Effect of Water Stress, Biofertilizers and Nitrogen Application Rates on Cowpea Yield and Some Water Relations in the North Middle Nile Delta Region

Moursi, E.; Aziz, Manal A.; Aiad,; Darwesh, R.Kh.

doi:10.21608/jssae.2013.52899

Cited by 3 publications

(3 citation statements)

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“…Adding 40 kg N/fad., significantly increased plant height, number of leaves/ plant, number of branches/plant and chlorophyll content in both seasons (El-Atawy and Kasem, 2011; Moursi et al, 2013). Fertilization of cvs Cream-7 and Dokki-331 with rhizobium at 200 g/fad., and mineral at 45 or 60 kg N/fad., increased dry weight of leaves and total dry weight/plant (Attia, 2012).…”

Section: Dry Weightmentioning

confidence: 99%

“…N Fertilization at 45or 60kg/fad., of cvs Cream-7 and Dokki-331, increased dry weight of leaves and total dry weight/ plant, and seed yield per plant and per fad., in both seasons (Attia,2012). Adding 40 kg N/fad., significantly increased plant height, number of leaves/plant, number of branches /plant and chlorophyll content in both seasons, while adding 30 kg N/fad., gave the highest mean values of seed yield/ plant, seed yield/fad., number of pods/ plant and 100-seed weight (El-Atawy and Kasem, 2011 ; Moursi et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Effect of Lithovit on Growth, Seed Yield Components and Anatomy of Stem and Leaf of Cowpea Plants Under Different Mineral Nitrogen Levels

2018

Zagazig Journal of Agricultural Research

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This work was carried out during the two autumn seasons of 2015 and 2016 at Ghazala Experimental Farm, Fac. Agric., Zagazig University to study the effect of mineral nitrogen fertilizer levels (15, 25 and 35 kgN/fad.) and lithovit levels (0, 2, 4 and 6 g/l) as well as the interaction between them on growth, seed yield and anatomical traits of cowpea plants grown in clay soil. Fertilizing cowpea plants with mineral N at 35 kg/fad., increased plant height and number of both leaves and branches/plant, total dry weight/plant, as well as seed yield/fad., and N, P, K, total carbohydrates and total protein in seeds. Whereas N at 25 kg/fad., increased dry weight of leaves and branches/plant as well as N,P and K uptake in leaves and branches compated with low used level of 15 kg N/ faddan. Spraying cowpea plants with lithovit at 6g/l induced all previous characters as well as N, P and K uptake in leaves and branches. The interaction between N at 25 kg/fad., and lithovit at 6 g/l increased plant height, number of both leaves and branches/plant, total dry weight/plant, N,P and K uptake by leaves and branches, seed yield/fad., and N, P, K total protein in seeds. As for the effect of N levels and foliar application with lithovit on anatomical structure of vegetative organs of cowpea, it could be stated that 25 kg mineral nitrogen appeared a decrease in the main stem diameter, thickness of cortex, fiber, phloem, xylem and pith diameter, number of vascular bundle and diameter of vessel compared with high level of 35 kg N/fad., whereas the same level of N and lithovit at 6 g/l showed an increase in all previous characters except fiber thickness. Application of 25 kg mineral N/fad., caused in reduction in midvein, lamina of leaflet blades, palisade and spongy tissue thickness and dimensions of midvein bundle compared with high level of 35 kg N/fad., but the same level of N and lithovit reflected an increase in thickness of midvein region, width of midvein bundle, number of vessels/ midvein bundle and average diameter of vessel, but decreased the thickness of leaf lamina.

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Section: Dry Weightmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of Lithovit on Growth, Seed Yield Components and Anatomy of Stem and Leaf of Cowpea Plants Under Different Mineral Nitrogen Levels

2018

Zagazig Journal of Agricultural Research

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“…Also, co-inoculation with Paenibacillus polymyxa and Rhizobium tropici enhancement growth, nitrogen content, and nodulation of common bean (Phaseolus vulgaris L.) under a water-deficit environment (Figueiredo et al, 2008). Also, Moursi et al (2013) showed that application of cowpea with rhizobium and different rates of nitrogen enhancement yield and yield components, nitrogen, phosphorus % and protein content under the highest mean values for water productivity and productivity of applied irrigation water.…”

Section: Introductionmentioning

confidence: 98%

Interaction effect of skipping irrigation and co-inoculation with Bradyrhizobium and some strains of Bacillus bacteria on growth dynamics of cowpea (Vigna unguiculata L.) its yield and water productivity

Abdel-Fattah¹,

El-Nahrawy

El-Mansoury

2020

Egypt.J. Soil Sci.

