Improving Sugar Pea Growth and Quality by using some Natural Substances

El-Sayed, Hala A.; El-Sherbini, M.; Al-Ashry, M. T. M.

doi:10.21608/jpp.2019.36262

Cited by 4 publications

(4 citation statements)

References 16 publications

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“…Meanwhile there was a significant decrease in impurities (ton ha -1 ) of sugar beet plants by increasing humic acid rates from zero up to 300 kg / ha. These results are in harmony with those obtained by Olk et al (2018) and El-Sayed et al (2019), who revealed that increasing humic acid made up a decrease in sodium, potassium, and amino nitrogen contents of sugar beet up to 300 kg ha -1 . Based on the obtained results, increasing humic acid level above 300 kg ha -1 , caused to increase of sodium and potassium concentrations in sugar beet.…”

Section: Soil Propertiessupporting

confidence: 90%

“…The importance of this crop comes from its growing in the newly reclaimed land and giving a high sugar recovery, as well as its lower water requirement. Moreover, sugar beet is specialized as a short duration crop, where its growth period is about half that of sugarcane (El-Sayed et al, 2019). Also, sugar beet being often, the most important cash crop in the rotation, it leaves the soil in good conditions for the following summer cereal crop (Nemeata et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

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Effect of Humic Acid Application on Quantitative Parameters of Sugar Beet (Beta vulgaris L.) Cv. Shirin

Rahimi

Kıralan

Ahmadi

2020

Alexandria Science Exchange Journal

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The present experiment aimed to investigate the influence of humic acid application on qualitative traits of sugar beet cv. 'Shirin' basis of a randomized complete block design with four replications during 2007-2008. The plants were treated with different humic acid treatments (control, 200, 300, 400, 500, and 600 kg ha-1). The nonsugar components such as potassium, sodium, aminonitrogen and some qualitative parameters for sugar processing such as alkalinity, root yield, sugar percent, recoverable sugar, and sugar content in molasses were determined according to standard methods. According to results, humic acid application enhanced sugar quality of sugar beet. The lowest value of K, Na and amino-nitrogen were observed in H300 sample (300 kg ha-1) with 3.85 meq 100 g-1 pulp, 1.22 meq 100 g-1 pulp and 1.21 meq 100 g-1 pulp, respectively. The highest recoverable sugar content (15.64%) was obtained from 300, 400, 500, and 600 kg ha-1 application. Also, the highest sugar yield resulted from 400, 500, and 600 kg ha-1 and the lowest sugar content in molasses were observed in the treatments of 200 and 300 kg ha-1 humic acid.

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Section: Soil Propertiessupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Effect of Humic Acid Application on Quantitative Parameters of Sugar Beet (Beta vulgaris L.) Cv. Shirin

Rahimi

Kıralan

Ahmadi

2020

Alexandria Science Exchange Journal

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“…Artyszak et al (2015) reported that foliar application of silicon had no significant effect on sugar beet roots impurities parameters (N, P, and K) in both seasons. El-Sayed et al (2019) revealed that increasing potassium silicate made up a decrease in sodium, potassium and amino nitrogen contents of sugar beet varieties up to 300 kg. ha.…”

Section: Sugar Yield and Juice Quality Traitsmentioning

confidence: 99%

Salinity Tolerant Indices Based on Yield Performance of Some Sugar Beet Varieties as Treated by Potassium Silicate to Mitigate Saline Soil Stress

