Mitigating water stress on wheat through foliar application of silicon

Qamar, Rafi; Anjum, Imtiaz; Rehman, Atique-ur; Safdar, Muhammad Ehsan; Javeed, Hafiz Muhammad Rashad; Rehman, Abdul; Ramzan, Yasir

doi:10.35495/ajab.2019.04.174

Cited by 13 publications

(6 citation statements)

References 45 publications

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“…In the agricultural sector, proficient water administration drives the handling of all possible routes for water demand and supply management approaches [17][18][19]. In Pakistan, Qamar et al [20] reported that the productivity of field crops was highly dependent upon the availability of inputs, particularly water, at the critical growth stage, as the crop yield was significantly reduced by water shortage. Application of conservation tillage, stress signaling elements, plant water extracts, osmo-protectants and synthetic and natural mulches and the growth of drought-tolerant varieties are various practices and approaches that can be used to mitigate the adverse impacts of drought stress [21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Application of Moringa Leaf Extract as a Seed Priming Agent Enhances Growth and Physiological Attributes of Rice Seedlings Cultivated under Water Deficit Regime

Khan

Ibrar

Bashir

et al. 2022

Plants

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Population growth, food shortages, climate change and water scarcity are some of the frightening challenges being confronted in today’s world. Water deficit or drought stress has been considered a severe limitation for the productivity of rice, a widely popular nutritive cereal crop and the staple food of a large portion of the population. A key stage in crop growth is seed emergence, which is mostly constrained by abiotic elements such as high temperatures, soil crusting and low water potential, which are responsible for poor stand establishment. Seed priming is a pre-sowing treatment of seeds that primes them to a physiological state that allows them to emerge more proficiently. The purpose of this study was to investigate the potential of leaf extracts from local and exotic moringa landraces as seed priming agents in rice cultivated under water deficit (75% field capacity) and control conditions (100% field capacity). Rice seeds were placed in an aerated solution of moringa leaf extract (MLE) at 3% from three obtained landraces (Faisalabad, Multan and an exotic landrace of India). The results obtained from the experimentation show that the water deficit regime adversely affected the studied indicators including emergence and growth attributes as well as physiological parameters. Among the priming agents, MLE from the Faisalabad landrace significantly improved the speed and spread of emergence of rice seedlings (time to start emergence at 23%, emergence index at 75%, mean emergence time at 3.58% and final emergence percentage at 46%). All the priming agents enhanced the growth, photosynthetic pigments, gas exchange parameters and antioxidant activities, particularly under the water deficit regime, but the maximum improvement was recorded by the MLE from the Faisalabad landrace. Therefore, the MLE of the Faisalabad landrace can be productively used to boost the seedling establishment and growth of rice grown under normal and water deficit conditions.

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Section: Introductionmentioning

confidence: 99%

Application of Moringa Leaf Extract as a Seed Priming Agent Enhances Growth and Physiological Attributes of Rice Seedlings Cultivated under Water Deficit Regime

Khan

Ibrar

Bashir

et al. 2022

Plants

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“…Research, Society andDevelopment, v. 10, n. 4, e41610414232, 2021 (CC BY 4.0) | ISSN 2525-3409 | DOI: http://dx.doi.org/10.33448/rsd-v10i4.14232 We highlight that in other crops of the Poeceae family, such as rice (Couto et al, 2020), sugarcane , maize (Oliveira et al, 2020a), sorghum (Flores et al, 2018a;Oliveira et al, 2019;Oliveira et al, 2020a), and wheat (Qamar et al, 2020), foliar supply of soluble Si sources has been shown to be efficient to increase the uptake and accumulation of the beneficial element. Si usually has low mobility in the phloem, being considered little mobile in plants (John & Raven, 1983;Raven, 2001;Malavolta, 2006), suggesting the need for studies on highly soluble Si sources for supply to crops.…”

Section: Discussionmentioning

confidence: 93%

“…Another important feature is its ability to accumulate silicon (Si) (Epstein, 2009). Although studies on Si for this crop are incipient, its application has shown promising results, increasing yield when applied to Si-accumulating plants such as rice (Couto et al, 2020), sugarcane , maize (Oliveira et al, 2020a), sorghum (Flores et al, 2018a;Oliveira et al, 2020a), sunflower (Flores et al, 2018b;Peixoto et al, 2020), industrial processing tomato (Moraes et al, 2020), and wheat (Qamar et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Does foliar silicon application enhance the biomass yield of millet silage, and does it provide significant economic gains?

