Jasmonic Acid and K-Phosphite Enhance Productivity and Technological Quality of Sugarcane Crop

Moreira, B. R. A.; Viana, Ronaldo da Silva; Lisboa, Lucas Aparecido Manzani; Lopes, Paulo Renato Matos; Figueiredo, Paulo Alexandre Monteiro de; Ramos, Salvador Boccaletti; Bonini, C. S. B.; Trindade, Vanessa Dias Rezende; Andrade, Mirela Moreno Almeida de; May, A.

doi:10.5539/jas.v11n14p254

Cited by 3 publications

(3 citation statements)

References 25 publications

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“…Additionally, potassium phosphite produced potato tubers with higher values of N, P, K, starch and carbohydrtaes and that might be due to the role of phosphite in improving N mobilization resulting in a higher nutrient efficiency (Swarup et al, 2020). Furthermore, in sugarcane, K-phosphite probably improves soluble solids availability by releasing water-soluble inorganic ions like P and K, and signaling of phytoalexins synthesis and antimicrobial secondary metabolites which protect plants from pathogens (Moreira et al, 2019). In potato, Achary et al (2017) found that phosphite foliar treatment increased pectin content and polygalacturonase activity and induced the formation of a new chitinase isoform in tubers.…”

Section: Tuber Qualitymentioning

confidence: 99%

The Role of Seaweed Extract, Mixure of Bacillus paramycoides and Azotobacter nigricans and Potassium Phosphite Foliar Spray in Growth and Productivity of Potato

El-Sherbini

El-Kader

Saber

2022

Journal of Plant Production

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Two field experiments were carried out at a private farm, El-Taweila Village, near El-Mansoura City, Dakahlia Governorate, Egypt during the two summer seasons of 2019/2020 and 2020/2021. The study aims to investigate the role of seaweed extract at 0.5 g/L, bacterial mixture of Bacillus paramycoides and Azotobacter nigricans at 1 cm 3 /L and potassium phosphite at 2.5 cm 3 /L individual or in combination as foliar applications on vegetative growth, tuber yield and tuber quality of potato cv. Kara. The obtained results showed that all studied treatments increased vegetative growth (plant height, leaves number per plant, stolons number per plant and fresh and dry weight per plant) and tuber yield (tuber weight, tuber dry matter, tubers number per plant and tuber yield per fed) as well as improved tuber quality (N, P, K, starch and carbohydrates percentages) compared to control. The results suggested spraying potato plants with seaweed at 0.5 g/L, the bacterial mixture of Bacillus paramycoides and Azotobacter nigricans at 1 cm 3 /L and potassium phosphite at 2.5 cm 3 /L to improve the vegetative growth and increase the tuber yield and quality under similar conditions of the study.

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Section: Tuber Qualitymentioning

confidence: 99%

The Role of Seaweed Extract, Mixure of Bacillus paramycoides and Azotobacter nigricans and Potassium Phosphite Foliar Spray in Growth and Productivity of Potato

El-Sherbini

El-Kader

Saber

2022

Journal of Plant Production

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“…As environmentally friendly compounds, JA is expected to replace pesticides used in agriculture by helping plants to defend against the invasions of pathogens and pests [ 1,2 ] and can be used to improve plant stress resistance and fruit storage after ripening. [ 3–5 ] In addition, these compounds are highly important in the perfume industry owing to their jasmine fragrance and are typically used in high‐end perfumes, shampoos, and detergents [ 6 ] as well as in cigarettes and chewing gum. Moreover, JAs have shown anticancer activity against various types of tumors and thus have potential in the treatment of cancer‐related diseases.…”

Section: Introductionmentioning

confidence: 99%

High production of jasmonic acid by Lasiodiplodia iranensis using solid‐state fermentation: Optimization and understanding

Shen

Zheng

et al. 2022

Biotechnology Journal

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Background Jasmonic acid (JA) is a plant hormone involved in regulating developmental and growth controls as well as photosynthesis. In addition, this hormone protects the plant against insects and has good applications in agriculture, the flavored industry and other fields. Filamentous fungus generally produces JA using liquid static culture. In the present study, a solid‐state fermentation (SSF) method is developed for high production of JA using Lasiodiplodia iranensis. Main methods and major results By selecting the solid substrate and optimizing the initial water content, inoculum volume, loading volume and other culture conditions, the maximum JA yield reached 5306.38 mg kg–1 when fermented for 12 days in a petri dish containing a medium with crushed wheat as the solid substrate and 75% initial water content. The logistic and Luedeking–Piret models were used to characterize the relationship between microbial growth and product synthesis in the SSF process, and the maximum JA production is predicted to be 5263.23 mg kg–1, which is close to the experimental value. Liquid chromatography with tandem mass spectrometry (LC‐MS/MS) is used to examine the metabolic changes that develop during fermentation. The results indicate that JA biosynthesis occurs in the α‐linolenic acid metabolic pathway, of which 13(S)‐HpOTrE is a key intermediate metabolite and both 13(S)‐HOTrE and traumatic acid are byproducts of the branches of its synthesis. Conclusions and implications The results of this study provide a method for obtaining high JA yields by SSF, and offer new insights for understanding the production of JA by fungal fermentation.

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“…However, JAs play an important role in agriculture nowadays by regulating the defence of plants against pests and pathogens ( Gális et al, 2009 ; Gavin et al, 2012 ; Hawkins et al, 2007 ; Heil et al, 2001 ; Moreira et al, 2019 ; Rohwer & Erwin, 2008 ; Sanches et al, 2017 ; Stout, Zehnder & Baur, 2002 ; Wasternack, 2014 ). Their application seems to be in line with the principles of sustainable agriculture since they may be less aggressive to the environment than pesticides and mineral fertilizers ( Secatto, 2013 ).…”

Section: Introductionmentioning

confidence: 99%

Jasmonic acid biosynthesis by fungi: derivatives, first evidence on biochemical pathways and culture conditions for production

Eng

Marin

Zienkiewicz

et al. 2021

PeerJ

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Jasmonic acid (JA) and its derivatives called jasmonates (JAs) are lipid-derived signalling molecules that are produced by plants and certain fungi. Beside this function, JAs have a great variety of applications in flavours and fragrances production. In addition, they may have a high potential in agriculture. JAs protect plants against infections. Although there is much information on the biosynthesis and function of JA concerning plants, knowledge on these aspects is still scarce for fungi. Taking into account the practical importance of JAs, the objective of this review is to summarize knowledge on the occurrence of JAs from fungal culture media, their biosynthetic pathways and the culture conditions for optimal JA production as an alternative source for the production of these valuable metabolites.

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Jasmonic Acid and K-Phosphite Enhance Productivity and Technological Quality of Sugarcane Crop

Cited by 3 publications

References 25 publications

The Role of Seaweed Extract, Mixure of Bacillus paramycoides and Azotobacter nigricans and Potassium Phosphite Foliar Spray in Growth and Productivity of Potato

The Role of Seaweed Extract, Mixure of Bacillus paramycoides and Azotobacter nigricans and Potassium Phosphite Foliar Spray in Growth and Productivity of Potato

High production of jasmonic acid by Lasiodiplodia iranensis using solid‐state fermentation: Optimization and understanding

Jasmonic acid biosynthesis by fungi: derivatives, first evidence on biochemical pathways and culture conditions for production

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