Response of N (ZA), Si (Silicate) Fertilizers to the Intensity of Sugarcane Streak Mosaic Virus (SCSMV) Attacks on Sugarcane (Saccharum officinarum L.)
DOI:
https://doi.org/10.59651/cceria.v15i3.43Keywords:
Fertilizer N (ZA), Si (Silicate), Sugarcane Streak Mosaic Virus (SCSMV), Saccharum officinarum LAbstract
This study was conducted to determine the effectiveness of using N, Si fertilizers at certain doses to prevent further attacks caused by SCSMV. The results showed that each increase in the dose of N fertilizer on sugarcane plants will accelerate the incubation period with a regression value of 1.038% and affect the increase in intensity SCSMV attack of 3,063%. At each increase in fertilization the dose of Si can inhibit the incubation period of SCSMV and can decrease SCSMV attack intensity of 7.018%. There was no significant difference in the growth of sugarcane shoots in the F test. The use of N dose of fertilization would affect the growth process, such as plant height in increasing the N dose would affect the highest plant height increase in the 8 kw/Ha treatment. In the Si fertilization treatment there was a significant difference that each increase in dose would increase the process of plant height growth. Sugarcane (Saccharum officinarium L.) is one of the plants belonging to the grass species (Gramineae). This plant is used as raw material for sugar. Low sugar production affects the fulfillment of national sugar needs. Many things can affect the decline in sugar production, including the explosion of pests and sugarcane plant pathogens. One of the main pathogens is Sugarcane streak mosaic virus (SCSMV) which in recent years has attacked sugarcane plantations in Indonesia. The role of many nutrients needed by plants. The use of appropriate N nutrients can increase yields, and the application of Si elements can protect plants from OPT attacks.
References
Damayanti, T. A., Lilik Koesmihartono P., dan Dendi Juliadi. 2007. Kaajian Sifat Bioekologi dan Bio-molekuler virus Mosaik bergaris pada tebu di Indonesia. Lembaga Penelitian dan Pengapdian pada Masyarakat IPB. Bogor. http://web.ipb.ac.id/~lppm/ID/index.php?view=penelitian/hasilcari&status=buka&id _haslit=KKP/020.07/DAM/k
Darmodjo, S. 1986. Penyakit Virus Mosaik Tebu dan Cara Mengatasinya dengan Pemuliaan. Pusat Penelitian Perkebunan Gula Indonesia. Pasuruan.
Dellewijn, V. A. 1952. Botani Of Sugarcane The Chronica. Walthom. USA. 371 Hal.
Foth, Henry D. 1998. Dasar – Dasar Ilmu Tanah. Gadjah Mada University Press. Yogyakarta. 781 Hal.
Fox, P. L., J. A. Silva, O.R. Vounge, D. L. Plucnett dan G. P. Sherman. 1967. Soil and Plant Silicon and Silicate Response by Sugarcane. Soil. Sci. Soc. Am. Proc. 31.
Hadiastono. T. 1997. Uji ketahanan berbagai varietas kedelai terhadap serangan virus mosaik kedelai (blcmv) pada tingkat pemupukan n (urea). Agrivita. Vol 20. No 1 Jan- Maret 1997
Hadiastono, T. 1998. Pengaruh Air Dan Pupuk N (Urea) Terhadap Serangan Cucumber Mosaic Virus (CMV) Pada Tanaman Cabai. Habitat vol. 9. No. 103 Juni 1998.
Hall, Jeffrey S. 1986. Molecular Cloning. Sequencing, and phylogenetic relationship of a new potyvirus : sugarcane streak mosaic virus, and a reevauation. 1998 (10:3) :323v- 332
Hema, M., H. S. Savithri., dan P. Sreenivasulu. 2003. Comparison of Direct Biding Polymerase Chain Reaction With Recombiant Coat Protein Antibody Based dot-blot immunobiding assay and immunocapture-reversetranscription-polymerase Chain reaction For The Detection of Sugarcane Streak Mosaic Virus Causing Mosaic
Disease of Sugarcane in India. Department of Virology. Sri Venkateswara University. Current science. Vol 85 No. 12 Desember 2003
Huber, M. Don. 1980. The Role Of Mineral Nutrition In Defense Dalam Horsfall, G. J and Cawling, B. E.(editor). Plant Disease on Advanced Treatise Vol. V : How Plants Defend Themselves. Academic Press. London. 381 – 403 Hal.
Indriani dan Sumiarsih. 1992. Pembudidayaan Tebu di Lahan Sawah dan Tegalan. Penebar Swadaya. Jakarta. 65 Hal.
Irawan. 1993. Pedoman Identifikasi Penyakit Tebu Di Indonesia. P3GI. Pasuruan.
Ismail, I. 2007. Pengujian Pupuk N – Alternatif Pada Tebu Tanaman Pertama (PC) Di PG Pesantren Baru dan PG Jombang Baru. Pusat Penelitian Perkebunan Gula Indonesia. Pasuruan. http://sugarresearch.org/index.php/pengujian-pupuk-n-alternatif-padatebu-tanaman-pertama.htm
Kristin, Ari. 2006. Mosaic Booming. Gula Indonesia. Vol. XXX 1.
