Unlike annual flowering plants that exhibit a single reproductive cycle encompassing vegetative growth,flowering,and senescence within a single year,perennial woody trees undergo a transition between vegetative and re...Unlike annual flowering plants that exhibit a single reproductive cycle encompassing vegetative growth,flowering,and senescence within a single year,perennial woody trees undergo a transition between vegetative and reproductive growth every year after a long juvenile phase.Most woody fruit trees bloom when it turns warm in spring,and the fruit ripens in summer or autumn.However,as a member of the Maloideae subfamily,the loquat tree blooms in the cold autumn and winter,and the fruit matures in the spring.To explore the regulatory mechanism of loquat flowering,we characterized two FLOWERING LOCUS T homologous genes in loquat,EjFT1 and EjFT2.qRT-PCR results revealed that EjFT1 and EjFT2 exhibited nearly opposite expression patterns in various tissues.EjFT1 was mainly expressed in young tissues;EjFT2 was mainly expressed in mature leaves,open flowers,and fruits.EjFT2 exhibited an obvious circadian rhythm and was regulated by EjCO.After the trees were exposed to short-day conditions or sprayed with exogenous GA_(3),the expression of EjFT2 was strongly inhibited,and the loquat tree did not produce floral buds.Furthermore,the yeast two-hybrid,bimolecular fluorescence complementation,and Dualluciferase assay experiments revealed that both EjFT1 and EjFT2 interacted with EjFD,with the EjFT2-EjFD protein complex enhancing the activity of EjAP1-1 and EjAP1-2 promoters,while EjFT1-EjFD inhibited the activity of the EjAP1-1 promoter.Protein structural analysis of EjFT1and EjFT2 suggested that differences in amino acid residues at Val_(123)/Leu_(123),Ser_(157)/Ala_(157),and Val_(158)/Ala_(158)may be the reason for their functional differences.Our results showed that EjFT1 and EjFT2 may cooperatively regulate the floral bud differentiation of loquat by competitively binding with EjFD.EjFT2 regulates the onset of loquat floral bud differentiation by responding to photoperiod and gibberellin signals,while EjFT1 is involved in the vegetative growth of loquat.These findings provide important clues for the investigation of the regulatory mechanism of loquat flowering and advance the exploration into the multiple roles of FT homologous genes in regulating the reproductive transformation and vegetative growth of flowering plants.展开更多
[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experimen...[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experiment was carried out with four treatments:control group,nutrient solution group,agent group,and nutrient solution+agent group,and the liquids were infused into the fruit trees through the trunk using a hanging bag.[Results]Through field trials,it was found that the nutrient solution treatment of fruit trees significantly increased the leaf chlorophyll content and nitrogen content,which increased by 17%and 12%compared with the control group,respectively,reaching(70.80±1.57)and(5.53±0.1)mg/kg,respectively;and the combined application of the nutrient solution and powder agents greatly alleviated the symptoms of Huanglongbing in Shatian pomelo plants,and significantly improved the bacterial disease index,photosynthetic intensity and yield,which increased by 152%,158%and 213.53%respectively,reaching(371.00±7.22),(406.67±7.09)and 23.15 kg/hm^2.[Conclusions]The use of the nutrient solution and agents greatly alleviated the symptoms of Huanglongbing of Shatian pomelo plants,and significantly improved the chlorophyll content,nitrogen content,bacterial disease index and photosynthetic intensity.Meanwhile,the number of fruit per plant and the weight of single fruit were better than other treatment groups and the control group,the technical operation was simple and the effect was obvious.This provides a certain reference basis for the prevention and control measures of Huanglongbing in Shatian pomelo plants.展开更多
[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods...[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods] A conventional planting mode( CK) was used as the control,and a Ca-Si soil conditioner( Ca-Si) treatment was set to analyze the differences in soil pH and heavy metal contents in different treatments. [Results]The content of cadmium in the paddy field exceeded the soil pollution risk control value of agricultural land by 59. 33%. The Ca-Si soil conditioner increased the pH value of paddy field soil by 0. 58 unit. The fixation rates of Ca-Si soil conditioner on chromium,arsenic,cadmium and plumbum reached 75. 96%,14. 09%,18. 93% and 7. 81% compared with the CK,respectively,and the available cadmium and lead contents were reduced by 82. 35% and 80. 00%,respectively. [Conclusions]This study provides ideas and references for the remediation of heavy metal pollution in paddy soil.展开更多
基金supported by the Guangdong Basic and Applied Basic Research Foundation(Grant No.2024A1515013095,2021A1515011048)the Open Fund of the Guangdong Provincial Key Laboratory of Utilization and Conservation of Food and Medicinal Resources in Northern Region(Grant No.SY-KFFMR2022009Z)Shaoguan City Science and Technology Planning Project(Social Development Direction-Supporting Scientific Research Workers Project)(Grant No.200811094530739)。
