This page has only limited features, please log in for full access.

Unclaimed
Mohamed Badr
Plant Nutrition Department, National Research Centre, Giza 12622, Egypt

Honors and Awards

The user has no records in this section


Career Timeline

The user has no records in this section.


Short Biography

The user biography is not available.
Following
Followers
Co Authors
The list of users this user is following is empty.
Following: 0 users

Feed

Journal article
Published: 11 August 2020 in Horticulturae
Reads 0
Downloads 0

Crop production in arid regions requires continuous irrigation to fulfill water demand throughout the growing season. Agronomic measures, such as roots-soil microorganisms, including arbuscular mycorrhizal (AM) fungi, have emerged in recent years to overcome soil constraints and improve water use efficiency (WUE). Eggplant plants were exposed to varying water stress under inoculated (AM+) and non-inoculated (AM−) to evaluate yield performance along with plant physiological status. Plants grown under full irrigation resulted in the highest fruit yield, and there were significant reductions in total yield and yield components when applying less water. The decline in fruit yield was due to the reduction in the number of fruits rather than the weight of the fruit per plant. AM+ plants showed more favorable growth conditions, which translated into better crop yield, total dry biomass, and number of fruits under all irrigation treatments. The fruit yield did not differ between full irrigation and 80% evapotranspiration (ET) restoration with AM+, but a 20% reduction in irrigation water was achieved. Water use efficiency (WUE) was negatively affected by deficit irrigation, particularly at 40% ET, when the water deficit severely depressed fruit yield. Yield response factor (Ky) showed a lower tolerance with a value higher than 1, with a persistent drop in WUE suggesting a lower tolerance to water deficits. The (Ky) factor was relatively lower with AM+ than with AM− for the total fruit yield and dry biomass (Kss), indicating that AM may enhance the drought tolerance of the crop. Plants with AM+ had a higher uptake of N and P in shoots and fruits, higher stomatal conductance (gs), and higher photosynthetic rates (Pn), regardless of drought severity. Soil with AM+ had higher extractable N, P, and organic carbon (OC), indicating an improvement of the fertility status in coping with a limited water supply.

ACS Style

M. A. Badr; W. A. El-Tohamy; S. D. Abou-Hussein; N. S. Gruda. Deficit Irrigation and Arbuscular Mycorrhiza as a Water-Saving Strategy for Eggplant Production. Horticulturae 2020, 6, 45 .

AMA Style

M. A. Badr, W. A. El-Tohamy, S. D. Abou-Hussein, N. S. Gruda. Deficit Irrigation and Arbuscular Mycorrhiza as a Water-Saving Strategy for Eggplant Production. Horticulturae. 2020; 6 (3):45.

Chicago/Turabian Style

M. A. Badr; W. A. El-Tohamy; S. D. Abou-Hussein; N. S. Gruda. 2020. "Deficit Irrigation and Arbuscular Mycorrhiza as a Water-Saving Strategy for Eggplant Production." Horticulturae 6, no. 3: 45.

Journal article
Published: 27 August 2018 in Acta Scientiarum Polonorum Hortorum Cultus
Reads 0
Downloads 0
ACS Style

Wael Abdel-Kader El-Tohamy; Hamed Maher El-Abagy; Mohammed Abd Allah Badr; Nazim Gruda. EFFECT OF EXOGENOUS SALICYLIC ACID ON THE RESPONSE OF SNAP BEAN (Phaseolus vulgaris L.) AND JERUSALEM ARTICHOKE (Helianthus tuberosus L.) TO DROUGHT STRESS. Acta Scientiarum Polonorum Hortorum Cultus 2018, 17, 81 -91.

AMA Style

Wael Abdel-Kader El-Tohamy, Hamed Maher El-Abagy, Mohammed Abd Allah Badr, Nazim Gruda. EFFECT OF EXOGENOUS SALICYLIC ACID ON THE RESPONSE OF SNAP BEAN (Phaseolus vulgaris L.) AND JERUSALEM ARTICHOKE (Helianthus tuberosus L.) TO DROUGHT STRESS. Acta Scientiarum Polonorum Hortorum Cultus. 2018; 17 (4):81-91.

Chicago/Turabian Style

Wael Abdel-Kader El-Tohamy; Hamed Maher El-Abagy; Mohammed Abd Allah Badr; Nazim Gruda. 2018. "EFFECT OF EXOGENOUS SALICYLIC ACID ON THE RESPONSE OF SNAP BEAN (Phaseolus vulgaris L.) AND JERUSALEM ARTICHOKE (Helianthus tuberosus L.) TO DROUGHT STRESS." Acta Scientiarum Polonorum Hortorum Cultus 17, no. 4: 81-91.

