Effect of Priming on Vigor of Germinated Chili (Capsicum annum L.) Seeds in Aluminium Stress Conditions
DOI:
https://doi.org/10.25181/jppt.v21i3.2133Keywords:
aluminum, chili, priming, seed, vigorAbstract
Seed germination in ultisol is a problem. Ultisol has a low pH, poor in nutrients and organic matter, and high Al content. The low physiological quality of seeds is also a limiting factor. The purpose of this study was to determine the effect of priming on the seed vigor of two chili varieties whose seeds have expired and have not expired. This experiment consisted of 2 experiments, namely Experiment 1, which used seeds that had expired (deteriorating), and Experiment II, which used seeds that had not expired (non-deteriorating). This study was structured using a completely randomized design (CRD) which was repeated three times. This experiment is factorial. The first factor is priming, consisting of five levels: control, immersion in water, 30% PEG, 50 ppm GA3, and 1% KNO3. At the same time, the second factor in the first experiment was the seeds of the Tanjung 2 and Kencana varieties that had expired (deteriorating). In the second experiment, the second factor was the seeds of the Tanjung 2 and Kencana varieties that had not expired (non-deteriorating). The data obtained were analyzed using the R statistic program with a 5% HSD test. The results showed that priming with 50 ppm GA3 and 1% KNO3 increased the vigor of seeds that had expired (deteriorating). Meanwhile, priming with water and 1% KNO3 increased the vigor of seeds that had not yet expired (deterioration). The Kencana variety has a higher vigor than the Tanjung 2 variety on expired seeds. In seeds that have not yet expired, both varieties have the same good vigor.Downloads
References
Agustina, K., Sopandie, D. & D. Wirnas. 2010. Tanggap Fisiologi Akar Sorgum (Sorghum bicolor L. Moench) terhadap Cekaman Aluminium dan Defi siensi Fosfor di dalam Rhizotron Roots Physiological Response of Sorghum (Sorghum bicolor L. Moench) to Aluminum Toxicity and Phosphorous Defi ciencies in Rhizot, J. Agron. Indonesia, 38(2), pp. 88–94.
Ai, N. S dan M. Ballo. 2010. Peranan Air Dalam Perkecambahan Biji. Jurnal Ilmiah Sains, Vol 10 (2) : hal 190-195.
Anosheh, H. P., Sadeghi, H. & Emam, Y. 2011. Chemical priming with urea and KNO3 enhances maize hybrids (Zea mays L.) seed viability under abiotic stress, Journal of Crop Science and Biotechnology, 14(4), pp. 289–295. doi: 10.1007/s12892-011-0039-x.
Anwar, A., Yu, X. & Li, Y. 2020. Seed priming as a promising technique to improve growth, chlorophyll, photosynthesis and nutrient contents in cucumber seedlings, Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 48(1), pp. 116–127. doi: 10.15835/NBHA48111806.
Badan Pusat Statistik. 2018. Statistik Tanaman Sayuran dan Buah-Buahan Semusim Indonesia 2018’, Subdirektorat Statistika Hortikultura, p. 101. Available at: https://www.bps.go.id/publication/2019 /10/07/9c5dede09c805bc38302ea1c/statistik-tanaman-sayuran-dan-buah---buahan-semusim-indonesia-2018.html.
Bai,L., H. Deng, X. Zhang1, X. Yu, & Y. Li. 2016. Gibberellin is involved in inhibition of cucumber growth and nitrogen uptake at suboptimal root-zone temperatures, PLoS ONE, 11(5), pp. 1–15. doi: 10.1371/journal.pone.0156188.
Balai Penelitian Tanaman Sayuran, 2017. Cabai Unggul Penentu Keberhasilan Produksi. Balai Penelitian Tanaman Sayuran. Bandung Barat.
