Effect of Bio and Mineral Fertilization on Yield and Quality of Sugar Beet in Newly Reclaimed Lands in Egypt

Sayed-Ahmed, I.F.; Aziz, Rania; Rashed, Sahar H.

doi:10.20546/ijcmas.2016.510.104

Cited by 3 publications

(1 citation statement)

References 2 publications

(4 reference statements)

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“…Al-Azzawi and Al-Ibadi (2017) showed superiority of the treatment of interaction (NPK 100% + 10 kg ha -1 nutrient organic) in total production (42.51 and 30.50) tons for two seasons, spring and autumn respectively. Sayed- Ahmed et al (2016) concluded that the application of the mixture of (Microbeen + Rhizobacterin + Phosphorien) as biofertilizers and adding 120 kg N feddan -1 , as a mineral fertilization for maximizing sugar beet productivity under the environmental conditions. El-Hamdi et al (2017) concluded that the integrated treatment of compost application at 10 ton feddan -1 alongside with (Microbien + Phosphorien + EM bio-fertilization) is recommended to produce the highest productivity and quality indices of cucumber yield grown on a sandy soil condition.…”

Section: Introductionmentioning

confidence: 99%

Rationalizing the use of nitrogen mineral fertilizers by using biological and organic alternatives on cucumber crop under arid region of Egypt

Abd-El-Shafy,

Abd-El-Raheem,

Azab

2024

Archives of Agriculture Sciences Journal

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The current study aims to rationalize the use of nitrogen fertilizer by using alternatives of biological and organic fertilizers and their interactions on cucumber crop productivity and quality. The experimental design was split split plot design with three replicates. Cucumber plants was tested under two bio-fertilizations (with and without), four types of compost (without, plant, animal and mixed compost) as well as three rates of mineral-N i.e., (25, 50, and 75 kg/feddan) (feddan = 4200 m 2 ). The main effect of biological, organic and N fertilization compared to non-fertilized showed a significant increase in cucumber yield, all crop components, and the percentage of TSS in cucumber fruits, in both seasons. Results indicated that the increase in cucumber crop productivity was estimated at (13.04%, 11.42%), (17.89%, 38.04%) and (43.83%, 55.69%) as a result of biological, organic and nitrogen fertilization in both seasons, respectively. Despite the superiority of the intervention treatment containing 4 ton/feddan, (mixed compost) + (mixed bio) + Mineral-N at a rate of 75 kg/feddan. Statistical analysis proved to apply 4 ton/feddan of (mixed compost) + (mixed bio) + Mineral-N at a rate of 50 kg/feddan, because there is no significant difference with mineral-N fertilization treatment.

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Section: Introductionmentioning

confidence: 99%

Rationalizing the use of nitrogen mineral fertilizers by using biological and organic alternatives on cucumber crop under arid region of Egypt

Abd-El-Shafy,

Abd-El-Raheem,

Azab

2024

Archives of Agriculture Sciences Journal

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Yield and Chemical Composition of Sugar Beet in Response to Potassium Rates, Bio and Foliar Fertilizations

El-Hamdi

El-Fotoh²,

El-Seedy

et al. 2018

Journal of Soil Sciences and Agricultural Engineering

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A field experiment was conducted at Bilqas distrect, Dakahliya Governorate, Egypt to evaluate the effects of potassium rates, bio foliar fertilization on yield and quality of sugar beet (beta vulgaris L.) during 2014/2015 and 2015/2016 winter seasons. Split plot design with three replicates was performed. The main plots were assigned by three levels of potassium fertilization of (0, 24 and 48 kg K 2 O fed-1) added as potassium sulfate (48% K O). The sub plots were occupied by (four treatments) 1-Untreated control. 2-bio-fertilizer (potassium solvent bacteria) Bacillus circulans 3-Foliar fertilization of potassium humate at the rate 1 L fed-1 per 400 liter water. 4-Foliar fertilization of boron at the rate 1 L fed-1 per 400 liter water. Data revealed that the highest mean values of fresh weights of shoots and roots, sugar yield (kg fed-1), N%, K%, sucrose% and quality% in roots of sugar beet were obtained from 48 kg K 2 O fed-1 fertilization with boron treatment compared with all the other treatments. Meanwhile, the lowest values were obtained from the control without K fertilization and without boron fertilization during both seasons. Sodium (Na %) decreased with increasing potassium fertilization in both seasons. It is worthy to that both bio K fertilization and K humate addition also had positive effects during both seasons.

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Impact of Planting Density, Nitrogen and Potassium Fertilizer Levels on Yield and Quality of Sugar Beet

Hanafy

El-Bana

Yasin

et al. 2019

Zagazig Journal of Agricultural Research

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Two field experiments were carried out at the experimental farm (Ghazala Village), Faculty of Agriculture, Zagazig University, Sharkia Governorate, during 2016/2017 and 2017/2018 seasons to study the influence of three planting densities, (28000, 35000 and 46666 plants/fad.) three levels of N fertilizer (80,100 and 120 kg/fad.) and two levels of potassium fertilizer (24 and 48 kg k 2 O/fad.) on yield and its attributes as well as quality of sugar beet grown in clay soil. Results of combined analysis illustrated that, decreasing planting density from 46666 to 35000 or 28000 plants/ fad., significantly increased root length, root diameter and fresh root weight g/plant; on the other hand the highest planting density (46666 plants/fad.) produced higher sucrose, extractable sugar percentages, sugar and recoverable sugar yields/fad., than low or medium densities. Raising N fertilizer levels significantly affected yield and its attributes as well as quality of sugar beet. Where, the results of the combined analysis indicated that, each increment of nitrogen fertilizer level from 80 up to 120 kg N/fad., cm was accompanied with a significant increase in root length, root diameter, fresh root weight/plant, root and recoverable sugar yields/fad., but significantly decreased sucrose (%). Data of combined analysis also revealed that application of 48 kg K 2 O/fad., significantly increased root yield attributes i.e., root length root diameter (cm), fresh root weight g/plant, sucrose, extractable sugar percentages, as well as, root and recoverable sugar yields ton/fad., compared with supply of 24 kg K 2 O/fad. Interactions between the studied factors (according to the combined analysis) indicated that the highest root yield (ton/fad.) was achieved when sugar beet was sown with the highest plant density of 46666 plants/fad., and fertilized with 120 kg N/fad. As well as, the highest value of root diameter (cm) was achieved under the application of 120 kg N/fad., and addition of 48 kg K 2 O/fad., while, the interaction between planting densities and potassium fertilizer levels had no significant effects on all studied traits.

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Effect of Bio and Mineral Fertilization on Yield and Quality of Sugar Beet in Newly Reclaimed Lands in Egypt

Cited by 3 publications

References 2 publications

Rationalizing the use of nitrogen mineral fertilizers by using biological and organic alternatives on cucumber crop under arid region of Egypt

Rationalizing the use of nitrogen mineral fertilizers by using biological and organic alternatives on cucumber crop under arid region of Egypt

Yield and Chemical Composition of Sugar Beet in Response to Potassium Rates, Bio and Foliar Fertilizations

Impact of Planting Density, Nitrogen and Potassium Fertilizer Levels on Yield and Quality of Sugar Beet

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