Impact of Mineral Fertilizers with or without Bio-Fertilizers or Potassium Humate on some Soil Properties, Yield and Quality of Pea Plants Under Salt Affected Soil Conditions

Khafagy, H. A.; Ahmed, Marwa A.; Abdel-Azeem, Seham

doi:10.21608/jacb.2019.36785

Cited by 3 publications

(2 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…"The slightly decreased of soil pH values maybe inverted to the activity of microorganisms in decomposing organic matter and releasing organic acids. This is possibly due to organic matter oxidation (H+ act as electron acceptor) and high content of free hydrogen ions" [40,66]. Mentioned that, "the effect of bio-fertilizer on soil pH is due to dehydrogenase activity and production of µ moles of H2 in the rhizosphere of maize root media and its positive effect on increasing the hydrogen moles which react in root zone to form hydrocarbon acid which led to decrease soil pH" [52,66,79,80].…”

Section: Soil Phmentioning

confidence: 99%

Impact of Bio and Organic Adamants and Per-sowing Seeds Magnetic Field Together with Mineral Nitrogen Fertilizer on Some Soil Physical and Chemical Properties and Faba Bean Productivity under Saline Soil Conditions

Kamel,

Shaban,

Mohaseb

et al. 2024

IJPSS

View full text Add to dashboard Cite

Two filed experiments were conducted at Sahl- El-Hussinia , agricultural research station, El-Sharkia Governorate, Egypt, 31o - 8' – 12.461" N and 31o - 52' – 15.469 E. during two successive winter seasons 2020/2021 and 2021/ 2022 , for studying the effective of used bio-fertilizer (Rhizobium radiobacter Sp.strain (Salt Tolerant PGPR),humate potassium and pre-sowing seeds faba bean magnetic field different times (5, 10 and 15 min) combined with mineral N fertilizer at rates (15, 30 and 45 N kg/fed) on some soil chemical and physical properties and faba bean quality and productivity . The studied treatments were arranged within the experimental units in a split split plot design in three replicates. Results indicated that the all treatments had improved soil properties decreased soil salinity and soil pH soil and EC values decreased related to different treatments using foliar application reporting EC decreased value from (11.88 to 11.28) dS/m, pH soil decreased slightly this maybe inverted to the activity of microorganisms .were achieved increased OM% from (0.57 to 0.54) related to application of bio fertilizer and humates as compared mineral fertilizer and control,CEC from ( 43.92 to 41.84) Mol/kg, respectively application. the superior impact was increased the soil total porosity values compared to other treatments and control, moreover, the Data obtained that the values of drainable pores (DP) and water holding pores (WHP) were higher than the other pores in different treatments. The results also found that the effect of physical properties on magnetic field strength (MFS) has a marked influence on the magnetization effect, the optimal magnetizing condition was the magnetic field was maximized in a time of 15 minutes. The data explained that the application of all amendments decreased soil HC (cm h-1) values when compared to the control. The improvement perwise the pronounced decrease in hydraulic conductivity of the studied soil may be attributed to the creation of QDP point, and the dominance of SDP point and QDP point compared with other pore sizes and the value of bulk density is decreased by adding the application of all amendments as Bio-fertilizer and humate potassium as compare with all treatments and control, while the total porosity and capillary porosity increased in the plow layer of soil and other yield components as affected with humate potassium combined with 45 kg mineral N fertilizers under magnetic field at 15 min compared other treatments. Finally, The superior influence faba bean quality was bio-fertilizer and potassium humate as will as presowing seed magnetic field at 15 min.

show abstract

Section: Soil Phmentioning

confidence: 99%

Impact of Bio and Organic Adamants and Per-sowing Seeds Magnetic Field Together with Mineral Nitrogen Fertilizer on Some Soil Physical and Chemical Properties and Faba Bean Productivity under Saline Soil Conditions

Kamel,

Shaban,

Mohaseb

et al. 2024

IJPSS

View full text Add to dashboard Cite

show abstract

“…Thus, the application of biological fertilizers or bio-fertilizers can influence their gas exchange and the production of chlorophylls, this occurs, due to the nutritional composition of bio-fertilizers, which is rich in potassium (Khafagy et al 2019). Potassium is an activator of enzymes involved in plant photorespiration, in addition, it is the main cation that establishes cell turgor and the maintenance of electroneutrality, promoting the regulation of the osmotic potential of plant cells (Taiz et al 2017).…”

