Herliana, O. • dkk. : Pengaruh jenis media tanam dan aplikasi pupuk hayati mikoriza terhadap pertumbuhan, pembungaan dan infeksi mikoriza pada tanaman anggrek Dendrobium sp. Herliana, O. • E. Rokhminarsi • S. Mardini • M. JannahPengaruh jenis media tanam dan aplikasi pupuk hayati mikoriza terhadap pertumbuhan, pembungaan dan infeksi mikoriza pada tanaman anggrek Dendrobium sp.Abstract. Dendrobium is one of potential flower to cultivate because have valuable prices. The research aimed to find out the best growing media, the best dosage of mycorrhizal biofertilizer for growth and flowering of Dendrobium, and the best combination type of growing media and mycorrhizal biofertilizer. The Research conducted at Screen house of Datar Village, Sumbang Subdistrict, Banyumas Regency from May to November 2017 and the design was using Randomized Block Design (RBD) method with 2 factors and 3 replications: (1) Growing media with 3 treatment types; wood charcoal, fern (Cyathea contaminans), kadaka root (Asplenium nidus), and (2) dosage of mycorrhizal biofertilizer with 3 levels; without mycorrhizal, 10 g plant -1 (20 spores), 20 g plant -1 (40 spores). The results showed that kadaka root the best of growing media for variables of the number of leaves and the number of buds for each 5,63 leaves and 1,37 buds, as well as the percentage of mycorrhizal infections by 54,44%. Result also showed that the best dosage of mycorrhizal biofertilizer is 10 g plant -1 for variables of the number of root and the percentage of mycorrhizal infections for each 20,78 roots and 64,44%. The highest number of flowers per stalk was obtained on the combination of growing media using fern (Cyathea contaminans) without mycorrhizal biofertilizer by 8 flowers.
<p>Bawang merah termasuk sayuran bumbu yang dibutuhkan oleh masyarakat dan harganya bersifat fluktuatif sehingga diperlukan kecukupan produksi untuk mendukung kestabilan harga. Kecukupan produksi dapat tercapai melalui pemanfaatan lahan marjinal seperti Ultisol yang masih luas dan perbaikan teknik budidaya, di antaranya melalui aplikasi pupuk Mikotricho. Tujuan penelitian adalah mengkaji pupuk Mikotricho dengan pengurangan dosis N-P-K terhadap pertumbuhan dan hasil bawang merah. Penelitian berupa percobaan lapang di lahan Ultisol menggunakan Rancangan Acak Kelompok Lengkap faktorial dengan tiga ulangan. Faktor pertama, dosis pupuk Mikotricho, yaitu 10 g, 30 g, dan 50 g/tanaman, faktor kedua, pengurangan dosis N-P-K berupa Urea, SP-36, KCl, dan ZA, yaitu 0, 25%, dan 50% dari rekomendasi. Hasil penelitian menunjukkan, aplikasi pupuk Mikotricho meningkatkan jumlah daun (11,4%) dan bobot tanaman segar (49,1%) bawang merah secara linier positif dengan dosis terbaik 50 g/tanaman. Hasil umbi/rumpun dan per petak efektif (0,64 m2) dosis pupuk Mikotricho, 10 g, 30 g, dan 50 g/tanaman tidak berbeda. Pengurangan dosis N-P-K dari rekomendasi berpengaruh terhadap jumlah anakan dan bobot segar tanaman bawang merah dengan efek linier negatif, namun pengurangan 25% dosis N-P-K dapat dipilih. Pengaruh interaksi pupuk Mikotricho dengan pengurangan dosis N-P-K terjadi pada kehijauan daun dan luas daun. Pemberian pupuk Mikotricho dosis 10 g hingga 30 g/tanaman dengan pengurangan dosis N-P-K 25% hingga 50% dari rekomendasi meningkatkan kehijauan daun dan luas daun bawang merah. Implikasi dari penelitian ini adalah diperlukan sosialisasi pemanfaatan pupuk Mikotricho pada budidaya tanaman bawang merah atau tanaman sayuran lain untuk mengurangi pemakaian pupuk sintetik dan perlu dukungan industri pembuatan pupuk Mikotricho.