As were 59.2%, 30.8%, and 30.3%, respectively. The inorganic As in all issues of rice plant was dominated and higher than 70% of total As. The analysis showed that the main mechanisms of Fe0 on reduction of As in rice were (i) Fe0 stabilized the active As in soil, (ii) Fe0 increased the quantity of Fe plaque that hindered the transport of arsenic in soil to rice plant, and (iii) phosphorus adsorbed on the Fe plaque reduced As into rice root by the competitive mechanism between phosphorus and arsenic.

Published

2020

23. The Fe

Author

Yao, Yao, Hang, Zhou, Xiu-Lan, Yan, Xiao, Yang, Kang-Wen, Huang, Juan, Liu, Li-Juan, Li, Jing-Yi, Zhang, Jiao-Feng, Gu, Yaoyu, Zhou, and Bo-Han, Liao

Subjects

China, Soil, Charcoal, Humans, Soil Pollutants, Oryza, Plant Roots, Arsenic, Cadmium

Abstract

Arsenic (As)-contaminated paddy soil could result in elevated levels of As in rice plants and sequentially harm human health. The Fe

Published

2020

24. Artificial Neural Network Application to the Stroke Prediction

Author

Bo-Han Liao, Syue-Ji Liu, Yun-Kai Yang, Chun-Cheng Peng, and Shih-Hao Wang

Subjects

Global population, Artificial neural network, business.industry, Computer science, medicine, Artificial intelligence, business, Machine learning, computer.software_genre, medicine.disease, computer, Stroke, Cause of death

Abstract

Stroke is the cause of death and disability in the global population. Patients often suffer from strokes because poor living habits. In recent years, artificial intelligence (AI) has become a hot topic in various fields, especially in medical applications. In this article, patient's physiological data is used to build model for predicting stroke in an artificial neural networks (ANNs). The ANNs method proposed in this paper can reach about 98% in classification accuracy under the condition of 1000 times cross-validation.

Published

2020

25. Differences in absorption of cadmium and lead among fourteen sweet potato cultivars and health risk assessment

Author

Fang Huang, Jiao-Feng Gu, Wen-Jun Yang, Bo-Han Liao, Hong Zhou, Canyang Liu, and Hang Zhou

Subjects

Crops, Agricultural, China, Food Safety, Starch, Health, Toxicology and Mutagenesis, Field experiment, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, Ipomoea, 01 natural sciences, Risk Assessment, Dietary Exposure, chemistry.chemical_compound, Humans, Soil Pollutants, Cultivar, Ipomoea batatas, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Cadmium, biology, Flesh, Public Health, Environmental and Occupational Health, Sowing, General Medicine, biology.organism_classification, Pollution, Horticulture, chemistry, Lead, Shoot

Abstract

Planting sweet potato (Ipomoea batatas (L.) Lam.) instead of rice in the area contaminated with heavy metals is one of the measures to ensure people's health and agricultural economy. Therefore, it is important to screen the low accumulation cultivars of sweet potato and to find out the concentration rule of cadmium (Cd) and lead (Pb) in edible parts along with the associated health risks to humans. A field experiment was performed with fourteen of three main types (starch, purple, and edible-type) of sweet potato cultivars grown on farmland polluted with Cd and Pb in eastern Hunan Province, China. The Cd and Pb concentrations in the sweet potato tissues as well as the yield were measured. The yield of the shoot and tuberous root of the fourteen sweet potato cultivars ranged from 14.59 to 68.57 and 26.35-50.76 t ha-1 with mean values of 33.09 and 33.46 t ha-1, respectively. Compared with purple and edible-type cultivars, the starch-type cultivar had lower Cd and Pb concentrations in the flesh, but higher in the shoot. The Cd and Pb concentrations in the flesh of cultivars Shangshu 19, Sushu 24, Yushu 98, and Xiangshu 98 were lower than MCL provided in Chinese National Food Safety Standards GB2762-2017. Based on the hazard index (HI), the consumption of sweet potato flesh is lower health risk, while shoots pose a greater health risk to local people and Cd is the main cause of the risk. As a result, sweet potato cultivars Shangshu 19, Sushu 24, Yushu 98 and Xiangshu 98 can be plant in serve Cd and Pb contaminated soils with the advantages of easy cultivation, high yield and economic benefits without stopping agricultural production.

Published

2020

26. Evaluation of Calcium Oxide of Quicklime and Si–Ca–Mg Fertilizer for Remediation of Cd Uptake in Rice Plants and Cd Mobilization in Two Typical Cd-Polluted Paddy Soils

Author

Bo-Han Liao, Peiqin Peng, Hong-Bo Hou, Qi Chen, Xin-Yang Li, Xia Dong, Jian Long, and Kai Jiang

