The Effect Of Giving Trichoderma Sp And Fertilizer Fertilizer On Redeed Production And Production (Amaranthus Amoena Voss)
Pengaruh Pemberian Trichoderma Sp Dan Jenis Pupuk Terhadap Pertumbuhan Dan Produksi Bayam Merah (Amaranthus Amoena Voss)
Abstract
Red spinach plant originally known as vegetable crop, Trichoderma sp function provides auksin signals and can also accelerate the growth of plants, especially vegetable crops. Giving fertilizer N, P and K is an effort to increase crop production. Manure can indeed increase the availability of nutrients for plants, research aims to determine the effect of giving Trichoderma sp and type of fertilizer on the growth and production of red spinach plants implemented in the Village Sidokepung Buduran Sidoarjo District Start July-August 2017. Factorial research using Randomized Block Design (RAK) with two factors and repeated three times The first factor is Trichoderma sp (T) consists of 4 kinds: T1 = Trichoderma sp, T2 = Trichoderma sp-Jjr-02, T3 = Trichoderma sp -Jtr-01, T4 = Trichoderma sp-Pjn-01. The second factor is the type of fertilizer (P) which consists of 3 kinds: P0 = tampa fertilizer, P1 = kima fertilizer, P2 = manure. Fariabel observed were Plant Height, Leaf Amount, Stem diameter, Wet Weight Plant, Dry Plant Weight ,. The results showed the interaction of treatment of Trichoderma sp and type of fertilizer to plant height of 14 HST, 21HST, 28HST and on the number of leaves showed interaction at 14HST, 28HST and interaction on wet weight of plant. In the type of fertilizer treatment occurs interaction in almost all observations of plant height, number of leaves, diameterbatang, wet weight and dry weight of plants.
References
Darmayanti, N. S., Nyoman, and Made, I. D. (2013). Agroteknologi Tropika, 2301–6515.
Laude, S. (2010). Pertumbuhan dan Hasil Bawang Daun (Allium fistulosum L.) pada Berbagai Dosis Pupuk Kandang Ayam. J.Agroland 17, 144–148. Lehar, L. (2012). Pengujian Pupuk Organik Agen Hayati (Trichoderma sp) terhadap Pertumbuhan Kentang (Solanum tuberosum L). Jurnal Penelitian Terapan 12, 115–124.
Melati, Mualim, and Arifin, S. (2009). Kajian Pemupukan NPK dan Jarak Tanam pada Produksi Antosianin Daun Kolesom. Agronom Indonesia 37, 55–61.
Muhsin (2003). Pemberian Takaran Pupuk Kandang Ayam Terhadap Pertumbuhan dan Produksi Mentimun (Cucumi sativus, L.).
Mulyadi, A. (2012). Pengaruh Pemberian Legin Pupuk N, P, K (15: 15: 15) dan Urea pada. L) Merr). Kaunia, 21–29.
Riko, E. (2015). Pengaruh Fungi Trichoderma sp, Pupuk Nitrogen, Pupuk Terhadap Pertumbuhan Dan Hasil TanamanBayam Merah. .
Sutarman, Miftahurrohmat, A., Prihatiningrum, A., Sidoarjo (2016). Bioteknologi Aplikasi Fungi Efektif Lahan Hutan PinusBagi Perlindungan Kesehatan Dan Produktivitas Hortikultur Strategis.
Sutejo, M. M. (1999). Telaah Kesuburan Tanah.
Widowati, L. R., Sri, W., U., J., and W., H. (2004). Pengaruh pupuk kompos organik yang diperkaya dengan bahan mineral dan pupuk hayati terhadap sifat-sifat tanah, serapan hara dan produksi sayuran organik. Laporan Proyek Penelitian Program Pengembangan Agribisnis Balai Penelitian Tanah.
Copyright (c) 2020 A. Miftakhurrohmat, Ella Nur Fauzyah
This work is licensed under a Creative Commons Attribution 4.0 International License.
Copyright Notice
Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution 4.0 International License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.