Conference paper
Published: 01 December 2017 in 2017 Nineteenth International Middle East Power Systems Conference (MEPCON)
Reads 0
Downloads 0

This paper presents a step-by-step with important parameters required to simulate real large thermal power plant from generator until high voltage substation and medium voltage auxiliary loads for protection purposes. The selected practical plant is Suez power plant 834 MVA, 50Hz, 22/500 kV in Egypt. The simulation provides a detailed modelling for synchronous generator including generator excitation system and steam turbine control, Generator Circuit Breaker (GCB), Generator Step-Up (GSU) transformer, Unit Auxiliary Transformer (UAT), substation, Isolated Phase Bus (IPB), and Gas Insulated Bus (GIB) using ATP/EMTP. The presented dynamic model has been tested by different faults and normal operation conditions and compared with real recorded data on Suez power plant. The results have confirmed the efficiency of the presented model.

ACS Style

Wael Yousef; Mahmoud Elsadd; Almoataz Y. Abdelaziz; Mohamed A. Badr. Simulation of large thermal power plant for protection purposes using ATP/EMTP. 2017 Nineteenth International Middle East Power Systems Conference (MEPCON) 2017, 1183 -1189.

AMA Style

Wael Yousef, Mahmoud Elsadd, Almoataz Y. Abdelaziz, Mohamed A. Badr. Simulation of large thermal power plant for protection purposes using ATP/EMTP. 2017 Nineteenth International Middle East Power Systems Conference (MEPCON). 2017; ():1183-1189.

Chicago/Turabian Style

Wael Yousef; Mahmoud Elsadd; Almoataz Y. Abdelaziz; Mohamed A. Badr. 2017. "Simulation of large thermal power plant for protection purposes using ATP/EMTP." 2017 Nineteenth International Middle East Power Systems Conference (MEPCON) , no. : 1183-1189.

Journal article
Published: 27 February 2016 in Agricultural Water Management
Reads 0
Downloads 0

Water has always been the main factor limiting crop production in arid and semi-arid regions where rainfall is insufficient to meet crop demand. The invite to improve water use efficiency and crop productivity, to ensure future food security, has never been more urgent. Tomato yield performance was studied under different planting methods combined with different nitrogen (N) levels to evaluate the potentials and constraints of plant arrangement under drip irrigation for sustaining crop yield, N uptake, N use efficiency (NUE) and water use efficiency (WUE). Three planting methods were tested included arrangement of tomato plants in single rows, 100 cm apart (SR), normal twin rows at 40/160 cm alternately (NT) and dense twin rows at 40/100 cm alternately (DT), which resulted in rising total plant population by 150% as high as SR and NT. This was done along with four N levels (120, 180, 240 and 300 kg N ha−1), applied continuously by drip irrigation system. Drip laterals were laid out along each single row or in the center of the twin rows; consequently the relative number of laterals and water applied were reduced by 50% and 75% for NT and DT, respectively compared with SR. Dense twin planting produced 24% higher tomato fruit yield over SR although 75% of irrigation water was applied. Otherwise, NT with 50% saving in irrigation water and cost of drip laterals can be realized by loss only 15% fruit yield as compared with SR. Nitrogen supply tended to increase tomato fruit yield significantly up to the highest level of N with all planting methods. The interaction effect of planting method × level of N was significant for almost yield components. Nitrogen supply increased tomato N uptake linearly with maximum N removal from the field 193 kg ha−1 under DT and N300 treatment combination, which contributed to higher fruit yield and total dry biomass. The lowest N treatment (N120) gave the higher N recovery with all planting methods, despite the sand texture of the soil. NUE was higher under DT as compared with SR but the NUE consistently decreased with increase level of N supply with all planting methods. WUE of both twin planting were higher (69% for NT and 64% for DT) compared with SR indicating to efficient use of water applied under this method of planting. The results of this study suggest that dense twin planting can be viable and rational practice to increase crop yield and saving substantial amount of irrigation water as well as cost of drip laterals.

ACS Style

M.A. Badr; S.D. Abou-Hussein; W.A. El-Tohamy. Tomato yield, nitrogen uptake and water use efficiency as affected by planting geometry and level of nitrogen in an arid region. Agricultural Water Management 2016, 169, 90 -97.

