Growth and Production of Bud Sett Type Seedlings of Sugarcane (Saccharum officinarum L.) at Various Planting Delay Periods

Authors

  • Irene Zaqyah Politeknik Negeri Lampung
  • Jamaludin Adimiharja Politeknik Negeri Lampung
  • Reza Wahyuni Politeknik Negeri Lampung
  • Eko Aprianto

DOI:

https://doi.org/10.25181/jplantasimbiosa.v6i2.3778

Abstract

Bud sett is one type of sugarcane planting material that is efficient in terms of size, allowing the distribution process in large quantities from variety producers to users. However, its smaller size than mule-shaped planting material will cause the freshness of bud sett planting material to decrease more quickly during storage due to the delayed planting period. The purpose of this study was to determine the impact of delayed planting at various storage periods of bud sett sugarcane seeds on the initial growth and production of sugarcane seeds. This study used a Randomized Block Design with 3 replications. The treatment of delayed planting period was 5 levels, namely without storage period (T0), storage period 1 x 24 hours (T1), storage period 2 x 24 hours (T2), storage period 3 x 24 hours (T3) and storage period 4 x 24 hours jam (T4). The data were analyzed variously and tested for the mean value using the Least Significant Difference (LSD) test at the 5% level. The results showed that the weight and germination of bud setts decreased with increasing length of the delayed planting period. In general, the storage period for bud sett seeds does not have a significant effect on seedling growth and seedling production.

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References

Annisa, F., Taryono, T., & Yudono, P. (2015). Pengaruh lama penyimpanan bagal terhadap kualitas dan perkecambahan mata tunas tunggal tebu (Saccharum officinarum L.). Vegetalika, 4(4), 48–56.

Chitkala, T. D., Bharathalakshmi, M., Gouri, V., Kumari, M., Naidu, N., & Rao, K. P. (2011). Studies on the effect of sett size, seed rate and sett treatment on yield and quality of sugarcane. Indian Journal of Sugarcane Technology, 26, 4–6.

Croft, B. J. (2000). Literature review of methods of improving the germination of sugarcane: SRDC final report BSS208.

Dewi, A. (2012). Pengaruh Lama Penyimpanan dan Perlakuan Pemacu Perkecambahan terhadap Pertumbuhan Vegetatif Bibit Tebu (Saccharum officinarum L.) G2 Asal Kultur Jaringan. Universitas Brawijaya.

Indartono, I. (2011). Pengkajian suhu ruang penyimpanan dan teknik pengemasan terhadap kualitas benih kedelai. Gema Teknologi, 16(3), 158–163.

Liang, Y.-J., Zhang, X.-Q., Yang, L., Liu, X.-H., Yang, L.-T., & Li, Y.-R. (2019). Impact of seed coating agents on single-bud seedcane germination and plant growth in commercial sugarcane cultivation. Sugar Tech, 21, 383–387.

Mohanty, M., & Nayak, P. K. (2011). Economizing seed cane quantity by reducing sett size and bud number with sett treatment in sugarcane cultivation. Indian Journal of Sugarcane Technology, 26(2), 59–60.

Nuraini, S., Mahfut, M., & Bangsawan, R. (2022). Germination Process of Bud Chips of 3 Commercial Sugarcane (Saccharum officinarum L) Varieties at PT. Gunung Madu Plantations. Indonesian Journal of Biotechnology and Biodiversity, 6(1), 33–38.

Pawirosemadi, M. (2011). Dasar-dasar teknologi budidaya tebu dan pengolahan hasilnya. Universitas Negeri Malang. Malang: UM Press, 39–545.

Rai, R. K., Tripathi, N., Gautam, D., & Singh, P. (2017). Exogenous application of ethrel and gibberellic acid stimulates physiological growth of late planted sugarcane with short growth period in sub-tropical India. Journal of Plant Growth Regulation, 36, 472–486.

Rossler, R. L. (2013). Water stress effects on the growth, development and yield of sugarcane. University of Pretoria.

Rusmarini, U. K., Astuti, Y. T. M., & Santoso, B. I. (2022). Respon Bibit Bud Sett Tebu Pada Perkecambahan Dan Pertumbuhan Terhadap Perlakuan Lama Penyimpanan dan Perendaman ZPT Sebelum Tanam. Agroista: Jurnal Agroteknologi, 6(1), 26–32.

Saragih, S., Yama, D. I., & Fakhrudin, J. (2024). Uji Mutu Perkecambahan Bud Chips Tebu pada Lama Penyimpanan dan Biopriming Trichoderma sp. Perbal: Jurnal Pertanian Berkelanjutan, 12(1), 95–103.

Singh, A. K., Singh, S. N., Rao, A. K., & Sharma, M. L. (2008). Spacing, nitrogen, seed rate and seed size requirement of an early maturing sugarcane variety CoS 96268 for higher productivity in calcarious soils. Indian Journal of Sugarcane Technology, 23(1), 28–30.

Wardani, O. P., Priyadi, P., & Yatmin, Y. (2021). Respons Pertumbuhan Vegetatif Tanaman Tebu terhadap Konsentrasi Zat Pengatur Tumbuh pada Berbagai Bagian Asal Bibit. Jurnal Agro Industri Perkebunan, 9 (1), 47-56. https://doi.org/10.25181/jaip.v9i1.1910

Wondimu, A., Legesse, H., & Fite, T. (2022). Effects of Time Gap between Seed Cane Cutting to the Planting of Sugarcane Varieties on Growth Parameter and Yield of Sugarcane (Saccharum spp. hybrid) at Finca’a Sugar Estate, Ethiopia. Sugar Tech, 24(2), 485–493. https://doi.org/10.1007/s12355-021-01035-

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Published

2023-10-30

How to Cite

Zaqyah, I., Adimiharja, J., Wahyuni, R. ., & Aprianto, E. (2023). Growth and Production of Bud Sett Type Seedlings of Sugarcane (Saccharum officinarum L.) at Various Planting Delay Periods. J-Plantasimbiosa, 6(2), 148-158. https://doi.org/10.25181/jplantasimbiosa.v6i2.3778

Issue

Vol. 6 No. 2 (2024)

Section

Artikel