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Increasing the growth and yield of shallot (Allium cepa L. Aggregatum group) by using Methyl Jasmonic Acid (MeJA) concentrations under drought condition

https://doi.org/10.22146/ipas.71747

Rizqi Dyah Susilowati(1), Endang Sulistyaningsih(2*), Rudi Hari Murti(3)

(1) Department of Agronomy, Faculty of Agriculture, Universitas Gadjah Mada, Jln. Flora, Bulaksumur, Sleman, Yogyakarta 55281, Indonesia
(2) Department of Agronomy, Faculty of Agriculture, Universitas Gadjah Mada, Jln. Flora, Bulaksumur, Sleman, Yogyakarta 55281, Indonesia
(3) Department of Agronomy, Faculty of Agriculture, Universitas Gadjah Mada, Jln. Flora, Bulaksumur, Sleman, Yogyakarta 55281, Indonesia
(*) Corresponding Author

Abstract


Drought is one of the limiting factors for plant production, and there is a continuous demand for drought tolerant plants. Shallots are considered a shallow-rooted crop and have been reported to have little tolerance to drought conditions. One of the efforts to increase plant tolerance to drought conditions is through the addition of Methyl Jasmonic Acid (MeJA). MeJA is involved in several physiological and biochemical procedures in plant growth and development. Application of MeJA can increase the plant tolerance to drought conditions through chlorophyll synthesis, stomatal conductivity, transpiration, net photosynthetic rate and biomass production. This research was conducted in a complete randomized block design with three replications to determine the response of shallot plants to the application of MeJA (0 µM, 25 µM, 50 µM and 100 µM) under drought conditions, which was simulated through the frequency of watering (once daily, every other day, once in three days). Soil water content calculated before the watering treatment was 24.45%, 20.34% and 18.45% for watering once daily, every other day, once in three days, respectively. The results showed that the addition of MeJA played a role in enhancing the growth and productivity of shallot plants under normal and drought conditions. Application of 50 µM of MeJA could increase the Water Use Efficiency, maintain the Relative Water Content, increase the width of stomatal aperture, and increase the leaf area and Leaf Area Index. This also led to increasing Net Assimilation Rate and Plant Growth Rate. Application of 50 µM of MeJA gave in increasing bulb productivity and reached 7.86 ton.ha-1, which was 58.2 % higher than that of in control (without MeJA application). Application of MeJA to shallot plants exhibited avoiding type of physiological tolerance.


