Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae)

Sofika Rahmadani; Anna Satyana Karyawati

doi:10.21448/ijsm.1528872

EN TR

Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae)

Abstract

Ocimum sanctum L. is a plant that contains flavonoids and is often used as a side crop in cultivation. CBS data (2015) show that the number of O. sanctum horticulture business households is 195 with a planting area of 303,134 m2 and the average planting area cultivated per household is 1554 m2. The flavonoid content in O. sanctum plants has benefits, including counteracting free radicals and antibiotics. The problem of O. sanctum cultivation, which is only used as a side crop, causes less intensive maintenance, one of which is the lack of attention to nutrition. The application of nitrogen fertilizer and plant growth-promoting rhizobacteria (PGPR) can help spur growth and flavonoid content. The N fertilizer levels used were N 92 kg/ha, N 138 kg/ha and N 184 kg/ha while the PGPR concentration consisted of 0 mL/L, 20 mL/L and 40 mL/L. There was an interaction between the dose of N fertilizer and PGPR concentration on the number of leaves, leaf area and flower emergence time. The form of interaction between the dose of N fertilizer and PGPR concentration is an antagonistic interaction, where the addition of PGPR concentration can reduce the dose of N fertilizer, which is indicated by the lowest dose of N fertilizer accompanied by a higher concentration of PGPR that can increase the growth of O. sanctum. N fertilization produced significant differences in fresh weight consumption and flavonoid levels where the 92 kg/ha N fertilizer dose gave 16.33% higher flavonoid levels than the 184 kg/ha N fertilizer dose.

Keywords

Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae)

Abstract

Ocimum sanctum L. is a plant that contains flavonoids and is often used as a side crop in cultivation. CBS data (2015) show that the number of O. sanctum horticulture business households is 195 with a planting area of 303,134 m2 and the average planting area cultivated per household is 1554 m2. The flavonoid content in O. sanctum plants has benefits, including counteracting free radicals and antibiotics. The problem of O. sanctum cultivation, which is only used as a side crop, causes less intensive maintenance, one of which is the lack of attention to nutrition. The application of nitrogen fertilizer and plant growth-promoting rhizobacteria (PGPR) can help spur growth and flavonoid content. The N fertilizer levels used were N 92 kg/ha, N 138 kg/ha and N 184 kg/ha while the PGPR concentration consisted of 0 mL/L, 20 mL/L and 40 mL/L. There was an interaction between the dose of N fertilizer and PGPR concentration on the number of leaves, leaf area and flower emergence time. The form of interaction between the dose of N fertilizer and PGPR concentration is an antagonistic interaction, where the addition of PGPR concentration can reduce the dose of N fertilizer, which is indicated by the lowest dose of N fertilizer accompanied by a higher concentration of PGPR that can increase the growth of O. sanctum. N fertilization produced significant differences in fresh weight consumption and flavonoid levels where the 92 kg/ha N fertilizer dose gave 16.33% higher flavonoid levels than the 184 kg/ha N fertilizer dose.

Keywords

Supporting Institution

Brawijaya University

Project Number

001

Thanks

Special thanks to all those who have supported this research to be carried out well and produce findings that are useful for readers. I am grateful to the Faculty of Agriculture, Universitas Brawijaya for being a place to gain knowledge and providing the infrastructure needed for data collection. I would also like to thank the Agricultural Instrument and Standardization Center for Various Beans for allowing me to carry out planting and data collection in the greenhouse provided.

