APPLICATION OF WATER PROVISION ON THE GROWTH AND PRODUCTION OF SOYBEAN (Glycine max L)
Article History
Submited : June 10, 2022
Published : June 24, 2022
Keywords:
The most essentials factor underlying water management are the characteristics of plants to water requirements, the amount of water given, the irrigation methods, and the characteristics of the soil in storing water. The research purpose is to identify and determine the best irrigation method, which can increase the growth and production of soybean plants. Knowing the best method of giving water/irrigation that is able to maintain soil moisture for soybean plants. The experiment used a randomized block design consisting of four treatments, namely: A0 = Control, A1 = Sprinkle Method, A2 = furrow method, and A3 = Flood method. Each treatment was repeated three times. The data were analyzed statistically and if there was a significant effect, it would be continued with an test of honestly significant difference. The results showed that the Flood method gave the best effect on almost all parameters of growth and production observations and the highest yield for production per hectare was 4.32 tons.
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Harrison Gregory Fried, Sruthi Narayanan, Benjamin Fallen. 2018. Characterization of a soybean (Glycine max L. Merr.) germplasm collection for root traits . PLoS ONE 13(7) : e20200463. https://doi.org/10.1371/journal.pone.0200463
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Liu, X.K., Wang, J.Q., Zhao, H.S., Zhang, Y.Q., 2017. Investigation and Thought of Grain Planting Structure Optimization in Baoji City. Modern Agricultural Science & Technology.
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Muhumed, M.A., S. Jusop, C.T.B. P.E.M. Wahab, Q.A. Panhwar. 2014. Effects of drip irrigation frequency, fertilizer sources and their interaction on the dry matter and yield components of sweet corn. J. Crop. Sci. 8:223-231
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Kumar Prakash Jha, Soora Naresh Kumar, Amor V.M. Ines (2018). Responses of soybean to water stress and supplemental irrigation in upper Indo-Gangetic plain: Field experiment and modeling approach. Field Crops Research 219 (2018) 76–86
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Xiao Liu, Ping Guo, Fanghua Li, Wensheng Zheng. 2018. Optimization of planning structure in irrigated district considering water footprint under uncertainty. Journal of Cleaner Production 210 (2019) 1270-1280. Publisher Elsevier
Zhang, Z., Ma, H., Li, Q., Wang, X., Feng, G., 2014. Agricultural planting structure optimization and agricultural water resources optimal allocation of Yellow river irrigation area in Shandong province. Desalin. Water Treat. 52 (13e15), 2750e2756.
Aminah, Ambo Ala, Yunus Musa, Rusnadi Padjung and Kaimuddin, 2017. Strategy of Soybean Management (Glycine max L.) to Cope with Extreme Climate Using CropSyst Model. AGRIVITA Journal of Agricultural Science. 2017. 39(3): 324-328. DOI.org/10.17503/agrivita.v39i3.1020.
Aminah, Kamaruzaman Jusoff, St.Hadijah, Nuraeni, Reta, S.Palad Marliana, A.Hasizah, Maimuna Nonci. 2013. Increasing Soybean (Glycine max L) Drought Resistance With Osmolit Sorbitol. Modern Applied Science; Vol. 7, Orang. 9; 2013 ISSN 1913-1844 E-ISSN 1913-1852. DOI: 10.5539/mas.v7n9p78. Online Published : August 29,2013. http://ccsenet.org/journal/orang.php/mas/article/view/29947. Published by Canadian Center of Science and Education.
Aminah, Ambo Ala, Yunus Musa, Rusnadi Padjung and Kaimuddin, 2017. Strategy of Soybean Management (Glycine max L.) to Cope with Extreme Climate Using CropSyst Model. AGRIVITA Journal of Agricultural Science. 2017. 39(3): 324-328. DOI.org/10.17503/agrivita.v39i3.1020
Aminah, Abdullah, Nuraeni, Marliana S Palad, 2020. Effectiveness of Water Management Towards Soil Moisture Preservation on Soybean. International Journal of Agronomy. Vol. 2020. Hindawi Publisher, USA. http://downloads.hindawi.com/journals/ija/2020/8653472.pdf
Badan Pusat Statistik (BPS), 2021. Produksi Tanaman Pangan di Indonesia. Statistik Indonesia, Jakarta.
