An approach to mitigating soil CO2 emission by biochemically inhibiting cellulolytic microbial populations through mediation via the medicinal herb Isatis indigotica
Environmental Science: Water Science and Technology
; Earth and Planetary Sciences: Earth-Surface Processes
; Environmental Science: Environmental Chemistry
英文摘要:
Greenhouse gases (GHGs, particularly carbon dioxide (CO2)) emissions from soil under wheat production are a significant source of agricultural carbon emissions that have not been mitigated effectively. A field experiment and a static incubation study in a lab were conducted to stimulate wheat growth and investigate its potential to reduce CO2 emissions from soil through intercropping with a traditional Chinese medicinal herb called Isatis indigotica. This work was conducted by adding I.�indigotica root exudates based on the quantitative real-time PCR (qPCR) analysis of the DNA copy number of the rhizosphere or bulk soil microbial populations. This addition was performed in relation to the CO2 formation by cellulolytic microorganisms (Penicillium oxalicum, fungi and Ruminococcus albus) to elucidate the microbial ecological basis for the molecular mechanism that decreases CO2 emissions from wheat fields using I.�indigotica. The results showed that the panicle weight and full grains per panicle measured through intercropping with I.�indigotica (NPKWR) increased by 39% and 28.6%, respectively, compared to that of the CK (NPKW). Intercropping with I.�indigotica significantly decreased the CO2 emissions from soil under wheat cultivation. Compared with CK, the total CO2 emission flux during the wheat growth period in the I.�indigotica (NPKWR) intercropping treatment decreased by 29.26%. The intensity of CO2 emissions per kg of harvested wheat grain declined from 7.53�kg CO2/kg grain in the NPKW (CK) treatment to 5.55�kg CO2/kg grain in the NPKWR treatment. The qPCR analysis showed that the DNA copy number of the microbial populations of cellulolytic microorganisms (P.�oxalicum, fungi and R.�albus) in the field rhizosphere around I.�indigotica or in the bulk soil under laboratory incubation was significantly lower than that of CK. This finding indicated that root exudates from I.�indigotica inhibited the activity and number of cellulolytic microbial populations, which led to decreased CO2 emissions, suggesting this plant's potential role in mitigating agricultural GHGs and in supporting agroecology. � 2017
Department of Agricultural Resources and Environment, Nanjing University of Information Science and Technology, Nanjing, China; College of Resources and Environmental Sciences, Nanjing Agricultural University, China; South China Institute of Environmental Science, Environmental Protection Ministry of China, Guangzhou, China; College of Water Irrigation and Drainage and Environmental Science, Zhengzhou University, Zhengzhou, China; College of Chemical Engineering, Zhengzhou University, Zhengzhou, China; Shanghai Key Laboratory of Meteorology and Health, Yangtze River Delta Center for Environmental Meteorological Prediction and Warning, Shanghai, China
Recommended Citation:
Wu H,-S,, Chen S,et al. An approach to mitigating soil CO2 emission by biochemically inhibiting cellulolytic microbial populations through mediation via the medicinal herb Isatis indigotica[J]. Atmospheric Environment,2017-01-01,158