Effects of different fertilizer formulas on the growth of loquat rootstocks and stem lignification

Xu, Fangjie; Chu, Changbin; Xu, Zhihong

doi:10.1038/s41598-019-57270-5

Cited by 16 publications

(8 citation statements)

References 21 publications

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“…The lowest number of encompassed internodes was obtained from microelement treated vines. A similar result was found by Xu et al (2020) that the addition of microelements in fertilizer to loquat rootstock seedlings can significantly delay the lignification process of the cambium of grafted vines, which exhibited the greatest improvement in stem thickening. Regular (Caspari et al, 1998) or 90% leaf removal (Chaumont, 1995;Ollat, 1998) reduces photosynthesis.…”

Section: Resultssupporting

confidence: 83%

Effects of green pruning and combine microelement applications on bud fruitfulness, vegetative development and cluster characteristics of ‘Trakya İlkeren’ grape cultivar

Türk,

Köse

2024

International Journal of Agriculture Environment and Food Sciences

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Green pruning practices are frequently used in viticulture. These practices provide better light penetration, successful air circulation, prevents air humidity and aids disease control in the grapevine canopy. However, excessive leaf removal inhibits vine growth and good fruit ripening. In this study, the effects of some foliar and canopy management practices on cluster, vegetative growth traits and bud fruitfulness of the following year were investigated. Some green pruning (unproductive shoot removal, leaf removal, shoot tip removal, shoot topping), foliar microelements and green pruning + microlements treatments were applied in ‘Trakya İlkeren’ grape cultivar. Microelement application increased cluster (382.1 g) and berry weight (4.4 g), berry length (19.7 mm) and width (18.2 mm), cluster length (19.5 cm) and width (13.9 cm), berry volume (3.30 cm3) and berry firmness (7.46 N). The highest maturity index was detected in the control group (23.4). While the most intense L* color value was determined in the green pruning + micro element application, the b* color value was determined in the green pruning application. It was determined that leaf area (211.2 cm2), leaf chlorophyll index (32.75 SPAD), shoot diameter (11.13 mm), shoot length (194.71 cm) and internode length (76.81 mm) increased with microelement application. Among the treatments, the most effective application on bud fruitfulness in the following year was at microelement application (1.34 clusters). The effects of the treatments on the amount of Total soluble solids pH, titratable acid and a* color value were not significant. In this study; green pruning + microelement application was recommended for yield and quality sustainability. According to bud fruitfulness results, the highest cluster numbers per node were obtained from pruning with 4 to 10 buds. It is recommended to prune medium or long to obtain higher yields from this cultivar.

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Section: Resultssupporting

confidence: 83%

Effects of green pruning and combine microelement applications on bud fruitfulness, vegetative development and cluster characteristics of ‘Trakya İlkeren’ grape cultivar

Türk,

Köse

2024

International Journal of Agriculture Environment and Food Sciences

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“…Similarly, the growth attributes of rose plants were enhanced when the plants received proper levels of N, P, and K elements [ 67 , 68 ]. Furthermore, the P detected in GE is essential for root development promotion and, consequently, increased the water and nutrient absorption capability [ 69 ]. In agreement with our results, the effective role of several BIOs in improving the vegetative growth of different species has been reported [ 70 , 71 ].…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, FA treatment significantly maintained the RWC and enhanced both tte TCC and TSS relative to untreated plants. A higher RWC in treated leaves may be due to the effect of FA on improving the root system and enhancing water absorption [ 69 ]. In agreement with the current results, the role of FA in increasing the TCC and TSS has been documented in several previous reports [ 48 , 74 , 78 ].…”

Section: Discussionmentioning

confidence: 99%

Ginger Extract and Fulvic Acid Foliar Applications as Novel Practical Approaches to Improve the Growth and Productivity of Damask Rose

