Your search keyword '"Baiqing Tie"' showing total 5 results

1. Mitigating arsenic accumulation in rice (Oryza sativa L.) from typical arsenic contaminated paddy soil of southern China using nanostructured α-MnO

Author

Bingyu, Li, Shuang, Zhou, Dongning, Wei, Jiumei, Long, Liang, Peng, Baiqing, Tie, Paul N, Williams, and Ming, Lei

Subjects

China, Nanotubes, Biological Availability, Oryza, Oxides, Plant Components, Aerial, Ferric Compounds, Arsenic, Soil, Manganese Compounds, Soil Pollutants, Adsorption, Oxidation-Reduction, Environmental Restoration and Remediation

Abstract

Manganese oxides are naturally occurring powerful oxidants and scavengers, which can control the mobility and bioavailability of arsenic (As). However, the effect of synthetic nanostructured manganese oxides on the mobilization and transportation of As at actual paddy soils are poorly understood, especially in soils with low or medium background Mn concentration. In the present study, a novel nano manganese oxide with superior reactivity and surface area has been synthesized. A 90-d soil incubation experiment combined with pot and field rice cultivation trials were designed to evaluate the effectiveness of exogenous α-MnO

Published

2018

2. Application of economic plant for remediation of cadmium contaminated soils: Three mulberry (Moms alba L.) varieties cultivated in two polluted fields

Author

Baiqing Tie, Xinpei Yan, Renzhi Huang, Ming Lei, Yuqi Pan, Congying Chen, and Huihui Du

Subjects

China, Environmental Engineering, Environmental remediation, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, Biology, Plant Roots, 01 natural sciences, Crop, Animals, Soil Pollutants, Environmental Chemistry, Environmental Restoration and Remediation, 0105 earth and related environmental sciences, Cadmium, Contaminated soils, Public Health, Environmental and Occupational Health, Sowing, General Medicine, General Chemistry, Contamination, Bombyx, Pollution, Soil contamination, 020801 environmental engineering, Plant Leaves, Horticulture, Biodegradation, Environmental, chemistry, Fruit, Soil water, Morus

Abstract

In order to study the role of mulberry (Moms alba L) as an economic crop for remediation of cadmium (Cd) contaminated soil, the transport of Cd from mulberry to silkworm were investigated. Three varieties of mulberry (Yuesang-11, Nongsang-14, and Qiangsang-1) with three planting densities were cultivated in two heavy metal-contaminated fields named Dongkou in Shaoyang city and Linxiang in Yueyang city in Hunan province respectively. The both field soils were contaminated by heavy metals, especially by Cd. The potential risks of heavy metals in Linxiang's soil were higher than those in Dongkou's because of higher concentrations of Cd. Since the promotion of Cd concentrations in aerial parts (stem, branch and leaf) resulted from the increase of planting density, the method of high planting density is beneficial to improve the efficiency of the remediation of Cd contaminated soil. The percentages of average Cd contents of mulberry in Dongkou accounted for 44%, 20%, 18% and 16% in roots, stems, branches and leaves respectively, while the Cd contents were 38%, 27%, 19% and 16% distributed in roots, stems, branches and leaves respectively. Mulberry leaves from contaminated soils was applied in food source of silkworms in this study. Although there is Cd uptake occurred in silkworm growth and its products (cocoons and chrysalis), Cd contents in cocoons are lower than the national standard (100 μg*kg-1) for textile industry of China. Therefore, mulberry can be regarded as an economical crop to control soil contamination with Cd.

Published

2019

3. Interactive effects of cadmium and Microcystis aeruginosa (cyanobacterium) on the growth, antioxidative responses and accumulation of cadmium and microcystins in rice seedlings

Author

BaiQing Tie, Ji-Dong Gu, Jihai Shao, Xiaolin Kuang, and Bangsong Yao

Subjects

inorganic chemicals, 0106 biological sciences, Cyanobacteria, Antioxidant, Microcystis, Microcystins, Health, Toxicology and Mutagenesis, medicine.medical_treatment, chemistry.chemical_element, 010501 environmental sciences, Management, Monitoring, Policy and Law, Toxicology, 01 natural sciences, Botany, Toxicity Tests, medicine, Ecotoxicology, Soil Pollutants, Microcystis aeruginosa, 0105 earth and related environmental sciences, Cadmium, biology, Inoculation, food and beverages, Oryza, General Medicine, biology.organism_classification, chemistry, Seedling, Seedlings, Shoot, 010606 plant biology & botany

Abstract

Cadmium pollution and harmful cyanobacterial blooms are two prominent environmental problems. The interactive effects of cadmium(II) and harmful cyanobacteria on rice seedlings remain unknown. In order to elucidate this issue, the interactive effects of cadmium(II) and Microcystis aeruginosa FACHB905 on the growth and antioxidant responses of rice seedling were investigated in this study, as well as the accumulation of cadmium(II) and microcystins. The results showed that the growth of rice seedlings was inhibited by cadmium(II) stress but promoted by inoculation of M. aeruginosa FACHB905. cadmium(II) stress induced oxidative damage on rice seedlings. Inoculation of M. aeruginosa FACHB905 alleviated the toxicity of cadmium(II) on rice seedlings. The accumulation of cadmium(II) in rice seedlings was decreased by M. aeruginosa FACHB905, but the translocation of cadmium(II) from root to shoot was increased by this cyanobacterium. The accumulation of microcystins in rice seedlings was decreased by cadmium(II). Results presented in this study indicated that cadmium(II) and M. aeruginosa had antagonistic toxicity on rice seedlings. The findings of this study throw new light on evaluation of ecological- and public health-risks for the co-contamination of cadmium(II) and harmful cyanobacteria.

