Potentials of organic manure and potassium forms on maize (Zea mays L.) growth and production

Kandil, Essam; Abdelsalam, Nader R.; Mansour, Mansour A.; Ali, Hayssam M.; Siddiqui, Manzer H.

doi:10.1038/s41598-020-65749-9

Cited by 60 publications

(55 citation statements)

References 40 publications

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“…The increase of these characters may be due to the role of organic manure for the physiological and productivity of barley. These findings are in the same line with those obtained by Rudrappa et al (2006), Schmidt et al (2011); Gomaa et al (2015); Gomaa et al (2020); Kandil et al (2020) they reported that organic manure had a vital role for improving soil properties, increasing essential macronutrients, increasing micronutrients availability, and increasing crop yield.…”

Section: Resultssupporting

confidence: 89%

Performance of Barley Under Organic Manure, Salinity Remediator and Selenium as Mitigators To Soil Salinity

Gomaa

Ibrahim

Kandil

et al. 2021

Egyptian Academic Journal of Biological Sciences, H. Botany

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The present study was carried out at Exerimpental Farm of Faculty of Agriculture (Saba Basha), Abess Region, Alexandria, Egypt during the two seasons of 2018/2019 and 2019/2020 to alleviate the effect of salinity on barley (Hordeum vulgare L. cv. Giza 123) by using organic manure, salinity remediator and selenium. This experiment was conducted in split-split plot system in three replications during the two seasons. The main plots were organic manure (Without application (control), 12 and 24 m 3 /ha), the subplot was an application of salinity remediator (control, Agrosol Tonic at the rate of 12 L/ha with the first irrigation, Agrosol Tonic at the rate of 12 L/ha with the second irrigation) and foliar application of selenium (Se) rates (spray water, 5 ppm and 10 ppm) was distributed in a sub-subplot in both seasons. The obtained results showed that increasing organic manure from 0 to 24 m 3 recorded the highest mean values of yield, yield components and protein (%) in grain, increasing application of Agro-Sol Tonic with 2 nd irrigation increased yield, yield components and protein (%) in grain and increasing selenium (Se) concentration up to 10 ppm increased these characters of barley. Concerning the first-order interaction, the highest mean values of these traits achieved by "24 m 3 /ha from sheep manure + Agro Sol Tonic application with the 2 nd irrigation"; "24 m 3 /ha from sheep manure + 10 ppm selenium concentration"; "Agro Sol Tonic application with the 2 nd irrigation + 10 ppm selenium concentration", while the lowest ones recorded with the control treatments (untreated) in the two seasons. Respecting to the second interaction order, the highest mean values of these traits achieved by 24 m 3 /ha from sheep manure + Agro Sol Tonic application with the 2 nd irrigation + 10 ppm selenium concentration under salinity condition, while the lowest ones recorded with the control treatments (untreated) under study conditions at Abess, Alexandria Governorate, Egypt.

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Section: Resultssupporting

confidence: 89%

Performance of Barley Under Organic Manure, Salinity Remediator and Selenium as Mitigators To Soil Salinity

Gomaa

Ibrahim

Kandil

et al. 2021

Egyptian Academic Journal of Biological Sciences, H. Botany

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“…The number of observed species was highest in D40N.S samples at 2449. 25 In addition, a trend was found that the diversity of bacterial communities declined in most inoculant-applying treatments in the different nitrogen application rate groups, compared with their own control (CF, D20N, and D40N) in the corresponding groups. Two exceptions were discovered: one was CF.M in the CF group, and the other was D40N.S in the D40N group, whose diversity of bacterial communities was enhanced by Inoculant M and Inoculant S, respectively.…”