Keywords


drought condition;methyl jasmonic acid;growth and yield of shallot

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References

Anyia, A.O. and Herzog, H. (2004). Water-use efficiency, leaf area and leaf gas exchange of cowpeas under mid-season drought. European Journal of Agronomy, 20(4), pp. 327–339.
Barati, V. and Ghadiri, H. (2017). Assimilate and nitrogen remobilization of six-rowed and two-rowed winter barley under drought stress at difffferent nitrogen fertilization. Arch. Agron. Soil Sci., 63, pp. 841–855.
Bates, L.S., Waldren, R.P., and Teare, I.D.(1973). Rapid determination of free proline for water-stress studies. Plant Soil, 39, pp. 205–207.
Blum, A. (2005). Drought resistance, water-use effificiency and yield potential - Are they compatible, dissonant, or mutually exclusive? Australian Journal of Agricultural Research., 56, pp. 1159–1168.
Boex-Fontvieille, E., Rustgi, S., Von Wettstein, D., Pollmann, S., Reinbothe, S., and Reinbothe, C. (2016). Jasmonic acid protects etiolated seedlings of Arabidopsis thaliana against herbivorous arthropods. Plant Signal. Behav., 11 (8), pp. 1–8.
Cantore, V., Lechkar, O., Karabulut, E., Sellami, M.H., Albrizio, R., Boari, F., Stellacci, A.M., and Todorovic, M. (2016). Combined effect of deficit irrigation and strobilurin application on yield, fruit quality and water use efficiency of “cherry” tomato (Solanum lycopersicum L.). Agric. Water Manage., 167, pp. 53–61.
Dawood, M.F and Abeed, A.H. (2020). Spermine-priming restrained water relations and biochemical deteriorations prompted by water defificit on two soybean cultivars. Heliyon., 6 (5), pp. 1–11.
Ertek, A., Şensoy, S., Küçükyumuk, C., Gedik, İ., (2006). Determination of plant-pan coefficients for field-grown eggplant (Solanum melongena L.) using class a pan evaporation values. Agric. Water Manage., 85, pp. 58–66.
Farhangi-Abriz, S and Ghassemi-Golezani, K. (2018). Foliar sprays of salicylic acid (SA) and Jasmonic Acid (JA) Stimulate H+ -ATPase Activity of Tonoplast, Nutrient Uptake & Salt Tolerance of Soybean. Ecotoxicology & Environmental Safety, 166, pp. 18–25.
Gardner, F.P, R.B. Pearce, and R.L. Mitchell. (1991). Physiology of Crop Plant (Fisiologi Tanaman Budidaya, alih bahasa: D.H. Goenadi). Yogyakarta: Gadjah Mada University Press, pp. 428.
Hasibuan, S., Tantawi, A.R, and Gusmeizal. (2015). Aktivitas filtrat cendawan Lasiodiploida theobromae sebagai inhibitor pertumbuhan tanaman bayam (Amaranthus spp. L.). Jurnal Agr., 2(2), pp. 14–20.
Ilyas, N., Gul, R., Mazhar, R., Saeed, M., Kanwal, S., Shabir, S., and Bibi, F. (2017). Influence of salicylic acid and jasmonic acid on wheat under deficit water. Communications in Soil Scie & Plant Analyses., 48, pp. 2715–2723.
Jensen, C.R., Mongensen, V.O., Mortesen, G., Andersen, M.N., Schjoerring, J.K., Thange, J.H., and Koribidis, J. (1996). Leaf photosynthesis and drought adaption in field-grown oilseed rape (Brassica napus L.). Aust. J. Plant Physiol., 23, pp. 631–644.
Kang, Y., Wang, F.X, Liu, H.J, and Yuan, B.Z. (2004). Potato evapotranspiration and yield under different drip irrigation regimes. Irrig. Sci., 23, pp. 133–143.
Kazan, K., Manners, J.M. (2012). JAZ repressors and the orchestration of phytohormone crosstalk. Trends in Plant Science., 17, pp 22–31.
Kerepesi, H. and Galiba, G. (2000). Osmotic and salt stress Induced alteration in soluble carbohydrate content in wheat seedling. Crop Science., 40, pp. 482–487.
Li, X., Schmid, B., Wang, F., and Paine. (2016). Net assimilation rate determines the growth rates of 14 species of subtropical forest trees. PLOS ONE., 11(3), pp. 1–13.
Lipiec, J., Doussan, C., Nosalewicz, A., and Kondracka, K. (2013). Effect of drought and heat stresses on plant growth and yield : a review. International Agrophysiologi., 27, pp. 463–447.
Mabood, F., Zhou, X.M., Lee, K.D., and Smith, D.L. (2006). Methyl jasmonate, alone or in combination with genistein, and Bradyrhizobium japonicum increases soybean (Glycine max L.) plant dry matter production and grain yield under short season conditions. Field Crops Research, 95(2–3), pp. 412-419
Mubiyanto, B.M. (1997). Tanggapan tanaman kopi terhadap cekaman air. Jurnal Puslit Kopi dan Kakao, 13(2), pp. 83–95.
Muthanna, M.A., Singh, A.K., Tiwari, A., Jain, V.K., and Padhi, M. (2017). Effect of boron and sulphur application on plant growth and yield attributes of potato (Solanum tuberosum L.). International Journal of Current Microbiology and Applied Sciences, 6(10), pp. 399–404.
Pang, J.L., Wang L.L., Hu J.Q., Xiang T.H., and Liang H.M. (2006). Synergistic promotion of gibberellin and cytokinin on direct regeneration of floral buds from in vitro cultures of sepal segments in sinningia speciosa hiern. In Vitro Cellular and Developmental Biology – Plant, 42, pp. 450.
