The high-precision terrestrial reference frame,as the spatial benchmark for geodesy,is an important national infrastructure.However,due to the influence of nonlinear factors related to geophysical phenomena,the overal...The high-precision terrestrial reference frame,as the spatial benchmark for geodesy,is an important national infrastructure.However,due to the influence of nonlinear factors related to geophysical phenomena,the overall maintenance accuracy of the ITRF framework is still at the centimeter level.Therefore,accurately characterizing the true trajectories of linear motion,nonlinear motion,and geocentric motion of the reference station is the key to achieve the construction and maintenance technology of a millimeter level terrestrial reference framework.Based on long-term global and regional GNSS observation data,more Chinese geodesy scientists devoted much efforts to the maintenance of millimeter-level geodetic reference framework.The main contributions of this work included the followings:①Dynamic maintenance of millimeter-level terrestrial reference frame;②Research progress on the method of maintenance of regional reference frame based on GNSS;③The progress of CGCS2000 frame maintenance in millimeter level accuracy;④Reprocessing and reanalysis of two-decade GNSS observation in continental China;⑤Research on current GNSS velocity field model and deformation in Chinese mainland;⑥The preliminary realization and evaluation of CTRF2020.展开更多
Rose(Rosa chinensis),which is an economically valuable floral species worldwide,has three types,namely once-flowering(OF),occasional or re-blooming(OR),and recurrent or continuous flowering(CF).However,the mechanism u...Rose(Rosa chinensis),which is an economically valuable floral species worldwide,has three types,namely once-flowering(OF),occasional or re-blooming(OR),and recurrent or continuous flowering(CF).However,the mechanism underlying the effect of the age pathway on the duration of the CF or OF juvenile phase is largely unknown.In this study,we observed that the RcSPL1 transcript levels were substantially upregulated during the floral development period in CF and OF plants.Additionally,accumulation of RcSPL1 protein was controlled by rch-miR156.The ectopic expression of RcSPL1 in Arabidopsis thaliana accelerated the vegetative phase transition and flowering.Furthermore,the transient overexpression of RcSPL1 in rose plants accelerated flowering,whereas silencing of RcSPL1 had the opposite phenotype.Accordingly,the transcription levels of floral meristem identity genes(APETALA1,FRUITFULL,and LEAFY)were significantly affected by the changes in RcSPL1 expression.RcTAF15b protein,which is an autonomous pathway protein,was revealed to interact with RcSPL1.The silencing and overexpression of RcTAF15b in rose plants led to delayed and accelerated flowering,respectively.Collectively,the study findings imply that RcSPL1–RcTAF15b modulates the flowering time of rose plants.展开更多
基金National Natural Science Foundation of China(Nos.42274044,41974010,42330113,41804018)。
文摘The high-precision terrestrial reference frame,as the spatial benchmark for geodesy,is an important national infrastructure.However,due to the influence of nonlinear factors related to geophysical phenomena,the overall maintenance accuracy of the ITRF framework is still at the centimeter level.Therefore,accurately characterizing the true trajectories of linear motion,nonlinear motion,and geocentric motion of the reference station is the key to achieve the construction and maintenance technology of a millimeter level terrestrial reference framework.Based on long-term global and regional GNSS observation data,more Chinese geodesy scientists devoted much efforts to the maintenance of millimeter-level geodetic reference framework.The main contributions of this work included the followings:①Dynamic maintenance of millimeter-level terrestrial reference frame;②Research progress on the method of maintenance of regional reference frame based on GNSS;③The progress of CGCS2000 frame maintenance in millimeter level accuracy;④Reprocessing and reanalysis of two-decade GNSS observation in continental China;⑤Research on current GNSS velocity field model and deformation in Chinese mainland;⑥The preliminary realization and evaluation of CTRF2020.
基金This work was funded by Guest Investigator Grant of the State Key Laboratory of Plant Genomics,Institute of Microbiology,Chinese Academy of Science(SKLPG2016A-29)。
文摘Rose(Rosa chinensis),which is an economically valuable floral species worldwide,has three types,namely once-flowering(OF),occasional or re-blooming(OR),and recurrent or continuous flowering(CF).However,the mechanism underlying the effect of the age pathway on the duration of the CF or OF juvenile phase is largely unknown.In this study,we observed that the RcSPL1 transcript levels were substantially upregulated during the floral development period in CF and OF plants.Additionally,accumulation of RcSPL1 protein was controlled by rch-miR156.The ectopic expression of RcSPL1 in Arabidopsis thaliana accelerated the vegetative phase transition and flowering.Furthermore,the transient overexpression of RcSPL1 in rose plants accelerated flowering,whereas silencing of RcSPL1 had the opposite phenotype.Accordingly,the transcription levels of floral meristem identity genes(APETALA1,FRUITFULL,and LEAFY)were significantly affected by the changes in RcSPL1 expression.RcTAF15b protein,which is an autonomous pathway protein,was revealed to interact with RcSPL1.The silencing and overexpression of RcTAF15b in rose plants led to delayed and accelerated flowering,respectively.Collectively,the study findings imply that RcSPL1–RcTAF15b modulates the flowering time of rose plants.