Subjects

Chemistry, Environmental remediation, Amendment, food and beverages, 04 agricultural and veterinary sciences, 010501 environmental sciences, engineering.material, Soil type, complex mixtures, 01 natural sciences, Soil conditioner, Animal science, Soil pH, Soil water, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Brown rice, Fertilizer, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Lime and Si fertilizer are effective amendments for alleviating Cd accumulation in crops. In this study, two Cd-polluted typical soils from different regions in China were sampled to conduct a pot experiment. The effects of two soil amendments [calcium oxide of quicklime (SH) and Si–Ca–Mg fertilizer (GF)] on the distribution of Cd fractions in soil with and without rice-planting treatment and on Cd uptake and accumulation in rice were investigated. The results showed that SH and GF application significantly reduced Cd accumulation in rice in YSS and GSS, and that the maximum Cd reduction in GSS reached 319 μg pot−1 with SH treatment. SH and GF significantly decreased and increased, respectively, the proportions of Acid-Cd and Res-Cd in the soil. Rice-planting treatment activated Res-Cd compared with no rice-planting treatment, and SH and GF restrained the remobilization process. Significant positive correlations were found between Res-Cd remobilization rates in soil and Cd content in brown rice. Multiple regression revealed that applying GF at dosages of 1.296 g kg−1 and 1.246 g kg−1 in YCS and GSS, respectively, was an ideal method to control soil acidity. This study highlighted the view that Res-Cd remobilization provoked by rice plays a considerable role in influencing Cd bioavailability in the soil, that soil type should be considered as a factor when applying soil amendments to contaminated soils, and that soil amendment dosages should vary according to soil type.

Published

2018

27. [Cd Balance Analysis of a Typical Rice Paddy System in Central Hunan]

Author

Kai, Jiang, Xiao, Deng, Hang, Zhou, Jian, Long, Xin-Yang, Li, Xia, Dong, Shu-Bing, Wang, Wen-Hui, Liu, Hong-Bo, Hou, Pei-Qin, Peng, and Bo-Han, Liao

Subjects

Soil, Agricultural Irrigation, Soil Pollutants, Oryza, Fertilizers, Cadmium

Abstract

By conducting field positioning experiments, we studied the development trend of Cd pollution in a typical paddy system. The samples of atmospheric deposition and irrigation water were collected monthly from November 2015 to November 2018 during which fertilizer, soil, and rice samples were also collected. The Cd concentration in the samples was monitored and analyzed to conduct research on the balance between Cd inputs and outputs in a typical paddy system in Hunan Province. The results suggest that through irrigation water, atmospheric deposition and fertilizer, the average annual input of Cd in the paddy field system is 8.735 g·(hm

Published

2019

28. Supplementation with ferromanganese oxide–impregnated biochar composite reduces cadmium uptake by indica rice (Oryza sativa L.)

Author

Qiwen Zhou, Zhengguo Song, Lina Lin, Bo-Han Liao, and Weiwen Qiu

Subjects

021110 strategic, defence & security studies, Cadmium, Oryza sativa, Renewable Energy, Sustainability and the Environment, Strategy and Management, fungi, 0211 other engineering and technologies, food and beverages, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Ferromanganese, Industrial and Manufacturing Engineering, Soil conditioner, Horticulture, chemistry, Dry weight, visual_art, Biochar, visual_art.visual_art_medium, Cultivar, Charcoal, 0105 earth and related environmental sciences, General Environmental Science

Abstract

The use of a ferromanganese oxide biochar composite (FMBC) to reduce cadmium (Cd) uptake in an indica cultivar of rice (Oryza sativa L.) was investigated by a pot experiment. Application of 0.5–2.0% FMBC or biochar to rice plants in pots improved the dry weight of the rice roots, stems, leaves, and grains in soils contaminated with either high or low levels of Cd. Compared with the biochar treatment, the FMBC treatment significantly reduced Cd accumulation in different parts of the rice plant (P

Published

2018

29. Adsorption of Cu(II) and Cd(II) from aqueous solutions by ferromanganese binary oxide–biochar composites

Author

Zhengguo Song, Lina Lin, Bo-Han Liao, Weiwen Qiu, and Qiwen Zhou

Subjects

chemistry.chemical_classification, Environmental Engineering, Aqueous solution, Metal ions in aqueous solution, Inorganic chemistry, Oxide, Langmuir adsorption model, 02 engineering and technology, 010501 environmental sciences, 021001 nanoscience & nanotechnology, 01 natural sciences, Pollution, Ferromanganese, chemistry.chemical_compound, symbols.namesake, Adsorption, chemistry, Biochar, symbols, Environmental Chemistry, Humic acid, Composite material, 0210 nano-technology, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

Remediation of heavy metal-contaminated soil and water bodies necessitates the continuous development of effective decontamination techniques. To address this issue, ferromanganese binary oxide-biochar composites (FMBC) were prepared using impregnation/sintering methods, and their physicochemical properties and morphologies were examined. Kinetic modeling and adsorption isotherms were used to characterize the adsorption of Cu(II) and Cd(II) on FMBC, revealing that adsorption was well represented by pseudo-second-order kinetics (R2>0.99) and the Langmuir isotherm model. The prepared FMBC exhibited maximum Cu(II) and Cd(II) adsorption capacities of 64.9 and 101.0mg/g, respectively, exceeding the corresponding values of biochar (21.7 and 28.0mg/g, respectively). Moreover, adsorption was favored by increased pH and high humic acid concentration. X-ray photoelectron spectroscopy and Fourier transform infrared analyses confirmed that the heavy metal ions adsorbed on FMBC were divalent, indicating that the uptake of Cu(II) and Cd(II) was mainly due to the formation of strong mono- or multidentate inner-sphere complexes (e.g., COO-M (M=Cu or Cd) and Fe-Mn-O-M). Thus, the prepared composites exhibited potential applications as excellent adsorbents for Cu(II) and Cd(II) removal from contaminated water.