AMA Style

M.A. Badr, S.D. Abou-Hussein, W.A. El-Tohamy. Tomato yield, nitrogen uptake and water use efficiency as affected by planting geometry and level of nitrogen in an arid region. Agricultural Water Management. 2016; 169 ():90-97.

Chicago/Turabian Style

M.A. Badr; S.D. Abou-Hussein; W.A. El-Tohamy. 2016. "Tomato yield, nitrogen uptake and water use efficiency as affected by planting geometry and level of nitrogen in an arid region." Agricultural Water Management 169, no. : 90-97.

Journal article
Published: 20 October 2012 in International Journal of Computer Applications
Reads 0
Downloads 0
ACS Style

Fayez G.Areed; Mohamed A. Badr; Sabry F. Saraya; Mohammed S. Elksasy; Mohamed M. Abdelsalam. Decoupled Sliding Mode Control for a Multivariable Nonlinear System. International Journal of Computer Applications 2012, 55, 25 -32.

AMA Style

Fayez G.Areed, Mohamed A. Badr, Sabry F. Saraya, Mohammed S. Elksasy, Mohamed M. Abdelsalam. Decoupled Sliding Mode Control for a Multivariable Nonlinear System. International Journal of Computer Applications. 2012; 55 (6):25-32.

Chicago/Turabian Style

Fayez G.Areed; Mohamed A. Badr; Sabry F. Saraya; Mohammed S. Elksasy; Mohamed M. Abdelsalam. 2012. "Decoupled Sliding Mode Control for a Multivariable Nonlinear System." International Journal of Computer Applications 55, no. 6: 25-32.

Journal article
Published: 01 May 2012 in Agricultural Water Management
Reads 0
Downloads 0

Water and nitrogen supply in potato cropping systems is an essential factor for controlling production level especially in arid and semi-arid regions. Shortage water availability and escalating irrigation costs along with high prices of fertilizers have caused attention to adopt practices to improve water and N use efficiency. The present work was conducted to assess the interaction effect of different amounts of water (W) and nitrogen (N) applied through drip irrigation on potato production, water use efficiency (WUE), nitrogen use efficiency (NUE) and total N uptake in an arid region. Potato plants were subjected to four irrigation treatments, 100% (W1.0), 80% (W0.8), 60% (W0.6) and 40% (W0.4) of crop ET (evapotranspiration) and four N levels, 160 (N160), 220 (N220), 280 (N280) and 340 (N340) kg N ha−1. Plants grown under full irrigation supply resulted in the highest tuber yield and there were significant reductions in total yield and yield components when applying less amount of water. Tuber weight was more sensitive to water deficit than tuber number, where the decrease in potato yield in the deficit water treatments was mainly due to a decrease in tuber weight (R2 = 0.982). Except for tuber number per plant, application of N adversely affected yield and yield components, when N level applied above 280 kg N ha−1 at W0.6, and above 220 kg N ha−1 at W0.4, respectively. The WUE was improved by N supply, but its effect decreased as the irrigation level increased. The WUE at W1.0, which produced the highest tuber yield, was 146 kg ha−1 mm−1 with N340 but this increased to 195 kg ha−1 mm−1 at W0.4 with N220. The NUE was affected greatly by the applied N amount and increased as the N level was decreased. The highest NUE value 176 kg yield kg−1 N was obtained at W1.0 treatment with N160 but this decreased to 136 kg yield kg−1 N with N340. The uptake of N increased with increase in the level of N applied up to the highest level but the reverse was true for N recovery. These results suggested that potato in an arid climate region can be cultivated with acceptable yields while saving irrigation water and reducing nitrogen supply but it is essential to exploit the interaction effect between these two factors to maximize resource use efficiency.

ACS Style

M.A. Badr; W.A. El-Tohamy; A.M. Zaghloul. Yield and water use efficiency of potato grown under different irrigation and nitrogen levels in an arid region. Agricultural Water Management 2012, 110, 9 -15.

AMA Style

M.A. Badr, W.A. El-Tohamy, A.M. Zaghloul. Yield and water use efficiency of potato grown under different irrigation and nitrogen levels in an arid region. Agricultural Water Management. 2012; 110 ():9-15.

Chicago/Turabian Style

M.A. Badr; W.A. El-Tohamy; A.M. Zaghloul. 2012. "Yield and water use efficiency of potato grown under different irrigation and nitrogen levels in an arid region." Agricultural Water Management 110, no. : 9-15.

