Pengaruh Perbedaan Kepadatan Benih dan Pemberian AB Mix terhadap Produktivitas Green fodder Gabah Padi

Tera Fit Rayani; Annisa Hakim; Yuni Resti

doi:10.24252/jiip.v9i1.34013

Tera Fit Rayani IPB University
(ID)
Annisa Hakim Sekolah Vokasi IPB
(ID)
Yuni Resti Vocational Studies IPB University
(ID)

DOI: https://doi.org/10.24252/jiip.v9i1.34013

Keywords: feed, forage, green fodder, hydroponic, unhulled rice

Abstract

This study aims to compare the differences in seed density and the addition of AB mix as a source of nutrition on the productivity of unhulled rice green fodder. Green fodder was grown by hydroponic using fodder trays. The variables measured were biomass production, conversion of green fodder to seeds and plant height. The experimental design used was a 2 x 2 factorial design with treatment factors is the differences in seed density (150 g/container and 250 g/container) and nutrition (without AB mix immersion and AB mix immersion). The results showed that biomass production and green fodder conversion were significantly (p<0.05) affected by seed density. Total biomass and green fodder conversion increased with increasing seed density. Seed densities of up to 250 grams per container produce the highest biomass weight with high conversion of seeds to green fodder. Soaking seeds using AB mix had no effect on biomass weight, conversion, and plant height. However, immersion using AB mix produces plant heights that tend to be taller.

Downloads

Download data is not yet available.

References

Agius, A., Pastorelli, G., and Attard, E. 2019. Cows fed hydroponic fodder and conventional diet: effects on milk quality. Archives Animal Breeding, 62(2), 517-525.

Al-Ajmi, A., Salih, A., Khadim, I., and Othman, Y. 2009. Yield and water use efficiency of barley fodder produced under hydroponic systems in GCC countries using tertiary treated sewage effluents. Journal of Phytology, 1(5), 342-348.

Anders, A., Markowski, P., Konopka, S., Kaliniewicz, Z., Lipinski, A.J, and Choszcz, D.J. 2020. Effect of seeding rate on selected physical parameters and biomass yield of maize. Chilean Journal of Agricultural Research, 80(2), 171-180

Assefa, G., Urge, M., Animut, G., and Assefa, G. 2020. Effect of variety and seed rate on hydroponic maize fodder biomass yield, chemical composition, and water use efficiency. Biotechnology in Animal Husbandry, 36(1), 87-100.

Christiana, R. 2018. Quality and quantity of sorghum hydroponic fodder from different varieties and harvest time. IOP Conference Series: Earth and Environmental Science. Hlm 1-5.

El-Morsy, A.T., Abdul-Soud, M., and Emam, M.S.A. 2013. Localized hydroponic green forage technology as a climate change adaptation under Egyptian conditions. Research Journal of Agriculture and Biological Sciences, 9(6), 341-350.

Hidayanti, L., dan Kartika, T. 2019. Pengaruh Nutrisi AB Mix Terhadap Pertumbuhan Tanaman Bayam Merah (Amaranthus tricolor L.) secara Hidroponik. Sainmatika. Jurnal Ilmiah Matematika dan Ilmu Pengetahuan Alam, 16(2), 166-175.

Jemimah, E.R., Gnanaraj, P.T., Muthuramalingam, T., Devi, T., and Vennila, C. 2018. Productivity, Nutritive Value, Growth Rate, Biomass Yield and Economics of Different Hydroponic Green fodders for Livestock. International Journal of Livestock Research, 8(9), 261-270.

Naik, P.K., Swain, B.K., Chakurkas, E.B., and Singsh, N.P. 2017. Effect of seed rate on yield and proximate constituents of different parts of hydroponics maize fodder. Indian Journal of Animal Sciences, 87(1), 109-112.

Ningoji, S.N., Thimmegowda, M.N., Boraiah, B., Anand, M.R., Murthy, R.K., and Asha, N.N. 2020. Effect of seed rate and nutrition on water use efficiency and yield of hydroponics maize fodder. International Journal of Current Microbiology and Applied Sciences, 9(1), 71-79.

Nurhafidah, Rahmat, A., Karre, A., dan Juraeje, H.H. 2021. Uji daya kecambah berbagai jenis varietas jagung (Zea mays) dengan menggunakan metode yang berbeda. Jurnal Agroplantae, 10(1), 30-39.

Paramita, K.E., Suharsi, T.K., dan Suharman, M. 2018. Optimasi pengujian daya berkecambah dan factor yang mempengaruhi viabilitas dan vigor benih kelor (Moringa oleifera Lam.) dalam penyimpanan. Buletin Agrohorti, 6(2), 221-230.

Paudel, S., Baral, B.R., Bhusal, K., Ghimere, S.H., Pandeya, Y.R., Adhikari, D.P., and Hamal, P. 2021. Study on effects of different seed rates in hydroponic fodder production and its composition in Chitwan. International Journal of Veterinary Science and Agriculture Research, 3(1), 1-7.

Rayani, T.F., Resti, Y dan Dewi, R.K. 2021. Kuantitas dan kualitas fodder jagung, padi dan kacang hijau dengan waktu panen yang berbeda menggunakan smart hydroponic fodder. Jurnal Ilmu Nutrisi dan Teknologi Pakan, 19(2), 36-41.

SNI. 2003. Standar Nasional Indonsesia (SNI). Benih Padi- Bagian3: Kelas Benih Pokok (BP). Badan Standarisasi Nasional, Jakarta.

Sutopo L. 2002. Teknologi Benih. Raja Grafindo Persada, Jakarta.

Widajati, E., Murniati, E., Palupi, E.R., Kartika, T., Suhartanto, M.R., dan Qadir, A. 2013. Dasar Ilmu dan Teknologi Benih. IPB Press, Bogor.