☆ 4.6 Review

Organic Amendments for Mitigation of Salinity Stress in Plants: A Review

LIFE-BASEL (2022)

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Article Plant Sciences

Plant Growth-Promoting Rhizobacteria-Mediated Adaptive Responses of Plants Under Salinity Stress

Md Najmol Hoque et al.

Summary: In recent years, various approaches have been developed to mitigate the adverse effects of salinity stress on plants, but some of them are not environmentally friendly. Plant growth-promoting rhizobacteria (PGPR) have been found to enhance the productivity of saline soil without harming the environment by reducing oxidative damage, maintaining ionic homeostasis, enhancing antioxidant machinery, and regulating gene expressions. PGPR also regulates photosynthetic attributes and enhances salinity tolerance in plants. Additionally, PGPR plays a significant role in the synthesis of phytohormones and secondary metabolites in plants under salt stress.

JOURNAL OF PLANT GROWTH REGULATION (2023)

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Article Plant Sciences

Biochar and Selenium Nanoparticles Induce Water Transporter Genes for Sustaining Carbon Assimilation and Grain Production in Salt-Stressed Wheat

Mona H. Soliman et al.

Summary: In this study, a controlled environment experiment was conducted to investigate how the physiological changes in wheat leaves during the vegetative phase regulate the final grain yield in salt-affected soils. The study also explored the protective effects of amendments such as biochar and selenium-chitosan nanoparticles on salt-injured wheat plants. The results showed that salt stress caused cellular damage in the leaves, leading to reduced biomass production and grain yield loss. However, the addition of biochar and selenium-chitosan nanoparticles mitigated the salt-induced injury and restored ion balance and carbon assimilation in salt-stressed wheat plants.

JOURNAL OF PLANT GROWTH REGULATION (2023)

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Review Agriculture, Multidisciplinary

Biochar actions for the mitigation of plant abiotic stress

Shahin Imran et al.

Summary: Abiotic stresses are the main constraints to successful crop production, but biochar can increase crop yield and alleviate the adverse effects of stresses. Biochar improves soil quality and enhances plant tolerance and yield by modulating physiological and biochemical processes. However, more research is needed on the stress-relieving roles of biochar.

CROP & PASTURE SCIENCE (2023)

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Article Plant Sciences

Plant Growth-Promoting Rhizobacteria Ameliorates Salinity Stress in Pea (Pisum sativum)

Swapnil Sapre et al.

Summary: The study demonstrated that plant growth-promoting rhizobacteria (PGPR) improved the growth parameters of pea seedlings under salinity stress, with PGPR strain IG 27 showing better performance. Additionally, PGPR inoculation modulated biochemical parameters and reduced electrolyte leakage and H2O2 content under saline conditions, ultimately enhancing plant growth and yield in field trials with 100 mM NaCl stress.

JOURNAL OF PLANT GROWTH REGULATION (2022)

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Article Agronomy

Biochar Application Alleviated Rice Salt Stress via Modifying Soil Properties and Regulating Soil Bacterial Abundance and Community Structure

Jing Huang et al.

Summary: The application of biochar increased the biomass of rice under salt stress and improved soil nutrient conditions and bacterial community structure.

AGRONOMY-BASEL (2022)

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Article Plant Sciences

PGPR-Mediated Salt Tolerance in Maize by Modulating Plant Physiology, Antioxidant Defense, Compatible Solutes Accumulation and Bio-Surfactant Producing Genes

Baber Ali et al.

Summary: This study demonstrates that Enterobacter cloacae PM23 exhibits multi-stress tolerance and promotes plant growth under salinity stress. It mitigates salt stress by upregulating stress-related genes and producing beneficial substances. Inoculation with E. cloacae PM23 enhances plant adaptation to salinity stress, improving plant growth and antioxidant capacity.

PLANTS-BASEL (2022)

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Article Plant Sciences

Plant Growth-Promoting Rhizobacteria Alleviate High Salinity Impact on the Halophyte Suaeda fruticosa by Modulating Antioxidant Defense and Soil Biological Activity

Rabaa Hidri et al.