Evandro H.F.M. da Silva, Alexandre O. Gonçalves, Rodolfo A. Pereira, Izael M. Fattori Júnior, Luiz R. Sobenko, Fábio R. Marin, 2019. Soybean irrigation requirements canopy-atmosphere coupling in Southern Brazil. Agricultural Water management 218 (2019) 1-7. https://doi.org/10.1016/j.agwat.2019.03.003
Harrison Gregory Fried, Sruthi Narayanan, Benjamin Fallen. 2018. Characterization of a soybean (Glycine max L. Merr.) germplasm collection for root traits . PLoS ONE 13(7) : e20200463. https://doi.org/10.1371/journal.pone.0200463
Iglesias, A., Luis Garrote, 2015. Adaptation strategies for agricultural water management under climate change in Europe. Agriculture Water Management 155, 113-124.
L. Taiz and E. Zeiger, Plant Physiology, Sinauer Associates, Inc. Publishers, Sunderland, MA, USA, 3rd edition, 2002.
Lakew Levidow, D. Zaccaria, R. Maia, E. Vivas, M. Todorovic, and A. Scardigno, “Improving water-efficient irrigation: prospects and difficulties of innovative practicesficient irrigation: prospects and difficulties of innovative,” Agricultural Water Management, vol. 146, pp. 84–94, 2014.
Liu, X.K., Wang, J.Q., Zhao, H.S., Zhang, Y.Q., 2017. Investigation and Thought of Grain Planting Structure Optimization in Baoji City. Modern Agricultural Science & Technology.
Lisa Mawarni, 2011. Kajian Awal Varietas Kedelai Tahan Naungan untuk Tanaman Sela Pada Perkebunan Kelapa Sawit, Jurnal Ilmu Pertanian Kultivar. Vol. 5 No.2. 2011.
Muhumed, M.A., S. Jusop, C.T.B. P.E.M. Wahab, Q.A. Panhwar. 2014. Effects of drip irrigation frequency, fertilizer sources and their interaction on the dry matter and yield components of sweet corn. J. Crop. Sci. 8:223-231
Murtiati S, Anwar H, Sutrisno I. 2016. Introduksi Varietas Kedelai Mendukung Program Peningkatan Produksi Menuju Swasembada Kedelai di Jawa Tengah. Prosiding Seminar Hasil Penelitian Tanaman Aneka Kacang dan Umbi :243-247.
Kumar Prakash Jha, Soora Naresh Kumar, Amor V.M. Ines (2018). Responses of soybean to water stress and supplemental irrigation in upper Indo-Gangetic plain: Field experiment and modeling approach. Field Crops Research 219 (2018) 76–86
Pedersen, P., Lauer, J.G., 2004. Response of soybean yield components to management system and planting date. Agron. J. 96 (5), 1372–1381.
Praba, M. L. 2008. Identification of Physiological Traits Underlying Cultivar Differences in Drought Tolerance in Rice and Wheat. Journal Agro Crop Science 195 : 30-46.
Riniarsi D. 2016. Outlook Komoditas Pertanian Tanaman Pangan Kedelai. Jakarta: Pusat Data dan Sistem Informasi Pertanian Kementerian Pertanian
Salisbury, F. B., dan C.W. Ross. 1992. Plant Physiology. Wadsworth Publishig Co. New York.
Suryana, A,. 2008. Menggenjot Produksi Kedelai dengan Teknologi. Diskusi Panel dan Konfrensi Pers. Inovasi Teknologi Kedelai, Badan Litbang Pertanian Jakarta. 12 Pebruari 2008
Xiao Liu, Ping Guo, Fanghua Li, Wensheng Zheng. 2018. Optimization of planning structure in irrigated district considering water footprint under uncertainty. Journal of Cleaner Production 210 (2019) 1270-1280. Publisher Elsevier
Zhang, Z., Ma, H., Li, Q., Wang, X., Feng, G., 2014. Agricultural planting structure optimization and agricultural water resources optimal allocation of Yellow river irrigation area in Shandong province. Desalin. Water Treat. 52 (13e15), 2750e2756.
Aminah, Ambo Ala, Yunus Musa, Rusnadi Padjung and Kaimuddin, 2017. Strategy of Soybean Management (Glycine max L.) to Cope with Extreme Climate Using CropSyst Model. AGRIVITA Journal of Agricultural Science. 2017. 39(3): 324-328. DOI.org/10.17503/agrivita.v39i3.1020.
Aminah, A., Netty, N., & Palad, M. S. (2022). APPLICATION OF WATER PROVISION ON THE GROWTH AND PRODUCTION OF SOYBEAN (Glycine max L). AGROLAND The Agricultural Sciences Journal (e-Journal), 9(1), 59 - 65. https://doi.org/10.22487/agroland.v9i1.1323
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