Natural Nutrition Modification for Acclimatization and Hydroponic
Author(s)
Eny Dyah Yuniwati , Istiyono Kirno Prasetyo ,
Download Full PDF Pages: 48-55 | Views: 716 | Downloads: 231 | DOI: 10.5281/zenodo.3710767
Abstract
Tissue culture is one step in plant breeding, the most crucial stage is acclimatization. That is a critical stage that requires media compatibility as a means of accelerating growth. That is often not compatible, and is also often for matches from other media. Hydroponic nutrition is one type that is often used as a substitute in finding compatibility with acclimatization media. Important trying to make that are suitable for hydroponics can also be used as nutrients in acclimatization media, from kind of waste; Apple waste, Moringa waste and Tapioca waste. That fermentation processed with Thianfuse, EM4 and MOL. The results of the study obtained a conclusion: (1) Starter Thianfuse fermentation provides the best results on the yield components, the weight of consumption and the total weight. (2) Moringa waste raw materials give the best results on all components
Keywords
Acclimatization, Hydroponic, Nutrition, Waste
References
i. Admojo L, Indrianto A, Hadi H. PERKEMBANGAN PENELITIAN INDUKSI KALUS EMBRIOGENIK PADA JARINGAN VEGETATIF TANAMAN KARET KLONAL (Hevea brasiliensis Muell. Arg). War Perkaretan. 2016;
ii. FITRAMALA E, KHAERUNNISA E, DJUITA NRDR, SUNARSO H, RATNADEWI D. Kultur in vitro pisang Kepok Merah (Musa paradisiaca) untuk mikropropagasi cepat. E-Journal Menara Perkeb. 2017;
iii. Suryani R, Sari MN. PENGGUNAAN BERBAGAI MACAM MEDIA TANAM DAN PEMBERIAN PUPUK ORGANIK CAIR PADA TAHAP AKLIMATISASI TERHADAP PERTUMBUHAN PLANLET ANGGREK BULAN (Phalaenopsis amabilisi) HASIL KULTUR JARINGAN. J Appl Agric Sci Technol. 2019;
iv. Anggraeni TDA, Sulistyowati E, Purwati RD. Pengaruh Komposisi Media dan Sumber Eksplan Terhadap Induksi Kalus, Perkecambahan, dan Pertumbuhan Tunas Embrio Somatik Jarak Pagar. Bul Tanam Tembakau, Serat Miny Ind. 2016;
v. Bhatia S. Plant Tissue Culture. In: Modern Applications of Plant Biotechnology in Pharmaceutical Sciences. 2015.
vi. De Filippis LF. Crop improvement through tissue culture. In: Improvement of Crops in the Era of Climatic Changes, Volume 1. 2014.
vii. Kumar PP, Loh CS. Plant tissue culture for biotechnology. In: Plant Biotechnology and Agriculture. 2012.
viii. Kristina NN, Syahid SF. Induksi Perakaran dan Aklimatisasi Tanaman Tabat Barito Setelah Konservasi In Vitro Jangka Panjang. Bul Littro. 2012;
ix. Kurniasih W, Nabiila A, Nurul Karimah S, Farhan Fauzan M, Riyanto A, Putra RR. PEMANFAATAN BATU ZEOLIT SEBAGAI MEDIA AKLIMATISASI UNTUK MENGOPTIMALKAN PERTUMBUHAN ANGGREK BULAN (Phalaenopsis) HIBRIDA. BIOMA J Ilm Biol. 2017;
x. Plan Tissue Culture Engineering. Plan Tissue Culture Engineering. 2007.
xi. Pollard JW, Walker JM, Stepan-Sarkissian G. Selection of Media for Tissue and Cell Culture. In: Plant Cell and Tissue Culture. 2003.
xii. George EF, Hall MA, Klerk GJ De. Plant propagation by tissue culture 3rd edition. Plant Propagation by Tissue Culture 3rd Edition. 2008.
