Hydroponic culture is a controlled systems use a soilless growing media,supply all of the plant’s nutrition in the plant’s solutions(water with dissolved fertilizers),result in higher yields of vegetables,flowers,he...Hydroponic culture is a controlled systems use a soilless growing media,supply all of the plant’s nutrition in the plant’s solutions(water with dissolved fertilizers),result in higher yields of vegetables,flowers,herbs and others crops.Hydroponic systems derive in many various forms and types.Most traditional hydroponic systems are extremely specialized,controlled-environment production systems.Organic hydroponics is a system that is arranged based on organic agriculture of culture.Different approaches are used for controlling of plant pathogens such as physical,chemical,biological controls,biofertilizers,bioremediators and integrated pest management.All the required nutrients are supplied in controlled amounts,including organic crops.This article discuss the way for promoting organic hydroponics systems and to help the small-scale producer make decisions about follow this markets,production methods,and disease control.展开更多
The lesion-mimic Arabidopsis mutant, syp121 syp122, constitutively expresses the salicylic acid (SA) signaling pathway and has low penetration resistance to powdery mildew fungi. Genetic analyses of the lesion-mimic...The lesion-mimic Arabidopsis mutant, syp121 syp122, constitutively expresses the salicylic acid (SA) signaling pathway and has low penetration resistance to powdery mildew fungi. Genetic analyses of the lesion-mimic phenotype have expanded our understanding of programmed cell death (PCD) in plants. Inactivation of SA signaling genes in syp121 syp122 only partially rescues the lesion-mimic phenotype, indicating that additional defenses contribute to the PCD. Whole genome transcriptome analysis confirmed that SA-induced transcripts, as well as numerous other known pathogenresponse transcripts, are up-regulated after inactivation of the syntaxin genes. A suppressor mutant analysis of syp121 syp122 revealed that FMO1, ALD1, and PAD4 are important for lesion development Mutant alleles of EDS1, NDR1, RAR1, and SGTlb also partially rescued the lesion-mimic phenotype, suggesting that mutating syntaxin genes stimulates TIR-NB-LRR and CC-NB-LRR-type resistances. The syntaxin double knockout potentiated a powdery mildew- induced HR-like response. This required functional PAD4 but not functional SA signaling. However, SA signaling potentiated the PAD4-dependent HR-like response. Analyses of quadruple mutants suggest that EDS5 and SID2 confer separate SA-independent signaling functions, and that FMO1 and ALD1 mediate SA-independent signals that are NPRl-dependent. These studies highlight the contribution of multiple pathways to defense and point to the complexity of their interactions.展开更多
文摘Hydroponic culture is a controlled systems use a soilless growing media,supply all of the plant’s nutrition in the plant’s solutions(water with dissolved fertilizers),result in higher yields of vegetables,flowers,herbs and others crops.Hydroponic systems derive in many various forms and types.Most traditional hydroponic systems are extremely specialized,controlled-environment production systems.Organic hydroponics is a system that is arranged based on organic agriculture of culture.Different approaches are used for controlling of plant pathogens such as physical,chemical,biological controls,biofertilizers,bioremediators and integrated pest management.All the required nutrients are supplied in controlled amounts,including organic crops.This article discuss the way for promoting organic hydroponics systems and to help the small-scale producer make decisions about follow this markets,production methods,and disease control.
文摘The lesion-mimic Arabidopsis mutant, syp121 syp122, constitutively expresses the salicylic acid (SA) signaling pathway and has low penetration resistance to powdery mildew fungi. Genetic analyses of the lesion-mimic phenotype have expanded our understanding of programmed cell death (PCD) in plants. Inactivation of SA signaling genes in syp121 syp122 only partially rescues the lesion-mimic phenotype, indicating that additional defenses contribute to the PCD. Whole genome transcriptome analysis confirmed that SA-induced transcripts, as well as numerous other known pathogenresponse transcripts, are up-regulated after inactivation of the syntaxin genes. A suppressor mutant analysis of syp121 syp122 revealed that FMO1, ALD1, and PAD4 are important for lesion development Mutant alleles of EDS1, NDR1, RAR1, and SGTlb also partially rescued the lesion-mimic phenotype, suggesting that mutating syntaxin genes stimulates TIR-NB-LRR and CC-NB-LRR-type resistances. The syntaxin double knockout potentiated a powdery mildew- induced HR-like response. This required functional PAD4 but not functional SA signaling. However, SA signaling potentiated the PAD4-dependent HR-like response. Analyses of quadruple mutants suggest that EDS5 and SID2 confer separate SA-independent signaling functions, and that FMO1 and ALD1 mediate SA-independent signals that are NPRl-dependent. These studies highlight the contribution of multiple pathways to defense and point to the complexity of their interactions.
