11 results on '"Habib ur Rahman, Muhammad"'
Search Results
2. Dissecting wheat above-ground architecture for enhanced water use efficiency and grain yield in the subtropics.
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Hakeem, Sadia, Ali, Zulfiqar, Saddique, Muhammad Abu Bakar, Habib-ur-Rahman, Muhammad, and Wiehle, Martin
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WATER efficiency ,GRAIN yields ,PHOTOSYNTHETIC rates ,SCANNING electron microscopy ,CONTACT angle ,WINTER wheat ,WHEAT - Abstract
Background: Growing wheat under climate change scenarios challenges, scientists to develop drought and heat-tolerant genotypes. The adaptive traits should therefore be explored and engineered for this purpose. Thus, this study aimed to dissect surface traits and optimizing the leaf architecture to enhance water use efficiency (WUE) and grain yield. Twenty-six wheat genotypes were assessed for five novel leaf traits (NLTs: leaf prickle hairs, groove type, rolling, angle and wettability) under normal, drought and heat conditions following triplicated factorial randomized complete block design (RCBD). The data for NLTs, physiological traits (stomatal conductance, WUE, transpiration, and photosynthesis), and standard morphological and yield traits were recorded. Leaves were sampled at the stem elongation stage (Zadoks 34) to measure the leaf water content (%), contact angle, and to obtain pictures through scanning electron microscopy (SEM). The air moisture harvesting efficiency was evaluated for five selected genotypes. The ideotype concept was applied to evaluate the best-performing genotypes. Results: The correlation analysis indicated that long leaf prickle hairs (> 100 μm), short stomatal aperture and density (40–60 mm
− 2 ), inward to spiral leaf rolling, medium leaf indentation, low contact angle hysteresis (< 10°), and cuticular wax were positively associated with WUE. This, in turn, was significantly correlated to grain yield. Thus, the genotypes (E-1) with these traits and alternate leaf wettability had maximum grain yield (502 g m− 2 ) and WUE supported with high photosynthesis rate, and relative water content (94 and 75% under normal and stress conditions, respectively). However, the genotype (1-hooded) with dense leaf hairs on edges but droopy leaves, spiral leaf rolling, and lighter groove, also performed better in terms of grain yield (450 g m− 2 ) under heat stress conditions by maintaining high photosynthesis and WUE with low stomatal conductance and transpiration rate. Conclusion: The SEM analysis verified that the density of hairs on the leaf surface and epicuticular wax contributes towards alternate wettability patterns thereby increasing the water-use efficiency and yield of the wheat plant. This study paves a way towards screening and and developing heat and drought-tolerant cultivars that are water-saving and climate-resilient. [ABSTRACT FROM AUTHOR]- Published
- 2024
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3. Upregulation of TaHSP90A transcripts enhances heat tolerance and increases grain yield in wheat under changing climate conditions.
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Ammar, Ali, Ali, Zulfiqar, Saddique, Muhammad Abu Bakar, Habib-ur-Rahman, Muhammad, and Ali, Imtiaz
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GRAIN yields ,HEAT shock proteins ,CLIMATE change ,WHEAT ,PHENOTYPIC plasticity ,ABIOTIC stress - Abstract
Plants have certain adaptation mechanisms to combat temperature extremes and fluctuations. The heat shock protein (HSP90A) plays a crucial role in plant defence mechanisms under heat stress. In silico analysis of the eight TaHSP90A transcripts showed diverse structural patterns in terms of intron/exons, domains, motifs and cis elements in the promoter region in wheat. These regions contained cis elements related to hormones, biotic and abiotic stress and development. To validate these findings, two contrasting wheat genotypes E-01 (thermo-tolerant) and SHP-52 (thermosensitive) were used to evaluate the expression pattern of three transcripts TraesCS2A02G033700.1, TraesCS5B02G258900.3 and TraesCS5D02G268000.2 in five different tissues at five different temperature regimes. Expression of TraesCS2A02G033700.1 was upregulated (2-fold) in flag leaf tissue after 1 and 4 h of heat treatment in E-01. In contrast, SHP-52 showed downregulated expression after 1 h of heat treatment. Additionally, it was shown that under heat stress, the increased expression of TaHSP90A led to an increase in grain production. As the molecular mechanism of genes involved in heat tolerance at the reproductive stage is mostly unknown, these results provide new insights into the role of TaHSP90A transcripts in developing phenotypic plasticity in wheat to develop heat-tolerant cultivars under the current changing climate scenario. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Morpho-physiological and biochemical response of wheat to various treatments of silicon nano-particles under drought stress conditions.