Originalbeitrag
Published: 04 November 2010 in Gesunde Pflanzen
Reads 0
Downloads 0

Efficient water delivery systems such as drip irrigation can contribute towards increasing crop yield potential, improving crop water and fertilizer use efficiency. However, critical management considerations such as subsurface drip irrigation are necessary to attain improved irrigation efficiencies and production benefits particularly under arid regions. The objective of this study was to determine the effect of two irrigation methods, surface and subsurface drip irrigation combined with four irrigation levels, 100, 80, 60 and 40% of crop evapotranspiration on yield and yield components of potato grown on sandy soil. The field experiments were conducted in the years 2008 and 2009. In terms of soil water availability to plants, subsurface drip provided more favorable growth conditions for plant growth and maintained higher soil water content at the root zone, which resulted in a significant higher potato yield compared to surface drip irrigation. The difference between the two irrigation methods on yield components was concentrated on the mean tuber weight per plant, while no significant difference was found on the tuber number per plant. Reducing the amounts of applied water significantly decreased total potato yield and its components. Under subsurface drip irrigation, reducing amounts of applied water to 80% ETc gave comparable yield and yield components to surface drip at full irrigation supply, indicating that 20% irrigation water can be saved without affecting the potato yield. At all irrigation levels, subsurface drip recorded higher water use efficiency (WUE) over surface drip. Maximum value was observed at 40% ETc. Fertilizer use efficiency (FUE) was also higher under subsurface drip and reduced significantly under both irrigation methods with increasing water deficit. These results suggested that subsurface drip offers the potential of better water management with respect to saving and distribution of water in the root zone and to obtain maximum yield accompanied by highest water and FUE. Effiziente Bewässerungssysteme, wie Tröpfchenbewässerung können zur Steigerung des Ertragspotenzials, sowie zur Verbesserung der Wasser- und Düngernutzungseffizienz beitragen. Allerdings sind kritische Erwägungen des Unterflur-Tröpfchenbewässerungs-Managements notwendig, um eine verbesserte Effizienz der Bewässerung und Produktionsvorteile, vor allem in ariden Regionen, zu erreichen. Ziel dieser Studie war es, die Wirkung von zwei Bewässerungsmethoden, eine oberflächliche und eine unterirdische Tropfbewässerung, kombiniert mit vier Bewässerungsstufen 100, 80, 60 und 40 % der Evapotranspiration, auf Ertrag und Ertragskomponenten der Kartoffel auf sandigen Böden zu untersuchen. Die Feldversuche fanden in den Jahren 2008 und 2009 statt. Bezüglich der Verfügbarkeit des Bodenwassers für die Pflanzen, wurden bei der Unterflur-Tröpfchenbewässerung günstigere Wachstumsbedingungen und höhere Wassergehalte in der Wurzelzone festgestellt. Diese bewirkten einen signifikant höheren Ernteertrag von Kartoffeln im Vergleich zur oberflächlichen Tröpfchenbewässerung. Der Unterschied zwischen den beiden Bewässerungsmethoden auf Ertragskomponenten bestand im Mittelgewicht der Kartoffelknollen pro Pflanze, während keine signifikanten Unterschiede auf die Anzahl der Knollen pro Pflanze gefunden wurden. Der Ertrag ging mit einer Reduzierung der Wassermengen deutlich zurück. Eine Verringerung der angewandten Wassermengen auf 80 % ETc bei Unterflur-Tröpfchenbewässerung, ergab einen vergleichbaren Ertrag wie mit Vollversorgung bei oberflächlicher Tröpfchenbewässerung. Somit zeigte sich, dass 20 % des Bewässerungswassers gespeichert werden können, ohne dass dies Auswirkungen auf die Ernteerträge hat. Durchgehend für alle Bewässerungsstufen hatte die Unterflur-Tröpfchenbewässerung eine höhere Wassernutzungseffizienz als die oberflächliche Tröpfchenbewässerung. Der maximale Wert wurde bei 40 % ETc festgestellt. Die Düngernutzungseffizienz war ebenfalls höher bei der Unterflur-Tröpfchenbewässerung und wurde deutlich in beiden Bewässerungsmethoden mit zunehmendem Wassermangel reduziert. Diese Ergebnisse verweisen darauf, dass eine Unterflur-Tröpfchenbewässerung das Potenzial eines besseren Wassermanagements hinsichtlich des Wassersparens sowie der Wasserverteilung in der Wurzelzone hatte. Mit diese Verfahren wurden maximale Erträge und eine höchste Wasser- und Düngernutzungseffizienz erreicht.