Published

2018

30. Effects of an additive (hydroxyapatite–biochar–zeolite) on the chemical speciation of Cd and As in paddy soils and their accumulation and translocation in rice plants

Author

Hang Zhou, Min Zeng, Jiao-Feng Gu, Pei-Qin Peng, Bo-Han Liao, Ping Zhang, and Wen-Tao Yang

Subjects

Environmental remediation, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Husk, Arsenic, Soil, Biochar, Soil Pollutants, Environmental Chemistry, Ecotoxicology, Zeolite, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Cadmium, Chemistry, food and beverages, Biological Transport, Oryza, General Medicine, Pollution, Durapatite, Charcoal, Environmental chemistry, Bioaccumulation, Zeolites

Abstract

A pot experiment was carried out to investigate the remediation of paddy soils contaminated with both Cd and As. The effects of a soil additive (HZB: hydroxyapatite + zeolite + biochar) on the chemical speciation of Cd and As in the soil and on the accumulation and translocation of these two elements in rice plants were studied. The application of HZB decreased the concentration of acid-extractable Cd in the soil by 7.3–32.6% by promoting the transformation of soil Cd from soluble to insoluble species; as a result, the concentration of organically bound Cd in the soil increased by 6.8–49.5%. The application of HZB also promoted the transformation of soil As from soluble to insoluble species, thus increasing the concentration of Ca-bound As by 34.1–93.4% and reducing the concentration of soil-exchangeable As by 12.2–55.1%. However, when the application rate of HZB was greater than 4.0 g kg−1, the concentration of soil-exchangeable As increased again. It was found that the application of HZB decreased the Cd and As bioaccumulation capacity of rice root, and among various rice organs, rice husk was the highest in Cd transferring capacity, whereas rice root was the highest in As transferring capacity. When the amount of HZB applied was 0.05–0.2%, the Cd and As concentrations in the various parts of the rice plants decreased significantly.

Published

2018

31. Nano-Fe3O4-modified biochar promotes the formation of iron plaque and cadmium immobilization in rice root

Author

Shi-Long Wang, Shu-Ning Yu, Bo-Han Liao, Jing-Yi Zhang, Jiao-Feng Gu, Hang Zhou, Fang Huang, Wen-Jun Yang, Peng Zeng, and Yang Huo

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, chemistry.chemical_element, Chromosomal translocation, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Ferrous, chemistry.chemical_compound, Biochar, Environmental Chemistry, Chelation, Food science, Sulfate, 0105 earth and related environmental sciences, Rhizosphere, Cadmium, Public Health, Environmental and Occupational Health, food and beverages, General Medicine, General Chemistry, Pollution, 020801 environmental engineering, chemistry, Paddy field

Abstract

Rice as a paddy field crops, iron-containing materials application could induce its iron plaque formation, thereby affecting cadmium (Cd) transportation in the rhizosphere and its uptake in root. In this study, a hydroponic experiment was conducted to investigate the effects of three exogenous iron materials, namely nano-Fe3O4-modified biochar (BC–Fe), chelated iron (EDTA-Fe), and ferrous sulfate (FeSO4), on the iron plaque formation on the surface of rice root, and to investigate the effects of formed iron plaque on the absorption, migration, and transportation of Cd and Fe in rice plant. The results showed that yellow-brown and brown iron plaque was formed on surface cells of the Fe-treated rice root, and some black particles were embedded in the iron plaque formed by BC-Fe. The proportion of crystallized iron plaque (31.8%–35.9%) formed by BC-Fe was much higher than that formed by EDTA-Fe and FeSO4. The Cd concentrations in the crystallized iron plaque formed by BC-Fe were 7.64–13.0 mg·kg−1, and increased with the increasing of Fe concentrations in the plaque. The Cd translocation factor from root to stem (TFr-s) and the Cd translocation factor from stem to leaf (TFs-l) with BC-Fe treatment decreased by 84.7% and 80.0%, respectively. The results demonstrated that application BC-Fe promoted the formation of iron plaque and enhanced the sequestration of Cd and Fe in roots, thus reduced the transportation and accumulation of Cd in aerial rice tissues.

Published

2021

32. Arsenic in vegetables poses a health risk in the vicinity of a mining area in the southern Hunan Province, China

Author

Wen-Tao Yang, Bo-Han Liao, Jiao-Feng Gu, Zhou Hang, and Liu Li

Subjects

Health risk assessment, Melon, Health, Toxicology and Mutagenesis, Ecological Modeling, Environmental engineering, chemistry.chemical_element, 04 agricultural and veterinary sciences, 010501 environmental sciences, Biology, Contamination, 040401 food science, 01 natural sciences, Pollution, Soil contamination, Hazard quotient, Toxicology, 0404 agricultural biotechnology, chemistry, Leafy vegetables, Health risk, Arsenic, 0105 earth and related environmental sciences

Abstract

The main objectives of the present study were to investigate the levels of arsenic (As) in 23 vegetable species planted on As-polluted soil and assess the human health risks of contaminated vegetable consumption. The target hazard quotient (THQ) and target cancer risk (TR) methods were employed to evaluate the human health risks posed by exposure to As through vegetable consumption. Our results indicate substantial As contamination of the experimental soil. Significant differences were detected in the concentrations of total and inorganic As in the edible parts of the various vegetables grown on contaminated soil, which were generally in the following order: leafy vegetables > stem vegetables > root vegetables > melon and fruit vegetables. The total THQ value for As due to vegetable consumption for children (4.81) was higher than that for adults (3.66), the TR values for As due to vegetable ingestion for adults (1.65 × 10−3) and children (2.17 × 10−3) were significantly beyond the range of accepta...