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Raza, Muhammad Aown Sammar, Zulfiqar, Bilal, Iqbal, Rashid, Muzamil, Muhammad Noor, Aslam, Muhammad Usman, Muhammad, Faqeer, Amin, Jawad, Aslam, Hafiz Muhammad Usman, Ibrahim, Muhammad Arif, Uzair, Muhammad, and Habib-ur-Rahman, Muhammad
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SEED yield ,DROUGHTS ,WHEAT ,NANOPARTICLES ,WHEAT seeds ,SUPEROXIDE dismutase ,AGRICULTURE ,GRAIN drying - Abstract
Silicon nanoparticles (Si-NPs) have shown their potential for use in farming under water-deficient conditions. Thus, the experiment was accomplished to explore the impacts of seed priming of Si-NPs on wheat (Triticum aestivum L.) growth and yield under different drought levels. The plants were grown in pots under natural ecological environmental conditions and were harvested on 25th of April, 2020. The results revealed that seed priming of Si-NPs (0, 300, 600, and 900 mg/L) suggestively improved, the spike length, grains per spike, 1000 grains weight, plant height, grain yield, and biological yield by 12–42%, 14–54%, 5–49%, 5–41%, 17–62%, and 21–64%, respectively, relative to the control. The Si-NPs improved the leaf gas trade ascribes and chlorophyll a and b concentrations, though decreased the oxidative pressure in leaves which was demonstrated by the diminished electrolyte leakage and upgrade in superoxide dismutase and peroxidase activities in leaf under Si-NPs remedies over the control. The outcomes proposed that Si-NPs could improve the yield of wheat under a dry spell. In this manner, the utilization of Si-NPs by seed priming technique is a practical methodology for controlling the drought stress in wheat. These findings will provide the basis for future research and helpful to improve the food security under drought and heat related challenges. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Leaf rolling and leaf angle improve fog capturing and transport in wheat; adaptation for drought stress in an arid climate.
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Merrium, Sabah, Ali, Zulfiqar, Habib-ur-Rahman, Muhammad, Hakeem, Sadia, and Khalid, Muhammad Arslan
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DROUGHTS ,WATER efficiency ,ARID regions ,CONTACT angle ,ANGLES ,WHEAT ,GRAIN yields - Abstract
Background: Plants use different mechanisms to transport the collected fog water. Leaf traits of wheat play an important role in directing fog water through leaf rolling and leaf angle into the root zone, where it can be stored for consumption. Wheat leaf traits can enhance fog capturing under drought stress. To examine this, 200 wheat genotypes were characterized for leaf rolling and leaf angle under optimal conditions in the field using a randomized complete block design. Seven different phenotypic combinations for leaf traits were observed. A core set of 44 genotypes was evaluated under drought stress. Results: Results show that variability for leaf traits existed among genotypes. An association was found between leaf rolling and leaf angle, moisture capturing, physiological parameters, and yield contributing traits using correlation. Physiological parameters, especially water use efficiency, were positively correlated with grain yield and moisture capturing at both growth stages. The genotypes (G11 at tillering and G24 at booting phonological phases) with inward to twisting type rolling and erect to semi-erect leaf angle capture more water (12–20%) within the root zone. Twenty-one genotypes were selected based on moisture capturing efficiency and evaluated for leaf surface wettability. Association was found between fog capturing and wettability. This shows that it was due to the leaf repellency validated from static contact angle measurements. Conclusion: These results will give insights into fog capturing and the development of drought-tolerant crops in the semi-arid and arid regions. [ABSTRACT FROM AUTHOR]
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- 2022
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6. Wetting mechanism and morphological adaptation; leaf rolling enhancing atmospheric water acquisition in wheat crop—a review.
