PENGUJIAN JARAK TANAM DUA GALUR HASIL PERSILANGAN PADI GOGO LOKAL BENGKULU PADA PERTUMBUHAN DAN HASIL

Asfaruddin Asfaruddin; Sunarti Sunarti; Tenzi Mardalena

doi:10.32663/ja.v19i1.1796

Authors

Asfaruddin Asfaruddin Universitas prof. Dr. Hazairin, SH
Sunarti Sunarti Universitas Prof. Dr. Hazairin, SH
Tenzi Mardalena Universitas Prof. Dr. Hazairin, SH

DOI:

https://doi.org/10.32663/ja.v19i1.1796

Keywords:

lines, planting distance, upland rice

Abstract

This study aims to determine the right planting distance for the growth and results plant of local upland rice in Bengkulu, find the local upland Bengkulu rice lines that provide optimal growth and results, and find out the good planting distance for each Bengkulu upland rice lines for optimal growth and results. This study uses a Split Plot design inside RKAL two treatments and three replications. The main plot treatment of the two levels is lines UNHZ 31 and lines UNHZ 12. And three-stage plot treatment is planting distance 25 x 25 cm, planting distance 30 x 30 cm, and planting distance 35 x 35 cm. The results of the analysis of variance were continued with a significantly different test at the levels 5 % and 1 %. The parameters observed were plant height, the total number of tillers, panicle length, number of productive tillers, age of flowering 80 %, age of harvest, the weight of 100 grains, grain weight per clump, grain weight per plot, the weight of wet crop and weight of the dry crop. The results significantly affected grain weight per clump, wet crop weight, and dry crop weight. Significantly affected plant height 4 MST, 6 MST, 8 MST, 10 MST, post-harvest, total number of tillers 8 MST, 10 MST, and productive tillers. Not significantly affected plant height 2 MST, the total number of tillers 6 MST, panicle length, flowering age 80 %, harvest age, weight of 100 grains, and grain weight per plot. Treatment of 35 x 35 cm spacing and lines UNHZ 12 showed the best results on each observation but not cumulative.

References

Adimiharja, J., Kartahadimaja, J., dan Syuriani, E. E. 2016.Karakter Agronomi dan Potensi Hasil Galur Tanaman Padi (Oryza sativa L.) yang Terbentuk Pada Generasi Ke-Tiga (F3).Jurnal Penelitian Pertanian Terapan Vol. 17 (1):33-39

Asfaruddin dan Mulatsih S. 2014. Evaluasi Karakter Agronomi Galur (F4) Hasil Persilangan Padi Gogo Lokal Bengkulu Pada Budidaya Organik dan Anorganik Bengkulu.Bengkulu.Universitas Prof.Dr. Hazairin, SH Fakultas Pertanian Program Studi Agroteknologi.
Asfaruddin dan Mulatsih S. 2016. Pengujian Ketahanaan Galur Hasil Persilangan Padi Gogo Lokal Bengkulu Pada Kondisi Kekurangan Air. Jurnal Agroqua. 14(2).
Bozorgi, H.R., A. Faraji, R.K. Danesh, A. Keshavarz, E. Azarpour, F. Tarighi. 2011. Effect of Plant Density on Yield and Yield Components of Rice.World Applied Sciences Journal 12 (11): 2053-2057.
BPS. 2017. Impor Beras Menurut Negara Asal Utama,2000-2017.Jakarta. Badan Pusat statistik.
BPS. 2018. Rata-Rata Konumsi Per kapita Minggu Beberapa Macam Bahan Makanan Penting,2007-2018.Jakarta. Badan Pusat statistik.
BPS. 2019. Luas Lahan Ladang/Huma Menurut Provinsi Di Indonesia 2012- 2016. Jakarta. Badan Pusat statistik.
Edi, S. 2013. Keragaman Varietas dan Galur Harapan Padi Gogo Pada Daerah Aliran Sungai Batang Asai Sarolangun Jambi. 2(3): 113-121
Kementan, R. 2018. Produksi Padi Ladang Menurut Provinsi 2014- 2017. Jakarta.Kementrian Pertanian.
Kementan, R. 2018. Optimis Produksi Beras 2018 Kementan pastikan Harga Beras Stabil.Jakarta. Kementrian Pertanian.
Suhendrata, T. 2017. Pengaruh Jarak Tanam Pada Sistem Tanam Jajar Legowo Terhadap Pertumbuhan, Produktivitas dan Pendapatan Petani Padi Sawah di Kabupaten Sragen Jawa Tengah. SEPA.13(2): 188-194.
Ruminta, Wahyudin, A., Dan Sakinah, S. 2017. Respon Pertumbuhan dan Hasil Tanaman PadiTerhadap Jarak Tanam Pada Lahan Tadah HujanDengan Menggunakan Pengairan Intermittent.Agrin. 21(1):46-58.