文献类型: 外文期刊
第一作者: Chen, Haoming
作者: Chen, Haoming;Du, Xianfeng;Lai, Mengqi;Nazhafati, Muhanmaitijiang;Li, Chen;Qi, Weicong
作者机构:
关键词: sludge biochar; roof soil properties; microbial biomass; available nutrients; reducing soil consumption
期刊名称:AGRICULTURE-BASEL ( 影响因子:2.925; 五年影响因子:3.044 )
ISSN:
年卷期: 2021 年 11 卷 7 期
页码:
收录情况: SCI
摘要: Green roofs are an important part of urban green spaces. A good roof soil system contributes to the stability of the green roof ecosystem in harsh environments. Biochar as a soil additive can improve soil nutrients, although the mechanism of improvement on the roof substrate is still unclear. This research studied the effects on the physical and chemical properties of green roof soil and analyzed the biological characteristics of green roofs at five gradient ratios of biochar addition (0%, 5%, 10%, 15% and 20% biochar; v/v). The results indicated that biochar could improve the soil porosity (5.3-9.3%) and reduce the bulk density (3.9-10.8%); increase the soil moisture (14.0-37.2%); adjust the temperature, available nutrients and cation exchange capacity (38.1-75.9%) and regulate the soil pH values of the green roof. The biomass of soil microbes, eukaryotes and plants were increased by 75.3%, 199.2% and 57.5%, respectively. Meanwhile, the correlation between microbial diversity and soil nutrients was more significant due to the addition of biochar, and the increase of the phosphorus (P) and carbon (C) contents was the main factor affecting the microbial community. The structural equation model showed that biochar has a direct impact on the microbial diversity by improving the soil moisture, temperature and available nutrients, and the increase of the microbial diversity is conducive to plant growth. Summarily, biochar can be considered as a potential additive for roof soil amendment and promoting the growth of plants and microbes, which is beneficial to the development of a roof ecosystem.
分类号:
- 相关文献
作者其他论文 更多>>
-
The UDP-glycosyltransferase gene OsUGT706E2 negatively regulates rice tolerance to blast disease and abiotic stresses
作者:Chen, Pingli;Jiang, Liqun;Zhang, Lanlan;Sun, Bingrui;Lv, Shuwei;Zhang, Jing;Yu, Hang;Mao, Xingxue;Fan, Zhilan;Li, Chen;Chen, Wenfeng;Liu, Qing
关键词:UDP-glycosyltransferase; Blast disease; Cold stress; Osmotic stress
-
Unveiling the Roles of LncRNA MOIRAs in Rice Blast Disease Resistance
作者:Liu, Qing;Zhang, Lanlan;Jiang, Liqun;Li, Chen;Xue, Jiao
关键词:rice blast disease; lncRNAs; Magnaporthe oryzae; disease resistance; crop yield
-
A root cap-localized NAC transcription factor controls root halotropic response to salt stress in Arabidopsis
作者:Zheng, Lulu;Wang, Zhen;Wang, Daoyuan;Jia, Letian;Xie, Yuanming;Xuan, Wei;Zheng, Lulu;Beeckman, Tom;Zheng, Lulu;Beeckman, Tom;Hu, Yongfeng;Yang, Tianzhao;Luo, Long;Han, Yi;Qi, Weicong;Lv, Yuanda
关键词:
-
Root microbiota analysis of Oryza rufipogon and Oryza sativa reveals an orientation selection during the domestication process
作者:Jiang, Liqun;Ke, Da;Sun, Bingrui;Zhang, Jing;Lyu, Shuwei;Yu, Hang;Chen, Pingli;Mao, Xingxue;Liu, Qing;Chen, Wenfeng;Fan, Zhilan;Li, Chen;Huang, Li;Yin, Sanjun;Deng, Yizhen
关键词:root-associated microbiota; Oryza rufipogon; Oryza sativa; ITS and 16S rRNA; diversity analysis
-
OsLSC6 Regulates Leaf Sheath Color and Cold Tolerance in Rice Revealed by Metabolite Genome Wide Association Study
作者:Lv, Shuwei;Tang, Xuan;Jiang, Liqun;Zhang, Jing;Sun, Bingrui;Liu, Qing;Mao, Xingxue;Yu, Hang;Chen, Pingli;Chen, Wenfeng;Fan, Zhilan;Li, Chen
关键词:Rice; mGWAS; OsLSC6; Anthocyanin biosynthesis; Cold tolerance
-
A 48-bp deletion upstream of LIGULELESS 1 alters rice panicle architecture
作者:Wu, Linhua;Lyu, Shuwei;Chen, Wenfeng;Yu, Hang;Liu, Qing;Li, Chen;Wu, Linhua;Hu, Min;He, Wei;Zhu, Zuofeng;Li, Chen;Li, Chen;Li, Chen;Hu, Min
关键词:Upstream region; Panicle architecture; Gene expression; BR; Rice
-
Analysis of genetic variations of a recombinant strain derived from the three lineages of porcine reproductive and respiratory syndrome virus-2
作者:Zheng, Limei;Ma, Yingru;Wen, Jianxin;Li, Jun;Han, Xianjie;Wu, Xiaoyan;Liu, Chang;Li, Chen;Shi, Jianli;Han, Hong;Xu, Shaojian;Hrabchenko, Nataliia;Li, Jun;Huang, Mengjie;Qiu, Jianhua
关键词:PRRSV; recombination strains; GP5; NSP2; genetic evolutionary analysis; next-generation sequencing