</p><p><strong>Keywords</strong></p><p>Mikoriza; <em>Trichoderma</em>; N-P-K; Bawang merah; Lahan marginal</p><p><strong>Abstract</strong></p><p>Shallots are a spice vegetable needed by the community. Adequacy of production can be achieved through the use of Ultisols with application of Mikotricho fertilizer. The aim of this research was to study the Mikotricho fertilizer with a reduced dose of N-P-K on growth and yield of shallots. The research was a factorial RCBD with three replications. The first factor, namely 10 g, 30 g, and 50 g/plant Mikotricho fertilizer dose, the second factor, namely 0, 25%, 50% N-P-K reduction of the recommendation.The results showed that Mikotricho fertilizer increased the number of leaves (11.4%) and fresh plant weight (49.1%) of shallots, the best dose of 50 g/plant. The yield bulbs/clump and per plot (0.64 m2) 10 g, 30 g, and 50 g Mikotricho fertilizer were not different. The 25% reduction in the N-P-K can be chosen to the number of tillers and fresh weight of shallots plants. Apply of Mikotricho fertilizer 10 g until 30 g/plant with a reduction in the N-P-K of 25% until 50% increases leaf greenish and leaf area. The implication was that socialization of Mikotricho fertilizer in cultivation of shallots or other vegetable crops to reduce the use of synthetic fertilizers and needs the support of the Mikotricho fertilizer manufacturing industry.</p>
Tujuan penelitian adalah menentukan dosis optimal pupuk mikotricho dan pengurangan dosis pupuk sintetis terhadap pertumbuhan dan hasil cabai merah di lahan marjinal. Penelitian dilaksanakan pada bulan Maret sampai September 2018. Penelitian merupakan percobaan lapang di desa Kaliori, Kecamatan Kalibagor, Kabupaten Banyumas, dengan jenis tanah ultisol menggunakan Rancangan Acak Kelompok Lengkap Teracak (RAKLT) dengan 3 ulangan. Faktor pertama perlakuan adalah dosis pupuk mikotricho yaitu tanpa pupuk mikotricho, dosis 10 g mikoriza+10 g Trichoderma, 20 g mikoriza + 20 g Trichoderma. Faktor kedua adalah pengurangan dosis rekomendasi pupuk sintetis yaitu 0% (dosis rekomendasi = SP-36 480 kg ha-1 dikonversi menjadi pupuk SP-27 640 kg ha-1, dan pupuk susulan berupa pupuk ZA 320 kg ha-1, pupuk urea 240 kg ha-1, pupuk KCl 320 kg ha-1), pengurangan 25% dan 50%. Analisis data menggunakan analisis ragam dan uji lanjut Duncan’s Multiple Range Test 5%. Hasil penelitian menunjukkan (1) pemberian pupuk hayati mikotricho hingga 40 g (20 g mikoriza + 20 g Trichoderma) tanaman-1 dapat meningkatkan pertumbuhan dan hasil cabai merah, (2) pengurangan dosis pupuk sintetik urea, ZA, SP27 dan KCl hingga 25% dari dosis rekomendasi menunjukkan pertumbuhan dan hasil cabai merah lebih baik dibandingkan dosis rekomendasi, (3) pemberian pupuk mikotricho dosis 40 g (20 g mikoriza + 20 g Trichoderma) dengan pengurangan 25% pupuk sintetik memberikan pertumbuhan jumlah daun, luas daun, dan jumlah cabang yang optimal serta peningkatan hasil cabai (15.4 t ha-1) sebesar 22.2% dibandingkan tanpa pupuk mikotricho dengan dosis rekomendasi (12.6 t ha-1). Pemberian pupuk mikotricho 20 g (10 g mikoriza dan 10 g Trichoderma) dan pengurangan dosis pupuk sintetik 25%, peningkatan hasil 15.8% (14.6 t ha-1) dibandingkan tanpa pupuk mikotricho dan dosis rekomendasi pupuk sintetik. Kata kunci: biopestisida, budidaya, cabai merah, pupuk hayati
