&lt;b&gt;Effects of silicon on the growth and genetic stability of passion fruit

Costa, Bárbara Nogueira Souza; Dias, Gabrielen de Maria Gomes; Costa, Irton de Jesus Silva; Assis, Franscinely Aparecida de; Silveira, Flávia Aparecida da; Pasqual, Moacir

doi:10.4025/actasciagron.v38i4.30939

Cited by 16 publications

(12 citation statements)

References 38 publications

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“…3). This is in line with the research of Costa et al (2016) that foliar of Si with concentrations of 0.28 and 0.55 g pot -1 gives the effect of the number of leaves better than without Si.…”

Section: Resultssupporting

confidence: 92%

The Effects of Foliar Boron and Silica Through the Leaves on Soybean Growth and Yield

Ermawati

Agustiansyah²,

Ermawati³

et al. 2018

JAS

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This study was aimed to determine the effect of the increasing silica and boron concentration and their interaction on plant growth and soybean yield. This research was conducted from April-September 2017 in the integrated field of the experiment at the University Lampung. The treatments were 0 and 5 ppm Boron (B) fertilizer and Silica (Si) concentrations in 6 levels (0, 25, 50, 75, and 100 ppm). The difference between the means of B were calculated by using Orthogonal Contrast and response of Si was used Polynomial at a 0.05. The results showed that application of 5 ppm of B foliarly produced higher of soybean growth and production than without B treatment through variables of the dry weight and grain weight. Application of up to 125 ppm of Si foliarly was improved of soybean growth and production through variables of plant height, number of leaf, leaf area, dry weight and number of productive branch, number of pods, filled pod, and grain weight, but it didn’t affect the percentage of empty pods. The response of soybean growth and production to the increasing Si didn’t depend on the foliar B which was showed in all variables.

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Section: Resultssupporting

confidence: 92%

The Effects of Foliar Boron and Silica Through the Leaves on Soybean Growth and Yield

Ermawati

Agustiansyah²,

Ermawati³

et al. 2018

JAS

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“…In addition, the fine peak thickness obtained in the histograms was another indicator of the quality of the results found ( Figure 2). Although this is in reference of another plant species, the results corroborate Costa et al (2016), findings in which the use of silicic acid secured the genetic stability of yellow passion fruit vine (P. edulis Sims. f. flavicarpa Deg.…”

supporting

confidence: 86%

“…Flow cytometry is a fast and accurate technique used to estimate the quantity of DNA (Dolezel & Bartos, 2005) in several plant species such as Passiflora edulis Sims f. flavicarpa Deg. (Costa et al, 2016) and Saccharum spp. (Nogueira, Pio, Pasqual, Amaral, & Scherwinski-Pereira, 2015).…”

Section: Introductionmentioning

confidence: 99%

Silicon and methyl jasmonate in the vegetative development and genetic stability of rice

et al. 2019

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Given the high demand for food worldwide, options for maximizing food production with minimum environmental impact are needed. Therefore, the objective of the present study was to evaluate the effect of silicon (Si) and methyl jasmonate (MeJA) in the vegetative development and genetic stability of rice plants, BRSMG Caravera cultivar. The treatments used were T1-Control group (without Si and MeJA); T2-Tween foliar; and T3-Si drench, T4-MeJA foliar, and T5-Si drench + MeJA foliar. The use of Si or Si + MeJA promoted an increase in the height, relative chlorophyll index (RCI), and fresh and dry masses, in addition to a greater Si accumulation in the plants. However, there was no difference in the quantity of DNA or in the coefficient of variation (CV) among the treatments, proving the use of silicon separately or in combination with methyl jasmonate contributed to the vegetative development and did not affect the genetic stability of the plants.

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“…For example, Wang and Galletta (1998) reported the influence of Si on the growth of strawberries and observed that plants treated with Si developed shorter petioles but significantly more dry matter even at very low Si concentration (4.25 mM) in dosing solution. Recently, Costa et al (2016) also observed that Si concentrations of 0.28 and 0.55 g pot −1 (pots contained 1100 g of tropstrato(r) substrate) yielded the highest stem dry weight of 1.32 and 1.38 g respectively, in passion fruit, compared to 0.81 g of dry weight in the control treatment. Liang et al, (2015) also observed that the effects of Si on plant growth are often complemented by other factors such as pH adjustment and the acquisition of macro/micro nutrients contained in silicate fertilizers.…”

Section: Effects Of Silicon Biochar On Biomass Yield In Spinach Plantmentioning

confidence: 93%

Silicon (Si) biochar for the mitigation of arsenic (As) bioaccumulation in spinach ( Spinacia oleracean ) and improvement in the plant growth

Zama

Reid

Sun

et al. 2018

Journal of Cleaner Production

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<b>Effects of silicon on the growth and genetic stability of passion fruit

Cited by 16 publications

References 38 publications

The Effects of Foliar Boron and Silica Through the Leaves on Soybean Growth and Yield

The Effects of Foliar Boron and Silica Through the Leaves on Soybean Growth and Yield

Silicon and methyl jasmonate in the vegetative development and genetic stability of rice

Silicon (Si) biochar for the mitigation of arsenic (As) bioaccumulation in spinach ( Spinacia oleracean ) and improvement in the plant growth

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