ACS Style

M. A. Badr; Shaban Abou-Hussein; Wael El-Tohamy; Nazim Gruda. Efficiency of Subsurface Drip Irrigation for Potato Production Under Different Dry Stress Conditions. Gesunde Pflanzen 2010, 62, 63 -70.

AMA Style

M. A. Badr, Shaban Abou-Hussein, Wael El-Tohamy, Nazim Gruda. Efficiency of Subsurface Drip Irrigation for Potato Production Under Different Dry Stress Conditions. Gesunde Pflanzen. 2010; 62 (2):63-70.

Chicago/Turabian Style

M. A. Badr; Shaban Abou-Hussein; Wael El-Tohamy; Nazim Gruda. 2010. "Efficiency of Subsurface Drip Irrigation for Potato Production Under Different Dry Stress Conditions." Gesunde Pflanzen 62, no. 2: 63-70.

Journal article
Published: 01 March 2010 in Gesunde Pflanzen
Reads 0
Downloads 0

With rising concern about current irrigation and fertilizer NPK management, the present study was conducted to evaluate the effect of sources and methods of fertilizer application on nutrient distribution, uptake, recovery and fruit yield of tomato grown in a sandy soil. Equal amounts of NPK were applied in solid form or through fertigation at levels of 0%, 50%, 75% and 100% with the remainder 100%, 50% and 25% applied as solid fertilizers to the soil. Available NO3−-N and K were confined to the root zone of tomato in 75% and 100% NPK fertigation levels, while they moved beyond the root zone when they applied in two equal splits as solid fertilizers with drip (0% fertigation) and furrow irrigation. The mobility of P was greater in the root zone following its application through fertigation compared to a solid application as super phosphate. Drip irrigation showed significantly higher absolute growth rate (AGR), total dry weight (TDW) and leaf area index (LAI) of tomato over furrow irrigation. Moreover, tomato plants were able to utilize applied nutrients more efficiently in fertigation system than with conventional solid fertilizer application. Highest AGR, TDW and LAI were recorded when nutrients were applied to 100% by drip fertigation. The fruit yield of tomato was higher with drip irrigation (58.62 t ha−1) than with furrow irrigation, (47.37 t ha−1). Maximum fruit yield was recorded with 100% NPK fertigation (74.87 t ha−1) and was associated with a higher number of fruits per plant and a bigger fruit size than the solid applied fertilizers under both drip and furrow irrigation. On average, tomato accumulated more NPK across the fertigation levels than with drip and furrow irrigation. Similarly, the more controlled application of nutrients in fertigation treatments improved NPK recovery and fertilizer use efficiency (FUE) and resulted in lesser leaching of NO3−-N and K to deeper soil layers. Die Bedeutung des Bewässerungsmanagements und der NPK-Düngüng steigt stetig an. In einer Studie wurde die Wirkung der Düngerformen und der Anwendungsmethoden auf Nährstoff- Verteilung, -Aufnahme, und -Verwertung untersucht. Weiterhin wurde der Ertrag von Tomaten, die auf sandigem Boden angebaut wurden, untersucht. Es wurden gleiche Mengen an NPK-Düngemittel ausgebracht (Fertigation* in Stufen von 0%, 50%, 75% und 100% und der Rest von 100%, 50%, 25% und 0% als feste Form). Verfügbares NO3−-N und K wurde in der Wurzelzone von Tomaten bei einer Fertigationsstufe von 75% und 100% NPK gefunden, während bei einer Anwendung mit festem Düngemittel (0% Fertigation) und Furchenbewässerung sich NO3−-N und K über die Wurzelzone hinaus bewegten. Die Mobilität von P war größer bei einer Ausbringung durch Bewässerungsdüngung als bei einer Anwendung als Super-Phosphat. Tomaten der Tropfenbewässerung zeigten eine signifikant höhere absolute Wachstumsrate (AWR), Trockenmasse (TM) und einen signifikant höheren Blattflächenindex (LAI) gegenüber der Furchenbewässerung. Darüber hinaus waren die Tomatenpflanzen in der Lage bei der Bewässerungsdüngung die angewandten Nährstoffe effizienter zu nutzen, als bei der Düngung in herkömmlicher fester Form. Die höchsten AWR, TM und LAI wurden erfasst, wenn die Nährstoffe zu 100% in Form der Bewässerungsdüngung angewendet wurden. Der Ertrag der Tomaten war höher bei der Tropfenbewässerung (58,62 t ha−1), als bei der Furchenbewässerung (47,37 t ha−1). Die maximalen Erträge wurden mit 74,87 t ha−1 bei 100% NPK Fertigation erfasst und wurden mit einer höheren Anzahl der Früchte pro Pflanze begleitet. Zudem waren die Früchte der Tomaten größer, als bei der Anwendung fester Düngemittel (sowohl bei der Tropfenbewässerung, als auch bei der Furchenbewässerung). Im Durchschnitt, akkumulierten die Tomaten mehr NPK über die Fertigationstufen als bei den Bewässerungssystemen (Tropfen und Furche). Ähnlich verliefen auch die NPK-Verwertung und die Düngernutzungseffizienz: mit einer geringen Auswaschung von NO3−-N und K in tiefen Bodenschichten. Fertigation“ bzw. „Bewässerungsdüngung“ ist die Einspeisung der Dünger via Tropfenbewässerungssystem zu verstehen.

