Your search keyword '"Bo-Han Liao"' showing total 4 results

1. 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

2. 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

3. 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

4. Short-term alleviation of aluminum phytotoxicity by urea application in acid soils from south China

Author

Qing-ru, Zeng, primary, Bo-han, Liao, additional, Li-tian, Zhang, additional, Xi-hong, Zhou, additional, and Hong-xiao, Tang, additional

Published

2006