Published

2017

33. Effects of a Combined Amendment on Pb, Cd, and As Availability and Accumulation in Rice Planted in Contaminated Paddy Soil

Author

Wen-Tao Yang, Hang Zhou, Jiao-Feng Gu, Pei-Qin Peng, Qin-Ru Zeng, and Bo-Han Liao

Subjects

021110 strategic, defence & security studies, Cadmium, Oryza sativa, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Amendment, food and beverages, Soil Science, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, Contamination, 01 natural sciences, Pollution, Soil contamination, chemistry.chemical_compound, Calcium carbonate, Animal science, chemistry, Agronomy, Environmental Chemistry, Brown rice, Arsenic, 0105 earth and related environmental sciences

Abstract

The objectives of the present study were to investigate the mitigation of lead (Pb), cadmium (Cd), and arsenic (As) in a multi-metal contaminated soil and their accumulation in rice plants (Oryza sativa L., cv II You 93) using a combined amendment (CMF, calcium carbonate + metakaolin + fused calcium–magnesium phosphate fertilizer). The results showed that application of CMF was effective in reducing the acid-extractable concentrations of soil Pb and Cd. The exchangeable concentrations of soil As showed an initial decrease followed by a gradual increase. The application of 0.2% CMF notably reduced the concentrations of Pb, Cd, and As in brown rice by 46.5%, 43.6%, and 32.0%, respectively. The concentration of As in brown rice was 0.179 mg kg−1 at 0.2% CMF, which met the maximum levels of contaminants in foods of China (MLs) (the ML of Pb, Cd, and As is 0.2 mg kg−1 according to the China national standard GB 2762-2012). At 1.6% CMF, the concentrations of Pb and Cd in brown rice were 0.002 and 0.185 ...

Published

2017

34. Effect of three Napier grass varieties on phytoextraction of Cd- and Zn-contaminated cultivated soil under mowing and their safe utilization

Author

Jing-Yi Zhang, Yi Hongwei, Bo-Han Liao, Wen-Jun Yang, Hang Zhou, Zhi-Guang Sun, Fang Huang, Shi-Long Wang, Jiao-Feng Gu, and Teng-Yue Yuan

Subjects

Pennisetum, Health, Toxicology and Mutagenesis, chemistry.chemical_element, Zinc, 010501 environmental sciences, 01 natural sciences, Plant Roots, Soil, Nutrient, Environmental Chemistry, Ecotoxicology, Soil Pollutants, Hyperaccumulator, Pennisetum purpureum, 0105 earth and related environmental sciences, Cadmium, biology, Extraction (chemistry), General Medicine, biology.organism_classification, Pollution, Horticulture, Phytoremediation, Biodegradation, Environmental, chemistry

Abstract

The use of Napier grass to remediate heavy metal-contaminated soil is a new phytoremediation technique. The objective of this study was to evaluate the ability of Napier grass (Pennisetum purpureum Schumach.) to remediate Cd- and Zn-contaminated cultivated soil under nonmowing and mowing and the possibility of safe utilization of the stem and leaf after detoxification by liquid extraction. Three Napier grass varieties, P. purpureum cv. Mott (PM), P. purpureum cv. Red (PR), and P. purpureum cv. Guiminyin (PG), were planted in a field with 3.74 mg kg−1 Cd and 321.26 mg kg−1 Zn for 180 days. The maximum amounts of Cd and Zn removed by PG were 197.5 and 5023.9 g ha−1, respectively, almost equaling those of hyperaccumulators. Compared with nonmowing, mowing did not decrease the Cd and Zn contents in various tissues but increased the biomasses of PM, PR, and PG by 86.6%, 18.9%, and 26.1%, respectively. Compared with nonmowing, the amounts of Cd removed by PM, PR, and PG under mowing increased by 110.5%, 40.0%, and 107.9%, respectively, and that of Zn increased by 63.0%, 53.1%, and 71.6%. The dominant Cd and Zn chemical fractions in Napier grass were the pectate- and protein-integrated fractions. After liquid extraction, although the nutrient element (Ca, K, Mg, and Mn) contents in the stem and leaf were reduced significantly, the Cd and Zn contents decreased below the limit of the Chinese Hygienic Standard for Feeds, and the crude protein content was largely retained. Such detoxified stems and leaves can be safely used as feeds or as raw materials for energy production.

Published

2019

35. Translocation and accumulation of cadmium and lead in the tissues of 39 rape cultivars grown in a polluted farmland

Author

Wen-Jun Yang, Fang Huang, Bo-Han Liao, Teng-Yue Yuan, Shi-Long Wang, Yang Huo, Jing-Yi Zhang, Jiao-Feng Gu, and Hang Zhou

Subjects

Cadmium, China, Rapeseed, Farms, Health, Toxicology and Mutagenesis, Field experiment, chemistry.chemical_element, Sowing, General Medicine, 010501 environmental sciences, 01 natural sciences, Pollution, Soil contamination, Husk, Horticulture, Soil, chemistry, Lead, Environmental Chemistry, Ecotoxicology, Soil Pollutants, Cultivar, 0105 earth and related environmental sciences

