Your search keyword '"Zhang, Qiannian"' showing total 2 results

1. Measures and effects on soil Cd remediation and safe rice production: a meta-analysis of 10-year Chinese patents.

Author

Wu, Yingjie, Zhang, Qiannian, He, Hua, Liu, Huimin, Xiao, Meijuan, Tan, Yu, Tang, Xiaoyan, Tao, Qi, Huang, Rong, Li, Bing, and Wang, Changquan

Subjects

*SOIL remediation, *SOIL pollution, *SOIL amendments, *PLANT biotechnology, *AGRICULTURAL productivity

Abstract

Abstract\nNOVELTY STATEMENTRice is the staple food for 1/3 of the world’s population, but soil pollution with cadmium (Cd) is harmful to rice production and human health. Therefore, how to reduce the Cd content in rice grains is a hot topic worldwide. However, so far, little is known about Cd remediation technologies for paddy soils from the perspective of patents. Therefore, a meta-analysis was performed to assess the effects of measures based on 1402 observations from 336 patents from 2011 to 2021. The spatio-temporal analysis showed that the number of patents was positively related to the general economic development of the country, but hardly related to the regional economy or the level of provincal Cd pollution. The meta-analysis showed that the overall effect of Cd reduction was slightly higher for combined technologies (59%) than for single technologies (57%). Among all technology classifications, soil applications, which are mainly based on nutritional elements, were the most commonly used technology that could reduce the Cd content in rice grains by 57%. The plant biotechnology was the most effective and could reduce Cd content in rice grains by 76%. Further analysis showed that macronutrients (calcium, phosphorus, and sulfur) were preferred in soil amendments, while micronutrients (silicon, zinc, and selenium) were preferred in foliar amendments. NRAMP5 and HMA3 were the most important genes for manipulating Cd uptake in rice, while Bacillus and Pseudomonas were the most important bacterial taxa for bioremediation of Cd. Overall, this study compiled data on Cd remediation of paddy soil from 10 years of Chinese patents, providing a theoretical basis for better production of low Cd crops and protection of human health.Patents are an indicator and promoter of theoretical innovation and technological improvement. However, little is known about Cd remediation technologies for paddy soils and rice grains from the perspective of patents. In this study, the first dataset of soil Cd remediation and rice safety production measures from the Chinese patents in the past 10 years was established. Then it evaluated the effect of each measure using meta-analysis and pointed out the future direction of research to find better solutions for Cd remediation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Root-soil-microbiome interaction in the rhizosphere of Masson pine (Pinus massoniana) under different levels of heavy metal pollution.

Author

Wu, Yingjie, Wang, Haidong, Peng, Lu, Zhao, Haiyang, Zhang, Qiannian, Tao, Qi, Tang, Xiaoyan, Huang, Rong, Li, Bing, and Wang, Changquan

Subjects

HEAVY metal toxicology, METAL content of soils, SOIL chemistry, BACTERIAL communities, PLANT enzymes, HEAVY metals, RHIZOBACTERIA

Abstract

Heavy metal pollution of the soil affects the environment and human health. Masson pine is a good candidate for phytoremediation of heavy metal in mining areas. Microorganisms in the rhizosphere can help with the accumulation of heavy metal in host plants. However, studies on its rhizosphere bacterial communities under heavy metal pollution are still limited. Therefore, in this study, the chemical and bacterial characteristics of Masson pine rhizosphere under four different levels of heavy metal pollution were investigated using 16 S rRNA gene sequencing, soil chemistry and analysis of plant enzyme activities. The results showed that soil heavy metal content, plant oxidative stress and microbial diversity damage were lower the farther they were from the mine dump. The co-occurrence network relationship of slightly polluted soils (C1 and C2) was more complicated than that of highly polluted soils (C3 and C4). Relative abundance analysis indicated Sphingomonas and Pseudolabrys were more abundant in slightly polluted soils (C1 and C2), while Gaiella and Haliangium were more abundant in highly polluted soils (C3 and C4). LEfSe analysis indicated Burkholderiaceae, Xanthobacteraceae, Gemmatimonadaceae, Gaiellaceae were significantly enriched in C1 to C4 site, respectively. Mantel analysis showed that available cadmium (Cd) contents of soil was the most important factor influencing the bacterial community assembly. Correlation analysis showed that eight bacterial genus were significantly positively associated with soil available Cd content. To the best of our knowledge, this is the first study to investigate the rhizospheric bacterial community of Masson pine trees under different degrees of heavy metal contamination, which lays the foundation for beneficial bacteria-based phytoremediation using Masson pines in the future. [Display omitted] • Sphingomonas, Bradyrhizobium and Haliangium were dominated in pine rhizosphere. • Bacterial network of HM polluted soil was simpler than that of clean soil. • Gaiella and Haliangium were representative taxa in HM polluted soils. • Soil available Cd was the most important factor influencing bacterial community. • Plant antioxidant was positively correlated with soil heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024