Basit, A., Shahid H. Muhammad A. Muhammad Z. & Niaz A. 2020. Zinc and potassium priming of maize (Zea mays L.) seeds for salt-affected soils, Journal of Plant Nutrition, 44(1), pp. 130–141. doi: 10.1080/01904167.2020.1799005.
Chauhan, J.S., Y.K. Tomar, N. Indrakumar Singh, S. Ali, & Debarati. 2009. Effect Of Growth Hormones On Seed Germination And Seedling Growth Of Black Gram And Horse Gram, Journal of American Science, 5(5), pp. 79–84.
Copeland, L.O & M. B. McDonald. 2001. Principle of Seed Science and Technology 4th Edition. Springer + Business Media. New York.
de Souza, L. T., J. Cambraia, C. Ribeiro, J. Alves, & L. Campos. 2016. Effects of aluminum on the elongation and external morphology of root tips in two maize genotypes, Bragantia, 75(1), pp. 19–25. doi: 10.1590/1678-4499.142.
Farooq, M., S. M. A. Basra, N. Ahmad & K. Hafeez . 2009. Improving the drought tolerance in rice (Oryza sativa L.) by exogenous application of salicylic acid, Journal of Agronomy and Crop Science, 195(4), pp. 237–246. doi: 10.1111/j.1439-037X.2009.00365.x.
Ghobadi, M., M. A. Abnavi, S. J. Honarndan, M. E. Ghobadi, & G. R. Mohammadi.2012. Effect of Hormonal Priming (GA3) and Osmopriming on Behavior of Seed Germination in Wheat (Triticum aestivum L.), Journal of Agricultural Science, 4(9), pp. 244–250. doi: 10.5539/jas.v4n9p244.
Hagroo, R. P. & Johal, N. 2019. Effect of priming on physiological seed quality in aged seeds of hot pepper ( Capsicum annuum L .) var . Punjab Sindhuri and hybrid CH-27, pp. 545–552.
Hasanuddin, Maulidia, V. & Syamsuddin. 2016. Perlakuan Biopriming Kombinasi Air Kelapa Muda dan Trichoderma Terhadap Viabilitas dan Vigor Benih Cabai Kadaluarsa (Capsicum annuum L.), Jurnal Agrotek Lestari, 2(2), pp. 75–82. Available at: http://jurnal.utu.ac.id/jagrotek/article/download/601/486.
Khan, A.Z., T. Shah, S. Khan, A. Rehman, H. Akbar, A. Muhammad, & S.K. Khalil. 2017. Hydropriming -a useful technique for seed invigoration in okra (Abelmoschus esculentus) and parsley (Petroselinum crispum), Journal of Applied and Natural Science, 9(3), pp. 1792–1795. doi: 10.31018/jans.v9i3.1440.
Khan, H. A., C.M. Ayub, M.A. Pervez, R.M. Bilal, M.A. Shahid & K. Ziaf. 2009. Effect of seed priming with NaCl on salinity tolerance of hot pepper ( Capsicum annuum L .) at seedling stage’, Soil and Environment, 28(1), pp. 81–87. doi: http://dx.doi.org/10.1016/S0891-5849(98)00074-4.
Kirana, R, Kusmana, Hasyim, A & Sutary. 2014. Persilangan Cabai Merah Tahan Penyakit Antraknosa ( Colletotrichum acutatum) Pepper , Hort, J., pp. 189–195.
Lara, T. S. J. Marcel, A. Rodrigues, M. Rakocevic & A. Alvarenge. 2014. Potassium Nitrate Priming Affects the Activity of Nitrate Reductase and Antioxidant Enzymes in Tomato Germination, Journal of Agricultural Science, 6(2). doi: 10.5539/jas.v6n2p72.
Lewandowska, S., Łoziński, M., Marczewski, K., Kozak, M., & Schmidtke, K. (2020). Influence of priming on germination, development, and yield of soybean varieties. Open Agriculture, 5(1), 930–935. https://doi.org/10.1515/opag-2020-0092.