References

Beig, B., Niazi, M.B.K., Jahan, Z., Hussain, A., Zia, M.H., & Mehran, M.T. (2020). Coating materials for slow release of nitrogen from urea fertilizer: a review. Journal of Plant Nutrition, 43(10), 1510–1533. https://doi.org/10.1080/01904167.2020.1744647
Central Bureau of Statistics. (2015, November 30). Number of Households, Number of Trees/Roots/Crop Area, and Average Crops Cultivated by Annual Horticultural Crops. https://gresikkab.bps.go.id/statictable/2015/03/20/75/jumlahrumah-tangga-jumlah-pohon-rumpun-luas-tanaman-dan-rata-rata-tanamanyang-diusahakan-tanaman-hortikultura-semusim-st-2013-.html.
Chen, L., Cao, H., Huang, Q., Xiao, J., & Teng, H. (2022). Absorption, metabolism and bioavailability of flavonoids: a review. Critical Reviews in Food Science and Nutrition, 62(28), 7730–7742. https://doi.org/10.1080/10408398.2021.1917508
Choliq, F.A., Martosudiro, M., & Jalaweni, S.C. (2020). Application of Plant Growth Promoting Rhizobacteria (PGPR) to Chrysanthemum Mild Mottle Virus (Cmmv) Infection, growth, and production of chrysanthemum plants (Chrysanthemum sp.). AGRORADIX: Jurnal Ilmu Pertanian, 3(2), 31–49. https://doi.org/10.52166/agroteknologi.v3i2.1952
Damayanti, D.P.O., Handoyo, T., & S, S. (2018). Effect of Ammonium (NH4+) and nitrate (NO3-) on the growth and essential oil content of basil (Ocimum basilicum) plants with hydroponic system. Agritrop: Jurnal Ilmu-Ilmu Pertanian (Journal of Agricultural Science), 16(1), 164. https://doi.org/10.32528/agr.v16i1.1560
Ghaffari, H., Gholizadeh, A., Biabani, A., Fallah, A., & Mohammadian, M. (2018). Plant growth promoting rhizobacteria (PGPR) application with different nitrogen fertilizer levels in rice (Oryza sativa L.). Pertanika Journal of Tropical Agricultural Science, 41(2), 715–728.
Gigir, S.F., Rondonuwu, J.J., Kumolontang, W.J.N., & Kawulusan, R.I. (2014). Growth response of basil (Ocimum sanctum L) to organic and inorganic fertilizers. In COCOS, 5(3), 1–7. https://doi.org/10.35791/cocos.v5i3.5977
Kurniahu, H., Sriwulan, S., & Andriani, R. (2018). Application of indigenous PGPR for the growth of groundnut (Arachis hypogaea L.) local variety tuban in the former lime mine planting media. Agrovigor: Jurnal Agroekoteknologi, 11(1), 52 57. https://doi.org/10.21107/agrovigor.v11i1.4305

Marschner, P. (2012). Mineral Nutrition of Higher Plants Third Edition. Elsevier Ltd.
Ministry of Health of the Republic of Indonesia. (2017). Indonesian Herbal Pharmacopoeia Second Edition. Ministry of Health of the Republic of Indonesia. Jakarta.
Naihati, Y.F., Taolin, R.I.C.O., & Rusae, A. (2018). Influence of dose and frequency application of Plant Growth Promoting Rhizobacteria (PGPR) on lettuce growth and yield. Savana Cendana, 3(01), 1–3. https://doi.org/10.32938/sc.v3i01.215
Nurfitriyah, R., Wurjani, W., & Augustien K, N. (2022). Growth and Yield Response of Basil (Ocimum basilicum L.) Plants on Application of Various Doses of Nitrogen Fertilizer. Jurnal Agrium, 19(3), 257. https://doi.org/10.29103/agrium.v19i3.8754
Paungfoo-lonhenne, C., Redding, M., Pratt, C., & Wang, W. (2019). Plant growth promoting rhizobacteria increase the e ffi ciency of fertilisers while reducing nitrogen loss. Journal of Environmental Management, 23, 337–341. https://doi.org/10.1016/j.jenvman.2018.12.052
Poorter, H., Niinemets., Ü., Ntagkas., N., Siebenkäs., A., Mäenpää, M., Matsubara., S., & Pons, T.L. (2019). A meta-analysis of plant responses to light intensity for 70 traits ranging from molecules to whole plant performance. New Phytologist, 223(3), 1073 1105. https://doi.org/10.1111/nph.15754
Pratiwi, A., & Soepomo, J.P. (2017). Increased growth and total flavonoid content of red spinach (Amaranthus gangeticus L.) plants by applying nitrogen fertilizer. Pharmaciana, 7(1), 87–94. https://doi.org/10.12928/pharmaciana.v7i1.4213
Ramadani, S. (2020). Effect of Organic and Hormonic NPK on Basil Plant Growth (Ocimum x citriodorum) [Undergraduate thesis, Universitas Islam Riau]. Pekanbaru.
Rosyida, R., & Nugroho, A.S. (2017). Effect of Compound NPK Fertiliser Doses and PGPR (Plant Growth Promoting Rhizobacteria) on Wet Weight and Chlorophyll Content of Pakcoy (Brassica rapa L.) Leaves. Bioma: Jurnal Ilmiah Biologi, 6(2), 42 56. https://doi.org/10.26877/bioma.v6i2.1716
Saifudin, A. (2014). Senyawa Alam Metabolit Sekunder Teori, Konsep, dan Teknik Pemurnian. Deepublish publisher.
Tahami, M.K., Jahan, M., Khalilzadeh, H., & Mehdizadeh, M. (2017). Industrial Crops & Products Plant growth promoting rhizobacteria in an ecological cropping system: A study on basil (Ocimum basilicum L.) essential oil production. Industrial Crops & Product. 107(May), 97–104.
Weraduwage, S.M., Chen, J., Anozie, F.C., Morales, A., Weise, S.E., & Sharkey, T.D. (2015). The relationship between leaf area growth and biomass accumulation in Arabidopsis thaliana. Frontiers in Plant Science, 6(APR), 1–21. https://doi.org/10.3389/fpls.2015.00167
Yang, L., Wen., K., Zhao., Y., Wei., F., & Wang, Q. (2018). Response of plant secondary metabolites to environmental factors. Molecules, 23(4), 762 788. https://doi.org/10.3390/molecules23040762