Flores

Sousa

Bueno

et al. 2021

RSD

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Millet is a grass that has been highlighted for silage production, especially for being a productive tropical plant, and undemanding concerning soil fertility. Silicon (Si) is an alternative low-cost solution to increase biomass production, and it has been noticed to be beneficial to plants, especially when there are stress conditions. So, we analyzed the effects of foliar silicon application to gas exchanges, dry biomass production, and economic efficiency. We used a completely randomized experimental design consisting of foliar application of the following five doses of Si: 0; 0.84; 1.68; 2.52; and 3.36 g L-1 of Si as potassium and sodium silicate, with five replications. We measured the plant height, leaf area, Si contents and accumulation in the plants, gas exchanges (stomatal conductance, transpiration, and photosynthesis net), dry matter production, Si uptake and transport efficiency by plants and its economic efficiency. The Si content enhanced and accumulated in all parts of millet plants, reaching values between 2.5 and 3.3 g L-1. There were linear increases of approximately 9 and 27% in height and leaf area of millet plants to 3.36 g L-1 of Si. Stomatal conductance and transpiration reached maximum values representing an increase of 44.60 and 101.30%, respectively. The concentration of 3.36 g L-1 of Si increased photosynthesis by 76% and shoot dry matter production by 15%, when compared to the control. Si application is economically viable. The operational costs of application are suppressed, reaching to about US $ 45.32 ha-1 with the application of 2.52 g L-1 of Si.

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“…Qamar et al. (2020) stated that application of inorganic substances mitigates the adverse effects of abiotic stresses. AsA is widely distributed antioxidant in plants that has major role in scavenging reactive oxygen species produced during oxidative and various environmental stresses by donating electrons in different reactions (Sharma et al., 2012).…”

Section: Introductionmentioning

confidence: 99%

“…There are also many synthetic plant growth promoters such as ascorbic acid (AsA) and hydrogen peroxide which play inevitable role to mitigate abiotic stresses in cereals. Qamar et al (2020) stated that application of inorganic substances mitigates the adverse effects of abiotic stresses. AsA is widely distributed antioxidant in plants that has major role in scavenging reactive oxygen species produced during oxidative and various environmental stresses by donating electrons in different reactions (Sharma et al, 2012).…”

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confidence: 99%

Impact of natural and synthetic growth enhancers on the productivity and yield of quinoa (chenopodium quinoa willd.) cultivated under normal and late sown circumstances

Rashid

Khan

Wahid

et al. 2021

J Agronomy Crop Science

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Quinoa (Chenopodium quinoa Willd.) has attracted attention in agricultural community as alternative crop in harsh climatic regions due to its high tolerance level under biotic and abiotic conditions. Natural and synthetic growth enhancers are supposed to boost up the growth, development and economical yield of field crops under normal and unfavourable growing conditions. Two successive field experiments were conducted to explore the impact of moringa leaf extract (MLE), sorghum water extract (sorgaab), hydrogen peroxide and ascorbic acid on growth and grain quality of quinoa cultivated under normal and late sown conditions. MLE at 3%, sorgaab at 3%, hydrogen peroxide at 100 µM and ascorbic acid at 500 µM were applied at anthesis stage of crop cultivated during growing seasons of 2016–2017 and 2017–2018. Seeds of quinoa genotype UAF‐Q7 were sown at Research Area of Directorate of Farms, University of Agriculture, Faisalabad‐Pakistan. All the foliar treatments significantly improved the physiological and growth attributes. Maximum improvement in synthesis of chlorophyll (29% and 12%) and carotenoids contents (42% and 28%) and net rate of photosynthesis (58% and 70%) and respiration (26% and 14%) was recorded by MLE application over control (no spray) under normal and late sowing. Mineral elements, antioxidants activities and seed protein contents were also improved by all foliar treatments but mainly by MLE application. MLE application produced highest grain (47%) and straw (52%) yields under normal and late sown environments. Application of MLE is considered good biostimulant to improve the productivity and yield of quinoa crop cultivated under normal and even in late sown circumstances.

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Mitigating water stress on wheat through foliar application of silicon

Cited by 13 publications

References 45 publications

Application of Moringa Leaf Extract as a Seed Priming Agent Enhances Growth and Physiological Attributes of Rice Seedlings Cultivated under Water Deficit Regime

Application of Moringa Leaf Extract as a Seed Priming Agent Enhances Growth and Physiological Attributes of Rice Seedlings Cultivated under Water Deficit Regime

Does foliar silicon application enhance the biomass yield of millet silage, and does it provide significant economic gains?

Impact of natural and synthetic growth enhancers on the productivity and yield of quinoa (chenopodium quinoa willd.) cultivated under normal and late sown circumstances

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