Abstract

To investigate the differences in cadmium (Cd) and lead (Pb) uptake and translocation among rape cultivars and genotypes and select suitable rape cultivars for both safe production and soil remediation, a field experiment was carried out with 39 rape cultivars of three genotypes on a farmland polluted with Cd and Pb in eastern Hunan Province, China. The Cd and Pb contents in rape tissues were measured, and the amount of Cd and Pb removed was calculated. The results showed that Cd in rape plants accumulated mostly in stems, while Pb accumulated mostly in roots. The Cd accumulation in various rape tissues followed the sequence stem > root > husk > rapeseed, while the Pb accumulation followed the sequence root > stem > husk > rapeseed. The total Cd and Pb removed by planting rape were 4.50–23.6 g ha−1 and 5.85–13.7 g ha−1, respectively, and the Cd and Pb contents in rapeseeds were in the range 0.11–0.47 mg kg−1 and 0.03–0.84 mg kg−1, respectively. Only the Pb content in rapeseed of “Youyan 9” exceeded the limit of the maximum levels of contaminants in foods (GB2762-2017, Pb ≤ 0.2 mg kg−1). In this experiment, the roots of most rape cultivars showed a greater capacity for Cd transport, while the stems showed a greater capacity for Pb transport. Except for the TFstem-husk for Cd, there were no significant differences in the TFs and BAFs of 39 rape cultivars, and clear variations in Cd content were found in the stems of the three genotypes, while there was no significant difference in the Cd and Pb contents in the other tissues. In the farmland polluted with Cd and Pb, planting “Xiangzayou 695” and “Youyan 2013” not only reduced soil pollution but also allowed the production of safe rapeseed.

Published

2019

36. Effects of nano-Fe

Author

Jing-Yi, Zhang, Hang, Zhou, Jiao-Feng, Gu, Fang, Huang, Wen-Jun, Yang, Shi-Long, Wang, Teng-Yue, Yuan, and Bo-Han, Liao

Subjects

Soil, Charcoal, Iron, Soil Pollutants, Oryza, Plant Roots, Cadmium

Abstract

Nano-Fe

Published

2019

37. Application of rapeseed residue increases soil organic matter, microbial biomass, and enzyme activity and mitigates cadmium pollution risk in paddy fields

Author

Jiao-Feng Gu, Wentao Yang, Bo-Han Liao, Pan Wu, Jia Zhang, and Hang Zhou

Subjects

China, Rapeseed, 010504 meteorology & atmospheric sciences, Urease, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Toxicology, 01 natural sciences, Soil, Soil pH, Soil Pollutants, Organic matter, Food science, Biomass, 0105 earth and related environmental sciences, chemistry.chemical_classification, biology, Chemistry, Soil organic matter, Brassica napus, food and beverages, Oryza, General Medicine, Pollution, Enzyme assay, biology.protein, Paddy field, Organic fertilizer, Cadmium

Abstract

Rapeseed (Brassica napus L.) is a winter oil crop and biodiesel resource that has been widely cultivated in the southern part of China. Applying rapeseed residue (RSD) to summer rice fields is a common agricultural practice under rice-rapeseed double cropping systems. However, in Cd-contaminated paddy fields, the influence mechanisms of this agricultural practice on the migration and distribution of Cd fractions in soil are not clear. Therefore, a field experiment was carried out to analyse the changes in soil pH, organic matter (OM), microbial biomass carbon (MBC) and nitrogen (MBN), enzyme activity (urease (UA), acid phosphatase (ACP), and dehydrogenase (DH)), Cd distribution fractions, and Cd concentration in rice tissues after RSD application. The results showed that RSD treatment significantly increased the soil OM and MBC concentrations and UA, ACP, and DH activities, decreased the soil acetic acid-extractable fraction of Cd (ACI-Cd), and increased the reducible fraction of Cd (Red-Cd). The formation of stable organic complexes and chelates upon application of RSD is a result of the high affinity of Cd for soil OM. The activities of soil ACP, DH and MBC can well reflect Cd ecotoxicity in soil, particularly the DH activity. In addition, RSD application was helpful in inducing iron plaque formation. The "barrier" effect of iron plaque resulted in reduced Cd accumulation in different tissues of rice. The health risk of rice consumption also decreased as a result of RSD application; it decreased by 0.89-30.0% and 24.1-51.7% in the two tested fields. Overall, the application of RSD was increased soil OM, microbial biomass, and enzyme activity, and these changes was instrumental in reduce the risk of cadmium pollution in rice fields.

Published

2019

38. Impacts of rapeseed dregs on Cd availability in contaminated acid soil and Cd translocation and accumulation in rice plants

Author

Wen-Tao Yang, Bo-Han Liao, Qingru Zeng, Jiao-Feng Gu, Jia-Ling Zou, and Hang Zhou

Subjects

China, Rapeseed, Health, Toxicology and Mutagenesis, Biological Availability, chemistry.chemical_element, 010501 environmental sciences, Oryza, Plant Roots, 01 natural sciences, Soil, Animal science, Soil Pollutants, Environmental Chemistry, Biomass, Fertilizers, 0105 earth and related environmental sciences, Cadmium, Oryza sativa, biology, Brassica rapa, food and beverages, Sowing, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Pollution, chemistry, Agronomy, Seeds, Shoot, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Brown rice, Acids, Organic fertilizer, Plant Shoots

