Use of Trichoderma spp. in no-tillage system: Effect on soil and soybean crop

Conte, Elaine Damiani; Magro, Taísa Dal; Dal, Luís Carlos; Dalmina, João Claudio; Matté, Jhullia Andolfato; Schenkel, Vilson Osmar; Schwambach, Joséli

doi:10.1016/j.biocontrol.2022.104941

Cited by 6 publications

(3 citation statements)

References 50 publications

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“…Streptomyces 具有抑制植物病害的能力, 主要通过竞争资源、产生抗生素、诱导植物系统抗性等, 抑制病原菌生长繁殖, 促使植物健康生长 [46] . Trichoderma可以与一些植物病原菌竞争资源, 产生抗生素或植物生长激素等, 提升植物抗病能力, 促使植株健康生长, 提高产量 [47,48] . Peni-cillium受香草酸和丙二醇等特定根系分泌物的刺激, 能够抑制Foc TR4病原体 [48] .…”

Section: 间作模式对根际土壤微生物群落结构的影响unclassified

间作槟榔调控咖啡根际微生物群落结构及功能促进咖啡植株发育

Zhao,

Zhang,

Dong

et al. 2024

Sci. Sin.-Vitae

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Section: 间作模式对根际土壤微生物群落结构的影响unclassified

间作槟榔调控咖啡根际微生物群落结构及功能促进咖啡植株发育

Zhao,

Zhang,

Dong

et al. 2024

Sci. Sin.-Vitae

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“…The colonisation of cucumber roots by T. asperellum has been shown to enhance the availability of phosphorus (P) with a significant enhancement in plant biomass (Yedidia et al, 2001). Moreover, T. harzianum and T. longibrachiatum can improve the solubility of P, iron (Fe), copper (Cu), manganese (Mn), and zinc (Zn) and reduce the fixation of Fe and Cu in soil (Conte et al, 2022;Tandon et al, 2022). It has been shown that Trichoderma spp.…”

Section: Figurementioning

confidence: 99%

“…Trichoderma can generally lower soil pH and activate soil nutrients by secreting organic acids such as gluconic, citric, and fumaric ones (Fu et al, 2019;Poveda, 2021) with the lower soil pH mainly contributing to the improvement of soil nutrient availability. After two years of Trichoderma application, the pH of moist oxidised soil with long-term soybean planting decreased by 0.2 unit, while the content of hydrion and aluminium (H+Al) and Mn significantly increased by 5 cmolc dm −3 and 28 mg dm −3 , respectively (Conte et al, 2022). It has been shown that Trichoderma RW309 increased the content of soil mineral N by about 50% compared to that without Trichoderma application (Asghar, Kataoka, 2021) and soil available P by 12% improving soil nutrients availability and enhancing soil productivity sustainability (Fu et al, 2019).…”

Section: Effects Of Trichoderma On Soil Ecological Environmentmentioning

confidence: 99%

Trichoderma affects plant growth and soil ecological environment: A mini-review

Zhu

Zhao

Wang

et al. 2022

Zemdirbyste-Agriculture

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Trichoderma is a genus of widespread filamentous fungi widely used in agriculture as biofungicides for controlling a wide range of plant diseases. Trichoderma, as is well known, can not only effectively control crop diseases but also improve soil physico-chemical properties and increase soil productivity. However, the effects of its control on crop growth and the soil's ecological environment are unclear. The results of Trichoderma on disease resistance, yield, and crop growth as well as the effects of Trichoderma on the soil ecological environment from the standpoint of soil physical, chemical, and microbial properties were therefore reported in this study. Furthermore, this paper highlighted the shortcomings of the existing research on the impact of Trichoderma on crop and soil properties and emphasised opportunities to address the gaps in the existing research on the effects of Trichoderma on crops and soil attributes. This review will provide a theoretical foundation for further research and application of Trichoderma in agricultural production.

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The Combination Between Super Absorbent Polymers (SAPs) and Biofertilizers Could be an Ecofriendly Approach for Soil Chemical Properties Improving and Sustainable Wheat (Triticum Sativum) Production in Sandy Loam Soil

Negim,

Moharam,

Elsayed

et al. 2024

J Soil Sci Plant Nutr

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Sustainable agriculture aims to provide food needs while improving soil health and protecting it from degradation and contamination from excessive chemical fertilizer use. Sandy-textured soils have low fertility and water-holding capacity. This study assessed the integrated impact of super absorbent polymers (SAPs) and biofertilizer application on the soil chemical characteristics and wheat growth parameters in sandy loam soil. Two super absorbent polymers (SAPs) included Barbary plant G3 (P1) and Aqua Gool polymer (P2), and four microbial inoculations (Trichoderma harzianum (T), Actinomycetes (Streptomyces rochei and Streptomyces atrovirens) (AC1 and AC2), and Bacillus subtilis (B)) as biofertilizers were used in our pot experiment. The SAPs were applied to soil at a level of 0.2% (w/w), while biofertilizers were applied in the form of microbial cell suspensions (50 ml per pot) in addition to treating wheat seed with these suspensions during cultivation. Wheat plants were irrigated every 8 days to field capacity level. Amending soil with super absorbent polymers and microbes either individually or in combination significantly reduced pH and EC, increased organic matter level, and the availability of macro- and micronutrients in soil. Wheat growth metrics, including shoot length, tiller number, biomass accumulation, leaf area, and grain yield, exhibited considerable enhancements relative to the plants of the control treatment. The interaction between P1 polymer and Streptomyces atrovirens (AC2) showed the highest performance in improving the almost studied parameters. The application of SAPs with microbial biofertilizers offers a promising eco-friendly method for enhancing soil health and wheat yield.

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Use of Trichoderma spp. in no-tillage system: Effect on soil and soybean crop

Cited by 6 publications

References 50 publications

间作槟榔调控咖啡根际微生物群落结构及功能促进咖啡植株发育

间作槟榔调控咖啡根际微生物群落结构及功能促进咖啡植株发育

Trichoderma affects plant growth and soil ecological environment: A mini-review

The Combination Between Super Absorbent Polymers (SAPs) and Biofertilizers Could be an Ecofriendly Approach for Soil Chemical Properties Improving and Sustainable Wheat (Triticum Sativum) Production in Sandy Loam Soil

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