Kirkuk University Journal for Agricultural Sciences (KUJAS)

EFFECT OF SALICYLIC ACID IN GROWTH AND FLOWERING OF BULBS (REVIEW ARTICLE)

https://doi.org/10.58928/ku24.15116
Volume 15, Issue 1
Winter 2024
Page 107-111
Kirkuk University Journal for Agricultural Sciences (KUJAS)

Document Type : Research Paper

Author

Fanar Hashim Yousef

Department of Horticulture and Engineering, College of Agriculture and Forestry, University of Mosul, Mosul, Iraq.

Abstract
Salicylic acid is one of the internal growth regulators derived from phenols with multiple functions, this acid was found in Salix spp. (willow tree) and extracted naturally since 1928 by the scientist John Buchner, it’s produced from the amino acid phenylalanine. Salix plant contain the salicin compound by 9-11%. It’s plays an important role in the growth and development of the plant for physiological effect such as increasing the plant’s response to stress conditions (biotic and abiotic). salicylic acid also involved in many bio processes including growth, photosynthesis, cellular metabolism, protein synthesis, stomatal closure and gas exchange, as well as strengthening the defense system protects the plant against various diseases and increases the effectiveness of antioxidants and enzymes. It's also work as stimulating the flowering, ion absorption, nutrient transfer within the plant. Numerous experiments have indicated that spraying or soaking many bulbs with salicylic acid gave the best results for vegetative and flowering growth, as well as giving the best diameter and size of the bulbs formed for many plants such as gladiolus, tuberose, amaranth, lilium, tulipa, narcissus and lycoris.

Keywords

Salicylic acid
Growth
Bulbs
Subjects
  • Davies, P.J. (2010). plant hormones biosynthesis sign transduction action. Kluwer Academic. Publishers, Netherlands. http://dx.doi.org/10.1007/978-1-4020-2686-7
  • Abdoallah, H and M, Hatami, Mahmood (2012). Efficiency of salicylic acid delay petal senescence and extended quality of cut spikes of gladiolus grandiflora cv ‘wing's sensation’. African Journal of Agricultural Research, 7(4):540-545.. https://shorturl.at/joBEU
  • Rainsford, K. D. (Ed.). (2004). Aspirin and related drugs. CRC Press. Boca Raton, USA.

 https://shorturl.at/ajmzY

  • Hedden, P., and Thomas, S. (Eds.). (2006). Plant Hormone Signaling. Annual Plant Reviews, Volume 24. Blackwell Pub. https://shorturl.at/AIT08
  • Mahdi, J. (2010). Medicinal potential of willow: A chemical Perspective of asprin discovery. J. of Saudi chemical Society ,14(3), 317-322.

https://www.sciencedirect.com/science/article/pii/S1319610310000578

  • Anket, S; Gagan F, Aranit and M, Brestic L, Marco (2020). The role of salicylic acid in plants exposed to heavy metals. Molecules, 22(2):540-560.

https://www.mdpi.com/1420-3049/25/3/540

  • Eman, S; R. Amira and M, Moubarak (2018). Effect of methyl jasmonate and salicylic acid on the production of gladiolus grandifloras L. Nature and Science, 16(6) 40-47.

https://shorturl.at/qDPV1

  • Muthulakshmi, S., and Lingakumar, K. (2017). Role of salicylic acid (SA) in plants—A review. Int. J. Appl. Res, 3(3), 33-37. https://shorturl.at/fjTZ0
  • Parashar, A.; Yusuf, M. and Fariduddin, Q., & Ahmad, A. (2014). Salicylic acid enhances antioxidant system in Brassica juncea grown under different levels of manganese. International journal of biological macromolecules, 70, 551-558.

https://www.sciencedirect.com/science/article/pii/S0141813014004863

  • Kumar, P.; Dube, S. D., and Chauhan, V. S. (1999). Effect of salicylic acid on growth, development and some biochemical aspects of soybean (Glycine max Merrill). Indian Journal of Plant Physiology, 4(4), 327-330.

https://link.springer.com/chapter/10.1007/1-4020-5184-0_1

  • Hayat, S and A. Ahmad (2007). Salicylic acid biosynthesis metabolism and physiological role in plants. Springer Netherland.

http://ndl.ethernet.edu.et/bitstream/123456789/70805/1/4.pdf#page=14

  • Janda, M.; Ei Ruelland and M. Magical (2014). Salicylic acid signaling, Environmental and Experimental, Botany, In press.

https://www.frontiersin.org/articles/10.3389/fagro.2021.781027/full

  • Srihunsa, M.; N., Vannatime; C, Somruthai; A and paemanee (2023). Comparative analysis of salicylic acid levels and gene expression in resistant, tolerant, and susceptible cassava varieties following whitefly‑mediated SLCMV infection.

https://shorturl.at/hnH89

  • Noreen, S.; Ashraf, M.; Hussain, M., and Jamil, A. (2009). Exogenous application of salicylic acid enhances antioxidative capacity in salt stressed sunflower (Helianthus annuus) plants. Pak. J. Bot, 41(1), 473-479.

https://shorturl.at/aEJWX

  • Sedghi M.; H. K. Basiri and R.S. Sharifi (2013). Effect of activity salicylic acid on the antioxidant enzymes at in Sunflower. Annals of West Univ of Timisoara, Ser, Biology, 18(2):67-72.

