Effect of Variability of Water Supply During 20 Days Before Harvest on the Morphological Characteristic of Red Elephant Grass (Pennisetum purpureum cv. Red)

Vol 8 No 5 (2025): Volume 08 Issue 05 May 2025

Article Date Published : 19 May 2025 | Page No.: 2350-2354 | Google Scholar | Crossref doi for this article

Abstract :

This study aimed to determine the effects of different watering intervals, amount of water, and their interactions during the 20 days before harvest on the morphological characteristics of Red Elephant Grass (Pennisetum purpureum cv. Red). This plant grows upright with thick stems and strong roots, and it can thrive in various soil conditions, including marginal soils, making it easy to find and widely cultivated (Ariyanto et al., 2020). The grass was propagated using stem cuttings planted in polybags and maintained accordingly. At 90 days of age, the plants were trimmed. The subsequent stage involved a maintenance period of 50 days to allow regrowth, followed by a 20-day treatment period. A factorial, completely randomized design (CRD) was used, and two factors were used. The first factor was watering interval (K): K1 – every 3 days, K2 – every 6 days, and K3 – every 9 days. The second factor was the amount of water (P): P1 – 4.61 L, P2 – 3.46 L, P3 – 2.30 L, and P4 – 1.15 L. The grass was harvested 70 days after trimming. Variables measured included plant height, number of leaves, tillers, and leaf-to-stem ratio. The data were analyzed using analysis of variance (ANOVA) followed by Duncan’s Multiple Range Test (DMRT). The results showed that watering every 9 days produced the tallest plants, while the highest number of leaves was observed with a 6-day watering interval. An adequate amount of water improved the leaf-to-stem ratio, indicating better forage quality. Conversely, the number of tillers did not show significant changes, likely because treatments were applied after the early growth phase. Overall, Red Elephant Grass was able to grow optimally with less frequent watering and the appropriate amount of water.

Keywords :

Amount of water, forage quality, morphological characteristic, pennisetum purpureum, watering interval.

References :

  1. Ariyanto, B. F., Luklukyah, Z., & Rahayu, T. P. (2020). Pertumbuhan Tanaman Rumput Gajah (Pennisetum purpureum) yang Diberi Penambahan Pupuk Kandang Kambing (Doctoral dissertation, Sebelas Maret University).
  2. Asngad, A., dan Rahmawati, A. N. 2021. Kualitas Kertas Seni dari Limbah Cangkang Telur dan Rumput Gajah dengan Penambahan Pelarut NaOH dan CaO. In Prosiding SNPBS Seminar Nasional Pendidikan Biologi dan Saintek) (pp. 524531).
  3. Dumadi, E. H., Abdullah, L., dan Sukria, H. (2021). Kualitas hijauan rumput gajah (Pennisetum purpureum) berbeda tipe pertumbuhan: review kuantitatif. Jurnal Ilmu Nutrisi dan Teknologi Pakan, 19(1), 6-13.
  4. Firda, Y.2009. Respon tanaman kedelai (Glycine max (L.) Merril) terhadap cekaman kekurangan air dan pemupukan kalium. Skripsi Fakultas Pertanian Universitas Riau.Pekanbaru
  5. Gardner, F.P, R.B. Pearce dan R.I. Mitchell. 1991. Fisiologi tanaman budidaya. UI press. Jakarta.
  6. Harjanti, R. A., dan Tohari, S. N. H. U. 2014. Pengaruh takaran pupuk nitrogen dan silica terhadap pertumbuhan awal (Saccharum officinarum L.) pada inceptisol. Vegetalika, 3(2), 35-44.
  7. Kabirizi, J.; Muyekho, F.; Mulaa, M.; Msangi, R.; Pallangyo, B.; Kawube, G.; Zziwa, E.; Mugerwa, S.; Ajanga, S.; Lukwago, G.; et al. 2015.Napier Grass Feed Resource: Production, Constraints and Implications For Smallholder Farmers in Eastern and Central Africa; The Eastern African Agricultural Productivity Project: Naivasha, Kenya,
  8. Lekitoo, M. N., Kayadoe, M., Yoku, O., dan Djunaedi, M. 2020. Respon Produksi Rumput Gajah (Pennisetum Purpureum), Benggala (Panicum Maximum) dan Setaria (Setaria Spacelata) terhadap Perbedaan Salinitas. Jurnal Riset Agribisnis dan Peternakan, 5(1), 20-29.
  9. Ressie, M. L., Mullik, M. L., dan Dato, T. D. 2018. Pengaruh pemupukan dan interval penyiraman terhadap pertumbuhan dan produksi rumput gajah odot (Pennisetum purpereum cv Mott). Jurnal Sain Peternakan Indonesia, 13(2), 182-188.
  10. Haryani, H., Norlindawati, A. P., Norfadzrin, F., Aswanimiyuni, A., dan Azman, A. 2018. Yield and nutritive values of six Napier (Pennisetum purpureum) cultivars at different cutting age. Malaysian J. Vet. Res, 9, 6-12.
  11. Negawo, A. T., Teshome, A., Kumar, A., Hanson, J., and Jones, C. S. (2017). Opportunities for Napier grass (Pennisetum purpureum) improvement using molecular genetics. Agronomy, 7(2), 28. doi:10.3390/agronomy7020028
  12. Nugraha, Y. S., Sumarni, T., dan Soelistyono, R. (2014). Pengaruh interval waktu dan tingkat pemberian air terhadap pertumbuhan dan hasil tanaman kedelai (Glycine max (L) Merril.) (Doctoral dissertation, Brawijaya University).
  13. Seseray, D. Y., Santoso, B., dan Lekitoo, M. N. 2013. Produksi Rumput Gajah (Pennis etum purpureum) yang Diberi Pupuk N, P dan K dengan Dosis 0, 50 dan 100% pada Devoliasi Hari ke-45. 11(1), 49–55.
  14. Zhou, S., J. Chen, Y. Lai, G. Yin, P. Chen, K.K. Pennerman, H. Yan, B. Wu, H. Zhang, X. Yi, C. Wang, M. Fu, X. Zhang, L. Huang, X. Ma, Y. Peng, Y. Yan, G. Nie, L. Liu. 2019. Integrative analysis of metabolome and transcriptome reveals anthocyanins biosynth

How to Cite :

Effect of Variability of Water Supply During 20 Days Before Harvest on the Morphological Characteristic of Red Elephant Grass (Pennisetum purpureum cv. Red). Ainy Novitasari, Rizka Muizzu Aprilia, Kusmartono, Ifar Subagiyo, 8(5), 2350-2354. Retrieved from https://ijcsrr.org/single-view/?id=22585&pid=22324

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