Summary: This study assessed the impact of Plant Growth-Promoting Rhizobacteria (PGPR) on the halophyte Suaeda fruticosa. The findings showed that the inoculation of PGPR increased biomass, reduced ion accumulation, and enhanced antioxidant enzyme activity in the plants. Additionally, PGPR also enhanced soil enzyme activity and nutrient uptake in the presence of salt stress. These results highlight the potential of PGPR as a biological solution for improving plant growth and soil health under salt stress conditions.

FRONTIERS IN PLANT SCIENCE (2022)

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Article Plant Sciences

Sustainable Biochar and/or Melatonin Improve Salinity Tolerance in Borage Plants by Modulating Osmotic Adjustment, Antioxidants, and Ion Homeostasis

Saad Farouk et al.

Summary: Salinity is a crucial factor affecting agricultural sustainability in arid and semi-arid regions. This study explores the potential of using biochar and melatonin to mitigate the negative impacts of salt toxicity on borage plants. The results show that the addition of biochar and melatonin can improve plant water status, enhance osmotic adjustment capacity, and activate antioxidant responses, leading to increased growth and yield in salt-affected plants.

PLANTS-BASEL (2022)

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Review Biochemistry & Molecular Biology

Progress and Applications of Plant Growth-Promoting Bacteria in Salt Tolerance of Crops

Yaru Gao et al.

Summary: Saline soils pose a significant challenge to agriculture, and there is an increasing need to find effective solutions to improve plant salt tolerance. This review article explores the potential of using plant growth-promoting bacteria, both endosymbiotic and exosymbiotic, to enhance plant growth and alleviate salt stress in saline soils. The mechanisms and applications of these bacteria are discussed to provide a theoretical basis for their future use in agricultural systems.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2022)

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Article Plant Sciences

Biochar/vermicompost promotes Hybrid Pennisetum plant growth and soil in saline soils

Xiliang Song et al.

Summary: This study explored the effects of biochar and vermicompost on soil enzyme activity and the growth, yield, and quality of Hybrid Pennisetum plants under moderate salt stress. The results showed that biochar and/or vermicompost improved plant performance by promoting Na+ exclusion, K+ accumulation, stomatal regulation, and enhancing various physiological and biochemical processes. Furthermore, the addition of vermicompost showed better results compared to biochar alone or the biochar-compost combination, indicating its effectiveness in reclaiming salt-affected soils.

PLANT PHYSIOLOGY AND BIOCHEMISTRY (2022)

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Article Agricultural Engineering

Mitigating the adverse effects of salinity stress on lavender using biodynamic preparations and bio-fertilizers

Seyed Ahmad Khatami et al.

Summary: The study investigates the effects of biological fertilizers and biodynamics on lavender under salinity stress. The results show that the interaction of biodynamic preparations with Azotobacter bacteria improves plant growth and essential oil yield.

INDUSTRIAL CROPS AND PRODUCTS (2022)

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Review Cell Biology

MicroRNAs Mediated Plant Responses to Salt Stress

Waqar Islam et al.

Summary: Soil salinity is one of the most damaging factors to cultivatable land. Salt stress negatively affects plant growth and yields, and severe stress can be harmful. Plants have developed mechanisms, such as miRNA-mediated gene regulation, to withstand salt stress and other environmental variables. This review article discusses the adaptations of various plant species to salt stress through miRNA, as well as the salt responsive miRNAs, their target genes, and pathways. The article concludes that utilizing miRNAs may be a vital strategy for generating salt tolerant crops and ensuring food security in the future.

CELLS (2022)

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Article Plant Sciences

Mitigation of Salinity Stress in Maize Seedlings by the Application of Vermicompost and Sorghum Water Extracts

Khalid H. Alamer et al.

Summary: Abiotic stresses, such as salinity, are important factors limiting crop productivity worldwide. This study found that applying vermicompost and low-dose aqueous extract of sorghum can mitigate the harmful effects of salinity on maize seedlings. These treatments improved morphological characteristics, antioxidant enzyme activities, and reduced Na+ accumulation under salinity stress.

PLANTS-BASEL (2022)

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Article Agronomy

Effect of vermicompost soil additive on growth performance, physiological and biochemical responses of tomato plants (Solanum lycopersicum L. var. Firenze) to salt stress

Samra Akef Bziouech et al.

