PENGARUH BOKASHI KOTORAN SAPI DAN PUPUK FOSFAT TERHADAP MUTU FISIOLOGIS BENIH KEDELAI (Glycine max L. Merill) KULTIVAR GROBOGAN

Wulandari M M, Sumadi ., M Kadapi

Abstract


The most important increasing productivity soybean in physiological quality of seed. There for, soybean cultivation also improving soil quality for increase yield and seed quality. This research was aimed to obtain the best combination doses of bokashi cattle manure and phosphate fertilizer on yield and seed quality. This research was held at Faculty of Agriculture Padjadjaran University experimental garden in Sumedang regency and Seed Technology Labotary from November 2016 to Februari 2017. The design that used in this research was Randomized Completely Block Design and Scott-Knott at 5% rate. Treatment used in this research were Grobogan cultivars with tested combinations doses bokashi 0 t ha-1, 16 t ha-1, 32 t ha-1 and 48 t ha-1, each combined with (SP-18) doses 0 kg ha-1, 16 kg ha-1, 32 kg ha-1 and 48 kg ha-1 which were repeated three times. The result of experiment indicated significantly for weight 100 grains and quality of seed. This experiment suggested that dosage of 48ton/ha bokashi cattle manure and 32 kg ha-1 phosphate fertilizer in the best combinations of soybean crop.


Keywords: Bokashi, Phosphate fertilizer, Physiological quality, Soybean seed


Keywords


tanaman

Full Text:

PDF

References


Balai Pengawasan dan Sertifikasi Benih. 2008. Sertifikasi Benih. [online] www.pangan. litbang.pertanian.go.id. Diakses pada pada Maret 2017.

Balai Penelitian Tanaman Aneka Kacang dan Umbi (Balitkabi).

Identifikasi Masalah Keharaan Tanaman Kedelai. [online] http://balitkabi. litbang. pertanian.go.id. Diakses pada Maret 2017.

Copeland, L.O., and M.B. Mc. Donald. 2004. Principles of Seed Science and Technology Burgess Publishing Company. New York.

Iriani, E., dan J. Handoyo. 2011.Perbanyakan Sumber Kedelai

Varietas Grobogan di TingkatPetani dalam Mendukung Ketersediaan Benih di Jawa Tengah. Balai Pengkajian Teknologi Pertanian Jawa Tengah. Prosiding. Semarang. Kencana. 2008. Aktivator Dekomposisi Tanah. [online] www.kencanaonline.com. Diakses pada Mei 2017.

Raharjo, B., A. Suprihadi., dan Agustina. 2007. Pelarutan Fosfat Anorganik oleh Kultur Campur Jamur Pelarut Fosfat secara In Vitro. Jurnal Sains & Matematika Vol 15 (2): 45-54.

Sadjad, S. 1993. Dari Benih Kepada Benih. Gramedia. Jakarta.

Supadi. 2008. Menggalang Partisipasi Petani untuk Meningkatkan Produksi Kedelai Menuju Swasembada. Jurnal Litbang Pertanian, Vol 27, No 3. [online] pustaka. litbang.pertanian.go.id/pub

likasi/p3273085.pdf. Diakses pada 06 Mei 2016.

Sutopo, L. 2004. Teknologi Benih. Volume: xvi, No: 238 Raja

Grafindo Persada. Jakarta. hlm: 21.

Syafaat, Fatimah, dan Y. Arifin. 2014. Respon Varietas Tanaman Kedelai (Glycine max L.) terhadap Beberapa Jenih Pupuk Kompos. [online] www.journal.unitaspdg. ac.id. Diakses pada 28 November 2016.




DOI: http://dx.doi.org/10.33512/j.agrtek.v9i1.5047

Refbacks

  • There are currently no refbacks.


Copyright (c) 2019 Jurnal Agroekoteknologi

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

INDEXED BY:


View My Stats Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.