Ali

Al-Yasi

Issa

et al. 2022

Plants

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Plant biostimulants (BIOs) have been identified as among the best agricultural practices over the past few decades. Ginger extract (GE) and fulvic acid (FA) are a new family of multifunctional BIOs that positively affect development processes in plants. However, the underlying mechanisms that influence these development processes are still unknown. The objective of this study was to determine how GE and FA affect the plant growth and productivity in damask rose. Furthermore, the mechanisms of these BIOs that regulate the performance of this plant were investigated. Damask rose plants were foliar-sprayed with GE (5, 10 and 15 mg L−1) or FA (1, 3 and 5 g L−1), while control plants were sprayed with tap water. The results showed that GE or FA foliar applications enhanced plant height and branch number much more than the control; however, FA treatment was more effective than GE. Intriguingly, flower number, flower yield, relative water content, and total chlorophyll content were all improved by either GE or FA, paying attention to reducing the blind shoot number per plant. Relative to the control, foliar application with 15 mg L−1 GE or 3 mg L−1FA increased the flower number by 16.11% and 19.83% and the flower yield per hectare by 40.53% and 52.75%, respectively. Substantial enhancements in volatile oil content and oil yield were observed due to GE and FA treatments, especially with the highest concentrations of both BIOs. The treatments of GE and FA considerably improved the total soluble sugars, total phenolic content, total anthocyanin content, and total carotenoid content, more so with FA. Additionally, the contents of N, P, K, Mg, Fe, and Zn elements were also enhanced by applying either GE or FA, especially at higher levels of both BIOs. In sum, our findings illuminate the potential functions of exogenous application of GE and FA in improving the growth, flower yield, and volatile oil yield in damask rose through enhancing the phytochemical and nutrient profiles. Applications of GE and FA can, thus, be a promising approach for enhancing the productivity of damask rose.

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“…Another possible cause is that the formula or composition of the biofertilizer is not appropriate for the amaranth nutritional requirements. Variations in the type, formula, or concentration of biofertilizers applied to plants could be the factors that contribute to plant development (Xu et al, 2020). On the basis of these results, it may be concluded that stress has no discernible effect on amaranth metaxylem diameter.…”

Section: Resultsmentioning

confidence: 96%

Effect of biofertilizer on growth and metaxylem diameter of Amaranthus tricolor L. in salinity stress condition

Riesty

Siswanti²

2021

bio

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Throughout history, agricultural sector in Indonesia has faced a shortage of land. As a result, we must take use of land that is still available, even if the conditions are unsuitable for plant growth, one of which is salinity-stressed land. Amaranth is a frequently cultivated plant in Indonesia (Amaranthus tricolor L.). This vegetable plant is commonly consumed as food due to its nutritional content and numerous health benefits. To cultivate amaranth on salinity-stressed land, additional nutrients are required to ensure that the plants continue to thrive. One of them is the provision of biofertilizers, a type of organic fertilizer that contains beneficial bacteria for plant growth. This study aimed to determinate the effect of biofertilizer application on the growth and diameter of the stem metaxylem of amaranth plants growing in a salinity-stressed environment. As a salinity stress treatment, NaCl was applied at doses of 0, 2500, 5000, 7500, and 10000 ppm. The diameter of the metaxylem was determined by making fresh preparations across amaranth stems. The biofertilizer application does not affect the height and number of leaves of the plant. However, as the dose of biofertilizer was increased, the value of the metaxylem diameter of the stem increased.

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Effects of different fertilizer formulas on the growth of loquat rootstocks and stem lignification

Cited by 16 publications

References 21 publications

Effects of green pruning and combine microelement applications on bud fruitfulness, vegetative development and cluster characteristics of ‘Trakya İlkeren’ grape cultivar

Effects of green pruning and combine microelement applications on bud fruitfulness, vegetative development and cluster characteristics of ‘Trakya İlkeren’ grape cultivar

Ginger Extract and Fulvic Acid Foliar Applications as Novel Practical Approaches to Improve the Growth and Productivity of Damask Rose

Effect of biofertilizer on growth and metaxylem diameter of Amaranthus tricolor L. in salinity stress condition

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