Summary: Vermicompost can improve plant growth and enhance salt tolerance by providing mineral elements and soluble nutrients. The contribution of organic matter positively influences the plant parameters.

EMIRATES JOURNAL OF FOOD AND AGRICULTURE (2022)

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Article Agriculture, Multidisciplinary

Biochar mitigates salt stress by regulating nutrient uptake and antioxidant activity, alleviating the oxidative stress and abscisic acid content in cabbage seedlings

Melek Ekinci et al.

Summary: In this pot experiment, the effects of biochar on the growth, physiology, and biochemistry of cabbage seedlings under salinity stress were studied. The results showed that biochar ameliorated the negative impact of salinity stress by reducing the concentration of chloride and sodium, as well as regulating reactive oxygen species production and plant nutrient element content.

TURKISH JOURNAL OF AGRICULTURE AND FORESTRY (2022)

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Article Plant Sciences

The key roles of salicylic acid and sulfur in plant salinity stress tolerance

Faisal Rasheed et al.

Summary: Soil salinization is a major threat to agriculture globally, reducing cultivated land area and crop productivity. Studies have shown the importance of salicylic acid and sulfur in enhancing plant salinity tolerance, but their interaction has been less explored.

JOURNAL OF PLANT GROWTH REGULATION (2022)

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Article Biotechnology & Applied Microbiology

The miR156/SPL module regulates apple salt stress tolerance by activating MdWRKY100 expression

Yue Ma et al.

Summary: Salt stress significantly hinders plant growth and crop yield, leading to reduction of apple production regions. The miR156/SPL regulatory module in apple plays a crucial role in salt tolerance by up-regulating the MdWRKY100 gene.

PLANT BIOTECHNOLOGY JOURNAL (2021)

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Article Plant Sciences

Screening of rice genotypes for salt tolerance by physiological and biochemical characters

Uttam Bhowmik et al.

Summary: Salt stress negatively impacts crop production, but Morishal and BRRI dhan41 exhibit higher growth and physiological parameters under the highest salinity conditions. Activities of antioxidant enzymes are affected by salt stress in all cultivars, with Morishal and BRRI dhan41 showing the highest proline content under maximum salinity conditions.

PLANT SCIENCE TODAY (2021)

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The preventive impact of vermicompost on bell pepper (Capsicum annuum L.) salinity resistance: An evaluation

Ahmadi Naser et al.

African Journal of Agricultural Research (2021)

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Article Plant Sciences

Melatonin-Induced Salinity Tolerance by Ameliorating Osmotic and Oxidative Stress in the Seedlings of Two Tomato (Solanum lycopersicum L.) Cultivars

Muhammad Ali et al.

Summary: Melatonin plays a protective role in mitigating salt stress in tomato plants by enhancing plant growth indicators, relative water content, membrane stability index, and antioxidant enzyme activities, particularly in the Roma cultivar.

JOURNAL OF PLANT GROWTH REGULATION (2021)

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Article Plant Sciences

Minimizing hazard impacts of soil salinity and water stress on wheat plants by soil application of vermicompost and biochar

Emad M. Hafez et al.

Summary: Vermicompost improved wheat growth and yield, while biochar showed potential for enhancing soil quality and nutrient uptake. The combination of vermicompost and biochar further increased growth and yield, highlighting the beneficial effect of vermicompost on plant yield. This investigation revealed that the synergistic effect of vermicompost and biochar can enhance crop production and mitigate the detrimental effects of soil salinity and water stress.

PHYSIOLOGIA PLANTARUM (2021)

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Article Microbiology

Dual Microbial Inoculation, a Game Changer? - Bacterial Biostimulants With Multifunctional Growth Promoting Traits to Mitigate Salinity Stress in Spring Mungbean

Kailash Chand Kumawat et al.

Summary: Soil microbes, especially a compatible consortium of salt-tolerant Rhizobium and rhizobacterium, were found to significantly enhance plant growth and productivity in spring mungbean under saline soil conditions. The dual inoculation treatment (LSMR-32 + LSMRS-3) showed improved seed germination, plant growth, nutrient uptake, and anti-oxidative enzyme activities compared to single Rhizobium inoculation. Additionally, the grain yield and profitability were significantly increased with the dual bacterial inoculation, indicating a potential game-changer approach for salt stress management in agricultural practices.

