The aim of the study was to determine the effect of NPK fertilizer and its varieties and their interactions on the growth and production of rice with the salibu system. The research was conducted in Kubu Raya Regency from June to September 2022. The research design used a factorial randomized block design. The first factor was the provision of NPK with 3 levels (NPK fertilizer dose of 200 kgha-¹, 400 kg ha^-1, 600 kg ha^-1) and the second factor was the use of various types of varieties with 8 levels (Inpari 22, Inpari 24, Inpari 30, Inpari 32, Cilosari , Jeliteng, Baromah, Sulutan). The results showed that the NPK fertilization of various rice varieties in the crusading system was only able to affect plant height at the age of 5-6 WAC. NPK fertilization at a dose of 600 kg ha^-1 can increase the growth and yield of rice in the crusader cultivation system in the variables of the number of productive tillers, the weight of harvested dry grain per clump, the weight of dry harvested and milled dry grain per plot and the potential for crop production per hectare. Not all rice varieties can produce good crosses. Varieties with high production potential per hectare are Inpari 32, Inpari 22, Sulutan, Baroma, Inpari 24, and Jeliteng varieties, respectively. Meanwhile, Inari 30 and Cilosari have milled dry unhusked rice and the lowest production potential, so it is not recommended to plant with the cruciferous system. The success of the cruciferous rice depends on the main crop, which is shown by the results of the main crops that align with the crusader rice yields.

 Keywords: NPK fertilizer, salibu, variety

INTISARI

Tujuan penelitian untuk mengetahui pengaruh interaksi pupuk NPK dan varietas terhadap pertumbuhan dan produksi padi dengan sistem salibu. Penelitian dilakukan di Kabupaten Kubu Raya pada bulan Juni-September 2022. Rancangan penelitian menggunakan rancangan acak kelompok faktorial. Faktor pertama pemberian NPK dengan 3 taraf (dosis pupuk NPK 200 kg/ha, 400 kg/ha, 600 kg/ha) dan Faktor kedua penggunaan berbagai jenis varietas dengan 8 taraf (Inpari 22, Inpari 24, Inpari 30, Inpari 32, Cilosari, Jeliteng, Baromah, Sulutan). Hasil penelitian diperoleh bahwa pemupukan NPK berbagai varietas padi pada sistem budidaya salibu hanya mampu mempengaruhi tinggi tanaman pada umur 5-6 MSP. Pemupukan NPK dengan dosis 600 kg/ha dapat meningkatkan pertumbuhan dan hasil padi pada sistem budidaya salibu pada variabel jumlah anakan produktif, berat gabah kering panen per rumpun, berat gabah kering panen dan kering giling per petak serta potensi produksi tanaman per hektar. Tidak semua Varietas padi dapat menghasilakn salibu yang baik. Varietas yang mampu menghasilkan potensi produksi per hektar yang tinggi yaitu secara berturut-turut pada varietas Inpari 32, Inpari 22, Sulutan, Baroma, inpari 24, dan Jeliteng. Sedangkan Inpari 30 dan Cilosari memiliki Gabah Kering Giling dan  potensi produksi terendah sehingga tidak dianjurkan ditanam dengan sistem salibu. Keberhasilan padi salibu tergantung dari tanaman utamanya, yang ditunjukkan hasil tanaman utama yang sejalan dengan hasil padi salibu.

 Kata Kunci: pupuk NPK, salibu, varietas

Albahri. 2023. Respon Pertumbuhan dan Hasil Beberapa Varietas Padi pada Lahan Sawah Tadah Hujan di Desa Rasau Jaya. Skripsi (tidak dipublikasikan). Fakultas Pertanian Universitas Tanjungpura. Pontianak.

Amnal. 2009. Respon Fisiologi Beberapa Varietas Padi terhadap Cekaman Besi. Tesis. Sekolah Pascasarjana. Institut Pertanian Bogor.