Pelter, G.Q., Mittelstadt, R., Leib, B.G., and Redulla, C.A. (2004). Effects of water stress at specifific growth stages on onion bulb yield and quality. Agricultural Water Management, 68, pp. 107–115.
Per, T.S., Khan, M.I.R., Anjum, N.A., Masood, A., Hussain, S.J., and Khan, N.A. (2018). Jasmonates in plants under abiotic stresses: crosstalk with other phytohormones matters. Environmental and Experimental Botany., 145, pp. 104–120.
PUSLITBANGHORTI (Pusat Penelitian dan Pengembangan Hortikultura). (2015). Budidaya Tanaman Bawang Merah. Available at: http://hortikultura.litbang.pertanian.go.id/teknologi-detail-42.html. [Accessed 15 September 2019].
Rahayuningsih, S.E.A., Indradewa, D., Sulistyaningsih, E., and Maas, A. (2017). The tolerance of photosynthesis of some maize cultivars. (Zea mays L.) to waterlogging at different stages of growth. International Journal on Advance Science Engineering Information Technology, 7(4), pp. 1296–1310.
Rattin, J.E., Assuero, S.G., Sasso, G.O., and Tognetti, J.A. (2011). Accelerated storage losses in onion subjected to water defificit during bulb fifilling. Scientia Horticulturae, 130, pp. 25–31.
Rao, N.K.S. (2016). Onion. In: Rao, N.K.S., Shivashankara, K.S., Laxman, R.H. (Eds.). Abiotic stress physiology of horticultural crops. 1st ed. Springer (India) Pvt. Ltd : 133–149.
Rodríguez-Falcón ,M., Bou, J., and Prat, S. (2006). Seasonal control of tuberization in potato: conserved elements with the flowering response. Annual Review of Plant Biology, 57, pp. 151–180.
Saleh, I. and Atmaja, I.S.W. (2017). Effectivity of arbuscular mycorrhizal fungi inoculation on yield of shallot bulb with different irrigation technique. J. Hort. Indonesia, 8(2), pp. 120–127.
Sarabi, B., Fresneau, C., Ghaderi, N., Bolandnazar, S., Streb, P., Badeck, F.W., Citerne, S., Tangama, M., David, A., and Ghashghaie, J. (2019). Stomatal and non-stomatal limitations are responsible in down-regulation of photosynthesis in melon plants grown under the saline condition: application of carbon isotope discrimination as a reliable proxy. Plant Physiol. Biochem., 141, pp. 1–19.
Shao, R.X., Xin, L.F., Guo, J.M., Zheng, H.F., Mao, J., Han, X.P., Jia, L., Jia, S.J., Du, C.G., Song, R., and Yang, Q.H. (2018). Salicylic acid-induced photosynthetic adaptability of Zea mays L. to polyethylene glycol-simulated water defificit is associated with nitric oxide signaling. Photosynthetica, 56(4), pp. 1370–1377.
Shekari, F. (2000). Effect of drought stress on phenology, water relations, growth, yield and quality canola. Dissertation. The University of Tabriz. pp. 180.
Smika, D.E. and Klute, A. (1982). Surface area measurement of corn root systems. Agronomy Journal, 74(6).
Smart, R.E. and Bingham, G.E. (1974). Rapid estimates of relative water content. Plant Physiol., 53, pp. 258–260.
Solichah, T.U. and Rangga, K.K. (2018). Shallot farmers’ adaptation towards climate change in Larangan Village, Brebes. Life Sciences, 1, pp. 45–54.
Todaka, D., Shinozaki, K., and Yamaguchi-Shinozaki, K. (2015). Recent advances in dissection of drought-stress regulatory networks & strategies for development of drought-tolerant transgenic rice plants. Mol. Plant., 3, pp. 956–972.
Triana, R. and Kumala, D. (2019). Effect of Methyl Jasmonate on vegetatif growth and formation of potato tuber (Solanum tuberosum L. var. Granola). Biogenesis, 7, pp. 24–29.
Wager, A. (2012). Social network: JAZ protein interactions expand our knowledge of jasmonate signaling. Front. Plant Sci., 3(41), pp. 1–11.
Weaver, R.J. (1972). Plant growth substances in agriculture. San Francisco: W. H. Freeman, pp. 594
Wu, H., Xiaoli, W., Zhaohu Li, Liusheng, D., and Mingcai, Z. (2012). Physiological evaluation of drought stress tolerance & recovery in cauliflower (Brassica oleracea L.) seedlings treated with methyl jasmonate & coronatine. J Plant Growth Regul., 31, pp. 113–123.
Yamaguchi-Shinozaki, K., M. Kasuga, Q Liu, K. Nakhashima, Y. Sakuna and H. Abe. (2002). Biological mechanism of drought stress response. In: Genetic Engineering of Crop Plant for Abiotic Stress. JIRCAS Working Report., 23, pp. 1–8.
Zalewski, K., Nitkiewicz, B., Lahuta, L.B., Głowacka, K., Socha, A., and Amarowicz, R. (2010). Effect of jasmonic acid-methyl ester on the composition of carbohydrates and germination of yellow lupine (Lupinus luteus L.) seeds. J Plant Physiol., 167, pp. 967–973.
Zhu, L., Cernusak, L.A., and Song, X. (2020). Dynamic responses of gas exchange and photochemistry to heat interference during drought in wheat and sorghum. Funct. Plant Biol., 47(7), pp. 611-627.



DOI: https://doi.org/10.22146/ipas.71747

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