Details

Primary Language

English

Subjects

Plant Biochemistry

Journal Section

Research Article

Authors

Sofika Rahmadani
0009-0000-4057-2351
Indonesia

Anna Satyana Karyawati ^*
0000-0002-6374-0810
Indonesia

Early Pub Date

June 11, 2025

Publication Date

September 4, 2025

Submission Date

August 6, 2024

Acceptance Date

February 23, 2025

Published in Issue

Year 2025 Volume: 12 Number: 3

DOI

https://doi.org/10.21448/ijsm.1528872

IZ

https://izlik.org/JA76ZK47FR

Cite

RIS / Bibtex

APA

Rahmadani, S., & Karyawati, A. S. (2025). Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae). International Journal of Secondary Metabolite, 12(3), 696-709. https://doi.org/10.21448/ijsm.1528872

AMA

1.Rahmadani S, Karyawati AS. Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae). Int. J. Sec. Metabolite. 2025;12(3):696-709. doi:10.21448/ijsm.1528872

Chicago

Rahmadani, Sofika, and Anna Satyana Karyawati. 2025. “Determination of Nitrogen Dose and PGPR Concentration to Promote Growth and Flavonoid Content of Ocimum Sanctum L. (Lamiaceae)”. International Journal of Secondary Metabolite 12 (3): 696-709. https://doi.org/10.21448/ijsm.1528872.

EndNote

Rahmadani S, Karyawati AS (September 1, 2025) Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae). International Journal of Secondary Metabolite 12 3 696–709.

IEEE

[1]S. Rahmadani and A. S. Karyawati, “Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae)”, Int. J. Sec. Metabolite, vol. 12, no. 3, pp. 696–709, Sept. 2025, doi: 10.21448/ijsm.1528872.

ISNAD

Rahmadani, Sofika - Karyawati, Anna Satyana. “Determination of Nitrogen Dose and PGPR Concentration to Promote Growth and Flavonoid Content of Ocimum Sanctum L. (Lamiaceae)”. International Journal of Secondary Metabolite 12/3 (September 1, 2025): 696-709. https://doi.org/10.21448/ijsm.1528872.

JAMA

1.Rahmadani S, Karyawati AS. Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae). Int. J. Sec. Metabolite. 2025;12:696–709.

MLA

Rahmadani, Sofika, and Anna Satyana Karyawati. “Determination of Nitrogen Dose and PGPR Concentration to Promote Growth and Flavonoid Content of Ocimum Sanctum L. (Lamiaceae)”. International Journal of Secondary Metabolite, vol. 12, no. 3, Sept. 2025, pp. 696-09, doi:10.21448/ijsm.1528872.

Vancouver

1.Sofika Rahmadani, Anna Satyana Karyawati. Determination of Nitrogen dose and PGPR concentration to promote growth and flavonoid content of Ocimum sanctum L. (Lamiaceae). Int. J. Sec. Metabolite. 2025 Sep. 1;12(3):696-709. doi:10.21448/ijsm.1528872