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Ali, Zulfiqar, Merrium, Sabah, Habib-ur-Rahman, Muhammad, Hakeem, Sadia, Saddique, Muhammad Abu Bakar, and Sher, Muhammad Ali
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WATER harvesting ,WATER efficiency ,MARITIME shipping ,CONTACT angle ,PLANT-water relationships ,WHEAT - Abstract
Several plant species such as grasses are dominant in many habitats including arid and semi-arid areas. These species survive in these regions by developing exclusive structures, which helps in the collection of atmospheric water. Before the collected water evaporates, these structures have unique canopy structure for water transportation that plays an equivalent share in the fog-harvesting mechanism. In this review, the atmospheric gaseous water harvesting mechanisms and their affinity of measurements were discussed. Morphological adaptations and their role in the capturing of atmospheric gaseous water of various species were also discussed. The key factor for the water collection and its conduction in the wheat plant is the information of contact angle hysteresis. In wheat, leaf rolling and its association with wetting property help the plant in water retention. Morphological adaptations, i.e., leaf erectness, grooves, and prickle hairs, also help in the collection and acquisition of water droplets by stem flows in directional guide toward the base of the plant and allow its rapid uptake. Morphological adaptation strengthens the harvesting mechanism by preventing the loss of water through shattering. Thus, wheat canopy architecture can be modified to harvest the atmospheric water and directional movement of water towards the root zone for self-irrigation. Moreover, these morphological adaptations are also linked with drought avoidance and corresponding physiological processes to resist water stress. The combination of these traits together with water use efficiency in wheat contributes to a highly efficient atmospheric water harvesting system that enables the wheat plants to reduce the cost of production. It also increases the yielding potential of the crop in arid and semi-arid environments. Further investigating the ecophysiology and molecular pathways of these morphological adaptations in wheat may have significant applications in varying climatic scenarios. [ABSTRACT FROM AUTHOR]
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- 2022
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7. The Use of Soil Conditioners to Ensure a Sustainable Wheat Yield under Water Deficit Conditions by Enhancing the Physiological and Antioxidant Potentials.
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Ejaz, Muhammad Kashif, Aurangzaib, Muhammad, Iqbal, Rashid, Shahzaman, Muhammad, Habib-ur-Rahman, Muhammad, El-Sharnouby, Mohamed, Datta, Rahul, Alzuaibr, Fahad M., Sakran, Mohamed I., and EL Sabagh, Ayman
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SOIL conditioners ,DROUGHTS ,COMPOSTING ,SOIL amendments ,FARM manure ,WHEAT ,CROP yields - Abstract
Traditional mulch material (farmyard manure) has long been used in agriculture. However, recent developments have also introduced the scientific community and farmers to advanced chemicals such as potassium polyacrylamide (KPAM), which has revolutionised the concept of the soil water-holding capacity to many compared with other materials being used. To compare the effect of different organic and inorganic soil amendment materials under water stress conditions, a two-year (2018 and 2019) field study was conducted. The main plots consisted of irrigation treatments, i.e., I
0 (control irrigation), I1 (drought-induced by skipping irrigation at the 4th leaf stage), and I2 (drought-induced by skipping irrigation at the anthesis stage). The subplots included a control treatment and soil amended with different conditioners such as potassium polyacrylamide (KPAM, 30 kg/ha), farmyard manure (FYM, 4 tons/ha), and biochar (10 tons/ha); these were mixed thoroughly with the soil before sowing. The results showed a significant reduction in the water relation parameters (water potential up to 35.77% and relative water content up to 21%), gas exchange parameters (net CO2 assimilation rate up to 28.85%, stomatal conductance up to 43.18%, and transpiration rate up to 49.07%), and yield attributes (biological yield up to 8.45% and grain yield up to 32.22%) under drought stress conditions. In addition, water stress also induced an increase in the synthesis of osmoprotectants (proline up to 77.74%, total soluble sugars up to 27.43%, and total free amino acids up to 11.73%). Among all the soil conditioners used, KPAM significantly reduced the negative effects of drought stress on the wheat plants. Thus, it could be concluded that the use of soil conditioners is a promising method for dealing with the negative consequences of drought stress for achieving sustainable crop yields. [ABSTRACT FROM AUTHOR]- Published
- 2022
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8. Integrated phosphorus nutrient sources improve wheat yield and phosphorus use efficiency under sub humid conditions.
