Yazar "Afzal, Muhammad" seçeneğine göre listele

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    Pod shattering in canola reduced by mitigating drought stress through silicon application and molecular approaches-A review
    (Taylor & Francis Inc, 2022) Ahmad, Zahoor; Barutcular, Celaleddin; Rehman, Muhammad Zia Ur; Tariq, Rana Muhammad Sabir; Afzal, Muhammad; Waraich, Ejaz Ahmad; Ahmad, Adeel
    Climate change has become a serious threat all over the world, which creates a negative impact on the growth, physiology and yield attributes of the crops. Drought stress is one of the major causes of climate change that contributes more to the reduction of yield of crops and its physiological aspects (i.e., stomatal conductance, leaf temperature, plant canopy temperature, membrane thermal stability index, total chlorophyll content, chlorophyll fluorescence). Pod shattering negatively affects the yield of canola under drought stress conditions. The control of shattering, caused by drought, has been difficult due to the lack of resistant cultivars. Drought at any stage of canola, either vegetative or reproductive, badly affects the canola crops in terms of growth, physiology, pod development and its shattering, which results in the reduction of yield. To overcome the pod shattering and its development, the Si plays an important role, which provides the strength to the pod when it was applied with their proper amount and proper time. Si is the beneficial element which helps in improving the growth and physiology of crop under drought stress conditions. Si helps for reducing the pod shattering in canola and improving its yield by mitigating the adverse effect of drought on canola. Molecular approaches also help to provide resistance in canola against pod shattering and improve its yield under drought stress conditions. Current review highlights the role of Si and current molecular developments to deal with constraints in pod development and it's shattering under drought stress.
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    Silicon Mitigates the Adverse Effect of Drought in Canola (Brassica napusl.) Through Promoting the Physiological and Antioxidants Activity
    (Springer, 2021) Bukhari, Muhammad Adnan; Sharif, Muhammad Shahzad; Ahmad, Zahoor; Barutcular, Celaleddin; Afzal, Muhammad; Hossain, Akbar; EL Sabagh, Ayman
    Drought is the major limiting factor for crops which reduces the growth and ultimately yield. However, silicon (Si) is considered one of the important elements for ameliorating adverse effect of abiotic stresses including drought also. To re-establish the previous evidence of Si, an experiment was carried out in a wire-house under pot-culture, where canola plants were grown under normal conditions (100% field capacity) and water deficit condition (40% field capacity). To know the ameliorative effect of silicon on drought-induced canola plants through promoting the physiological, growth, biochemical, and yield attributes of canola (Brassica napusL.); exogenous application of Si was done by two different methods i.e., through seed treatment (priming) before sowing and foliar spray at vegetative stage. For priming, seeds of canola were dipped for six hours in a 5 mM Si solution, whereas for foliar spray, three different levels of Si i.e., 2, 4 and 6 mM Si solution were applied at vegetative stage (after 40 days of seed emergence). Drought stress caused a substantial decrease in the parameters of water relations, and the uptake of various nutrients in canola plants. However, the application of Si significantly improved plants' ability to withstand the drought stress through enhancing the uptake of Si in plants and also enhanced the activity of ascorbate peroxidase (APX), peroxidase (POD), superoxide dismutase (SOD) and catalase (CAT). Data on, water potential, leaf water contents ratio and leaf pigments, (for example, chlorophylla, chlorophyllb, total chlorophyll, carotenoids), was positively influenced by applying Si under water deficit stress. Similarly, agronomic parameters such as seeds pod(-1), seed weight and seed yield were also enhanced as a result of the Si application under drought condition. Among these application methods of Si, the foliar spray has been found more effective for alleviating the adverse effects of water deficit stress on canola plants. Therefore, the results of the present study revealed that foliar application of Si at the vegetative stage may be useful for ameliorating the adverse effect of drought; since Si promoted to maintain turgor pressure, antioxidants activity in plants and also improved the nutrient accumulation both under water stress and control condition.