https://orcid.org/0000-0001-5654-8401
References
- Ahmad M, Ahmad M, El-Naggar AH, Usman AR, Abduljabbar A, Vithanage M, Elfaki J, Al-Faraj A, Al-Wabel MI. 2018. Aging effects of organic and inorganic fertilizers on phosphorus fractionation in a calcareous sandy loam soil. Pedosphere 28(6):873–883.
- Asghar HN, Zahir ZA, Zia MA. 2020. Phosphorus-solubilizing rhizobacterium enhances growth, yield and oil content of sesame in a calcareous soil. Int J Agric Biol 24(6):1763–1772.
- Bamagoos AA, Alharby HF, Belal EE, Khalaf AEA, Abdelfattah MA, Rady MM, Ali EF, Mersal GA. 2021. Phosphate-solubilizing bacteria as a panacea to alleviate stress effects of high soil CaCO3 content in Phaseolus vulgaris with special references to P-releasing enzymes. Sustainability. 13(13):7063.
- Billah M, Khan M, Bano A, Hassan TU, Munir A, Gurmani AR. 2019. Phosphorus and phosphate solubilizing bacteria: keys for sustainable agriculture. Geomicrobiol J 36(10):904–916.
- Estrada-Bonilla GA, Durrer A, Cardoso EJ. 2021. Use of compost and phosphate-solubilizing bacteria affect sugarcane mineral nutrition, phosphorus availability, and the soil bacterial community. Appl Soil Ecol 157:103760.
- Fatima F, Ahmad MM, Verma SR, Pathak N. 2022. Relevance of phosphate solubilizing microbes in sustainable crop production: a review. Int J Environ Sci Technol 19(9):9283–9296.
- Harada N, Nishiyama M, Matsumoto S. 2001. Inhibition of methanogens increases photo-dependent nitrogenase activities in anoxic paddy soil amended with rice straw. FEMS Microbiol Ecol 35(3):231–238.
- Ibrahim GAZ. 2019. Evaluation of bacteria isolated from olive mill wastewater as plant growth promoter on basil (Ocimum basilicum L.) plant. Alex Sci Exch J 40(6):640–648.
- Jat M, Yadav P, Singh R, Tikkoo A, Dadarwal RS. 2020. Response of sesame (Sesamum indicum L.) to phosphorus nutrition in coarse textured soils of south west Haryana. J Pharmacogn Phytochem 9(1):2098–2101.
- Khalifa A. 2020. Enterobacter. In: Amaresan, N, Senthil Kumar, M, Annapurna, K, Kumar, K, Sankaranarayanan, A, editors. Beneficial microbes in agro-ecology. New York: Academic Press, p259–270.
- Khuong NQ, Kantachote D, Dung NTT, Huu TN, Thuc LV, Thu LTM, Quang LT, Xuan DT, Nhan TC, Tien PD, et al. 2023. Potential of potent purple nonsulfur bacteria isolated from rice-shrimp systems to ameliorate rice (Oryza sativa L.) growth and yield in saline acid sulfate soil. J Plant Nutr 46(3):473–494.
- Khuong NQ, Quang LT, Thuc LV, Huu TN, Thu LTM, Van TTB, Xuan DT, Hue NH, Le NTT, Tien PD, et al. 2022. Potential of endophytic phosphorus-solubilizing bacteria to improve soil fertility, P uptake, and yield of maize (Zea mays L.) cultivated in alluvial soil in dikes in Vietnam. Bulg J Agric Sci 28(2):217–228. https://www.agrojournal.org/28/02-05.html.
- Kumar S, Meena RS, De N, Gurjar DS, Singh A, Yadav GS, Pradhan G. 2019. Effect of polymers and nutrient management on sesame (Sesamum indicum) under custard apple (Annona squamosa) based agri-horti system. Indian J Agric Sci 89(11):1871–1875.
- Laslo É, György É, Mara G, Szentes S, Salamon RV, András CD, Lányi S. 2012. The management of N and P nutrition of plants using nitrogen fixing and phosphorus solubilizing bacteria. Environ Eng Manag J 11(2):371–375.
- Li H, Wang P, Wang L, Chen Z, Peng H, Wu W, Ren H. 2022. Characteristics of the phosphorus-solubilizing bacteria derived from the rhizosphere of persimmon tree in Beijing and their plant growth-promoting potential. Geomicrobiol J 39(10):939–949.
- Mahdi I, Fahsi N, Hafidi M, Allaoui A, Biskri L. 2020. Plant growth enhancement using rhizospheric halotolerant phosphate solubilizing bacterium Bacillus licheniformis QA1 and Enterobacter asburiae QF11 isolated from Chenopodium quinoa willd. Microorganisms 8(6):948.