Abstract

The objective of the present study was to investigate the effects of rapeseed dregs (RSD, a commonly organic fertilizer in rural China) at application rates of 0, 0.75, 1.5, and 3.0 % on Cd availability in soil and its accumulation in rice plants (Oryza sativa L., Xiangwanxian 12#, and Weiyou 46#) by means of a pot experiment. The results showed that application of RSD resulted in a sharp decrease in the soil TCLP-extractable Cd content. However, the soil TCLP-extractable Cd content in amended soil gradually increased during the rice growing period. Application of RSD significantly increased Cd transport from root to shoot and the amount of Cd accumulated in the aerial part. RSD was an effective organic additive for increasing rice grain yield, but total Cd content in rice grain was also increased. At an application rate of 1.5-3.0 % RSD, the total Cd content in Weiyou 46# brown rice was 0.27-0.31 mg kg-1, which exceeded the standard safe limit (0.2 mg kg-1) and was also higher than that of Xiangwanxian 12# (0.04-0.14 mg kg-1). Therefore, Weiyou 46# had a higher dietary risk than Xiangwanxian 12# with RSD application. We do not recommend planting Weiyou 46# and applying more than 0.75 % RSD in Cd-contaminated paddy fields.

Published

2016

39. A three-year in-situ study on the persistence of a combined amendment (limestone+sepiolite) for remedying paddy soil polluted with heavy metals

Author

Wen-Tao Yang, Hang Zhou, Min Zeng, Zi-Jin Zou, Wei Zhu, Pei-Qin Peng, Yu-Jun Wu, and Bo-Han Liao

Subjects

China, Environmental remediation, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Amendment, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Husk, Calcium Carbonate, Animal science, Magnesium Silicates, Soil pH, Soil Pollutants, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Chemistry, Public Health, Environmental and Occupational Health, Oryza, Soil classification, General Medicine, Straw, Pollution, Soil contamination, Biodegradation, Environmental, Lead, Brown rice, Seasons, Cadmium

Abstract

In order to study the persistence of a combined amendment (LS, limestone+sepiolite) for remedying paddy soil polluted with the heavy metals Pb and Cd, a three-year in-situ experiment was conducted in a paddy soil near a mining area in southern Hunan, China. LS was applied at rates of 0, 2, 4, and 8g/kg (w/w); rice was subsequently planted for the three consecutive years of 2012 (first season), 2013 (second season), and 2014 (third season). Experimental results indicated that LS significantly increased soil pH values for all three seasons, and the enhancement ranked as follows: first season>second season>third season. Under the experimental conditions, the effect of LS on decreasing exchangeable concentrations of soil Pb and Cd was as follows: first season (97.6-99.8% for Pb and 88.3-98.9% for Cd)>second season (80.7-97.7% for Pb and 28.3-88.0% for Cd)>third season (32.6-97.7% for Pb and 8.3-71.4% for Cd); the effect of LS on reducing Pb concentrations in brown rice was: first season (73.5-81.2%)>third season (29.6-68.1%)>second season (0-9.7%), and that for reducing Cd concentrations in brown rice was third season (72.7-81.0%)>first season (56.1-66.8%)>second season (20.9-32.3%). For all three seasons, the effect of LS on reducing Cd content in brown rice was better than that for Pb. The highest translocation factors for Pb and Cd were from rice straw to husk, implying that the husk of rice plants was the main organ in which heavy metals accumulated. The effect of LS for decreasing soil exchangeable Cd content was relatively persistent, but that for Pb gradually decreased with time, implying that LS was more suitable for the long-term remediation of Cd-polluted soil than Pb-polluted soil.

Published

2016

40. Effects of Cd-resistant bacteria and calcium carbonate + sepiolite on Cd availability in contaminated paddy soil and on Cd accumulation in brown rice grains

Author

Pei-Qin Peng, Bo-Han Liao, Ping Zhang, Hang Zhou, Qian Li, Jing Li, Jin-xing Mei, and Ke Zhang

Subjects

Health, Toxicology and Mutagenesis, Biological Availability, chemistry.chemical_element, Calcium, Plant Roots, Husk, Calcium Carbonate, Soil, Bacillus cereus, Magnesium Silicates, Soil pH, Soil Pollutants, Cadmium, biology, Public Health, Environmental and Occupational Health, Oryza, General Medicine, biology.organism_classification, Adaptation, Physiological, Pollution, Bioavailability, Plant Leaves, Horticulture, chemistry, Soil water, Brown rice, Edible Grain, Bacteria

Abstract

A pot experiment was conducted to evaluate the effects of combined application of cadmium (Cd)-resistant bacteria (J) and calcium carbonate + sepiolite (G) on both Cd bioavailability in contaminated paddy soil and on Cd accumulation in rice plants. Adding the mixture (J + G) to the soils significantly increased soil pH, decreased extractable Cd contents, and increased Fe/Mn-oxide Cd and organic-bound Cd contents. The applying of J + G, J and G decreased Cd contents in various rice tissues (roots, stems and leaves, husks, and brown rice grains) to different degrees. Compared with those of the CK, Cd contents decreased by 17.8%–53.3% in the roots, 12.3%–27.4% in the stems and leaves, 25.4%–44.6% in the husks, and 28.8%–55.7% in the brown rice grains for the application of J + G; Cd contents decreased by 8.2%–28.5% in the roots, 11.5%–32.0% in the husks, and 27.8%–45.9% in the brown rice grains for the application of J; Cd contents decreased by 12.9%–26.5% in the roots, in the stems and leaves decreased by 4.6%–34.1% in the stems and leaves, 60.2%–79.7% in the husks, and 35.7%–47.6% in the brown rice grains for the application of G. The alone application of bacteria (J) could reduce the bioavailability of Cd in soil and the contents of Cd in brown rice grains to some extent. Moreover, when the bacteria were applied in combination with mineral (J + G), it was a more effective method than the alone application of J or G to reduce the soil Cd bioavailability. Under all the tested conditions, applications of J4+G4 (320 mL kg−1 of J + 8 g kg−1 of G) resulted in the greatest reduction in Cd contents in brown rice grains. Overall, the results indicated that the combination of Cd-resistant bacteria and mineral material could effectively reduce Cd bioavailability in paddy soils and inhibit Cd accumulation in brown rice grains.

