机构地区:[1]College of Life Sciences,Tianjin Normal University
出 处:《Agricultural Biotechnology》2020年第1期54-56,共3页农业生物技术(英文版)
基 金:Supported by National Natural Science Foundation of China(31870484)
摘 要:[Objectives] This study was conducted to provide a scientific basis for the utilization of municipal solid waste resources, the remediation of contaminated substrates and the ecological safety of urban lawn planting. [Methods] Graphene, multi-layer graphene oxide and multi-walled carbon nanotubes were added to municipal solid waste(MSW) compost as turf substrate to determine the morphological indicators such as turfgrass biomass, chlorophyll contents and plant height. [Results] There were no significant differences in the plant height of Festuca arundinacea between different treatment groups in the first 30 d. The effects of adding different carbon nanomaterials on the fresh and dry weights of F. arundinacea were not significantly different. The aboveground biomass of F. arundinacea was the largest after adding graphene oxide, and the underground fresh weight decreased significantly in the hydroxyl multi-walled carbon nanotube treatment compared with the control. As to the chlorophyll content, the graphene oxide treatment was the highest, but there were no significant differences between all the treatment groups and the control group. [Conclusions] This study can provide data support for MSW compost substrate, lawn planting system and heavy metal pollutant passivating agents.[Objectives] This study was conducted to provide a scientific basis for the utilization of municipal solid waste resources, the remediation of contaminated substrates and the ecological safety of urban lawn planting. [Methods] Graphene, multi-layer graphene oxide and multi-walled carbon nanotubes were added to municipal solid waste(MSW) compost as turf substrate to determine the morphological indicators such as turfgrass biomass, chlorophyll contents and plant height. [Results] There were no significant differences in the plant height of Festuca arundinacea between different treatment groups in the first 30 d. The effects of adding different carbon nanomaterials on the fresh and dry weights of F. arundinacea were not significantly different. The aboveground biomass of F. arundinacea was the largest after adding graphene oxide, and the underground fresh weight decreased significantly in the hydroxyl multi-walled carbon nanotube treatment compared with the control. As to the chlorophyll content, the graphene oxide treatment was the highest, but there were no significant differences between all the treatment groups and the control group. [Conclusions] This study can provide data support for MSW compost substrate, lawn planting system and heavy metal pollutant passivating agents.
关 键 词:Carbon nanomaterial PASSIVATOR MSW compostsubstrate Festuca arundinacea
分 类 号:S567.79[农业科学—中草药栽培]
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