Fayyaz ul-Hassan scite author profile

Reduced early crop growth and limited branching are amongst yield limiting factors of linola. Field response of seed priming treatments viz. 50 mM salicylic acid (SA), 2.2% CaCl2 and 3.3% moringa leaf extract (MLE) including untreated dry and hydropriming controls was evaluated on early crop growth and yield performance of linola. Osmopriming with CaCl2 reduced emergence time and produced highest seedling fresh and dry weights including Chl a contents. Osmopriming with CaCl2 reduced crop branching, flowering and maturity time and had maximum plant height, number of branches, tillers, pods and seeds per pod followed by MLE. Increase in seed weight, biological and seed yield was 9.30, 34.16 and 39.49%, harvest index (4.12%) and oil contents (13.39%) for CaCl2 osmopriming. Positive relationship between emergence and seedling vigor traits; 100-seed weight, seed yield with maturity time, 100-seed weight and seed yield was found. The study concludes that seed osmopriming with CaCl2 or MLE can play significant role to improve early crop growth and seed yields of linola.

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Impact of Climate Change on Dryland Agricultural Systems: A Review of Current Status, Potentials, and Further Work Need

Ahmed

Hayat

Ahmad

et al. 2022

Int. J. Plant Prod.

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Dryland agricultural system is under threat due to climate extremes and unsustainable management. Understanding of climate change impact is important to design adaptation options for dry land agricultural systems. Thus, the present review was conducted with the objectives to identify gaps and suggest technology-based intervention that can support dry land farming under changing climate. Careful management of the available agricultural resources in the region is a current need, as it will play crucial role in the coming decades to ensure food security, reduce poverty, hunger, and malnutrition. Technology based regional collaborative interventions among Universities, Institutions, Growers, Companies etc. for water conservation, supplemental irrigation, foliar sprays, integrated nutrient management, resilient crops-based cropping systems, artificial intelligence, and precision agriculture (modeling and remote sensing) are needed to support agriculture of the region. Different process-based models have been used in different regions around the world to quantify the impacts of climate change at field, regional, and national scales to design management options for dryland cropping systems. Modeling include water and nutrient management, ideotype designing, modification in tillage practices, application of cover crops, insect, and disease management. However, diversification in the mixed and integrated crop and livestock farming system is needed to have profitable, sustainable business. The main focus in this work is to recommend different agro-adaptation measures to be part of policies for sustainable agricultural production systems in future.

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Correlation of photothermal quotient with spring wheat yield

Ahmed¹,

ul-Hassan²,

Muhammad³

et al. 2010

Afr. J. Biotechnol.

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The effect of photothermal quotient at anthesis and maturity on kernel m-2 , kernel weight (KW) and kernel yield were examined in experiments involving three different genotypes such as: Chakwal-50, Wafaq-2001 and GA-2002 sown at five different sowing times (Planting windows) for two years (2008-09 and 2009-10) at the National Agricultural Research Center (NARC) Islamabad. Photothermal quotient (PTQ) was calculated at anthesis (PTQ1) and maturity (PTQ2) for two years. A direct relationship was observed between photothermal quotients, kernel m-2 , kernel weight and kernel yield for all planting windows and genotypes. The maximum value (213.15) of photothermal quotient was recorded when crop was grown on 28th Oct, 2008 (PW2) during the first year and minimum value was observed (143.82) for PW5 (25th Dec, 2009) during the second year. Decrease in photothermal quotient was observed from PW2 to PW5, whereas correlation analysis depicted positive and significant association with individual kernel weight, kernel m-2 and kernel yield with PTQ. The correlation coefficient (r) between kernel m-2 and PTQ1 was 0.5103, while the correlation between PTQ2, individual kernel weight (0.6375) and yield (0.6507) exhibited significance. The outcomes of photothermal quotient and the relationship established through these experiments between kernel m-2 , KW and kernel yield and PTQ may be used as a road map to minimize yield losses and select genotypes and managements according to availability of climatic resources.

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Influence of seasonal variations on yield and yield components of sunflower

ul-Hassan

Cheema

Qādir

et al. 2005

Helia

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Wide adaptability of sunflower and wide range of climatic conditions existing in Pakistan make it possible to have two crops of sunflower in a year, i.e., in spring and fall. Field experiments, one in spring and another in fall were conducted at the University of Arid Agriculture, Rawalpindi, Pakistan, to evaluate the influence of seasonal variations on yield and yield components of sunflower. Five sunflower hybrids were planted in a randomized complete block design in three replications. Two inner rows were harvested for measurements of yield and yield components. It was observed that head size of spring crop was larger than fall crop. Contrary to head size, 1000-seed weight of the fall crop was larger than that of the spring crop. However, final yield of the spring crop was greater than that of the fall crop. It led to the conclusion that having spring crop is the best option, while fall crop could be supplementary one, to increase the production of oilseeds.

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Characterizing the expression of genes involved in iron transport inPakistani peanut varieties under iron deficiency stress

Akhtar¹,

Kakei²,

Bashir³

et al. 2015

Turk J Bot

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Iron (Fe) deficiency is one of the major yield-limiting factors in peanut (Arachis hypogaea L.), especially when grown in calcareous soils. The soils of the Pothwar region in Pakistan are calcareous in nature, exposing peanut to Fe deficiency. The molecular mechanisms governing Fe deficiency response in peanut have not been fully revealed. We compared 4 locally important varieties of peanut to evaluate Fe deficiency responses at the molecular level. The expression profiles of 7 important genes including AhIRT1, AhFRO1, AhNRAMP1, AhYSL1, AhYSL3.1, AhYSL4, and AhYSL6 in roots and young and old leaves of local peanut varieties were investigated 19 days after Fe deficiency treatment. Significant differences were observed for gene expression patterns among these varieties. The expression of AhIRT1 was upregulated only in Banki and BARD-699. However, some of the genes, like AhFRO1, AhNRAMP1, and other genes of the YSL family, were upregulated in BARI 2000 roots and young and old leaves, which has been reported for uptake and transport of Fe. BARI 2000 and Chakori had more accumulation of Fe in young leaves and roots in Fe deficiency conditions as compared to other varieties. This suggests that other mechanisms of Fe uptake and transport may be more important than AhIRT1 to mitigate Fe deficiency in BARI 2000 and Chakori.

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Fayyaz ul-Hassan

Seed Priming Influence on Early Crop Growth, Phenological Development and Yield Performance of Linola (Linum usitatissimum L.)

Impact of Climate Change on Dryland Agricultural Systems: A Review of Current Status, Potentials, and Further Work Need

Correlation of photothermal quotient with spring wheat yield

Influence of seasonal variations on yield and yield components of sunflower

Characterizing the expression of genes involved in iron transport inPakistani peanut varieties under iron deficiency stress

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