Published

2020

41. Effects of nano-Fe3O4-modified biochar on iron plaque formation and Cd accumulation in rice (Oryza sativa L.)

Author

Fang Huang, Bo-Han Liao, Hang Zhou, Shi-Long Wang, Teng-Yue Yuan, Jiao-Feng Gu, Jing-Yi Zhang, and Wen-Jun Yang

Subjects

Cadmium, Oryza sativa, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, food and beverages, chemistry.chemical_element, General Medicine, 010501 environmental sciences, Toxicology, 01 natural sciences, Pollution, Husk, Bioavailability, Horticulture, chemistry, Toxicity, Biochar, Cation-exchange capacity, Brown rice, 0105 earth and related environmental sciences

Abstract

Nano-Fe3O4-modified biochar (BC–Fe) was prepared by the coprecipitation of nano-Fe3O4 on a rice husk biochar surface. The effects of BC-Fe on cadmium (Cd) bioavailability in soil and on Cd accumulation and translocation in rice (Oryza sativa L. cv. ‘H You 518’) were investigated in a pot experiment with 7 application rates (0.05–1.6%, w/w). BC-Fe increased the biomass of the rice plants except for the roots and affected the concentration and accumulation of Cd and Fe in the plants. The Cd concentrations of brown rice were significantly decreased by 48.9%, 35.6%, and 46.5% by the 0.05%, 0.2%, and 0.4% BC-Fe treatments, respectively. Soil cation exchange capacity (CEC) increased by 9.4%–164.1% in response to the application of BC-Fe (0.05–1.6%), while the soil Cd availability decreased by 6.81%–25.0%. However, 0.8–1.6% BC-Fe treatments promoted Cd transport to leaves, which could increase the risk of Cd accumulation in brown rice. Furthermore, BC-Fe application promoted the formation of iron plaque and enhanced the root interception of Cd. The formation of iron plaque reduced the toxicity of Cd to rice roots, but this barrier effect was limited and had an interval threshold (DCB-Fe: 22.5–27.3 g·kg−1) under BC-Fe treatments.

Published

2020

42. Characteristic of adsorption cadmium of red soil amended with a ferromanganese oxide-biochar composite

Author

Ming Lei, Lina Lin, Bo-Han Liao, Zhengguo Song, Qiwen Zhou, and Zulqarnain Haider Khan

Subjects

China, Environmental remediation, Surface Properties, Health, Toxicology and Mutagenesis, Iron, 010501 environmental sciences, 01 natural sciences, Ferromanganese, symbols.namesake, Soil, Adsorption, Biochar, Environmental Chemistry, Soil Pollutants, Environmental Restoration and Remediation, 0105 earth and related environmental sciences, Manganese, Chemistry, Langmuir adsorption model, Sorption, Agriculture, Oxides, General Medicine, Pollution, Soil quality, Environmental chemistry, Charcoal, symbols, Red soil, Cadmium

Abstract

The increasing scarcity of arable land necessitates the development of effective decontamination techniques to re-gain contaminated areas and make them suitable for agricultural and other activities. Herein, we prepare a ferromanganese binary oxide-biochar composite (FMBC) and compare its potential for remediating Cd-contaminated red soil with that of biochar (BC), showing that (i) the obtained adsorption data are well described by the Langmuir model and (ii) Cd adsorption capacity increases with increasing adsorbent dosage. Specifically, the Cd adsorption capacity of FMBC-amended soil (6.72 mg g−1) is demonstrated to significantly exceed that of BC-amended red soil (4.85 mg g−1) and that of the control (2.28 mg g−1) and increases with increasing temperature and pH, while the results of instrumental analyses indicate that Cd sorption on the soil surface occurs via the formation of CdO and Cd(OH)2. Thus, FMBCs are concluded to play an important role in the adsorption of Cd, having the potential to prevent red soil acidification and improve soil quality, and are found to be promising remediation materials for mitigating the risks posed by Cd-contaminated red soil.

