Impacts of Priming with Silicon on the Growth and Tolerance of Maize Plants to Alkaline Stress

Latef, Arafat Abdel Hamed Abdel; Tran, Lam‐Son Phan

doi:10.3389/fpls.2016.00243

Cited by 201 publications

(100 citation statements)

References 52 publications

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“…Recently, priming the defense system of the plants has been of particular interest to the scientific community, and our findings therefore confirm reports of the priming-mediated defense responses of the plants to fungal infections [14,70]. For plants, to cope with stress is a complex task, and responses may sometimes overlap [16,71]. The defense measures, however, may be interconnected to understand the plant response to extremely challenging situations such as biotic and abiotic stresses [72,73].…”

Section: Biostimulation Of Defense System Leads To Induced Resistancesupporting

confidence: 85%

Aqueous Garlic Extract as a Plant Biostimulant Enhances Physiology, Improves Crop Quality and Metabolite Abundance, and Primes the Defense Responses of Receiver Plants

et al. 2018

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Biostimulants are the next-generation choice for sustainable agricultural production and are gradually becoming an alternative to synthetic chemicals. Various botanicals are proposed to exert stimulatory effects, and garlic allelochemicals are among such botanicals; however, a peer-reviewed scientific evaluation is required to understand garlic-derived substances such as biostimulants. Current studies were therefore performed to identify the bioactivity of garlic extract as a biostimulant to improve crop quality, alter its physiological potential, and prime its defense responses against pathogenic fungal infections. 100 µg mL−1 aqueous garlic extracts (AGE) in consort with 1 mM of acetyl salicylic acid (ASA) and distilled water as a control treatment were applied to eggplant and pepper seedlings as foliar application and fertigation methods. The results revealed stimulatory responses in the growth of the vegetables with improved plant height, number of leaves, root growth, fresh and dry weight, etc., due to AGE and ASA applications. Moreover, significant alterations were indicated in plant metabolites such as chlorophyll, carotenoids, and soluble sugars. Additionally, stimulation of the antioxidant enzymes such as superoxide dismutase (SOD) and peroxidase (POD), as well as the root activity of these plants, was observed after treatment. Application of AGE and ASA also exerted priming effects on pepper plants, inducing defense responses prior to Phytopthora capsici inoculation, and the treated plants therefore successfully resisted infection through activated antioxidant systems, and probably carotenoid and other protectory metabolites. Stress-induced H2O2 content was extremely low in the treated plants, indicating successful resistance against pathogenic infection.

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Section: Biostimulation Of Defense System Leads To Induced Resistancesupporting

confidence: 85%

Aqueous Garlic Extract as a Plant Biostimulant Enhances Physiology, Improves Crop Quality and Metabolite Abundance, and Primes the Defense Responses of Receiver Plants

et al. 2018

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“…In recent years, many experiments revealed that the application of silicon (Si) plays critical roles in plant tolerance to salt stress (Coskun et al 2016;Aras and Eşitken 2018a). Silicon application has been observed to enhance tolerance of many stressors such as drought, and alkaline conditions (Abdel Latef and Tran 2016;Ma et al 2016). Silicon is the second most abundant element on earth and plays an important role in stress tolerance, flowering and fruit quality (Dehghanipoodeh et al 2016;Kim et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Silicon nutrition counteracts salt-induced damage associated with changes in biochemical responses in apple