FRONTIERS IN MICROBIOLOGY (2021)

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Review Biology

Arbuscular mycorrhiza in combating abiotic stresses in vegetables: An eco-friendly approach

Gurdeep Singh Malhi et al.

Summary: Vegetable production is facing challenges from various abiotic stresses in the era of climate change, but the use of mycorrhizal association can enhance plant tolerance, reduce the need for harmful chemical fertilizers, and protect plant health effectively.

SAUDI JOURNAL OF BIOLOGICAL SCIENCES (2021)

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Article Chemistry, Multidisciplinary

Mitigation of NaCl Stress in Wheat by Rhizosphere Engineering Using Salt Habitat Adapted PGPR Halotolerant Bacteria

Souhila Kerbab et al.

Summary: This study isolated bacterial strains from saline areas to enhance the growth of Arabidopsis thaliana and wheat under salt stress conditions. Inoculating the plants with a combination of different bacterial strains showed better growth results.

APPLIED SCIENCES-BASEL (2021)

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Review Plant Sciences

Seed Priming with Phytohormones: An Effective Approach for the Mitigation of Abiotic Stress

Mohammad Saidur Rhaman et al.

Summary: Seed priming is a crucial physiological technique that enhances germination rate and growth, improving plants' resistance to various stresses. Priming with phytohormones is an effective method for mitigating the harmful effects of abiotic stress.

PLANTS-BASEL (2021)

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Review Biochemistry & Molecular Biology

Roles of Plant Growth-Promoting Rhizobacteria (PGPR) in Stimulating Salinity Stress Defense in Plants: A Review

Dung Minh Ha-Tran et al.

Summary: Soil salinity poses a significant challenge to crop production, but strategies such as plant growth-promoting rhizobacteria (PGPR) and seed biopriming technique have been developed to enhance plant resistance to salt stress and increase crop yields. PGPR also have potential in improving seed vigor and growth uniformity, but there are controversial findings regarding the fluctuation of antioxidants and osmolytes in PGPR-treated plants.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2021)

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Review Agronomy

Field Crop Responses and Management Strategies to Mitigate Soil Salinity in Modern Agriculture: A Review

Hiba M. Alkharabsheh et al.

Summary: The impact of salinity stress varies among different cereal crops, and understanding their resistance mechanisms is crucial for breeding high-yielding adapted varieties. The germination stage is more sensitive to osmotic stress, while salinity stress during the reproductive stage can also decrease crop productivity.

AGRONOMY-BASEL (2021)

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Article Plant Sciences

Identification and Characterization of Rice OsHKT1;3 Variants

Shahin Imran et al.

Summary: Different variants of OsHKT1;3 were identified in rice, with increased expression levels after salt stress, contributing to the understanding of how OsHKT family members are involved in ion homeostasis and salt tolerance mechanisms in rice.

PLANTS-BASEL (2021)

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Article Environmental Sciences

Combined application of zinc oxide nanoparticles and biofertilizer to induce salt resistance in safflower by regulating ion homeostasis and antioxidant defence responses

Humaira Yasmin et al.

Summary: The combined treatment of zinc oxide nanoparticles and biofertilizer significantly enhanced agronomic parameters and improved salt tolerance in safflower plants. While ZnO-NPs showed a significant protective effect against salinity stress in safflower plants, they exhibited antagonistic outcomes on K+ concentration.

ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY (2021)

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Article Plant Sciences

MITIGATION EFFECT OF BIOCHAR ON SORGHUM SEEDLING GROWTH UNDER SALINITY STRESS

Muhi Eldeen Hussien Ibrahim et al.

Summary: Salinity stress and biochar both significantly affected the growth parameters of seedlings, but the addition of biochar proved to be more effective in alleviating the impact of salinity stress. In particular, a 5% biochar level had a high impact on mitigating salt stress.

PAKISTAN JOURNAL OF BOTANY (2021)

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Article Food Science & Technology

Rhizobacteria From Root Nodules of an Indigenous Legume Enhance Salinity Stress Tolerance in Soybean

Gayathri Ilangumaran et al.