ACS Style

M. A. Badr; Shaban Abou-Hussein; Wael El-Tohamy; Nazim Gruda. Nutrient uptake and yield of tomato under various methods of fertilizer application and levels of fertigation in arid lands. Gesunde Pflanzen 2010, 62, 11 -19.

AMA Style

M. A. Badr, Shaban Abou-Hussein, Wael El-Tohamy, Nazim Gruda. Nutrient uptake and yield of tomato under various methods of fertilizer application and levels of fertigation in arid lands. Gesunde Pflanzen. 2010; 62 (1):11-19.

Chicago/Turabian Style

M. A. Badr; Shaban Abou-Hussein; Wael El-Tohamy; Nazim Gruda. 2010. "Nutrient uptake and yield of tomato under various methods of fertilizer application and levels of fertigation in arid lands." Gesunde Pflanzen 62, no. 1: 11-19.

Conference paper
Published: 01 October 2009 in 2009 IEEE Electrical Power & Energy Conference (EPEC)
Reads 0
Downloads 0

This paper investigates the opportunity for energy saving in a 3-phase induction motor (IM) driving pump load and proposes an improved loss model control (LMC). Compared with other power loss reduction algorithms for IM, the presented one has the advantages of fast response, high accuracy, and simplicity of implementation. The performance of LMC depends mainly on the accuracy of modeling the motor drive and losses. In this paper, a detailed loss-model for the IM drive has been developed. The model considers inverter voltage harmonics and magnetic saturation effects using closed-form equations. On that basis, an ANN controller is synthesized and learned offline to determine the optimal flux level that achieves maximum drive efficiency. Simulation and experimental studies are performed on 5.5 kW test motor using proposed control scheme. The test results are provided and compared with the fixed flux operation to validate the effectiveness.

ACS Style

Osama S. Ebrahim; Ali S. Algendy; Mohamed A. Badr; Praveen K. Jain. ANN-based optimal energy control of induction motor in pumping applications. 2009 IEEE Electrical Power & Energy Conference (EPEC) 2009, 1 -7.

AMA Style

Osama S. Ebrahim, Ali S. Algendy, Mohamed A. Badr, Praveen K. Jain. ANN-based optimal energy control of induction motor in pumping applications. 2009 IEEE Electrical Power & Energy Conference (EPEC). 2009; ():1-7.

Chicago/Turabian Style

Osama S. Ebrahim; Ali S. Algendy; Mohamed A. Badr; Praveen K. Jain. 2009. "ANN-based optimal energy control of induction motor in pumping applications." 2009 IEEE Electrical Power & Energy Conference (EPEC) , no. : 1-7.

Journal article
Published: 01 September 2021 in Journal of Applied Botany and Food Quality
Reads 0
Downloads 0

Journal of Applied Botany and Food Quality; 86; 212-216

ACS Style

W. A. El-Tohamy; H. M. El-Abagy; Mohamed Badr; Nazim Gruda. Drought tolerance and water status of bean plants (Phaseolus vulgaris L.) as affected by citric acid application. Journal of Applied Botany and Food Quality 2021, 86, 1 .

AMA Style

W. A. El-Tohamy, H. M. El-Abagy, Mohamed Badr, Nazim Gruda. Drought tolerance and water status of bean plants (Phaseolus vulgaris L.) as affected by citric acid application. Journal of Applied Botany and Food Quality. 2021; 86 ():1.

Chicago/Turabian Style

W. A. El-Tohamy; H. M. El-Abagy; Mohamed Badr; Nazim Gruda. 2021. "Drought tolerance and water status of bean plants (Phaseolus vulgaris L.) as affected by citric acid application." Journal of Applied Botany and Food Quality 86, no. : 1.