Impact of Temperature and Water on Seed Germination and Seedling Growth of Maize (Zea mays L.)

Khaeim, Hussein M.; Kende, Zoltán; Jolánkai, Márton; Kovács, Gergő Péter; Gyuricza, Csaba; Tarnawa, Ákos

doi:10.3390/agronomy12020397

Cited by 45 publications

(66 citation statements)

References 69 publications

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“…Table (2) showed the significant impact of applying G.mosseae fungus on increasing the average plant nitrogen content by 1.886% compared to the control treatment of 1.815%. This increase is attributed to the fungus G. mosseae in increasing the density of the root system and thus increasing nitrogen uptake and preparing the plant with it, and these results are consistent with [15,16]. The results also showed that T. harzianum significantly increased the average plant nitrogen content 1.910 %, compared to the control treatment, 1.791%.…”

Section: Plant Nitrogen Content (%)supporting

confidence: 85%

Impact of T. harzianum and G. mosseae Inoculum and Phosphate Rocks on the NPK Content in Barley Crop (Hordium Valgari L.)

Laibi

Kamal

2022

IOP Conf. Ser.: Earth Environ. Sci.

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The effect of fungal fertilizers with isolates of T. harzianum and G. mosseae and levels of phosphate rock on NPK content in the barley plant was investigated. A field trial was conducted on clay loamy soil to produce a variety of barley crops named (Samir 1) during the autumn agricultural season in 2021 in the Al-Qadisiyah Governorate. The factorial experiment was designed according to a Randomized Complete Block Design (RCBD) with three replications. The factors of the experiment included two levels of T. harzianum inoculum (T0, control and T1, fungal inoculation), two levels of G. mosseae inoculum (G0, control and G1 fungal inoculation), and four levels of phosphate rock (P0, P1, P2, and P3) with an amount (0,1000,1500, and 2000) t/ha-1. The results present that the interaction treatment (G. mosseae + T. harzianum and phosphate rock of 1000 t/ha-1) resulted in a significant increase in the content of nitrogen, phosphate, and potassium (NPK) in the plant 1.977, 0.437, and 2.603 %, respectively, compared to the control.

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Section: Plant Nitrogen Content (%)supporting

confidence: 85%

Impact of T. harzianum and G. mosseae Inoculum and Phosphate Rocks on the NPK Content in Barley Crop (Hordium Valgari L.)

Laibi

Kamal

2022

IOP Conf. Ser.: Earth Environ. Sci.

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“…Notably, the younger seedlings are less susceptible to high temperatures ( Sánchez et al, 2014 ). The overall required temperature range for early maize seedling growth is 30–35°C, and the optimal temperature is around 20°C ( Khaeim et al, 2022 ), 4–6°C higher than the suitable temperature for wheat and barley growth ( Sánchez et al, 2014 ). Importantly, depending upon maize variety and below 20°C, every 0.5°C downfalls in daily temperature resulted in 10–20 days extended crop duration ( Rahman et al, 2009 ).…”

Section: Impact Of Heat Stress On Different Growth Stagesmentioning

confidence: 99%

Heat Stress-Mediated Constraints in Maize (Zea mays) Production: Challenges and Solutions

et al. 2022

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Graphical AbstractThis review summarized heat stress-mediated morphological and physiological changes in maize and elucidated the molecular mechanisms responsible for maize response to heat stress. Furthermore, plausible approaches to dissecting the regulatory network associated with heat stress response and improving maize adaptation to global warming have been discussed. This figure was made using BioRender.

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“…Treatment C2 produced 14.90 mg/kg -1 /soil, while the control made the lowest mean of 9.50 mg/kg -1 /soil. The reason for this is due to the increase in the release of Co 2 gas as a result of the decomposition of the compost, which when dissolved forms carbonic acid, which leads to the dissolution of the precipitated phosphate compounds and an increase in the concentration of aailable phosphorous in the soil, [20]. There are significant differences in phosphorous availability in the soil because of applying different levels of humus fertilizer.…”

Section: Phosphorous Availability In the Soil At The Flowering Stage ...mentioning

confidence: 99%

“…Treatment (H2) produced the highest rate of 241.78 mg/kg -1 /soil, while the lowest rate with the control was 216.28 mg/kg -1 /soil. The increase is because humic acid contains potassium in its composition; when it is decomposed, it will increase the concentration of available potassium in the soil, [20].…”

Section: Potassium Availability In the Soil At The Flowering Stage (M...mentioning

confidence: 99%

Effect of Bio-Inoculum, Compost, and Humic Acid on NPK Availability in Tomato Soils

Ali

Kamal

2022

IOP Conf. Ser.: Earth Environ. Sci.

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The study aimed to determine the influence of biological inoculation and organic fertilizer on the availability of nitrogen, phosphorous, and potassium (N.P.K.) in protected tomato soil. During the 2021 agricultural season, the experiment was conducted in greenhouses in the Al-Azzawiya area / Babylon Governorate (longitude 44.5E and latitude 32.7N). Bacterial bio-inoculum was used and compared with the control (S0 and S1), three levels of compost (C0, C1, C2) tons.ha-1, and three levels of organic fertilizer Humus (H0, H1, H2) and the interaction between them in nitrogen, phosphorous, and potassium were used. The results of the statistical analysis resulted in higher values of the triple interaction treatment (S1 + H2 + C2) than the control by giving it the highest mean concentration of available nitrogen, phosphorous, and potassium in the soil (48.70, 19.71, 255.33) mg.kg-1.soil for each, respectively.

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Impact of Temperature and Water on Seed Germination and Seedling Growth of Maize (Zea mays L.)

Cited by 45 publications

References 69 publications

Impact of T. harzianum and G. mosseae Inoculum and Phosphate Rocks on the NPK Content in Barley Crop (Hordium Valgari L.)

Impact of T. harzianum and G. mosseae Inoculum and Phosphate Rocks on the NPK Content in Barley Crop (Hordium Valgari L.)

Heat Stress-Mediated Constraints in Maize (Zea mays) Production: Challenges and Solutions

Effect of Bio-Inoculum, Compost, and Humic Acid on NPK Availability in Tomato Soils

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