Summary: This study isolated PGPR from the root nodules of a North American relative of soybean, identified potential strains for enhancing soybean growth and salinity tolerance, with Rhizobium sp. SL42 and Hydrogenophaga sp. SL48 showing the most promising effects. Co-inoculation of these strains with Bradyrhizobium japonicum 532C resulted in improved soybean growth, yield, and stress tolerance, suggesting the potential for sustainable agriculture practices.

FRONTIERS IN SUSTAINABLE FOOD SYSTEMS (2021)

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Positive impact of vermicompost leachate on salt stress resistance in tomato (Solanum lycopersicum L.) at the seedling stage: a phytohormonal approach

Salima Benazzouk et al.

PLANT AND SOIL (2020)

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Effects of coinoculation of Rhizobium with plant growth promoting rhizobacteria on the nitrogen fixation and nutrient uptake of Trifolium repens in low phosphorus soil

Dumsane T. Matse et al.

JOURNAL OF PLANT NUTRITION (2020)

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Article Soil Science

Effects of PGPR microbial inoculants on the growth and soil properties of Avena sativa, Medicago sativa, and Cucumis sativus seedlings

Haiyun Li et al.

SOIL & TILLAGE RESEARCH (2020)

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Alleviation of Adverse Effects of Sodium on Soil Physicochemical Properties by Application of Vermicompost

Zeynep Demir

COMPOST SCIENCE & UTILIZATION (2020)

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A novel PGPR strain Kocuria rhizophila Y1 enhances salt stress tolerance in maize by regulating phytohormone levels, nutrient acquisition, redox potential, ion homeostasis, photosynthetic capacity and stress-responsive genes expression

Xiaozhou Li et al.

ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2020)

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Review Microbiology

Plant Growth-Promoting Bacteria: Biological Tools for the Mitigation of Salinity Stress in Plants

Akhilesh Kumar et al.

FRONTIERS IN MICROBIOLOGY (2020)

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Biochar Mitigates Combined Effects of Drought and Salinity Stress in Quinoa

Aizheng Yang et al.

AGRONOMY-BASEL (2020)

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Na+Transporter SvHKT1;1 from a Halophytic Turf Grass Is Specifically Upregulated by High Na+Concentration and Regulates Shoot Na+Concentration

Yuki Kawakami et al.

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Vermicompost and humic fertilizer improve coastal saline soil by regulating soil aggregates and the bacterial community

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Maize (Zea mays) growth and nutrient uptake following integrated improvement of vermicompost and humic acid fertilizer on coastal saline soil

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Vermicompost leachate as a promising agent for priming and rejuvenation of salt-treated germinating seeds in Brassica napus

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EFFECT OF INOCULATION OF STRAINS WITH ACC DEAMINASE ISOLATED FROM VERMICOMPOST ON SEED GERMINATION AND SOME PHYSIOLOGICAL ATTRIBUTES IN MAIZE (ZEA MAYS L.) EXPOSED TO SALT STRESS

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Biochar Increased Plant Growth-Promoting Hormones and Helped to Alleviates Salt Stress in Common Bean Seedlings

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Piriformospora indica improves salinity stress tolerance in Zea mays L. plants by regulating Na+ and K+ loading in root and allocating K+ in shoot

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Effects of vermicompost and salinity stress on growth and physiological traits of Medicago rigidula L.

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Conocarpus Biochar Induces Changes in Soil Nutrient Availability and Tomato Growth Under Saline Irrigation

Adel Rabie A. Usman et al.

PEDOSPHERE (2016)

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Article Agriculture, Multidisciplinary

Papaya seedlings irrigation with saline water in soil with bovine biofertilizer

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CHILEAN JOURNAL OF AGRICULTURAL RESEARCH (2016)

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Article Biotechnology & Applied Microbiology

Plant Growth-Promoting Rhizobacteria Enhance Salinity Stress Tolerance in Okra through ROS-Scavenging Enzymes

Sheikh Hasna Habib et al.

BIOMED RESEARCH INTERNATIONAL (2016)

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Article Multidisciplinary Sciences

The Multifarious PGPR Serratia marcescens CDP-13 Augments Induced Systemic Resistance and Enhanced Salinity Tolerance of Wheat (Triticum aestivum L.)

