The Role of Soil Beneficial Bacteria in Wheat Production: A Review

Çakmakçı, Ramazan; Turan, Metin; Kıtır, Nurgül; Güneş, Adem; EmrahNikerel,; Özdemir, Bahar Soğutmaz; Yıldırım, Ertan; Olgun, Murat; Topçuoğlu, Bülent; Tüfenkçi, Şefik; Karaman, Mehmet; LeylaTarhan,; Mokhtari, Negar Ebrahim Pour

doi:10.5772/67274

Cited by 17 publications

(19 citation statements)

References 184 publications

(199 reference statements)

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“…Priming of seeds with beneficial bacterial inoculums is an attractive ecological approach to improving germination rates under adverse environmental stress conditions, and to activate plant defense mechanisms at the early stages of plant development due to induced tolerance [ 7 , 8 , 9 , 34 , 35 , 36 , 37 , 38 , 39 ]. Priming affects multiple physiological systems in general, in both seeds and plants and can be defined by the response of primed plants responding to stresses faster and more efficiently [ 34 ].…”

Section: Discussionmentioning

confidence: 99%

“…Numerous studies have shown that beneficial bacteria could alleviate the adverse effects of drought on the growth and development of varied plants including wheat [ 1 , 9 , 10 , 16 , 19 , 35 ]. For example, wheat plants inoculated with Azospirillum brasilense Sp245 were characterized by an increase in the linear dimensions of the coleoptile, fresh weight, and an improvement in the indicators of the water status of seedlings in comparison with control samples under drought [ 38 ]. A. brasilense INTA Az-39 increased the yield of wheat grown in dry farming zones due to an increase in the growth rate under the influence of these bacteria, an increase in the level of biomass accumulation, and the number of grains per spikelet [ 39 ].…”

Section: Discussionmentioning

confidence: 99%

“…Several studies have reported that plants inoculated with PGPB showed improved growth accompanied by increased relative water content (RWC) [ 1 , 10 ]. Wheat plants inoculated with Azospirillum brasilense Sp245 under the influence of drought were characterized by a higher level of RWC and water movement along the apoplast in comparison with non-inoculated and stressed plants [ 38 ]. The degree of water deficit may be assessed by estimating the index of the water holding capacity (WHC) in plant leaves.…”

Section: Discussionmentioning

confidence: 99%

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Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Lastochkina

Garshina

Ivanov

et al. 2020

Plants

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The protective effects against drought stress of the endophytic bacterium Bacillus subtilis 10-4 were measured by studying the priming response in two wheat (Triticum aestivum L.)—Ekada70 (E70) and Salavat Yulaev (SY)—lines, tolerant and susceptible to drought, respectively. B. subtilis 10-4 improved germination and growth parameters under normal conditions in both cultivars with the most pronounced effect observed in cv. E70. Under drought conditions, B. subtilis 10-4 significantly ameliorated the negative impact of stress on germination and growth of cv. E70, but had no protective effect on cv. SY. B. subtilis 10-4 induced an increase in the levels of photosynthetic chlorophyll (Chl) a, Chl b, and carotenoids (Car) in the leaves of cv. E70, both under normal and drought conditions. In cv. SY plants, bacterial inoculation decreased the contents of Chl a, Chl b, and Car under normal conditions, but pigment content were almost recovered under drought stress. B. subtilis 10-4 increased water holding capacity (WHC) of cv. E70 (but did not affect this parameter in cv. SY) and prevented the stress-induced decline in WHC in both cultivars. Notably, B. subtilis 10-4 increased endogenous salicylic acid (SA) concentration in both cultivars, especially in cv. E70. Moreover, B. subtilis 10-4 reduced drought-induced endogenous SA accumulation, which was correlated with the influence of endophyte on growth, indicating a possible involvement of endogenous SA in the implementation of B. subtilis-mediated effects in both cultivars. Overall, B. subtilis 10-4 inoculation was found to increase drought tolerance in seedlings of both cultivars, as evidenced by decreased lipid peroxidation, proline content, and electrolyte leakage from tissues of wheat seedlings primed with B. subtilis 10-4 under drought conditions.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Lastochkina

Garshina

Ivanov

et al. 2020

Plants

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“…PGPR are important in agriculture in order to promote the cycling and circulation of plant nutrients, stimulate plant growth, inhibit of plant ethylene synthesis, enhance stress resistance and reduce the need for chemical fertilizers as much as possible. PGPR can colonize near growing roots and use root exudates as a carbon source, affecting plant growth both directly and indirectly through many important bacterial properties, such as nitrogen fixation, production of plant growth hormone and enzymes, solubilisation of inorganic phosphate and mineralization of organic phosphate, 1aminocydopropane-1-carboxylic acid (ACC) deaminase ability, reduction in ethylene levels, nutrient uptake and production of siderophores (Hayat et al, 2010;Liu et al, 2015;Çakmakçı et al, 2017a). Since wrong and repeated overuse of chemical fertilizers has a detrimental effect on soil quality and health by destabilizing soil fertility and soil microbial community structure, interest in PGPR has increased in recent years and its use as biological fertilizers is increasingly common.…”

Section: Introductionmentioning

confidence: 99%

Effect of Co-Inoculation of Multi-Traits Bacteria Based Bio-Formulations on the Growth, Yield and Enzyme Activities of Tea