Linggo, P. dan Marsono. 2004. Petunjuk Penggunaan Pupuk. Penebar Swadaya. Jakarta. 162 Hal.
Marakim, A. K., E. Suhartatik dan A. Kartohardjono. 2007. Silikon : Hara Penting Pada Sistem Produksi Padi. Iptek Tanaman Pangan vol. 2 No. 2 – 2007.
Matichenkov, V. V. dan D. V. Calvert. 2002. Silicon, Unsur yang Bermanfaat Untuk Tanaman Tebu. Journal American Society of Sugarcane Technologist, vol. 22, 2002.
Muljana, W. 2001. Cocok Tanam Tebu. Aneka Ilmu. Semarang. 57 hal.
Muljana, W. 2006. Teori dan Praktek Cocok Tanam Tebu Dengan Segaala Masalahnya. Aneka Ilmu. Semarang. 57 hal.
Mulyadi, M. S., Simoen, Sumaryono, dan A. Suryadi. 2003. Formulasi dan respon Tebu Terhadap Pupuk Silikat. Pusat Penelitian perkebunan Gula Indonesia. Pasuruan.
Mulyadi, M. 2005. Formulasi Dan Respon Tebu terhadap Pupuk Silikat. Majalah Penelitian Gula XLI (1 – 4) Desember 2005.
Mulyadi, M. dan Aris Toharisman. 2008. Peran Pupuk Silikat SiplusHS Dalam Meningkatkan Produktivitas Tebu. Seminar Harian Peran Teknologi Dalam Mendukung Industri Gula Yang Tangguh Dan Berdaya Saing. Pusat Penelitian Perkebunan Gula Indonesia. Pasuruan Novizan. 2002. Petunjuk Pemupukan yang Efektif. Agromedia Pustaka. Jakarta. 114 hal.
Patrick, W. H. Jr dan K. R. Reddy. 1976. Fate Of Fertilizer In a Flooded Soil. Soil Sei. Soc. Am. Proc.
Prasetya, B. 2003. Pengaruh Pemberian Unsur Hara Makro Esensial (N, P, K, Ca, Mg, S)Terhadap Pertumbuhan Jagung (Zea mays) dan Kacang Tanah (Archis hypogam) Jurusan Tanah Fakultas Pertanian Universitas Brawijaya. Malang. 36 Hal.
Pratama, I. W., Indarto, dan Sarno. 2009. Pengaruh Pemberian Silikat Pada Pertumbuhan Awal Lima Varietas Tanaman Tebu (Saccarum officinarum L). Pustaka Ilmiah
Universitas Lampung. http://pustakailmiah.unila.ac.id/2009/07/04/pengaruhpemberian-silika-pada-pertumbuhan-awal-lima-varietas-tanaman-tebu-saccharumofficinarum-l/
Pratomo, N. 2008. Industri Gula Nasional, tidak lagi Semanis Gula. Media Group. http://mediaindonesia.com/index.php?ar_id=Mjg1ODU= Pulung. 2007. Teknik Pemberian Pupuk Silikat dan Fospat Serta Pengaruhnya Terhadap Pertumbuhan Padi Gogo Dirumah Kaca. Buletin Teknik Pertanian Vol. 12 No. 2, 2007.
Rott, P., Fernandez, E., dan Girard, J. C. 2008. In Rao Govind P. (ed), Paul Khurana S. M. (ed.), lenardon Sergio L. (ed). Characterization, diacnosis and Management of plant viruses. Industrial Crops. Stadium Press. Houston.
Rusli, D., Haryanto, E., Rukmana, R. 1992. Petunjuk Bergambar Untuk identifikasi Hama dan Penyakit Kedelai Di Indonesia. Program Nasional PHT di Jakarta. 115 Hal.
Sanches, P. A. 1976. Properties and Mnagement Of Soil In The Tropics. 1st Ed. Jonh Wiley and Sons. New York. 631 Hal.
Sastrahidayat, I. R. 1990. Ilmu Penyakit Tumbuhan. Usaha Nasional. Surabaya. 365 hal.
Semangun, H. 2000. Penyakit – Penyakit Tanaman Perkebunan Di Indonesia. Gadjah MadaUniversity Press. Yogyakarta. 835 Hal.
Sutejo, M. 1999. Pupuk dan Cara Pemupukan. PT. Rineka Cipta. Jakarta. 175 Hal.
Setyamidjaja, D dan Husaini Azharni, 1992. Tebu bercocok tanam dan pasca panen. CV. Yasaguna. Jakarta. 151 Hal.
Sugiharso dan Suseno. 1983. Penuntun Praktikum Ilmu Penyakit Tumbuhan II. Departemen Ilmu Hama dan Penyakit Tumbuhan. Fakultas Pertanian. Institut Pertanian Bogor. Bogor. 95 Hal.
Tranggono dan Widaryanto. 1986. Diktat Kuliah Budidaya Tanaman Tebu. Fakultas Pertanian. Universitas Brawijaya. Malang. 123 Hal.
Wijaya, K. A. 2008. Nutrisi Tanaman Sebagai Penentu Kualitas Hasil dan resistensi alami Tanaman. Prestasi Pustaka Publisher. Jakarta. 121 hal.
Wahyuni, S. W. 2005. Dasar – Dasar Virolog.