https://shorturl.at/jkmRT

  • EL-Beltagi, H. S; A. A.; Mohamed, B. and Mekki, B. El-Din (2011). Differences in some Constituents, enzymes activity and electrophoretic characterization of different rapeseed (Brassica napus) cultivars. Tom, 118(1):45-52.

https://shorturl.at/lzAP6

  • Rai, K. K.; Pandey, N.; Rai, N.; Rai, S. K., and Pandey-Rai, S. (2021). Salicylic acid and nitric oxide: insight into the transcriptional regulation of their metabolism and regulatory functions in plants. Frontiers in Agronomy, 3, 781027. https://www.frontiersin.org/articles/10.3389/fagro.2021.781027/full
  • Sajjad, Y.; M. Jaskain; M.X. Ashraf and Ahmad (2014). Response of morphological and physiological growth attributes to foliar application of plant growth regulators in Gladiolus "whit Prosperity", pak. J. Agri. Sci., 51 (1) 123-129.

 https://bit.ly/3waulo9

  • Anwar; M.; H.A. Sahito, 1. Hassan and A. Hussain (2014). Effect of pre harvest treatment of salicylic on growth and vase life of tuberose with aroma environment. Wudpecker Journal of Agris Res, 3(2):050-57.

https://shorturl.at/epxV6

  • Khandaker, L.; Akond, A. M., and Oba, S. (2011). Foliar application of salicylic acid improved the growth, yield and leaf's bioactive compounds in red Amaranth (Amaranthus tricolor). vegetable crops research bulletin 74:77-86.

https://shorturl.at/glR38

  • Hajizadeh, H. S., and Aliloo, A. A. (2013). The effectiveness of pre-harvest salicylic acid application on physiological traits in lilium (Lilium longiflorum) cut flower. International Journal of Scientific Research in Environmental Sciences, 1(12), 344. https://shorturl.at/boJ78
  • Lee, H.; J. Leon. and L. Raskin (1995). Biosynthesis and metabolism salicylic acid, Proc. Natl. Acad Sci., 92: 4076-4079. https://www.pnas.org/doi/abs/10.1073/pnas.92.10.4076
  • Khodakhah, B.; Nabigol, A., and Salehi, B. (2014). The effect of different levels of humic acid and salicylic acid on growth characteristics and qualities of tuberose. Advances in Environmental Biology, 8(16), 118-123.

https://www.cabdirect.org/cabdirect/abstract/20153262115

  • Cavusoglu, a.; özer-uyar, g. E., and ünal, f. (2022). An abiotic stress factor: phytotoxicity of high doses of salicylic acid on growth parameters of Tulipa Under glasshouse and outdoor conditions. Applied ecology and environmental research, 20(6), 4925-4934. https://bit.ly/3HKnG6L
  • Sefa, G. Ü. N., and Ö. Burhan. (2020). Effects of salicylic acid and citric acid treatments on some parameters of Narcissus tazetta during vase life. Journal of Agricultural Faculty of Gaziosmanpaşa University (JAFAG), 37(3), 202-207. https://dergipark.org.tr/en/download/article-file/2117124
  • Saja, S. L. and O. Ammar (2022). Effect of spraying with salicylic acid and calcium chloride on the yield characteristics of corm and cormlets for three cultivars of Gladiolus X hortulanus Mesopotamia journal of Agriculture, 50(3): 59-69. https://www.iasj.net/iasj/download/3e1be11ad2c5ecc1
  • Sewedan, E.; Osman, A. R., and Moubarak, M. (2018). Effect of methyl jasmonate and salicylic acid on the production of Gladiolus grandifloras, L. Nature and Science, 16(6), 40-47. https://shorturl.at/tACO6
  • CAO, Li; Xi, Yang; Xu, Yue and yang (2021). Transcriptional profiles underlying the effects of salicylic acid on fruit ripening and senescence in pear (Pyrus pyrifolia Nakai). Journal of Integrative Agriculture, 20(9):2424-2437. https://bit.ly/491SuMl
  • Ya-main, X.; S. Lin - fang; Xiav and X. Yi-ping (2013). Effect of three plant growth regulators on the bulblets development of Lycoris radiata. Journal of Nuclear Agricultural Sciences, 27 (9): 1409-1415. https://www.hnxb.org.cn/EN/10.11869/hnxb.2013.09.1409
  • Pawar, A.; Chopde, N., and Nikam, B. (2018). Thiourea and salicylic acid influences growth, yield and quality of gladiolus. Journal of Pharmacognosy and Phytochemistry, 7(5), 970-972. https://shorturl.at/iFHLT
  • Pahare, P.; Scholar, R., and Beura, S. (2022). Impact of salicylic acid and humic acid on vegetative and flower bud production of Lilium asiatic hybrid Tresor. ~ 2185 ~ The Pharma Innovation Journal, 11(7), 2185–2190. thepharmajournal.com
  • Rastegari, S.; Naser Alavi, S. M., and Mohayeji, M. (2022). Effect of Salicylic Acid and Pre-Cold Treatment on Flower Induction in Saffron. Scientifica, 2022. https://doi.org/10.1155/2022/6108161

Home

Submit Manuscript

Editorial Board

Aims and Scope

Animal and Ethical Approval

Publication Ethics

Guide for Authors

Guide for Reviewer

Indexing and Abstracting

DOI Use

Generative AI (GenAI) Policy

Data Availability and Reproducibility Policy

Peer Review Process

Copyright Policies

Self Archiving Policy

The Time Period of Reviewing Process

Privacy Statement

Plagiarism Policy

Article Processing Charges (APC)

Reviewers

Contact Us