文摘Unlike annual flowering plants that exhibit a single reproductive cycle encompassing vegetative growth,flowering,and senescence within a single year,perennial woody trees undergo a transition between vegetative and reproductive growth every year after a long juvenile phase.Most woody fruit trees bloom when it turns warm in spring,and the fruit ripens in summer or autumn.However,as a member of the Maloideae subfamily,the loquat tree blooms in the cold autumn and winter,and the fruit matures in the spring.To explore the regulatory mechanism of loquat flowering,we characterized two FLOWERING LOCUS T homologous genes in loquat,EjFT1 and EjFT2.qRT-PCR results revealed that EjFT1 and EjFT2 exhibited nearly opposite expression patterns in various tissues.EjFT1 was mainly expressed in young tissues;EjFT2 was mainly expressed in mature leaves,open flowers,and fruits.EjFT2 exhibited an obvious circadian rhythm and was regulated by EjCO.After the trees were exposed to short-day conditions or sprayed with exogenous GA_(3),the expression of EjFT2 was strongly inhibited,and the loquat tree did not produce floral buds.Furthermore,the yeast two-hybrid,bimolecular fluorescence complementation,and Dualluciferase assay experiments revealed that both EjFT1 and EjFT2 interacted with EjFD,with the EjFT2-EjFD protein complex enhancing the activity of EjAP1-1 and EjAP1-2 promoters,while EjFT1-EjFD inhibited the activity of the EjAP1-1 promoter.Protein structural analysis of EjFT1and EjFT2 suggested that differences in amino acid residues at Val_(123)/Leu_(123),Ser_(157)/Ala_(157),and Val_(158)/Ala_(158)may be the reason for their functional differences.Our results showed that EjFT1 and EjFT2 may cooperatively regulate the floral bud differentiation of loquat by competitively binding with EjFD.EjFT2 regulates the onset of loquat floral bud differentiation by responding to photoperiod and gibberellin signals,while EjFT1 is involved in the vegetative growth of loquat.These findings provide important clues for the investigation of the regulatory mechanism of loquat flowering and advance the exploration into the multiple roles of FT homologous genes in regulating the reproductive transformation and vegetative growth of flowering plants.
基金Shaoguan Science and Technology Project(2018sn046)Schoollevel Project of Shaoguan University(SY2016KJ04)Undergraduate Innovation Project of Shaoguan University(202010576002X)。
文摘[Objectives]In order to effectively alleviate Huanglongbing of Shatian pomelo trees,a nutrient preparation was developed and its effect on the growth and yield of Shatian pomelo was explored.[Methods]A field experiment was carried out with four treatments:control group,nutrient solution group,agent group,and nutrient solution+agent group,and the liquids were infused into the fruit trees through the trunk using a hanging bag.[Results]Through field trials,it was found that the nutrient solution treatment of fruit trees significantly increased the leaf chlorophyll content and nitrogen content,which increased by 17%and 12%compared with the control group,respectively,reaching(70.80±1.57)and(5.53±0.1)mg/kg,respectively;and the combined application of the nutrient solution and powder agents greatly alleviated the symptoms of Huanglongbing in Shatian pomelo plants,and significantly improved the bacterial disease index,photosynthetic intensity and yield,which increased by 152%,158%and 213.53%respectively,reaching(371.00±7.22),(406.67±7.09)and 23.15 kg/hm^2.[Conclusions]The use of the nutrient solution and agents greatly alleviated the symptoms of Huanglongbing of Shatian pomelo plants,and significantly improved the chlorophyll content,nitrogen content,bacterial disease index and photosynthetic intensity.Meanwhile,the number of fruit per plant and the weight of single fruit were better than other treatment groups and the control group,the technical operation was simple and the effect was obvious.This provides a certain reference basis for the prevention and control measures of Huanglongbing in Shatian pomelo plants.
基金Supported by Natural Science Foundation of Guangdong Province(2018A030307075)Special Fund for Science and Technology Innovation Strategy of Guangdong Province(135-99000206,432-99000228)+2 种基金Science and Technology Planning Project of Shaoguan City(2018sn038)School-level Project of Shaoguan University(SY2016KJ04)Undergraduate Innovation and Entrepreneurship Project(Sycxcy2017-041,201810576009)。
文摘[Objectives] In order to solve the problem of heavy metal pollution in paddy fields,field experiments were carried out to study the effect of Ca-Si soil conditioner on heavy metal remediation in paddy fields. [Methods] A conventional planting mode( CK) was used as the control,and a Ca-Si soil conditioner( Ca-Si) treatment was set to analyze the differences in soil pH and heavy metal contents in different treatments. [Results]The content of cadmium in the paddy field exceeded the soil pollution risk control value of agricultural land by 59. 33%. The Ca-Si soil conditioner increased the pH value of paddy field soil by 0. 58 unit. The fixation rates of Ca-Si soil conditioner on chromium,arsenic,cadmium and plumbum reached 75. 96%,14. 09%,18. 93% and 7. 81% compared with the CK,respectively,and the available cadmium and lead contents were reduced by 82. 35% and 80. 00%,respectively. [Conclusions]This study provides ideas and references for the remediation of heavy metal pollution in paddy soil.