Published

2016

4. An arsenic-contaminated field trial to assess the uptake and translocation of arsenic by genotypes of rice

Author

Baiqing Tie, Pufeng Qing, Paul N. Williams, Yi-Zong Huang, Min Zeng, Ming Lei, and Zheng-guo Song

Subjects

Adult, China, Environmental Engineering, Genotype, chemistry.chemical_element, Biology, Husk, Arsenic, Soil, Animal science, Dry weight, Geochemistry and Petrology, Humans, Soil Pollutants, Environmental Chemistry, Cultivar, Child, General Environmental Science, Water Science and Technology, No-Observed-Adverse-Effect Level, food and beverages, Soil chemistry, Oryza, General Medicine, Contamination, Agronomy, chemistry, Field trial, Shoot, Environmental Monitoring

Abstract

Compared to other cereals, rice has particular strong As accumulation. Therefore, it is very important to understand As uptake and translocation among different genotypes. A field study in Chenzhou city, Hunan province of China, was employed to evaluate the effect of arsenic-contaminated soil on uptake and distribution in 34 genotypes of rice (including unpolished rice, husk, shoot, and root). The soil As concentrations ranged from 52.49 to 83.86 mg kg(-1), with mean As concentration 64.44 mg kg(-1). The mean As concentrations in rice plant tissues were different among the 34 rice genotypes. The highest As concentrations were accumulated in rice root (196.27-385.98 mg kg(-1) dry weight), while the lowest was in unpolished rice (0.31-0.52 mg kg(-1) dry weight). The distribution of As in rice tissue and paddy soil are as follows root ≫ soil > shoot > husk > unpolished rice. The ranges of concentrations of inorganic As in all of unpolished rice were from 0.26 to 0.52 mg kg(-1) dry weight. In particular, the percentage of inorganic As in the total As was more than 67 %, indicating that the inorganic As was the predominant species in unpolished rice. The daily dietary intakes of inorganic As in unpolished rice ranged from 0.10 to 0.21 mg for an adult, and from 0.075 to 0.15 mg for a child. Comparison with tolerable daily intakes established by FAO/WHO, inorganic As in most of unpolished rice samples exceeded the recommended intake values. The 34 genotypes of rice were classified into four clusters using a criteria value of rescaled distance between 5 and 10. Among the 34 genotypes, the genotypes II you 416 (II416) with the lowest enrichment of As and the lowest daily dietary intakes of inorganic As could be selected as the main cultivar in As-contaminated field.

Published

2012

5. Mitigating heavy metal accumulation into rice (Oryza sativa L.) using biochar amendment--a field experiment in Hunan, China

Author

Ming Lei, Liu Xiaoli, Ruilun Zheng, Edita Baltrėnaitė, Brian J. Reid, Zheng Chen, Baiqing Tie, Guo-Xin Sun, Chao Cai, and Qing Huang

Subjects

Cadmium, China, Oryza sativa, Chemistry, Health, Toxicology and Mutagenesis, Amendment, food and beverages, chemistry.chemical_element, Soil classification, Oryza, General Medicine, Pollution, Plant Roots, Soil conditioner, Horticulture, Soil, Agronomy, Bioaccumulation, Charcoal, Metals, Heavy, Shoot, Biochar, Environmental Chemistry, Soil Pollutants

Abstract

A field experiment was conducted to investigate the effect of bean stalk (BBC) and rice straw (RBC) biochars on the bioavailability of metal(loid)s in soil and their accumulation into rice plants. Phytoavailability of Cd was most dramatically influenced by biochars addition. Both biochars significantly decreased Cd concentrations in iron plaque (35-81 %), roots (30-75 %), shoots (43-79 %) and rice grain (26-71 %). Following biochars addition, Zinc concentrations in roots and shoots decreased by 25.0-44.1 and 19.9-44.2 %, respectively, although no significant decreases were observed in iron plaque and rice grain. Only RBC significantly reduced Pb concentrations in iron plaque (65.0 %) and roots (40.7 %). However, neither biochar significantly changed Pb concentrations in rice shoots and grain. Arsenic phytoavailability was not significantly altered by biochars addition. Calculation of hazard quotients (HQ) associated with rice consumption revealed RBC to represent a promising candidate to mitigate hazards associated with metal(loid) bioaccumulation. RBC reduced Cd HQ from a 5.5 to 1.6. A dynamic factor's way was also used to evaluate the changes in metal(loid) plant uptake process after the soil amendment with two types of biochar. In conclusion, these results highlight the potential for biochar to mitigate the phytoaccumulation of metal(loid)s and to thereby reduce metal(loid) exposure associated with rice consumption.

Published

2014