Çakmakçı

Akçura

Erat

2021

Türk Tarım Ve Doğa Bilimleri Dergisi

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Bu araştırma mineral gübre, ticari mikrobiyal gübre ve azot fikseri, fosfat çözücü ve ACC deaminaze aktivitesine sahip bakteri esaslı üçlü kombinasyonlar halinde uygulanan üç farklı mikrobiyal gübre formülasyonunun (BF9: Bacillus megaterium 47/9 + Paenibacillus macquariensis RC696 + Pseudomonas fluorescens 9/7; BF10: Bacillus megaterium RC665 + Paenibacillus macquariensis RC382 + Pseudomonas fluorescens 9/7; BF11: Bacillus simplex RC64 + Pseudomonas putida 3/10 + Burkholderia pyrrocinia RC134) asidik tarla koşullarında üç yıllık sürede çay gelişim ve enzim aktiviteleri üzerine etkisinin belirlenmesi amacıyla yürütülmüştür. Deneme tesadüf bloklarında altı uygulama ve dört tekerrürlü (her bir tekerrürde beş çay öbeği) olarak kurulmuştur. Uygulanan bakteri formülasyonları yaprak alanı, yeşil yaprak verimi, klorofil içeriği ve bitki gelişimini teşvik etmiştir. Ayrıca, bakteri formülasyonu aşılamaları yaprakta; glutatyon redüktaz (GR), glutatyon S-transferaz (GST), glukoz 6-fosfat dehidrogenaz (G6PD), 6-fosfoglukonat dehidrogenaz (6PGD), polifenol oksidaz (PPO), peroksidaz (POD), 5-dehidroksişikimat redüktaz (DHSK) ve alkol dehidrogenaz (ADH), enzim aktivitelerini değiştirebilmiştir. Seçilen etkin, aside toleranslı ve çoklu özelliklere sahip bakteri esaslı biyoformülasyonlar, strese karşı bitki toleransı ve adaptasyonunu artırabilir, çay işleme teknolojisinde önemli bir rol oynayabilir ve çay ürünlerinin kalite konseptine katkıda bulunabilir. Bu çalışma, bu yerli faydalı rizobakteri izolatlarının, çay mahsulünün büyümesini teşvik etmek için mikrobiyal aşılama veya biyogübre olarak kullanılma potansiyeline sahip olduğunu ve sürdürülebilir çay yetiştiriciliği için umut verici olduğunu göstermektedir.

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“…On the other hand, using different PGR to improve EO yield, composition and content, research that will create an opportunity to change and/or improve the composition of some molecules having economic interest gains importance [23]. Several important bacterial characteristics, such as solubilization of inorganic phosphate, biological nitrogen fixation, mineralization of organic matter and solubilization of inorganic phosphate, secretion of certain volatile organic compounds and lowering of plant ethylene level, nutrient uptake, promoting beneficial plant-microbial association, increasing root permeability, production of phytohormones and siderophores, 1-aminocydopropane-1-carboxylic acid deaminase activity, and exhibition of antimicrobial activity against phytopathogenic microorganisms by several mechanisms, can be evaluated as plant growth promotion features and promoted directly or indirectly by many mechanisms such as plant development [23][24][25][26][27][28]. By efficient use, it is expected that PGPR will make contribution to agronomic efficiency, commonly by reducing environmental pollution and costs, by removing the harmful chemicals.…”

Section: Introductionmentioning

confidence: 99%

Effect of Indole Acetic Acid Producing Bacteria and Hormone Applications on Essential Oil Components of <i>Satureja hortensis</i> L

Mosber¹

2019

FEM

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The impacts of plant growth-promoting bacteria on aromatic plant species are poorly known. This study was conducted in order to evaluate possible impacts of mineral fertilizer, plant growth regulators [PGR, Indole 3-acetic acid + benzylaminopurine IAA+BAP and BAP] and five N 2-fixing, P-solubilizing, IAA-producing bacterial strains, as biofertilizer on growth, yield and quality characteristics of the plant, essential oil content and major component of the essential of summer savory. GC-MS was used to analyze the hydro-distilled essential oils. Multi-traits bacterial inoculation and PGR applications stimulated overall plant growth, including drug and fresh herb yield, essential oil ratio and yield, crucial oil components such as carvacrol of savory. The presence of at least thirty one compounds were identified in analysed samples, representing 98.7-100% of the total oil contents. In terms of general categories, the chemical profile of the oils with carvacrol, p-cymene, γterpinene and α-terpinene as the basic components was dominated by monoterpene hydrocarbons.

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The Role of Soil Beneficial Bacteria in Wheat Production: A Review

Cited by 17 publications

References 184 publications

Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Effect of Co-Inoculation of Multi-Traits Bacteria Based Bio-Formulations on the Growth, Yield and Enzyme Activities of Tea

Effect of Indole Acetic Acid Producing Bacteria and Hormone Applications on Essential Oil Components of <i>Satureja hortensis</i> L

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The Role of Soil Beneficial Bacteria in Wheat Production: A Review

Cited by 17 publications

References 184 publications

Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Seed Priming with Endophytic Bacillus subtilis Modulates Physiological Responses of Two Different Triticum aestivum L. Cultivars under Drought Stress

Effect of Co-Inoculation of Multi-Traits Bacteria Based Bio-Formulations on the Growth, Yield and Enzyme Activities of Tea

Effect of Indole Acetic Acid Producing Bacteria and Hormone Applications on Essential Oil Components of &lt;i&gt;Satureja hortensis&lt;/i&gt; L

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Effect of Indole Acetic Acid Producing Bacteria and Hormone Applications on Essential Oil Components of <i>Satureja hortensis</i> L