Published

2018

43. [Impacts of Silicon Fertilizer as Base Manure on Cadmium Bioavailability in Soil and on Cadmium Accumulation in Rice Plants]

Author

Zi-Xiang, Gao, Hang, Zhou, Wen-Tao, Yang, Jiao-Feng, Gu, Li-Wei, Chen, Wen-Qi, Du, Jun, Xu, and Bo-Han, Liao

Subjects

Manure, Silicon, Soil, Biological Availability, Soil Pollutants, Oryza, Fertilizers, Cadmium

Abstract

The impacts of silicon (Si) on cadmium (Cd) bioavailability in soil and Cd accumulation in rice plants were investigated in pot experiments with rice (

Published

2018

44. [Synergetic Control of Bioavailability of Pb, Cd and As in the Rice Paddy System by Combined Amendments]

Author

Ying-Jie, Wang, Jia-Ling, Zou, Wen-Tao, Yang, Hang, Zhou, and Bo-Han, Liao

Subjects

Soil, Lead, Metals, Heavy, Biological Availability, Soil Pollutants, Oryza, Arsenic, Cadmium

Abstract

This paper studied the effects of applying two combined amendments LST (limestone+meerschaum+titanium dioxide) and LSF (limestone+meerschaum+ferric sulfate) at different ratios of 0, 1, 2, 4, 8 and 16 g·kg

Published

2018

45. [Provoking Effects of Exogenous Zn on Cadmium Accumulation in Rice]

Author

Jiao-Feng, Gu, Wen-Tao, Yang, Hang, Zhou, Ping, Zhang, Pei-Qin, Peng, and Bo-Han, Liao

Subjects

Soil, Zinc, Soil Pollutants, Oryza, Cadmium

Abstract

Pot experiments were carried out to study the influences of different concentrations of exogenous Zn on accumulation of Cd in various rice organs of low Cd accumulation cultivar Xiang-Wanxian 12 (XWX12) and high Cd accumulation cultivar Wei-You 46 (WY 46) exposed to soil with medium and serious Cd pollution. The results showed that:In the soil with medium Cd pollution, Cd contents in various rice organs of two rice varieties were increased by exogenous Zn, and the Cd contents in brown rice of XWX12 and WY46 were increased by 125.0% -275.0% and 6.6% -91.2%, respectively, but still lower than 0.2 mg·kg

Published

2018

46. [Differences in Cd Accumulation in Typical Soils Under the Double Rice System]

Author

Xin-Yang, Li, Jian, Long, Shu-Bing, Wang, Qi, Chen, Xia, Dong, Kai, Jiang, Hong-Bo, Hou, Pei-Qin, Peng, and Bo-Han, Liao

Subjects

Soil, Soil Pollutants, Agriculture, Oryza, Cadmium

Abstract

Pot experiments were used to study the differences of Cd uptake and accumulation in double-cropping rice in typical soil types. To analyze the soil availability of Cd (DTPA-Cd) in soils and the Cd accumulation in double-cropping rice at different growth stages of the rice, we conducted pot experiments that selected the yellow clayey soil (paddy soil developed from plate shaley parent materials) and the granitic sandy soil (paddy soil developed from granitic parent materials). Exogenous Cd was added with gradients of 0, 0.5, 1.0, 2.0, 5.0, and 10.0 mg·kg

Published

2018

47. [Effects of a Tribasic Amendment on Cadmium and Arsenic Accumulation and Translocation in Rice in a Field Experiment]

Author

Jiao-Feng, Gu, Hang, Zhou, Run-Yu, Jia, Qian-Qian, Wang, Hong-Cheng, Li, Ping, Zhang, Pei-Qin, Peng, and Bo-Han, Liao

Subjects

Soil, Durapatite, Charcoal, Zeolites, Soil Pollutants, Oryza, Arsenic, Cadmium

Abstract

An

Published

2018

48. [Comparison of the Persistence of a Combined Amendment Stabilizing Pb, Cd, Cu and Zn in Polluted Paddy Soil]

Author

Yu-Jun, Wu, Hang, Zhou, Wen-Tao, Yang, Zi-Jin, Zou, Wei, Zhu, Jiao-Feng, Gu, Pei-Qin, Peng, Ping, Zhang, Min, Zeng, and Bo-Han, Liao

Subjects

China, Soil, Zinc, Lead, Metals, Heavy, Soil Pollutants, Oryza, Mining, Cadmium

Abstract

A three-year in-situ experiment was conducted in a paddy soil near a mining area in southern Hunan in order to study the persistence of combined amendment of limestone+sepiolite (marked as LS) stabilizing Pb, Cd, Cu and Zn in polluted paddy soil. LS with ratios of 0, 2, 4, and 8 g·kg

Published

2018

49. [Effects of Two Amendments on Remedying Garden Soil Complexly Contaminated with Pb, Cd and As]

Author

Tao, Tian, Ming, Lei, Hang, Zhou, Wen-Tao, Yang, Bo-Han, Liao, Li-Qiong, Hu, and Min, Zeng

Subjects

Soil, Lead, Vegetables, Soil Pollutants, Ferric Compounds, Gardens, Arsenic, Cadmium, Calcium Carbonate

Abstract

This paper studied the effects of two amendments (iron sulfate[Fe

Published

2018

50. [Correlations Between Different Extractable Cadmium Levels in Typical Soils and Cadmium Accumulation in Rice]

Author

Qi, Chen, Xiao, Deng, Shan, Chen, Hong-Bo, Hou, Pei-Qin, Peng, and Bo-Han, Liao

Subjects

Soil, Biological Availability, Soil Pollutants, Oryza, Cadmium

Abstract

Pot experiments were used to study the correlations between different extractable cadmium levels in typical soil and cadmium accumulation in rice. To analyze the pH, Cd in soil solution(SSE-Cd), TCLP extractable Cd level(TCLP-Cd), and Cd accumulation in rice at different growth stages of rice, we conducted pot experiments which selected the reddish clayey soil(developed from quaternary red clay parent materials) and purple paddy field(developed from purple sandy shale parent materials), meanwhile added with exogenous Cd with the gradients of 0, 0.5, 1, 2, 5, 10 mg·kg

Published

2018