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11 results on '"Shabana Ehsan"'

1. Zinc portioning and allocation patterns among various tissues confers variations in Zn use efficiency and bioavailability in lentil genotypes

Author

Naser Rasheed, Muhammad Aamer Maqsood, Tariq Aziz, Muhammad Imran Ashraf, Ifra Saleem, Shabana Ehsan, Allah Nawaz, Hafiz Muhammad Bilal, and Minggang Xu

Subjects
lentil, Zn accumulation, cultivars, partitioning, malnutrition, bioavailability, Plant culture, SB1-1110
Abstract

Zinc (Zn) is essential for plants and animals as it plays significant roles in several physiological and biological processes. Its deficiency in soil results in low Zn content food and is one of the major reasons for Zn malnutrition in humans. Biofortification of crops with zinc (Zn) is a viable approach to combat malnutrition, especially in developing countries. A hydroponic study was executed to study response and Zn partitioning in various lentil genotypes. Eight preselected lentil genotypes (Line-11504, Mansehra-89, Masoor-2006, Masoor-85, Line-10502, Markaz-09, Masoor-2004, and Shiraz-96) were grown in solution culture with two Zn levels (control and adequate Zn). Plants were sown in polythene lined iron trays with a two inch layer of prewashed riverbed sand. After 10 days of germination, seedlings were transplanted to a 25L capacity container with nutrient solution for 15 days, and afterward, these plants were divided into two groups, receiving either 2.0 mM Zn or no Zn levels. Three plants of each genotype were harvested at the vegetative growth stage (60 DAT) and the remaining three at physiological maturity (117 DAT). Plants were partitioned into roots, shoots, and grains at harvest. Significant variations in root and shoot dry matter production, grain output, partitioning of Zn in plant parts (root, shoot, and grain), grain phytate reduction, and Zn bioavailability were observed among genotypes. Lentil root accumulated more Zn (54 mg kg-1) with respect to shoot Zn (51 mg kg-1) under Zn supply. The Zn efficient genotypes (Line-11504 and Mansehra-89) produced more root and shoot dry weights at both harvests. There was a positive correlation between the relative growth rate of root and grain phytate concentration (r = 0.55) and [phytate]:[Zn] ratio (r = 0.67). Zn-efficient genotype Mansehra-89 had a maximum root shoot ratio (0.57) and higher grain Zn (60 mg kg-1) with a respectively reduced grain phytate (17 µg g-1) and thus, had more Zn bioavailability (3.01 mg d-1). The genotypic ability for Zn uptake and accumulation within different plant tissues may be incorporated into future crop breeding to improve the nutrition of undernourished consumers.

Published
2024
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2. Relative potential of Rhizobium sp for improving the rice-wheat crop in the semi-arid regions

Author

M. Amjad Qureshi, M. Zaffar Iqbal, Sajid ur Rahman, Javed Anwar, M. Hammad Tanveer, Armghan Shehzad, M. Asif Ali, Muhammad Aftab, Usama Saleem, and Shabana Ehsan

Subjects
rhizobium species, iaa equivalents, pgpr, interaction, wheat, rice., Agriculture (General), S1-972
Abstract

Soil Microbiologists have been concentrating on manipulation of rhizosphere microbes in cereals, but many researchers have reported that rhizobia can act as plant growth promoting rhizobacteria (PGPR). Rhizobium species impacted the crop ontogeny by root / endophytic colonization, producing phytohormones, efficient nutrient use and nutrient solubilization / mineralization. Field studies were performed at Soil Bacteriology Section and Soil Chemistry Section, Faisalabad to assess the comparative potential of Rhizobium species for promoting the growth, yield of wheat and rice. Auxin biosynthesis potential of isolates of Rhizobium species (mung (Vigna radiata), berseem (Trifolium alexandrinum), chickpea (Cicer arietinum), lentil (Lens culinaris) and peanut (Arachis hypogaea)) was determined and isolates of each species having higher values were used for field experiments. Assay for root / shoot elongation, root colonization in plates were carried out under controlled conditions. The rhizosphere soil of wheat and rice were assayed for the Indole Acedic Acid (IAA) content 15 and 30 days after germination / transplanting, respectively. Results revealed that significant increase was observed in the yield parameters of wheat and rice. Highest wheat grains were produced i.e., 4917 kg ha-1 with Rhizobium sp of mungbean (Mb3) followed by 4823 with Rhizobium sp of berseem (Br3) than control i.e., 4500 kg ha-1. Similarly, the maximum paddy yield i.e., 4667 kg ha-1 with Rhizobium sp of mungbean (Mb3) followed by 4625 Rhizobium sp of berseem (Br3) inoculation was obtained as compared to control i.e., 4208 kg ha-1. Other physical parameters of wheat and rice also showed positive response to inoculation and have elevated levels of IAA in the rhizosphere of inoculated treatments. Results clearly demonstrated that Rhizobium species increased the yield of rice and wheat.

