Excessive use of organophosphate pesticides(OP),such as dichlorvos,in farming system poses a threat to human health through potential contamination of environment.To date,biodegradation has been prospected most promis...Excessive use of organophosphate pesticides(OP),such as dichlorvos,in farming system poses a threat to human health through potential contamination of environment.To date,biodegradation has been prospected most promising approach to eliminate environmental OP residues.Trichoderma species as a biological control microorganism is often exposed to the chemical pesticides applied in environments,so it is necessary to understand the mechanism of degradation of dichlorvos by Trichoderma.In this study,dichlorvos significantly inhibited the growth,sporulation and pigmentation of T.atroviride T23,and the dichlorvos degradation activity of T23 required the initial induction effect of dichlorvos and the culture conditions,including the nutrient and pH values of the medium.Various changed primary and secondary metabolites released from T23 in the presence of dichlorvos were speculated as the energy and antioxidants for the strain itself to tolerate dichlorvos stress.The results showed that T23 could produce a series of enzymes,especially the intracellular enzymes,to degrade dichlorvos.The activities of the intracellular enzyme generated by T23 were differentially changed along time course and especially relied on initial dichlorvos concentration,ammonium sulfate and phosphate added in the medium.In conclusion,some dichlorvos-induced chemical degradation related enzymes of T23 were proved to be involved in the degradation of dichlorvos.展开更多
Maize is the main crop for Mexicans;however, it is affected by species of fungi causing ear rot. This research aimed to evaluate the effect of T. asperellum T11, T. harzianum T1 4 y T. longibrachiatum T1 40 on some ag...Maize is the main crop for Mexicans;however, it is affected by species of fungi causing ear rot. This research aimed to evaluate the effect of T. asperellum T11, T. harzianum T1 4 y T. longibrachiatum T1 40 on some agronomic variables of four maize genotypes. The seeds of the genotypes H-515, Zapata 7, and H-507 were treated with a suspension of Trichoderma spp. to 1 × 10<sup>8</sup> spores mL<sup>-1</sup>, using a control (untreated seed), and Benomyl as chemical control. The planting was in Morelos, in a completely random block design with a factorial arrangement. The ear rot was natural. Data were obtained at the end of the crop cycle and processed in SAS 9.4<sup><sup>®</sup></sup>. H-515 genotype had the greatest effect on the treatment of maize seeds with Trichoderma spp. (5.562 kg);T. asperellum T11 was the strain that stood out with a mean yield of 50 ears in an area of 16 m<sup>2</sup> of 4.904 kg, and control of 4.448 kg. Our results are an economic option for farmers to contemplate the use of Trichoderma and obtain its benefits.展开更多
Trichoderma spp. is a filamentous soil fungus known as an effective biocontrol agent of a range of important airborne and soilborne pathogens, it has universal distribution and economic importance. This article review...Trichoderma spp. is a filamentous soil fungus known as an effective biocontrol agent of a range of important airborne and soilborne pathogens, it has universal distribution and economic importance. This article reviewed the researches on biocontrol mechanism for plant diseases and application of Trichoderma spp., especially Trichoderma harzianum in recent years展开更多
基金supported by the National Natural Science Foundation of China(31872015)the Shanghai Science and Technology Innovation Action Program of the Shanghai Science and Technology Commission,China(21N41900200)+2 种基金the Shanghai Agricultural Applied Technology Development Program(2022-02-08-00-12-F0-01143)the China Agriculture Research System of MOF and MARA(CARS-02)the National Key R&D Program of China(2017YFD0200403).
文摘Excessive use of organophosphate pesticides(OP),such as dichlorvos,in farming system poses a threat to human health through potential contamination of environment.To date,biodegradation has been prospected most promising approach to eliminate environmental OP residues.Trichoderma species as a biological control microorganism is often exposed to the chemical pesticides applied in environments,so it is necessary to understand the mechanism of degradation of dichlorvos by Trichoderma.In this study,dichlorvos significantly inhibited the growth,sporulation and pigmentation of T.atroviride T23,and the dichlorvos degradation activity of T23 required the initial induction effect of dichlorvos and the culture conditions,including the nutrient and pH values of the medium.Various changed primary and secondary metabolites released from T23 in the presence of dichlorvos were speculated as the energy and antioxidants for the strain itself to tolerate dichlorvos stress.The results showed that T23 could produce a series of enzymes,especially the intracellular enzymes,to degrade dichlorvos.The activities of the intracellular enzyme generated by T23 were differentially changed along time course and especially relied on initial dichlorvos concentration,ammonium sulfate and phosphate added in the medium.In conclusion,some dichlorvos-induced chemical degradation related enzymes of T23 were proved to be involved in the degradation of dichlorvos.
文摘Maize is the main crop for Mexicans;however, it is affected by species of fungi causing ear rot. This research aimed to evaluate the effect of T. asperellum T11, T. harzianum T1 4 y T. longibrachiatum T1 40 on some agronomic variables of four maize genotypes. The seeds of the genotypes H-515, Zapata 7, and H-507 were treated with a suspension of Trichoderma spp. to 1 × 10<sup>8</sup> spores mL<sup>-1</sup>, using a control (untreated seed), and Benomyl as chemical control. The planting was in Morelos, in a completely random block design with a factorial arrangement. The ear rot was natural. Data were obtained at the end of the crop cycle and processed in SAS 9.4<sup><sup>®</sup></sup>. H-515 genotype had the greatest effect on the treatment of maize seeds with Trichoderma spp. (5.562 kg);T. asperellum T11 was the strain that stood out with a mean yield of 50 ears in an area of 16 m<sup>2</sup> of 4.904 kg, and control of 4.448 kg. Our results are an economic option for farmers to contemplate the use of Trichoderma and obtain its benefits.
基金Supported by Chinese National Programs for High Technology Research and Development(2003AA241140)
文摘Trichoderma spp. is a filamentous soil fungus known as an effective biocontrol agent of a range of important airborne and soilborne pathogens, it has universal distribution and economic importance. This article reviewed the researches on biocontrol mechanism for plant diseases and application of Trichoderma spp., especially Trichoderma harzianum in recent years