Rajnish Prakash Singh et al.

PLOS ONE (2016)

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Article Multidisciplinary Sciences

Plant growth promoting rhizobacteria Dietzia natronolimnaea modulates the expression of stress responsive genes providing protection of wheat from salinity stress

Nidhi Bharti et al.

SCIENTIFIC REPORTS (2016)

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Article Plant Sciences

Interactive effect of biochar and plant growth-promoting bacterial endophytes on ameliorating salinity stress in maize

Saqib Saleem Akhtar et al.

FUNCTIONAL PLANT BIOLOGY (2015)

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Article Agronomy

Biochar Mitigates Salinity Stress in Potato

S. S. Akhtar et al.

JOURNAL OF AGRONOMY AND CROP SCIENCE (2015)

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Article Plant Sciences

Increasing leaf hydraulic conductance with transpiration rate minimizes the water potential drawdown from stem to leaf

Kevin A. Simonin et al.

JOURNAL OF EXPERIMENTAL BOTANY (2015)

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Article Agriculture, Multidisciplinary

Biochar-manure compost in conjunction with pyroligneous solution alleviated salt stress and improved leaf bioactivity of maize in a saline soil from central China: a 2-year field experiment

Muhammad Siddique Lashari et al.

JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE (2015)

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Article Environmental Sciences

SOIL PROPERTIES AND MAIZE GROWTH IN SALINE AND NONSALINE SOILS USING CASSAVA-INDUSTRIAL WASTE COMPOST AND VERMICOMPOST WITH OR WITHOUT EARTHWORMS

A. N. Oo et al.

LAND DEGRADATION & DEVELOPMENT (2015)

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Article Agronomy

Evaluating the effectiveness of biofertilizer on salt tolerance of cotton (Gossypium hirsutum L.)

Muhammad Amjad et al.

ARCHIVES OF AGRONOMY AND SOIL SCIENCE (2015)

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Article Biochemistry & Molecular Biology

Alleviation of Salt Stress by Enterobacter sp EJ01 in Tomato and Arabidopsis Is Accompanied by Up-Regulation of Conserved Salinity Responsive Factors in Plants

Kangmin Kim et al.

MOLECULES AND CELLS (2014)

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Article Multidisciplinary Sciences

Foliar Spray with Vermiwash Modifies the Arbuscular Mycorrhizal Dependency and Nutrient Stoichiometry of Bhut Jolokia (Capsicum assamicum)

Mohammad Haneef Khan et al.

PLOS ONE (2014)

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Article Plant Sciences

PGPR regulate caspase-like activity, programmed cell death, and antioxidant enzyme activity in paddy under salinity

Yachana Jha et al.

PHYSIOLOGY AND MOLECULAR BIOLOGY OF PLANTS (2014)

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Article Agronomy

Isolation of ACC deaminase producing PGPR from rice rhizosphere and evaluating their plant growth promoting activity under salt stress

Himadri Bhusan Bal et al.

PLANT AND SOIL (2013)

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Article Plant Sciences

Garden-waste-vermicompost leachate alleviates salinity stress in tomato seedlings by mobilizing salt tolerance mechanisms

Mayashree Chinsamy et al.

PLANT GROWTH REGULATION (2013)

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Article Soil Science

Effect of inoculation with plant growth-promoting bacteria (PGPB) on amelioration of saline stress in maize (Zea mays)

Daniel Rojas-Tapias et al.

APPLIED SOIL ECOLOGY (2012)

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Article Plant Sciences

Impact of PGPR inoculation on growth and antioxidant status of wheat under saline conditions

Sudhir Kumar Upadhyay et al.

PLANT BIOLOGY (2012)

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Article Agriculture, Dairy & Animal Science

EFFECT OF VERMIWASH OF DIFFERENT VERMICOMPOSTS ON THE KHARIF CROPS

Gorakh Nath et al.

JOURNAL OF CENTRAL EUROPEAN AGRICULTURE (2012)

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Review Plant Sciences

Mechanisms of salinity tolerance

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ANNUAL REVIEW OF PLANT BIOLOGY (2008)

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Review Agronomy

Plant growth promoting rhizobacteria as biofertilizers

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PLANT AND SOIL (2003)

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