Published
2022
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3. Phosphorus release kinetics of applied phosphate is influenced by time and organic sources in clay loam and sandy clay loam soils

Author

Fatma Bibi, Ifra Saleem, Shahid Javid, Shabana Ehsan, Subhan Danish, and Iftikhar Ahmad

Subjects
Phosphorus availability, sorption, manures, soil textures, Agriculture (General), S1-972, Environmental sciences, GE1-350
Abstract

Adsorption and precipitation are major mechanisms that play an imperative role in immobilization of phosphorus (P) in various texture soils thus limiting the crop yields. Soil organic matter (SOM) can improve P bioavailability by decreasing its sorption in soils. The aim of current experiment was to investigate best organic source to reduce P sorption in different texture soils. Press mud (PM), farmyard manure (FYM), processed city waste (CW) and poultry litter (PL) were used to examine P availability in clay loam and sandy clay loam soils. Organic sources were added at the rate of 10 t ha-1 according to organic matter content in clay pots having 10 kg soil capacity. Phosphorus was added at the rate of 200 mg P kg-1 soil by using KH2PO4 and moisture was maintained at 60% water holding capacity. Results showed higher adsorption of P (122 mg kg-1) in clay loam soil as compared to the sandy clay loam (132 mg kg-1) soil. The Olsen P influenced by organic amendments was in the order of CW > PL > FYM > PM > control. There was a significant correlation between P released by organic sources with time and soil texture. It is concluded that application of CW is best regarding P release in different texture soils.

Published
2018
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4. Effect of Fluorescent-Producing Rhizobacteria on Cereal Growth Through Siderophore Exertion

Author

Shabana Ehsan, Amjad Qureshi, Neelam Chaudhary, Asif Ali, Abid Niaz, Hina Javed, Fraza Ijaz, and Shakeel Ahmed Anwar

Subjects
Geography, Planning and Development, Management, Monitoring, Policy and Law
Abstract

Despite soil having an abundance of iron (Fe), it is unavailable for proper plant growth and development. One of the mechanisms plants use to deal with iron deficiency is the uptake of iron by chelating phytosiderophores. Pseudomonas fluorescence can produce pyoverdine-type siderophore and has potential application in agriculture as an iron chelator. Therefore, bacterial isolates collected from different areas of district Faisalabad were screened for their fluorescent, siderophore production and indole acetic acid equivalents. After selecting efficient strains from a screening test, they were evaluated for improving wheat and maize production under field conditions. The results showed that out of 15 isolates, 7 were found to have significant plant-beneficial microbial traits. Efficient strains promoted grain yield by 24.2% and 20.2%, plant height by 30.9% and 23.7%, total grain weight by 25.3% and 13.4% over control in wheat and maize, respectively. Similarly, significant improvements in the number of grains per cob/spike were also observed. Analyses of grain iron contents depicted 67% increase as compared to control in for maize. Therefore, based on the results, it is concluded that bio-fortification of cereal crops through fluorescent producing siderophoric microbes is an effective strategy favorable for plant growth and development through nutrient solubilization/mobilization.