Section: Alpha Diversitymentioning

confidence: 93%

“…In this study, the effects of different microbial inoculants (including one made of bacterial strains that were screened in our lab, and two commercial inoculants) on bacterial communities of rhizosphere soil were investigated. To carry out our research conveniently, maize (Zea mays L.) was selected as our experimental crop because it is one of the most important food crops, ranked third in the list of the top three cereal crops in the world, besides wheat and rice [25]. Maize is widely planted in Central America, Mexico, Africa, and northeastern China, accounting for 94% of all cereal crop consumption along with wheat and rice, which satisfies the vast need for nutrients and nearly half the caloric requirement of humankind [26].…”

Section: Introductionmentioning

confidence: 99%

The Effects of Microbial Inoculants on Bacterial Communities of the Rhizosphere Soil of Maize

Shen

Dong

et al. 2021

Agriculture

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The bacterial community of rhizosphere soil maintains soil properties, regulates the microbiome, improves productivity, and sustains agriculture. However, the structure and function of bacterial communities have been interrupted or destroyed by unreasonable agricultural practices, especially the excessive use of chemical fertilizers. Microbial inoculants, regarded as harmless, effective, and environmentally friendly amendments, are receiving more attention. Herein, the effects of three microbial inoculants, inoculant M and two commercial inoculants (A and S), on bacterial communities of maize rhizosphere soil under three nitrogen application rates were compared. Bacterial communities treated with the inoculants were different from those of the non-inoculant control. The OTU (operational taxonomic unit) numbers and alpha diversity indices were decreased by three inoculants, except for the application of inoculant M in CF group. Beta diversity showed the different structures of bacterial communities changed by three inoculants compared with control. Furthermore, key phylotypes analyses exhibited the differences of biomarkers between different treatments visually. Overall, inoculant M had shared and unique abilities of regulating bacterial communities compared with the other two inoculants by increasing potentially beneficial bacteria and decreasing the negative. This work provides a theoretical basis for the application of microbial inoculants in sustainable agriculture.

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“…Si may work as a growth regulator and has the potential to increase plant growth under drought stress 27 . The growth and yield of maize were highly responsive to Si application under stressed conditions 5,28 . Spraying K-silicate and other nanomaterials has the potential to reduce the harmful effects of drought stress on crops [29][30][31][32] .…”

mentioning

confidence: 99%

Increase maize productivity and water use efficiency through application of potassium silicate under water stress

Gomaa

Kandil

El-Dein³

et al. 2021

Sci Rep

Self Cite

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In Egypt, water shortage has become a key limiting factor for agriculture. Water-deficit stress causes different morphological, physiological, and biochemical impacts on plants. Two field experiments were carried out at Etay El-Baroud Station, El-Beheira Governorate, Agriculture Research Center (ARC), Egypt, to evaluate the effect of potassium silicate (K-silicate) of maize productivity and water use efficiency (WUE). A split-plot system in the four replications was used under three irrigation intervals during the 2017 and 2018 seasons. Whereas 10, 15, and 20 days irrigation intervals were allocated in main plots, while the three foliar application treatments of K-silicate (one spray at 40 days after sowing; two sprays at 40 and 60 days; and three sprays at 40, 60, and 80 days, and a control (water spray) were distributed in the subplots. All the treatments were distributed in 4 replicates. The results indicated that irrigation every 15 days gave the highest yield in both components and quality. The highly significant of (WUE) under irrigation every 20 days. Foliar spraying of K-silicate three times resulted in the highest yield. Even under water-deficit stress, irrigation every fifteen days combined with foliar application of K-silicate three times achieved the highest values of grain yield and its components. These results show that K-silicate treatment can increase WUE and produce high grain yield requiring less irrigation.

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Potentials of organic manure and potassium forms on maize (Zea mays L.) growth and production

Cited by 60 publications

References 40 publications

Performance of Barley Under Organic Manure, Salinity Remediator and Selenium as Mitigators To Soil Salinity

Performance of Barley Under Organic Manure, Salinity Remediator and Selenium as Mitigators To Soil Salinity

The Effects of Microbial Inoculants on Bacterial Communities of the Rhizosphere Soil of Maize

Increase maize productivity and water use efficiency through application of potassium silicate under water stress

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