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Mubeen, Khuram, Wasaya, Allah, Rehman, Haseeb ur, Yasir, Tauqeer Ahmad, Farooq, Omer, Imran, Muhammad, Ikram, Rao Muhammad, Nazeer, Rabiah, Zahoor, Faisal, Yonas, Muhammad Waqas, Aziz, Mudassir, Habib-ur-Rahman, Muhammad, Ahmad, Matlob, Alam, Mahmood, Ali, Muqarrab, Ali, Mazhar, Khaliq, Abdul, Ishtiaq, Muhammad, and Waqas, Muhammad Mohsin
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SYNTHETIC fertilizers ,WHEAT ,ORGANIC fertilizers ,PHOSPHORUS ,GRAIN yields ,FERTILIZERS ,FERTILIZER application - Abstract
Majority of Pakistani soils are deficient in phosphorus. Phosphorus is usually applied in form of synthetic fertilizer. However integrated use of P from synthetic and organic sources can be more profitable and beneficial on sustainable basis. Field trials were conducted at research farm University of Poonch, Rawalakot, AJK, Pakistan for two consecutive years to check the comparative effects of synthetic fertilizer and organic manures applied alone and in combinations on the phosphorus use efficiency (PUE), wheat yield and yield components. Shafaq-06 cultivar of wheat was used as test cultivar. Ten treatments were included: (I) Control (P
0 ) without application of fertilizer; (II) SSP @ 60 kg/ha (P60SSP ); (III) SSP @ 90 kg/ha (P90SSP ); (IV) SSP @ 120 kg/ha (P120SSP ); (V) PM @60 kg/ha (P60PM ); (VI) PM @90 kg/ha (P90PM ); (VII) PM @120 kg/ha (P120PM ); (VIII) SSP @30 kg/ha + PM @30 kg/ha (P30SSP+30PM ); (IX) SSP @45 kg/ha + PM @45 kg/ha (P45SSP+45PM ); (X) SSP @60 kg/ha + PM @60 kg/ha (P60SSP+60PM ) which were laid out under the Randomized Complete Block Design. Significantly higher values for yield of grain (2397 kg/ha) was recorded with PM + SSP @ 60 kg P2 O5 ha-1 each. Likewise, FPUE, PIR of wheat and AFPUE was quite higher with combined use of PM and SSP i.e. P60SSP+60PM treatment. Additionally, increase in PUE, wheat yield and yield components associated with combined treated plot would help to minimize the use of high cost synthetic mineral fertilizers and represents an environmentally and agronomically sound management strategy. [ABSTRACT FROM AUTHOR]- Published
- 2021
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9. Slow-release nitrogen fertilizers enhance growth, yield, NUE in wheat crop and reduce nitrogen losses under an arid environment.
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Ghafoor, Iqra, Habib-ur-Rahman, Muhammad, Ali, Muqarrab, Afzal, Muhammad, Ahmed, Wazir, Gaiser, Thomas, and Ghaffar, Abdul
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NITROGEN fertilizers ,UREA ,LEAF area index ,WHEAT ,CALCAREOUS soils ,UREA as fertilizer ,NEEM ,NEEM oil - Abstract
Higher demands of food led to higher nitrogen application to promote cropping intensification and produce more which may have negative effects on the environment and lead to pollution. While sustainable wheat production is under threat due to low soil fertility and organic matter due to nutrient degradation at high temperatures in the region. The current research explores the effects of different types of coated urea fertilizers and their rates on wheat crop under arid climatic conditions of Pakistan. Enhancing nitrogen use efficiency by using eco-friendly coated urea products could benefit growers and reduce environmental negative effects. A trial treatment included N rates (130, 117, 104, and 94 kg ha
-1 ) and coated urea sources (neem coated, sulfur coated, bioactive sulfur coated) applied with equal quantity following split application method at sowing, 20 and 60 days after sowing (DAS). The research was arranged in a split-plot design with randomized complete block design had three replicates. Data revealed that bioactive sulfur coated urea with the application of 130 kg N ha-1 increased chlorophyll contents 55.0 (unit value), net leaf photosynthetic rate (12.51 μmol CO2 m-2 s-1 ), and leaf area index (5.67) significantly. Furthermore, research elucidates that bioactive sulfur urea with the same N increased partial factor productivity (43.85 Kg grain Kg-1 N supplied), nitrogen harvest index (NHI) 64.70%, and partial nutrient balance (1.41 Kg grain N content Kg-1 N supplied). The neem-coated and sulfur-coated fertilizers also showed better results than monotypic urea. The wheat growth and phenology significantly improved by using coated fertilizers. The crop reached maturity earlier with the application of bioactive sulfur-coated urea than others. Maximum total dry matter 14402 (kg ha-1 ) recorded with 130 kg N ha-1 application. Higher 1000-grain weight (33.66 g), more number of grains per spike (53.67), grain yield (4457 kg ha-1 ), and harvest index (34.29%) were obtained with optimum N application 130 kg ha-1 (recommended). There is a significant correlation observed for growth, yield, and physiological parameters with N in the soil while nitrogen-related indices are also positively correlated. The major problem of groundwater contamination with nitrate leaching is also reduced by using coated fertilizers. Minimum nitrate concentration (7.37 and 8.77 kg ha-1 ) was observed with the application of bioactive sulfur-coated and sulfur-coated urea with lower N (94 kg ha-1 ), respectively. The bioactive sulfur-coated urea with the application of 130 kg N ha-1 showed maximum phosphorus 5.45 mg kg-1 and potassium 100.67 mg kg-1 in the soil. Maximum nitrogen uptake (88.20 kg ha-1 ) is showed by bioactive sulfur coated urea with 130 kg N ha-1 application. The total available NPK concentrations in soil showed a significant correlation with physiological attributes; grain yield; harvest index; and nitrogen use efficiency components, i.e., partial factor productivity, partial nutrient balance, and nitrogen harvest index. This research reveals that coating urea with secondary nutrients, neem oil, and microbes are highly effective techniques for enhancing fertilizer use efficiency and wheat production in calcareous soils and reduced N losses under arid environments. [ABSTRACT FROM AUTHOR]- Published
- 2021
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10. Potential effects of biochar application on mitigating the drought stress implications on wheat (Triticum aestivum L.) under various growth stages.