Effect of planting media and nutrient solutions and their interaction on growth and yield of shallot on hydroponic wick system was studied. The study was conducted in a screen house. A two factor experiment with three replications, arranged in randomized completed block design, was carried out. First factor was types of planting media i.e. sand, sand+husk charcoal (1:1), and sand+sawdust (1:1). Second factor was types of nutrient solution i.e. AB Mix, fermented urine of rabbit, and fermented vermicompost. Observed variables were plant height, leaf, tiller, and bulb number, root volume, total root length, plant fresh weight, and bulb dry weight. Data were analysed by F test followed by DMRT at a 5% error level. Results showed that shallot grown on sand+sawdust was the lowest, but types of media did not have significant effect on the other variables; plants supplied with fermented vermicompost nutrient solution had the lowest values for all observed variables. It was concluded that 50% substitution of sand with husk charcoal or sawdust did not reduce yield of shallot; solution of fermented urine of rabbit could replace solution of AB Mix, but solution of fermented vermicompost could not replace AB Mix solution for growing shallot on wick system.
<p>Bawang merah merupakan jenis sayuran umbi yang potensial secara ekonomi. Produksi dan harganya yang fluktuatif menjadikan komoditas ini perlu mendapat perhatian yang serius, khususnya untuk pengembangan budidayanya ke lahan marjinal yang masih luas di Indonesia. Tujuan penelitian adalah menerapkan bioteknologi pupuk hayati mikoriza spesifik lokasi lahan marjinal berbasis azolla (Mikola) dan pengurangan dosis pupuk anorganik pada budidaya tanaman bawang merah. Metode penelitian berupa percobaan pot di rumah plastik menggunakan rancangan Central Composit Second Order Design dengan 2 faktor. Faktor pertama, dosis pupuk Mikola yaitu 6, 12, 18, 24, 30 g tanaman-1 dan faktor kedua adalah pengurangan dosis pupuk anorganik Urea, ZA, SP 36 dan KCl yaitu 20%, 40%, 60%, 80% dan 100% dari dosis anjuran. Analisis dilakukan dengan metode Respon Surface Methodology (RSM) dengan model persamaan matematika : Yi= β0X0 + β1X1 + β2X2 + β11X1² 1+ β22X2² +β12X1X2 + εij dengan bantuan program minitab16. Kesimpulan dari penelitian ini menunjukkan bahwa aplikasi pupuk Mikola pada budidaya tanaman bawang merah di pot dengan dosis 18 gram per tanaman dapat mengurangi pemakaian pupuk anorganik hingga 40% dari dosis rekomendasi dan meningkatkan hasil hingga 15%.</p><p><strong>Keywords</strong></p><p>Mikoriza, azolla, pupuk hayati, bawang merah, sayuran</p><p><strong>Abstract</strong></p><p>Shallots is a kind of tuber vegetable economic potential. Production and the price fluctuating commodity makes it necessary for serious concer, particularly for the development of cultivation into marginal land that is still widespread in Indonesia. The objective of research was to apply of biofertilizer mycorrhizal marginal land of azolla based (Mikola) and dose reduction of inorganic fertilizers in the cultivation of shallot. The research was pot experiment using the Central Composite Second Order Design with 2 factors. The factors are the dose of Mikola namely 6, 12, 18, 24, 30 g plant-1 and reduction of Urea, ZA, SP 36, KCl i.e. 20%, 40%, 60%, 80% and 100% of recommended doses. The analysis using Response Surface Methodology, a mathematical equation: Yi= β0X0 + β1X1 + β2X2 + β11X1² 1+ β22X2² +β12X1X2 + εij. The conclusion showed that the application of Mikola fertilizers on the shallot planting with 18 grams per plant can eliminate the use of inorganic fertilizers up to 40% of the dose recommendation and increase the yield up to 15%.</p>
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