The influence of biocarrier of Aspergillus niger and Trichoderma harzianum toward vegetative growth of sorghum in the field experiment

Sugiharto, Arwan; Napitupulu, Toga Pangihotan; Sudiana, I Made

doi:10.37604/jmsb.v2i2.60

Cited by 3 publications

(3 citation statements)

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“…According to previous research, bacteria have a role in hyphae growth and arbuscular mycorrhizal fungi's mycorrhizal ability on host plants [11,12]. There are bacteria and fungi in compost that can stimulate growth directly and increase plant growth through various mechanisms, including phosphate dissolution and the production of plant growth hormones such as auxins [13,14,15].…”

Section: Sterilization Treatmentsmentioning

confidence: 99%

Influence of AM fungi inoculation on Capsicum annuum L. plant grown in microwave-sterilized media

et al. 2021

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The presence of arbuscular mycorrhizal in soil may affect growth and yield of chili (Capsicum annuum L.). This experiment was done to know the effect of arbuscular mycorrhizal inoculation on growth of chilli. Microwave soil sterilization was used to reduce the number of microbes in the media, enabling to observe the interaction between chili peppers and arbuscular mycorrhizal fungi. A single culture products (A) and mixed culture products (B) were used as arbuscular mycorrhizal spores. In contrast to product A, the spore counted calculation reported that product B had the most spores, with 51 spores / 50 g soil. The treatment of arbuscular mycorrhizal fungi and microwave sterilization against the height of chili plant had no significant effect, according to a two-factor ANOVA (α: 0.05) analysis of agronomic characteristics. Inoculation of mycorrhizae had a significant effect on chili plant height. Arbuscular mycorrhizal fungi inoculation and microwave sterilization had significant effect on the root length of chili plants. Arbuscular mycorrhizal fungi in single and mixed cultures could colonize roots by forming internal hyphae, vesicles, and spores. The best way to support the growth of chili plants is to use planting media that has not been sterilized and contains mycorrhizal fungi.

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Section: Sterilization Treatmentsmentioning

confidence: 99%

Influence of AM fungi inoculation on Capsicum annuum L. plant grown in microwave-sterilized media

et al. 2021

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“…Evidently, Trichoderma is applied in many kinds of cereal, such as Triticum aestivum L., Vigna radiata (L.) R. Wilczek and Sorghum bicolor shows an improved drought response by plants (Kaur & Kumar, 2020;Shukla et al, 2014;Sugiharto et al, 2020). Favorable activities ascribed to the Trichoderma-plant interactions include induced disease resistance, plant growth promotion, and tolerance to abiotic stresses (Harman et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Growth and Yield Comparison of Rice Plants Treated with Encapsulated Trichoderma asperellum (UPM 40) in Response to Drought Stress

Yusup¹,

Yusoff²,

Ismail³

et al. 2023

JTAS

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During low rainfall periods, rice plants often face drought stress, which would significantly affect rice yield. One of the methods to mitigate the problem is incorporating rice plants with fungi such as Trichoderma. This study evaluated the effects of encapsulated Trichoderma asperellum (UPM 40) on the growth and yield of rice plants planted in saturated and flooded soil conditions in response to drought stress. A randomized complete block factorial design was implemented with four replications and two factors. The first factor was encapsulated T. asperellum (UPM 40) concentration of 0 and 5 g. The second factor was the soil condition: saturated and flooded soil. The drought stress was imposed by halting watering during early anthesis for 14 days and resumed afterward. One of the significant interaction effects detected was on the relative water content of rice plants planted in flooded soil conditions and treated with T. asperellum (UPM 40), where the value was 78.51%, higher than the control of 72.09%, which showed the ability of the fungus to help rice plants alleviate detrimental effects of drought stress and delay the onset of adverse effects of drought stress. Thus, it contributed to the crop’s simultaneous improvement in rice yield compared to untreated plants in saturated soil. Applying 5 g encapsulated T. asperellum (UPM 40) to the rice plants would perform best in flooded soil conditions during drought stress.

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“…Several studies have previously reported that A. tubingensis , A. Niger , and A. Niger strains ITCB-09 exhibited a high capacity to dissolve inorganic phosphates, including through the production of organic acids [ 4 , 22 ]. In recent years, there have been many reports regarding the use of fungal microbial fertilizers; for example, to promote the vegetative growth of sorghum by inoculating soil with A. niger through means of bio-carriers [ 23 , 24 , 25 , 26 ]. Additionally, there have been reports of microorganisms that utilize fermentation processes to produce organic acids [ 27 ].…”

Section: Introductionmentioning

confidence: 99%

Aspergillus niger Fermentation Broth Promotes Maize Germination and Alleviates Low Phosphorus Stress

Tian

Zhang

et al. 2023

Microorganisms

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Aspergillus niger is a type of soil fungus with the ability to dissolve insoluble phosphate and secrete organic metabolites such as citric acid. However, whether cell-free Aspergillus niger fermentation broth (AFB) promotes maize growth and alleviates low-phosphorus stress has not been reported. In this study, we explored their relationship through a hydroponics system. The results indicated that either too low or too high concentrations of AFB may inhibit seed germination potential and germination rate. Under low phosphorus conditions, all physiological indexes (biomass, soluble sugar content, root length, etc.) increased after AFB was applied. A qRT-PCR analysis revealed that the expression of the EXPB4 and KRP1 genes, which are involved in root development, was upregulated, while the expression of the CAT2 and SOD9 genes, which are keys to the synthesis of antioxidant enzymes, was downregulated. The expression of LOX3, a key gene in lipid peroxidation, was down-regulated, consistent with changes in the corresponding enzyme activity. These results indicate that the application of AFB may alleviate the oxidative stress in maize seedlings, reduce the oxidative damage caused by low P stress, and enhance the resistance to low P stress in maize seedlings. In addition, it reveals the potential of A. niger to promote growth and provides new avenues for research on beneficial plant-fungal interactions.

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The influence of biocarrier of Aspergillus niger and Trichoderma harzianum toward vegetative growth of sorghum in the field experiment

Cited by 3 publications

References 0 publications

Influence of AM fungi inoculation on Capsicum annuum L. plant grown in microwave-sterilized media

Influence of AM fungi inoculation on Capsicum annuum L. plant grown in microwave-sterilized media

Growth and Yield Comparison of Rice Plants Treated with Encapsulated Trichoderma asperellum (UPM 40) in Response to Drought Stress

Aspergillus niger Fermentation Broth Promotes Maize Germination and Alleviates Low Phosphorus Stress

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