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A FIELD experiment was conducted at Sakha Agricultural Research Station, Kafr El-Sheikh Governorate, North Nile Delta area, Egypt during the two successive growing seasons 2018 and 2019 to assess the interaction effect of skipping irrigation and co-inoculation of cowpea (Vigna 2019 to assess the interaction effect of skipping irrigation and co-inoculation of cowpea (Vigna radiata L.), with Bradyrhizobium sp. and some strains of Bacillus bacteria on growth dynamics, yield and water productivity. Spilt-plot design was used, the main plots were assigned to four treatments of water stress; I 1 : control treatment (no stress); I 2 : withholding one irrigation at the vegetative growth stage; I 3 : withholding one irrigation at the flowering growth stage; I 4 : withholding one irrigation at pod formation stage; while inoculation treatments were assigned to sub main plots which were: T 1 : inoculation with Bradyrhizobium sp. TAL 169 (control); T 2 : inoculation with Bradyrhizobium sp. TAL 169 + B. subtilis MF497446;T 3: inoculation with Bradyrhizobium sp. TAL 169 + B. coagulans NCAIM B.01123; T 4: inoculation with Bradyrhizobium sp. TAL 169 + B. circulance NCAIM B.02324. Our results of this present investigation showed that the flowering stage is the most sensitive stage in connection with cowpea watering following with vegetative and pod formation stages. Also, treatment I 4 T 4 recorded high values 7.61 g plant -1 , 39.00, 0.388 g plant -1 , 256.00 mg plant -1 and 1.054 mg g -1 FW at the first growing season for dry weight of plant, number of nodules plant -1 , dry weight of nodules, N and total chlorophyll contents compared to other treatments at 45 days after sowing (DAS), respectively. A similar trend was observed at 60 DAS. Irrigation at all stages accompanied with inoculation by Bradyrhizobium + B. circulance (I 1 T 4 treatment) gave the highest number of pods plant -1 , 100 seed weight and yield which the corresponding decrease in yield was 11.8, 1.4 and 0.4 %, for flowering, vegetative and pod formation stages, respectively. On the contrary, withdrawn irrigation at formation (I 4 ) under T 4 produced the highest values of productivity of irrigation water (PIW) and water productivity (WP). Herein, irrigation treatments followed the descending order of I 1 > I 2 > I 3 > I 4 . However, it followed as T 4 > T 3 > T 2 > T 1 under inoculation treatments. Thus, inoculation with Bradyrhizobium sp. + B. circulance under withholding one irrigation at pod formation stage could be efficiently used to partially eliminate the effects of water stress on growth dynamics of cowpea.

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Effect of Irrigation Intervals and Different Plant Densities on Faba Bean Yield, Some Water Relations and Some Soil Properties Under Drip Irrigation System in North Middle Nile Delta Region.

Moursi

Nassr

El-Mansoury

2014

Journal of Soil Sciences and Agricultural Engineering

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Two field experiments were conducted at Sakha Agricultural Research Station, Kafr El-Sheikh Governorate. The site is located at 31 0 07ˉ N Latitude and 30 0 57ˉ E longitude with an elevation of about 6 meters above mean sea level. This location represents the conditions of the North Middle Nile Delta region during the two successive winter growing seasons 2012/2013 and 2013/2014 to investigate the effect of irrigation intervals and plant densities on faba bean yield, some yield attributes and some water relations under drip irrigation system. Faba bean (Vicia faba L.) seeds, variety Sakha 2, were planted on 10 th and 15 th November and harvested on 28 th April and 2 nd May in the first and second growing seasons, respectively. A split plot design with four replicates was used. The main plots were randomly assigned by (irrigation intervals, I) which were I1 (irrigation every 6 days), I2 (irrigation every 9 days), I3 (irrigation every12 days), I4 (irrigation every15 days), I5 (irrigation every18days). The sub-main treatments were also randomly assigned by (plant densities, D) which were, D1 (planting one plant on one lateral from each side adjusted with opening the emitter), D2 (planting two plants on one lateral from one side adjusted with the emitter), D3 (planting four plants on one lateral on the two sides of the emitter), two plants from each side and D4 (planting four plants on one lateral on the two sides of the emitter, two plants from each side). In addition, two plants were planted in the middle of the two adjacent emitters with one plant in each side. The obtained results can be summarized as follows:-Data clearly illustrated that, the values of seasonal water applied, water stored in the effective root zone and water consumptive use were affected by irrigation intervals, where the highest overall mean values for the abovementioned three studied parameters were recorded under irrigation interval (I1) and the values are 1475.52, 1205.20 and 1059.44 m 3 /fed. On the other hand, the lowest values for the same abovementioned studied parameters were recorded under irrigation interval, I5 and the values are 990.64, 905.16 and 850.44 m 3 /fed. for seasonal water applied, water stored in the effective root zone and water consumptive use, respectively. Generally, the values of the three abovementioned studied parameters can be descended in order (I1) > (I2) > (I3) > (I4) > (I5). Concerning water application efficiency (WAE%) the mean values were slightly affected by irrigation intervals. The highest mean values were recorded under irrigation interval (I4) and the values are 94.92 and 94.47 %. The lowest mean values were recorded under irrigation interval (I1) and the values are 81.57 and 81.79% in the first and second growing seasons, respectively. Regarding, water productivity (WP) and productivity of irrigation water (PIW), the highest overall mean values were recorded under irrigation interval (I5) and the values are 1.38 and 1.19 kg/ m 3. Meanwhile, the lowest overall mean values were recorded under irrigatio...

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Effect of Water Stress, Biofertilizers and Nitrogen Application Rates on Cowpea Yield and Some Water Relations in the North Middle Nile Delta Region

Cited by 3 publications

References 7 publications

Effect of Lithovit on Growth, Seed Yield Components and Anatomy of Stem and Leaf of Cowpea Plants Under Different Mineral Nitrogen Levels

Effect of Lithovit on Growth, Seed Yield Components and Anatomy of Stem and Leaf of Cowpea Plants Under Different Mineral Nitrogen Levels

Interaction effect of skipping irrigation and co-inoculation with Bradyrhizobium and some strains of Bacillus bacteria on growth dynamics of cowpea (Vigna unguiculata L.) its yield and water productivity

Effect of Irrigation Intervals and Different Plant Densities on Faba Bean Yield, Some Water Relations and Some Soil Properties Under Drip Irrigation System in North Middle Nile Delta Region.

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