High-throughput powder X-ray diffraction(XRD)with white X-ray beam and an energy-dispersive detector array is demonstrated in this work on a CeO;powder sample on a bending magnet synchrotron beamline at the Shanghai S...High-throughput powder X-ray diffraction(XRD)with white X-ray beam and an energy-dispersive detector array is demonstrated in this work on a CeO;powder sample on a bending magnet synchrotron beamline at the Shanghai Synchrotron Radiation Facility(SSRF),using a simulated energy-dispersive array detector consisting of a spatially scanning silicon-drift detector(SDD).Careful analysis and corrections are applied to account for various experimental hardware-related and diffraction angle-related factors.The resulting diffraction patterns show that the relative strength between different diffraction peaks from energy-dispersive XRD(EDXRD)spectra is consistent with that from angle-resolved XRD(ARXRD),which is necessary for analyzing crystal structures for unknown samples.The X-ray fluorescence(XRF)signal is collected simultaneously.XRF counts from all pixels are integrated directly by energy,while the diffraction spectra are integrated by d-spacing,resulting in a much improved peak strength and signal-to-noise(S/N)ratio for the array detector.In comparison with ARXRD,the diffraction signal generated by a white X-ray beam over monochromic light under the experimental conditions is about 104 times higher.The full width at half maximum(FWHM)of the peaks in q-space is found to be dependent on the energy resolution of the detector,the angle span of the detector,and the diffraction angle.It is possible for EDXRD to achieve the same or even smaller FWHM as ARXRD under the energy resolution of the current detector if the experimental parameters are properly chosen.展开更多
Soil fungi have many important ecological functions,however,their life strategies and interactions in manure fertilized soils are not well understood.The aim of this study was to investigate the effects of biochar ame...Soil fungi have many important ecological functions,however,their life strategies and interactions in manure fertilized soils are not well understood.The aim of this study was to investigate the effects of biochar amendment on the fungal life strategies and species interactions in ryegrass(Lolium perenne L.)rhizosphere soil by high-throughput sequencing.Three soil treatments were evaluated:soil and pig manure mixture without planting ryegrass and biochar application(bulk soil),mixture with ryegrass planting(rhizosphere soil(RS)),and addition of 2%(w/w)biochar with ryegrass(RS+biochar).Our results indicated that temporal turnover,defined as the slope of linear regression between community similarity and time,was significantly higher in the biochar amendment(slope=-0.2689,p<0.0001)relative to the rhizosphere soil.Following biochar addition,the percentage of species employing slow acclimation ecological strategies decreased(from 27% to 17%)and the percentage of sensitive species increased(from 40% to 50%)in comparison to the rhizosphere soil.Network analysis indicated that fungal communities in the biochar amendment enhanced positive correlations compared to the rhizosphere soil and bulk soil.Structural equation model indicated that soil pH was the most important factor in altering fungal life strategies and interactions in manure fertilized soils.展开更多
基金supported by the National Key Research and Development Program of China,China(2017YFB0701900)High-Level Special Funds(G02256401 and G02256301)+1 种基金supported by the fund of the Guangdong Provincial Key Laboratory(2018B030322001)the Guangdong-Hong Kong-Macao Joint Laboratory(2019B121205001)。
文摘High-throughput powder X-ray diffraction(XRD)with white X-ray beam and an energy-dispersive detector array is demonstrated in this work on a CeO;powder sample on a bending magnet synchrotron beamline at the Shanghai Synchrotron Radiation Facility(SSRF),using a simulated energy-dispersive array detector consisting of a spatially scanning silicon-drift detector(SDD).Careful analysis and corrections are applied to account for various experimental hardware-related and diffraction angle-related factors.The resulting diffraction patterns show that the relative strength between different diffraction peaks from energy-dispersive XRD(EDXRD)spectra is consistent with that from angle-resolved XRD(ARXRD),which is necessary for analyzing crystal structures for unknown samples.The X-ray fluorescence(XRF)signal is collected simultaneously.XRF counts from all pixels are integrated directly by energy,while the diffraction spectra are integrated by d-spacing,resulting in a much improved peak strength and signal-to-noise(S/N)ratio for the array detector.In comparison with ARXRD,the diffraction signal generated by a white X-ray beam over monochromic light under the experimental conditions is about 104 times higher.The full width at half maximum(FWHM)of the peaks in q-space is found to be dependent on the energy resolution of the detector,the angle span of the detector,and the diffraction angle.It is possible for EDXRD to achieve the same or even smaller FWHM as ARXRD under the energy resolution of the current detector if the experimental parameters are properly chosen.
基金supported by Strategic Priority Research Program(B)of the Chinese Academy of Sciences(XDB15010100)the National Natural Science Foundation of China(No.41622104,41877060)+1 种基金Distinguished Young Scholar Program of the Jiangsu Province(BK20160050)Youth Innovation Promotion Association of Chinese Academy of Sciences(2016284).
文摘Soil fungi have many important ecological functions,however,their life strategies and interactions in manure fertilized soils are not well understood.The aim of this study was to investigate the effects of biochar amendment on the fungal life strategies and species interactions in ryegrass(Lolium perenne L.)rhizosphere soil by high-throughput sequencing.Three soil treatments were evaluated:soil and pig manure mixture without planting ryegrass and biochar application(bulk soil),mixture with ryegrass planting(rhizosphere soil(RS)),and addition of 2%(w/w)biochar with ryegrass(RS+biochar).Our results indicated that temporal turnover,defined as the slope of linear regression between community similarity and time,was significantly higher in the biochar amendment(slope=-0.2689,p<0.0001)relative to the rhizosphere soil.Following biochar addition,the percentage of species employing slow acclimation ecological strategies decreased(from 27% to 17%)and the percentage of sensitive species increased(from 40% to 50%)in comparison to the rhizosphere soil.Network analysis indicated that fungal communities in the biochar amendment enhanced positive correlations compared to the rhizosphere soil and bulk soil.Structural equation model indicated that soil pH was the most important factor in altering fungal life strategies and interactions in manure fertilized soils.