xiii. Media-composition TC. Media-composition, Tissue Culture. PhytoTechnology Lab Inc Prod Inf sheet. 2003;
xiv. Jiménez VM. Involvement of plant hormones and plant growth regulators on in vitro somatic embryogenesis. Plant Growth Regul. 2005;
xv. Guo B, Abbasi B, Zeb A, Xu L, Wei Y. Thidiazuron: A multi-dimensional plant growth regulator. African Journal of Biotechnology. 2013.
xvi. Gaspar T, Keveks C, Penel C, Greppin H, Reid DM, Thorpe TA. Plant hormones and plant growth regulators in plant tissue culture. In Vitro Cellular and Developmental Biology - Plant. 1996.
xvii. Saha S, Monroe A, Day MR. Growth, yield, plant quality and nutrition of basil (Ocimum basilicum L.) under soilless agricultural systems. Ann Agric Sci. 2016;
xviii. Roosta HR. Comparison of the Vegetative Growth, Eco-Physiological Characteristics and Mineral Nutrient Content of Basil Plants in Different Irrigation Ratios of Hydroponic:Aquaponic Solutions. J Plant Nutr. 2014;
xix. Yin X, Goudriaan J, Lantinga EA, Vos J, Spiertz HJ. A flexible sigmoid function of determinate growth. Ann Bot. 2003;
xx. Birch CPD. A new generalized logistic sigmoid growth equation compared with the Richards growth equation. Ann Bot. 1999;
xxi. Nguyen NT, McInturf SA, Mendoza-Cózatl DG. Hydroponics: A Versatile System to Study Nutrient Allocation and Plant Responses to Nutrient Availability and Exposure to Toxic Elements. J Vis Exp. 2016;
xxii. Matimati I, Verboom GA, Cramer MD. Nitrogen regulation of transpiration controls mass-flow acquisition of nutrients. J Exp Bot. 2014;
xxiii. White PJ. Long-distance Transport in the Xylem and Phloem. In: Marschner’s Mineral Nutrition of Higher Plants: Third Edition. 2011.
xxiv. Lita RF, Dan, D. SA. Sumber dan Frekuensi Aplikasi Larutan Hara sebagai Pengganti AB Mix pada Budidaya Sayuran Daun secara Hidroponik. Hortik Indones. 2014;
xxv. Bolar JP, Norelli JL, Harman GE, Brown SK, Aldwinckle HS. Expression of fungal chitinolytic enzymes in transgenic apples confers high levels of resistance to scab. In 2011.
xxvi. Martínez-Medina A, Van Wees SCM, Pieterse CMJ. Airborne signals from Trichoderma fungi stimulate iron uptake responses in roots resulting in priming of jasmonic aciddependent defences in shoots of Arabidopsis thaliana and Solanum lycopersicum. Plant Cell Environ. 2017;
xxvii. Harman GE, Herrera-Estrella AH, Horwitz BA, Lorito M. Special issue: Trichoderma-from Basic Biology to biotechnology. Microbiology. 2012;
xxviii. Tala S, Irfan M. EFEK LAMA PENYIMPANAN FERMENTASI JERAMI PADI OLEH TRICHODERMA SP TERHADAP KANDUNGAN PROTEIN DAN SERAT KASAR. J GALUNG Trop. 2018;
xxix. De Pascale S, Rouphael Y, Colla G. Plant biostimulants: Innovative tool for enhancing plant nutrition in organic farming. European Journal of Horticultural Science. 2017.
xxx. Restida M, Ginting Ca, Yohanes. Pengaruh Pemberian Asam Humat (Berasal dari Batu Bara Muda) dan Pupuk N terhadap Pertumbuhan dan Produksi Tanaman Tomat (Lycopersicum esculentum Mill). J Agrotek Trop. 2014;
xxxi. Busani M, Patrick JM, Arnold H, Voster M. Nutritional characterization of Moringa (Moringa oleifera Lam.) leaves. African J Biotechnol. 2016;
xxxii. Palada MC. The moringa industry in the Philippines: Status, challenges and opportunities. In: Acta Horticulturae. 2017.
xxxiii. El-Sohaimy SA, Hamad GM, Mohamed SE, Amar MH, Al-hindi RR. Biochemical and functional properties of Moringa oleifera leaves and their potential as a functional food. Glob Adv Res J Agric Sci. 2015;
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