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Trichoderma longibrachiatum

About: Trichoderma longibrachiatum is a research topic. Over the lifetime, 452 publications have been published within this topic receiving 10591 citations.


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TL;DR: The results reveal that the three isolates of Trichoderma, regardless of their origin, alleviate the stress produced by salinity, resulting in larger plants with an air- dry weight percentage above 80% in saline stress conditions for T. longibrachiatum, or an increase in root-dry weight close to 50% when T. europaeum was applied.
Abstract: This present study evaluates three isolates of Trichoderma as plant growth promoting or biological control agents: Trichoderma aggressivum f. sp. europaeum, Trichoderma saturnisporum, and the marine isolate obtained from Posidonia oceanica, Trichoderma longibrachiatum. The purpose is to contribute to an overall reduction in pesticide residues in the fruit and the environment and to a decrease in chemical fertilizers, the excess of which aggravates one of the most serious abiotic stresses, salinity. The tolerance of the different isolates to increasing concentrations of sodium chloride was evaluated in vitro, as well as their antagonistic capacity against Pythium ultimum. The plant growth promoting capacity and effects of Trichoderma strains on the severity of P. ultimum on melon seedlings under saline conditions were also analysed. The results reveal that the three isolates of Trichoderma, regardless of their origin, alleviate the stress produced by salinity, resulting in larger plants with an air-dry weight percentage above 80% in saline stress conditions for T. longibrachiatum, or an increase in root-dry weight close to 50% when T. aggressivum f. sp. europaeum was applied. Likewise, the three isolates showed antagonistic activity against P. ultimum, reducing the incidence of the disease, with the highest response found for T. longibrachiatum. Biological control of P. ultimum by T. aggressivum f. sp. europaeum and T. saturnisporum is reported for the first time, reducing disease severity by 62.96% and 51.85%, respectively. This is the first description of T. aggressivum f. sp. europaeum as a biological control agent and growth promoter. The application of these isolates can be of enormous benefit to horticultural crops, in both seedbeds and greenhouses.

33 citations

Journal ArticleDOI
TL;DR: The data show that these fungal activities are able to increase the concentrations of free and glycosidically bound flavor compounds, color, and phenolics to similar or greater extents as compared to a commercial pectolytic enzyme preparation.
Abstract: The effects of a Trichoderma longibrachiatum endoglucanase and an Aspergillus nidulans endoxylanase on the concentration of free and bound volatiles, color, and phenolics during maceration in red wine vinification has been studied. Two different approaches have been considered for the utilization of these enzymes: (i) direct addition of the enzymes to must and (ii) inoculation of must with recombinant wine yeasts overexpressing these activities. An experimental design based on a Taguchi orthogonal array was carried out in order to evaluate the effects of the enzymatic treatments. The data show that these fungal activities are able to increase the concentrations of free and glycosidically bound flavor compounds, color, and phenolics to similar or greater extents as compared to a commercial pectolytic enzyme preparation. The effects of the two different ways of addition of the enzymes were not always equivalent. These enzymes could be considered to be of potential application in the red wine maceration process.

32 citations

Journal ArticleDOI
TL;DR: The results of this study indicate that this formulation may replace malathion to control the insect pest L. orbonalis in brinjal crops.
Abstract: The widespread use of chemical pesticides in agriculture has led to the pollution of environmental systems and has caused various health disorders in animals and humans. Biological pest control is one of the most environmentally friendly methods in modern agriscience. Such methods protect crops from pests and do not pollute the environment. A strain of Trichoderma longibrachiatum was isolated and identified from the soil environment of the North 24 Parganas District, eastern India. A spore suspension of this fungus was used to treat Leucinodes orbonalis, one of the major pests of brinjal (eggplant, Solanum melongena). In an in vitro system, fungal antagonism was determined by median lethal dose (LD50) and median lethal time (LT50) tests against insect larvae. The LD50 and LT50 of T. longibrachiatum were 2.87 × 10(7) spores ml(-1) and 11.7 days, respectively. T. longibrachiatum was formulated into a biopesticide, and its performance was evaluated in brinjal field trials in 2012 and 2013. In the field trials, brinjal treated with three spray applications of T. longibrachiatum (10(8) spores/ml) at 15-day intervals showed a 56.02 % higher crop yield than that of the control. This treatment showed similar efficacy to that of the pesticide malathion in the field trials. The results of this study indicate that this formulation may replace malathion to control the insect pest L. orbonalis in brinjal crops. This is the first report of the entomopathogenic property of T. longibrachiatum and its evaluation against an insect pest in field trials.

31 citations

Journal ArticleDOI
TL;DR: The results of histological examination of infected tissues revealed that F. keratoplasticum and T. longibrachiatum fulfill Koch’s postulates for the existence of endophytes inside the living tissues and produced the least pathogenic effects against D. nobile protocorms.
Abstract: Dendrobium are tropical orchid plants that host diverse endophytic fungi. The role of these fungi is not currently well understood in Dendrobium plants. We morphologically and molecularly identified these fungal endophytes, and created an efficient system for evaluating the pathogenicity and symptoms of endophytic fungi on Dendrobium nobile and Dendrobium officinale though in vitro co-culturing. ReThe colony morphological traits of Dendrobium myco-endophytes (DMEs) were recorded for their identification. Molecular identification revealed the presence of Colletotrichum tropicicola, Fusarium keratoplasticum, Fusarium oxysporum, Fusarium solani, and Trichoderma longibrachiatum. The pathogenicity results revealed that T. longibrachiatum produced the least pathogenic effects against D. nobile protocorms. In seedlings, T. longibrachiatum showed the least pathogenic effects against D. officinale seedlings after seven days. C. tropicicola produced highly pathogenic effects against both Dendrobium seedlings. The results of histological examination of infected tissues revealed that F. keratoplasticum and T. longibrachiatum fulfill Koch’s postulates for the existence of endophytes inside the living tissues. The DMEs are cross-transmitted inside the host plant cells, playing an important role in plant host development, resistance, and alkaloids stimulation.

31 citations

Journal ArticleDOI
TL;DR: The Ca2-mediated perception by plant cells of a key metabolite secreted by a biocontrol fungus is demonstrated, and the first evidence of the involvement of NAADP-gated Ca2+ release in a signalling pathway triggered by aBiotic stimulus is provided.
Abstract: Trichoderma filamentous fungi are increasingly used as biocontrol agents and plant biostimulants. Growing evidence indicates that part of the beneficial effects is mediated by the activity of fungal metabolites on the plant host. We have investigated the mechanism of plant perception of HYTLO1, a hydrophobin abundantly secreted by Trichoderma longibrachiatum, which may play an important role in the early stages of the plant-fungus interaction. Aequorin-expressing Lotus japonicus suspension cell cultures responded to HYTLO1 with a rapid cytosolic Ca2+ increase that dissipated within 30 min, followed by the activation of the defence-related genes MPK3, WRK33, and CP450. The Ca2+-dependence of these gene expression was demonstrated by using the extracellular Ca2+ chelator EGTA and Ned-19, a potent inhibitor of the nicotinic acid adenine dinucleotide phosphate (NAADP) receptor in animal cells, which effectively blocked the HYTLO1-induced Ca2+ elevation. Immunocytochemical analyses showed the localization of the fungal hydrophobin at the plant cell surface, where it forms a protein film covering the plant cell wall. Our data demonstrate the Ca2+-mediated perception by plant cells of a key metabolite secreted by a biocontrol fungus, and provide the first evidence of the involvement of NAADP-gated Ca2+ release in a signalling pathway triggered by a biotic stimulus.

30 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20221
202121
202026
201926
201819
201723