Section: Gas Exchanges and Chlorophyll Content In Green Pepper Plants Under Bio-fertilization And Times Of Applicationmentioning

confidence: 99%

Gas exchanges and chlorophyll content in green pepper plants under bio-fertilization and times of application

et al. 2021

View full text Add to dashboard Cite

This study aimed to determine the gas exchange and the chlorophyll content of green pepper plants under doses and times of application of bio-fertilizers based on manure and enriched organic compost. Two experiments were carried out simultaneously with applications of bio-fertilizers prepared from manure and enriched organic compost, one using cattle manure (CBF) and the other sheep manure (SBF). For these, four doses of biological fertilizers (100, 200, 300 and 400 dm³ ha-1), three application times (0, 30 and 60 days after transplantation - DAT) and absolute control, referring to the absence of fertilization, were used. treatments. were arranged in a randomized block design, totaling 13 treatments. The variables evaluated were: the relative chlorophyll a, b and total content; liquid photosynthesis (A); stomatal conductance (gs); internal CO2 concentration (Ci); instant carboxylation efficiency (iCE - A/Ci); transpiration rate (T); intrinsic water use efficiency (iWUE - A/gs); and water use efficiency (WUE - A/E). Gs, A and T, showed significant effect at 60 DAT with the application of SBF and Ci at 30 DAT with CBF. The dose of 400 dm³ ha-1 of SBF provided greater gas results, and the doses of 200 and 300 dm³ ha-1 of CBF promoted a greater Ci, greater stomatal conductance, greater liquid photosynthesis and better water use efficiency, which results in a greater plant fresh weight at the time of flowering induction.

show abstract

Improving Nutrient Uptake, Growth, Yield and Protein Content in Chickpea by the Co-Addition of Phosphorus Fertilizers, Organic Manures, and Bacillus sp. MN-54

et al. 2021

View full text Add to dashboard Cite

The main purpose of this study was to examine the impact of different phosphorus (P) fertilizers and organic manures alone and in combination with Bacillus sp. MN-54 on growth, yield, nutrient uptake, chlorophyll (SPAD value) and crude proteins content of chickpea. The simple manure (SM), processed manure (PM), single super phosphate (SSP), and rock phosphate (RP) were applied individually and in different combinations to the soil in pots, and the chickpea seeds treated with Bacillus sp. MN-54 were sown in the selective pots. Results showed that individual use of SM, PM, SSP, RP, and strain MN-54 significantly increased (p ≤ 0.05) the nutrient uptake, growth, yield, and protein content of chickpea as compared to control treatments. While the combined use of SM or PM, SSP or RP, and MN-54 further enhanced this effect. Among different treatments, combined use of RP, PM and MN-54 proved the most effective treatment showing increase of 37.5 and 42.6% in shoot and root lengths, 43.4 and 38.3% in fresh and dry shoot weights, 36.1 and 36.5% in fresh and dry root weights, 45.8% in no. of pods, 43.6% in nodules counts, 16.0% in 100-grain weight and 31–36% nutrient uptake over control treatments. Our findings suggest that the co-addition of organic manures and P fertilizers along with plant growth promoting bacteria (i.e., Bacillus sp. MN-54) not only increases the growth and yield but also improves nodulation, nutrient uptake, and crude proteins content in chickpea.

show abstract

Impact of Mineral Fertilizers with or without Bio-Fertilizers or Potassium Humate on some Soil Properties, Yield and Quality of Pea Plants Under Salt Affected Soil Conditions

Cited by 3 publications

References 10 publications

Impact of Bio and Organic Adamants and Per-sowing Seeds Magnetic Field Together with Mineral Nitrogen Fertilizer on Some Soil Physical and Chemical Properties and Faba Bean Productivity under Saline Soil Conditions

Impact of Bio and Organic Adamants and Per-sowing Seeds Magnetic Field Together with Mineral Nitrogen Fertilizer on Some Soil Physical and Chemical Properties and Faba Bean Productivity under Saline Soil Conditions

Gas exchanges and chlorophyll content in green pepper plants under bio-fertilization and times of application

Improving Nutrient Uptake, Growth, Yield and Protein Content in Chickpea by the Co-Addition of Phosphorus Fertilizers, Organic Manures, and Bacillus sp. MN-54

Contact Info

Product

Resources

About