Mirabi, E. & Hasanabadi, M.. 2012. Effect of Seed Priming on Some Characteristic of Seedling and Seed Vigor of Tomato ( lycopersicun esculentum )’, III(Iii).
Nasri, N., R. Kaddour. H. Mahmoudi. O. Baatour. N. Bouraoui & M. Lachaal. 2011. The effect of osmopriming on germination, seedling growth and phosphatase activities of lettuce under saline condition, African Journal of Biotechnology, 10(65), pp. 14366–14372. doi: 10.5897/ajb11.1204.
Nawaz, J., Hussain, M., Jabbar, A., Nadeem, G. A., Sajid, M., Subtain, M., & Shabbir, I . 2013. Tomato seed invigoration with cytokinins, Journal of Animal and Plant Sciences, 23(1), pp. 121–128.
Purnomo, D. W., Purwoko, B. S. & Yahya, S. 2007. Evaluasi Pertumbuhan dan Hasil Beberapa Genotipe Cabai (Capsicum annuum L.) untuk Toleransi terhadap Cekaman Aluminium, Indonesian Journal of Agronomy, 35(3), pp. 183–190. doi: 10.24831/jai.v35i3.1329.
Purwanto, S., Gani, R. A. & Suryani, E. 2021. Characteristics of Ultisols derived from basaltic andesite materials and their association with old volcanic landforms in Indonesia, Sains Tanah, 17(2), pp. 135–143. doi: 10.20961/STJSSA.V17I2.38301.
Reis, R. G. E., H. P. Silva, J. M. G. Neves, dan R. M. Guimaraes. 2013. Physiological quality of osmoprimed gherkin seeds1. Journal of Seed Science, 35(3):368-373.
Sadjad, S. 1993. Dari Benih Kepada Benih , Gramedia Widiasarana Indonesia. Jakarta.
Shihab, M. O. & Hamza, J. H. 2020. Seed priming of sorghum cultivars by gibberellic and salicylic acids to improve seedling growth under irrigation with saline water, Journal of Plant Nutrition, 43(13), pp. 1951–1967. doi: 10.1080/01904167.2020.1766066.
Sucianto, Y. A., Sutarno, S. & Anwar, S. 2019. Invigorasi Benih Kelor (Moringa oleifera) dengan Berbagai Konsentrasi dan Jenis ZPT Terhadap Pertumbuhan dan Bobot Biomasa, Buletin Anatomi dan Fisiologi, 4(2), pp. 1–7.
Utama, M. Z. H. 2010. Penapisan Varietas Padi Gogo Toleran Cekaman Aluminium The, J. Agron. Indonesia, 38(3), pp. 163–169.
Utami, E. P., Sari, M. & Widajati, E. 2014. Perlakuan Priming Benih untuk Mempertahankan Vigor
Benih Kacang Panjang (Vigna Unguiculata) Selama Penyimpanan, Buletin Agrohorti, 1(4), p. 75. doi: 10.29244/agrob.1.4.75-82.
Verslues, P. E., M. Agarwal, S. Katiyar, J. Zhu & J. Kang Zhu. 2006. Methods and concepts in quantifying resistance to drought, salt, and freezing, abiotic stresses that affect plant water status’, Plant Journal, 45(4), pp. 523–539. doi: 10.1111/j.1365-313X.2005.02593.x.
Widiatmaka, W. Ambarwulan, Y. Setiawan & C. Walter. 2016. Assessing the suitability and availability of land for agriculture in Tuban Regency, East Java, Indonesia, Applied and Environmental Soil Science, 2016. doi: 10.1155/2016/7302148.
Widyastuti, Y., Purwoko, B. S. & Yunus, D. M. 2017. Identifikasi Toleransi Kekeringan Tetua Padi Hibrida pada Fase Perkecambahan Menggunakan Polietilen Glikol (PEG) 6000, J. Agron. Indonesia, 44(3), p. 235. doi: 10.24831/jai.v44i3.13784.
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