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Haider, Imran, Raza, Muhammad Aown Sammar, Iqbal, Rashid, Aslam, Muhammad Usman, Habib-ur-Rahman, Muhammad, Raja, Shameem, Khan, Muhammad Tahir, Aslam, Muhammad Mahran, Waqas, Muhammad, and Ahmad, Salman
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Drought is the main abiotic stress that severely reduces wheat yield across the globe. To cope up this situation, use of organic amendments is the best option. Biochar is an organic soil amendment that is used to improve soil carbon, organic contents, improve water holding capacity of soil, enhance soil fertility and maintain desired soil. Present study was carried out under semi-arid climatic conditions to mitigate the adverse effects of drought at critical wheat growth stages i.e., tillering (DTS), flowering (DFS) and grain filling stage (DGFS) by using three biochar treatments viz. B 0 = Control, B 1 = 27.88 g kg
−1 and B 2 = 37.18 g kg−1 . Results revealed that drought stress negatively affected the growth and yield attributes of wheat at all critical growth stages, while, grain filling stage was found the most sensitive stage resulted severe yield reduction. However, biochar application significantly mitigated the detrimental effects of drought by improving number of fertile tillers (19.50%), spike length (6.52%), number of grains per spike (3.07%), thousand grain weight (6.42%), biological (9.43%) and economic yield (13.92%) as compared to control treatment. Moreover, biochar significantly improved water use efficiency and physiological attributes of drought stressed wheat. Principal component analysis linked different scales of study and demonstrated the potential of physio-biochemical traits to explain the wheat yield variations under drought condition with response to biochar application. In crux, biochar application (37.18 g kg−1 ) can be used as an effective stratagem to achieve improved wheat grain yield through mitigating the adverse effects of drought stress. [ABSTRACT FROM AUTHOR]- Published
- 2020
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11. Correction: Ejaz et al. The Use of Soil Conditioners to Ensure a Sustainable Wheat Yield under Water Deficit Conditions by Enhancing the Physiological and Antioxidant Potentials. Land 2022, 11 , 368.
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Ejaz, Muhammad Kashif, Aurangzaib, Muhammad, Iqbal, Rashid, Shahzaman, Muhammad, Habib-ur-Rahman, Muhammad, El-Sharnouby, Mohamed, Datta, Rahul, Alzuaibr, Fahad M., Sakran, Mohamed I., Ogbaga, Chukwuma C., and Sabagh, Ayman EL
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SOIL conditioners ,WHEAT ,ANTIOXIDANTS - Abstract
The Use of Soil Conditioners to Ensure a Sustainable Wheat Yield under Water Deficit Conditions by Enhancing the Physiological and Antioxidant Potentials. Reference 1 Ejaz M.K., Aurangzaib M., Iqbal R., Shahzaman M., Habib-ur-Rahman M., El-Sharnouby M., Datta R., Alzuaibr F.M., Sakran M.I., Ogbaga C.C. The Use of Soil Condi-tioners to Ensure a Sustainable Wheat Yield under Water Deficit Conditions by Enhancing the Physiological and Antioxidant Potentials. In the published publication [[1]], B Chukwuma C. Ogbaga b was not included as an author in the original publication. [Extracted from the article]
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- 2022
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