Abu-Ellail,

Saadan,

Attia

2023

Egyptian Journal of Agricultural Sciences

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Salinity stress is a significant abiotic factor that limits the yield and quality of sugar beet grown in newly reclaimed saline lands. The field experiment was conducted at a private farm in Tamia (29° 17ˋ N, 30° 53ˋ E), Fayoum, Egypt, in 2021/2022 and 2022/2023 successive seasons. The objective of this study was to assess the usefulness of potassium silicate (K2SiO3) in four K-silicate foliar spray concentrations in alleviating salinity stress on five sugar beet varieties grown in saline soil. A split-plot design in a randomized complete block arrangement was used with three replications. Spraying Ksilicate showed improved sugar beet varieties' tolerance to soil salinity. Increasing the concentration of the sprayed K-silicate gave higher root and sugar yield productivity. Results showed that the varieties significantly differed, where the Narmar and Afendra varieties showed superiority over the other three tested varieties, with the highest values of root and sugar yield and it is related traits in both seasons. The potassium silicate rate of 2,000 mg/L gave the highest juice quality and lowest impurities, suggesting a great potential for using potassium silicates with sugar beet to produce high roots and quality for economical sugar production under saline soil. The sugar beet varieties with less than one unit of salinity tolerance index (STI), yield stability index (YSI), and salinity susceptibility index (SSI) values were suitable for cultivation under saline soil stress and non-stress environments. These indices were more effective in identifying high-yielding varieties under saline soil stress as well as non-stress conditions.

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“…Shaban et al, (2014) indicated that the addition of 10 kg humic acid/fed as a soil application significantly increased, N, P, and K percentages in sugar beet root in both seasons. Olk et al, (2018) and El-Sayed et al, (2019), who revealed that increasing humic acid made up a decrease in sodium, potassium, and amino nitrogen contents of sugar beet varieties up to 300 kg. ha.…”

Section: Impurities Traitsmentioning

confidence: 99%

Yield and Quality of some Sugar Beet Varieties as Affected by Humic Acid Application Rates under Sandy Soil Condition

Abu-Ellail

Sadek

El-Laboudy

2020

Journal of Plant Production

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A field experiment was conducted at privet farm of Demo (29° 17ˋ N, 30° 53ˋ E), Fayoum Governorate, Egypt, during 2018/2019 and 2019/2020 to study the effect of three humic acid treatments, i.e. (0 without humic acid as control, 3.5 and 7 Kg humic acid/fed) on quality and yield traits of eight sugar beet varieties (Santolhne, Pepite, Amina, Beta 401, Dina, Grinta, Sirona and Bts 302). Results indicated that root yield (ton/fed) was increased by increasing the rates of humic acid from 3.5 to 7kg per fed in the first season (27.02 and 29.11 ton/fed, respectively), corresponding (28.08 and 29.72 ton/fed in the second season respectively). Similarly, the content of molasses forming substances showed more reduction in 3.5 than in 7kg/fed treatment. Nevertheless, the trend of increasing content of sucrose and refined sugar was associated with humic acid rates. Results showed that varieties significantly differed among them where, Sirona variety show the superiority over the other seven tested varieties and recorded the highest values of root diameter (14.19 and 15.14 cm, respectively), fresh root weights/plant (1.41 and 1.47 kg, respectively), in both seasons, as well as root yield/fed (29.94) in 2 nd season. While, in first season variety (Bts 302) registered the highest values of root yield (29.42 ton/fed), also this variety recorded the highest sugar yield (4.62 and 5.23 ton/fed, respectively) in both seasons. Highly significant interaction effects between humic acid and varieties root yield and sugar yield and their related traits in both seasons. it could be concluded that fertilization with humic acid at a rate of 7kg /fed as a soil application to get the maximum of root and sugar yields/fed in sandy soil.

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Improving Sugar Pea Growth and Quality by using some Natural Substances

Cited by 4 publications

References 16 publications

Effect of Humic Acid Application on Quantitative Parameters of Sugar Beet (Beta vulgaris L.) Cv. Shirin

Effect of Humic Acid Application on Quantitative Parameters of Sugar Beet (Beta vulgaris L.) Cv. Shirin

Salinity Tolerant Indices Based on Yield Performance of Some Sugar Beet Varieties as Treated by Potassium Silicate to Mitigate Saline Soil Stress

Yield and Quality of some Sugar Beet Varieties as Affected by Humic Acid Application Rates under Sandy Soil Condition

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