Cover Image

Effects of drip irrigation system with variation of water source and volume in pepper (Capsicum annuum L.)

https://doi.org/10.22146/ipas.61761

Junita Br. Nambela(1*), Krisna Margaretta Malau(2), Michel Koibur(3)

(1) Papua Barat Assessment Institute for Agricultural Technology Jln. Trikora Anday, Kompleks Kawasan Terpadu Kementerian Pertanian, Manokwari, West Papua 98315, Indonesia
(2) Manokwari Agricultural Development Polytechnic Jln. SPMA Reremi 143, Manokwari Barat, Kabupaten Manokwari, West Papua 98312, Indonesia
(3) Manokwari Agricultural Development Polytechnic Jln. SPMA Reremi 143, Manokwari Barat, Kabupaten Manokwari, West Papua 98312, Indonesia
(*) Corresponding Author

Abstract


Water plays the important roles for plants. Besides maintaining the cell turgidity, it also functions as a nutrients solvent for photosythesis process, which affects plant growth. This study aimed to determine the effects of the source and volume of irrigation water with drip irrigation system on the growth of pepper plants in polybags. This research was conducted at the green house of Polbangtan Manokwari, Anday, West Papua from June to October 2020. This research was arranged in a factorial Completely Randomized Design consisting of two treatment factors, namely irrigation water source (PDAM water and ground water) and volume (150 mL per plant, 200 mL per plant, and 250 mL per plant). The results showed that PDAM water showed a better effect than groundwater, while the volume of irrigation water applied to pepper plants had no significant effect on plant height, number of leaves, and stem diameter. This situation is thought to be due to genetic factors from the pepper cultivars grown. PDAM water has a better effect because of its high pH and higher content of Nitrite as N content. Also, it has lower temperature, lower TDS, and lower iron contents. Meanwhile, irrigation water volume of 250 mL per plant per day has a minimal risk of plant drought compared to other treatments.


Keywords


horticulture; irrigation; water type; water volume

Full Text:

PDF


References

Anggraini, N., Faridah, N., and Indrioko, S. (2015). Pengaruh cekaman kekeringan terhadap perilaku fisiologi dan pertumbuhan Bibit Black Locust (Robinia Pseudoacacia). Jurnal Ilmu Kehutanan, 9(1), pp. 41-46.

Astuti, A.D. (2014). Kualitas air irigasi ditinjau dari parameter DHL, TDS, pH, pada lahan sawah Desa Bulumanis Kidul Kecamatan Margoyoso. Jurnal Litbang, 10(1), pp. 35-42.

Azarpanah, A., Alizadeh, O., Dehghanzadeh, H., and Zare, M. (2013). The effect of irrigation levels in various growth stages on morphological characteristics and yield of Zea mays L. Tech. J. Engin. & App. Sci., 3(14), pp. 1447-1459.

Farooq, M., Wahid, A., Kobayashi, N., Fujita, D., and Basra, S.M.A. (2009). Plant drought stress: effects, mechanisms and management. Agronomy Sustainable Development, 29, pp. 185-212

Felania, C. (2017). Pengaruh ketersediaan air terhadap pertumbuhan kacang hijau (Phaceolus radiatus). Prosiding Seminar Nasional Pendidikan Biologi dan Biologi. Universitas Negeri Yogyakarta. Yogyakarta. pp. 131-138.

Gusril, H. (2016). Studi kualitas air minum PDAM di Kota Duri Riau. Jurnal Geografi, 8(2), pp. 190-196.

Hamim. (2019). Fisiologi Tumbuhan. 2nd ed. Universitas Terbuka, Jakarta, pp. 1-51.

Haryati. (2003). Pengaruh Cekaman Air terhadap Pertumbuhan dan Hasil Tanaman. Undergraduated Thesis. Faculty of Agriculture Universitas Sumatera Utara. Medan.

Hermanto, Sitepu, F.E., and Ginting, J. (2014). Pertumbuhan bibit kelapa sawit (Elaesis guineensis Jacq.) dengan menggunakan media sekam padi dan frekuensi penyiraman di main nursery. Jurnal Agroteknologi, 2(3), pp. 1211-1218.

Kapoor, D., Bhardwaj, S., Landi, M., Sharma, A., Ramakrishnan, M., and Sharma, A. (2020). Review: the impact of drought in plant metabolism: how to exploit tolerance mechanisms to increase crop production. Applied Science, 10(16), pp. 1-19

Kolo, A. and Tri, K. (2016). Pengaruh pemberian arang sekam padi dan frekuensi penyiraman terhadap pertumbuhan dan hasil tanaman tomat (Lycopercicom esculentum Mill). Savana Cendana Jurnal Pertanian Konservasi Lahan Kering, 1(3), pp. 102-104.