2020

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Salt stress is an environmental challenge that adversely influences plant responses. Silicon (Si) nutrition plays critical roles in plant tolerance to salt stress. Apple (Malus domestica Borkh.), a salt sensitive fruit species, was used in the present experiment to investigate the influences of Si on salt stress as well as on alterations of biochemical responses. Apple cv Fuji grafted on M9 clonal rootstock was exposed to salt stress for 4 months with 35 mmol•L-1 NaCl. CaSiO 3 doses (0.5, 1 and 2 mmol•L-1) were applied to the roots of the salt-stressed apple plants except control. Si application resulted in mitigation of salt stress in apple plants. The highest chlorophyll a, b and a + b were obtained from the 1 mmol•L-1 Si treatment (5.37, 2.41 and 7.78 µg•g-1 fw, respectively). Moreover, Si treatment had higher chlorophyll content compared to the control as well as salt exposed plants. Silicon applications led to a reduction in malondialdehyde (MDA) content even lower than control. The 0.5 mmol•L-1 Si treatment had the highest values of ascorbate peroxidase (APX) and phenolic content. The results show that Si nutrition plays important roles in apple salt tolerance via biochemical mechanisms and that it can be used in areas subject to salt stress for apple growing.

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“…Ashraf and Rauf () have reported that under salt stress, priming of maize seeds with CaCl 2 improved the final germination, rate of germination, and fresh and dry biomasses of plumules and radicles compared to untreated control and H 2 O‐primed seeds. Recently, Abdel Latef and Tran () have reported a positive role of Si 2+ seed priming in alleviating the negative effects of alkaline stress on maize growth by improving water status, enhancing photosynthetic pigments, accumulating osmoprotectants rather than proline, activating the antioxidant machinery and maintaining the balance of K + /Na + ratio. Maize seed priming with 1% ZnSO 4 not only enhanced plant growth but also increased the final grain yield and seed Zn 2+ contents in plants grown on soil with limited Zn 2+ availability (Harris et al., ).…”

Section: Introductionmentioning

confidence: 99%

Zinc seed priming improves salt resistance in maize

Imran

Boelt

Mühling

2018

J Agronomy Crop Science

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Salt stress is a major yield‐limiting factor in crops by reducing nutrient uptake and plant growth. Under salt stress, decreased water and nutrient uptake results in nutrient imbalance in plants. In addition, at high pH in saline conditions, solubility of minerals is also reduced leading to low availability of certain nutrients. Perspectives to overcome these limitations by Zn seed priming were studied with maize plants exposed to NaCl as salt stress. Maize seeds were primed for 24 hr in deionized water and 4 mm ZnSO4·7H2O solution (ZnP) and subsequently air‐dried at room temperature before further use. The DTZ (diphenylthiocarbazone) staining method was used for showing Zn2+ localization in the seeds. Zn2+ and other nutrient concentrations in unprimed, water and ZnP seeds and maize plants were analysed by inductively coupled plasma mass spectroscopy (ICP‐MS). Maize plants (cv. Sun star L.) were grown for 3 weeks in complete nutrient solution with or without salt stress (100 mm NaCl) under glasshouse conditions. Seed Zn2+ contents were increased after ZnP treatment by 600%. In maize seeds, most of the primed Zn2+ accumulated in the outer tissues (particularly, aleurone layer) of maize seed. Zn priming decreased the injurious effects of salt stress on plant growth. Under salt stress conditions, biomass production of plants from ZnP treatments was 25% higher compared to water priming treatment. Zn seed priming also improved mineral nutrient status of plants grown in both control and salt stress conditions. Plants from ZnP treatments also showed higher accumulation of Na+ in the shoots. This offers perspectives for using Zn seed priming for improving early seedling development and plant nutrient status of maize under salt stress conditions.

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Impacts of Priming with Silicon on the Growth and Tolerance of Maize Plants to Alkaline Stress

Cited by 201 publications

References 52 publications

Aqueous Garlic Extract as a Plant Biostimulant Enhances Physiology, Improves Crop Quality and Metabolite Abundance, and Primes the Defense Responses of Receiver Plants

Aqueous Garlic Extract as a Plant Biostimulant Enhances Physiology, Improves Crop Quality and Metabolite Abundance, and Primes the Defense Responses of Receiver Plants

Silicon nutrition counteracts salt-induced damage associated with changes in biochemical responses in apple

Zinc seed priming improves salt resistance in maize

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