Audebert, A. 2006. Iron partitioning as a mechanism for iron toxicity tolerance in low land rice. In. Audebert A, L.T. Narteh, D. Killar, and B. Beks. (Ed.). Iron Toxicity in Rice-Based System in West Africa. Africa Rice Center (WARDA).

Badan Penelitian dan Pengembangan Pertanian. 2015. Panduan Teknologi Budidaya Padi Salibu. Kementerian Pertanian Republik Indonesia.

Badan Pusat Statistik Kalimantan Barat. 2010. Kalimantan Barat dalam Angka, BPS Kalbar Pontianak.

Bandaogo, A., Bidjokazo, F., Youl, S., Safo, E., Abaidoo, R., and Andrews, O. 2015. Effect of Fertilizer Deep Placement with Urea Supergranule on Nitrogen Use Efficiency of Irrigated Rice in Sourou Valley (Burkina Faso). Nutrient Cycling in Agroecosystems, 102(1), 79–89.

Dobermant, A., and T. Fairhust. 2000. Rice Nutrient Disorders and Nutrient Management. Potash and Phosphate Institute of Canada and International Rice Research Institute. Oxford Geographic Printers Pte Ltd. Canada, Philiphine. p.35-43

Erdiman, Nieldalina, dan Misran. 2014. Inovasi Teknologi Salibu Meningkatkan Produktivitas Lahan, Mendukung Swasembada Pangan Berkelanjutan. Laporan Hasil Pengkajian Tahun 2014. BPTP Sumatera Barat.

Husna, Y., dan Ardian. 2010. Pengaruh Penggunaan Jarak Tanam terhadap Pertumbuhan dan Produksi Padi Sawah (Oryza sativa L.) Varietas IR 42 dengan Metode SRI (System of Rice Intensification). Jurnal SAGU. 9 (1): 21-27.

Islam, M. S., M. Hasannuzzaman, dan Rukonuzzaman. 2008. Ratoon Rice Response to Different Fertilizer Doses in Irrigated Condition. Journal Agric Conspect Sci. 73-4 (2008): 197-202.

Ismunadji, M. Sya, dan A. Mahyuddin. 1989. Padi. Pusat Penelitian dan Pengembangan Tanaman Pangan. Bogor.

Longsxin T.W.X., dan M. Shaokai. 2002. Physiologycal Effects of SRI Method on the Rice Plant. China National Rice Research Institute. Hangzhou, Cornel International For Food. Agiculture and Development.

Matsuo T, dan K. Hoshikawa. 1993. Science of the Rice Plant Volume one; Morphology. Food and Agriculture Policy Research, Tokyo.

McCauley, N., F. T.,Turner, M. O. Way, and L. J. Vawter. 2006. Hybrid Ratoon Management. RiceTech.

Perwira, D., Aryunis, dan A. Riduan. 2023. Pengaruh Padi Lokal Jambi dan Padi Unggul Nasional terhadap Pengaplikasian Biochar di Lahan Rawa Pasang Surut. Jurnal Ilmiah Universitas Batanghari Jambi. 23 (1): 939-948.

Santos, A.B., N.K. Fageria, A.S. Prabhu. 2003. Rice ratooning management practices for higher yields. Communication Soil Science. J. Plant Anal 34: 881-918.

Sunadi, M. Z. H. Utama, dan Badal. 2020. Growth and Yield of Paddy Rice With a One-One Planting System and Furrow Irrigation in The SRI Method. IOP Publishing. IOP Conf. Series: Earth and Environmenta. Jilid 542.

Vergara, B.S. 1995. A Farmer’s Primer on Growing Rice. IRRI, Los Banos Philiphina.

Yafizham, dan D. R. Lukiwati. 2019. Produksi Empat Varietas Padi Sawah yang Diberi Kombinasi Pupuk Bio-Slurry dan NPK. Agrotechnology Research Journal. 3 (1): 23-27.

Zarzawi, L.H. 2022. Karakter Morfologi, Fisiologi dan Mekanisme Adaptasi Tanaman Padi Pada Sistem Ratun Modifikasi Salibu (Modified Ratoon Salibu) Di Indonesia. IPB Bogor.