Maulana E. and Idrus, M. (2010). Pengaruh interval waktu pemberian air terhadap produktivitas tanaman tomat di lahan kering dataran rendah pada musim kemarau. Jurnal Penelitian Pertanian Terapan, 10(3), pp. 207–212.

Manan, A.A. and Al Mahfudz, W.D.P. (2015). Pengaruh volume air dan pola vertikultur terhadap pertumbuhan dan hasil sawi hijau (Brassicae juncea L.). Jurnal Agroteknologi, 12(1), pp. 33–43.

Marsha, N.D, Aini, N., and Sumarni T. (2014). Pengaruh frekuensi dan volume pemebrian air pada pertumbuhan tanaman Crotalaria mucronata Desv. Jurnal Produksi Tanaman, 2(8), pp.673- 678.

Maryani, A.T. (2012). Pengaruh volume pemberian air terhadap pertumbuhan bibit kelapa sawit di pembibitan utama. Jurnal Fakultas Pertanian Universitas Jambi Mendolo Darat, 1(2), pp. 65.

Nugraha, Y.S., Sumarni, T., and Sulistyono, R. (2014). Pengaruh interval waktu dan tingkat pemberian air terhadap pertumbuhan dan hasil tanaman kedelai (Glycine max (L.) Merill). Jurnal Produksi Tanaman, 2(7), pp. 552-559.

Pratiwi, A.R. (2016). Kajian efek poly ethylene glycol (PEG) 6000 terhadap cekaman kekeringan planlet kedelai (Glycine max (L.) Merill) varietas tanggamus secara in vitro. Undergraduated Thesis. Universitas Lampung.

Rajab, M.A. (2016). Pengaruh pertumbuhan kacang hijau (Phaseolus radiatus) dengan perlakuan pemberian media air berbeda. Undergraduated Thesis. Universitas Cokroaminoto Palopo.

Sapei, A. (2006). Irigasi tetes. 1st ed. Bagian Teknik Tanah dan Air Departemen Teknik Pertanian Fateta Institut Pertanian Bogor, Bogor. pp. 1-44.

Setiawan, T. and Shiddieq, D. (2012). Pengaruh cekaman kekeringan terhadap akumulasi prolin tanaman nilam (Pogostemon cablin Benth.). Ilmu Pertanian (Agricultural Science), 15(2), pp. 85-99.

Sobari, E. (2014). Budidaya pepper: analisis pada bangunan screen house dengan sistem drip irrigation. 1st ed. Graha Ilmu: Yogyakarta. pp. 1-8.

Song, N. and Banyo, Y. (2011). Konsentrasi klorofil daun sebagai indikator kekurangan air pada tanaman. Jurnal Ilmiah Sains, 11(2), pp. 169-170.

Sumarna, A. (1998). Irigasi tetes pada budidaya cabai. Monograf No.09. 1st ed. Balai Penelitian Tanaman Sayuran Pusat Penelitian dan Pengembangan Hortikultura, Bandung. pp. 1-31.

Wahb-Allah M.A., Alsadon A.A., and Ibrahim, A.A. (2011). Drought tolerance of several tomato genotypes under greenhouse condition. World Applied Science Journal, 15(7), pp. 933-940.

Wang, C.J., Yang, W., Wang, C., Gu, C., Niu, D.D., Liu, H.X., Wang, Y.P., and Guo, J.H. (2012). Induction of drought tolerance in cucumber plants by a consortium of three plant growth-promoting Rhizobacterium strains. Plos One, 7(12), e52565.

Wantasen, S., Sudarmadji, Sugiharto, E., and Suprayogi, S. (2012). Dampak transformasi nitrogen terhadap lingkungan biotik di Danau Tondano Provinsi Sulawesi Utara. Jurnal Manusia dan Lingkungan, 19(2), pp. 143-149.

Yuniarsih, D. (2017). Pengaruh cekaman air terhadap kandungan protein kacang kedelai. Prosiding Seminar Nasional Pendidikan Biologi dan Biologi Universitas Negeri Yogyakarta, pp. 111-122.

Zhao, W., Liu, L., Shen, Q., Yang, J., Han, X., Tian, F., and Wu, J. (2020). Effect of water stress photosynthesis, yield, and water use efficiency in winter wheat. Water, 12(8), pp. 1-19



DOI: https://doi.org/10.22146/ipas.61761

Article Metrics

Abstract views : 1520 | views : 1393

Refbacks

  • There are currently no refbacks.





Ilmu Pertanian (Agricultural Science) ISSN 0126-4214 (print), ISSN 2527-7162 (online) is published by Faculty of Agriculture Universitas Gadjah Mada collaboration with Perhimpunan Sarjana Pertanian Indonesia (PISPI) and licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

web
analytics View My Stats