Published
2023

5. Co-inoculation of Bradyrhizobium and Phosphate Solubilizing Microbes on Growth Promotion of Groundnut Under Rain-fed Conditions

Author

Fraza Ijaz, Muhammad Furqan Ijaz, Hina Javed, Hafiz Abubakar Amin, Hafsa Zafar, Ali Hamza, Muhammad Usman Saleem, Fakhar Mujeeb, Shabana Ehsan, and Alamgir Alvi

Subjects
Geography, Planning and Development, Management, Monitoring, Policy and Law
Abstract

Plant growth-promoting bacteria (PGPB) can improve plant development and protect plants from diseases and abiotic stresses. Plant-bacterial interactions in the rhizosphere are important factors in soil fertility and plant health. Symbiotic nitrogen-fixing bacteria include the cyanobacteria of the genera Rhizobium, Bradyrhizobium, Azorhizobium, Allorhizobium, Sinorhizobium and Mesorhizobium. Therefore, to investigate the effect of co-inoculation of Bradyrhizobium and phosphate solubilizing microbes (PSM) on groundnut crop under field conditions using normal soil, divided into eight different study groups i.e., control (T1), Bradyrhizobium isolate -1 (T2), Bradyrhizobium isolate -2 (T3), Bradyrhizobium isolate -3(T4), Phosphate solubilizing microbe (PSM) (T5), T2 + PSM (T6), T3 + PSM (T7), T4 + PSM (T8). The results showed maximum groundnut pod yield (2428 kg ha-1) was obtained in treatment where inoculation with bacterial isolate-2 applied as compared to control. In case of plant height and shoot dry biomass, maximum response was observed in T7 (59.4 cm, 4733 kg ha-1) as compared to control i.e., 40.5 cm, 3156.7 kg ha-1 respectively. It was concluded that this technique might be useful and applicable to cut down the high input cost of phosphate fertilizers for the production of other crops also

Published
2023

9. Biofortification of Maize Grain with Zinc and Iron by Using Fertilizing Approach

Author

Shabana Ehsan, Ifra Saleem, Zahid Ashfaq Ahmad, Shahid Javid, Abid Niaz, and Fatima Bibi

Subjects
0106 biological sciences, Phosphorus, Potassium, Biofortification, chemistry.chemical_element, Sowing, 04 agricultural and veterinary sciences, Zinc, 01 natural sciences, Nitrogen, Crop, Human fertilization, chemistry, Agronomy, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, 010606 plant biology & botany, Earth-Surface Processes
Abstract

The study was conducted to evaluate the response of hybrid maize towards zinc (Zn) and iron (Fe) fertilization applied both as soil and foliar application. It is a possible way to increase the zinc and iron concentration in maize grain by the application of Zn and Fe fertilizers. To verify the claim an experiment was conducted. Maize hybrid was selected and three levels of Zn & Fe (viz.10, 20 and 30 kg ha -1 ) were applied at the sowing time. The foliar appliance of zinc sulphate and iron sulphate at the rate of 0.1% Zn and Fe was applied. Nitrogen, Phosphorus and Potassium were applied at recommended levels. There was a control plot with no use of Zn and Fe. Maize crop was harvested, grains were separated. Maize grain yield was recorded and analyzed for their Zn and Fe

Published
2016

10. Assessing Efficiency and Economics of Different Sources of Phosphorus in Alkaline Calcareous Soils for Wheat Production

Author

Abid Niaz, Shabana Ehsan, Shakeel Ahmad Anwar, Ifra Saleem, Zahid Ashfaq Ahmad, Fatma Bibi, and Sadia Sultana

Subjects
0106 biological sciences, chemistry.chemical_classification, Fertigation, Irrigation, Soil salinity, Phosphorus, chemistry.chemical_element, Soil classification, General Medicine, Phosphate, 01 natural sciences, chemistry.chemical_compound, chemistry, Agronomy, Humic acid, Phosphoric acid, 010606 plant biology & botany
Abstract

Phosphorus (P) is an essential nutrient needed for plant growth, root development and grain production. Application of humic acid (HA) is considered to improve the plant growth and enhances stress tolerance. The decrease in amount of arable land and hiking prices of chemical fertilizers are a huge challenge for farmers. The prices of phosphatic fertilizers, especially the diammonium phosphates (DAP) urge the need to explore the cheaper sources of P. Therefore a three year field study was conducted to compare the efficiency and economics of phosphoric acid (PA) with two other traditional sources of P viz. single super phosphate (SSP) and DAP for optimum wheat grain production. Six treatments applied were Viz. Control, recommended dose (RD) of P from SSP, RD of P from DAP, RD of P from phosphoric acid (PA), RD of P from SSP + HA, RD of P from DAP +

Published
2016

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