- Maheshwari DK, Dubey RC, Aeron A, Kumar B, Kumar S, Tewari S, Arora NK. 2012. Integrated approach for disease management and growth enhancement of Sesamum indicum L. utilizing Azotobacter chroococcum TRA2 and chemical fertilizer. World J Microbiol Biotechnol 28(10):3015–3024.
- Melo D, Álvarez-Ortí M, Nunes MA, Costa AS, Machado S, Alves RC, Pardo JE, Oliveira MBP. 2021. Whole or defatted sesame seeds (Sesamum indicum L.)? The effect of cold pressing on oil and cake quality. Foods 10(9):2108.
- Mohamed NE, Wakwak MM. 2014. Effect of sesame seeds or oil supplementation to the feed on some physiological parameters in Japanese Quail. J Radiat Res Appl Sci 7(1):101–109.
- Moran R. 1982. Formulae for determination of chlorophyllous pigments extracted with N, N-dimethylformamide. Plant Physiol 69(6):1376–1381.
- Myint D, Gilani SA, Kawase M, Watanabe KN. 2020. Sustainable sesame (Sesamum indicum L.) production through improved technology: an overview of production, challenges, and opportunities in Myanmar. Sustainability 12(9):3515.
- Noor RS, Hussain F, Abbas I, Umair M, Sun Y. 2023. Effect of compost and chemical fertilizer application on soil physical properties and productivity of sesame (Sesamum indicum L.). Biomass Conv Bioref 13(2):905–915.
- Pallavolu LA, Pasala R, Kulasekaran R, Pandey BB, Virupaksham U, Perika S. 2023. Analysing the SPAD dynamics of water-stressed vs. well-watered sesame (Sesamum indicum L.) accessions and establishing their relationship with seed yield. PeerJ 11:e14711.
- Pathak N, Bhaduri A, Rai AK. 2019. Sesame: bioactive compounds and health benefits. In: Mérillon, JM, Ramawat, K, editors. Bioactive molecules in food. Reference series in phytochemistry. Cham: Springer, p181–200.
- Saikia J, Kotoky R, Debnath R, Kumar N, Gogoi P, Yadav A, Saikia R. 2023. De novo genomic analysis of Enterobacter asburiae EBRJ12, a plant growth-promoting rhizobacteria isolated from the rhizosphere of Phaseolus vulgaris L. J Appl Microbiol 134(2):lxac090.
- Sánchez-Cruz R, Tpia Vázquez I, Batista-García RA, Méndez-Santiago EW, Sánchez-Carbente MDR, Leija A, Lira-Ruan V, Hernández G, Wong-Villarreal A, Folch-Mallol JL. 2019. Isolation and characterization of endophytes from nodules of Mimosa pudica with biotechnological potential. Microbiol Res 218:76–86.
- Sparks DL, Page AL, Helmke PA, Loeppert RH, Soltanpour PN, Tabatabai MA, Johnston CT, Sumner ME. 1996. Methods of soil analysis. Part 3-Chemical methods. SSSA Book Series. Vol. 5. Madison, WI: SSSA, ASA, p3.
- Teklu DH, Shimelis H, Tesfaye A, Abady S. 2021. Appraisal of the sesame production opportunities and constraints, and farmer-preferred varieties and traits, in Eastern and Southwestern Ethiopia. Sustainability 13(20):11202.
- Thuc LV, Huu TN, Ngoc TM, Hue NH, Quang LT, Xuan DT, Nhan TC, Xuan LNT, Thu LTM, Akagi I, et al. 2022. Effects of nitrogen fertilization and nitrogen fixing endophytic bacteria supplementation on soil fertility, N uptake, growth, and yield of sesame (Sesamum indicum L.) cultivated on alluvial soil in dykes. Appl Environ Soil Sci 2022:1–12.
- Thuy VTB, Quang LT, Thuc LV, Huu TN, Thu LTM, Nhu LTH, Xuan DT, Xuan LNT, Hue NH, Khuong NQ. 2022. Enhancement of green soybean growth and yield in alluvial soil by potent N2-fixing rhizospheric bacteria. Pak J Biol Sci 25(6):549–5595.
- Walinga I, van Vark W, Houba VJG, van der Lee JJ. 1989. Plant analysis procedure, part 7. Wageningen: Department of Soil Science and Plant Nutrition, Wageningen Agricultural University.
- Younis M, Shah S, Inamullah I, Gul R, Jalal A, Khalil F, Hussain I, Fahad MA. 2020. Effect of phosphorus and sulphur on yield and yield components of sesame. SJA 36(2):722–728.
- Zahra ST, Tariq M, Abdullah M, Azeem F, Ashraf MA. 2023. Dominance of Bacillus species in the wheat (Triticum aestivum L.) rhizosphere and their plant growth promoting potential under salt stress conditions. PeerJ 11:e14621.