Pertumbuhan, Produktivitas, dan Rendemen Pertanaman Tebu Pertama (Plant Cane) Pada Berbagai Paket Pemupukan

Nunik Eka Diana, . Supriyadi, . Djumali

Abstract


Fertilization is an effort improving soil fertility to obtain optimal results. fertilization with the right amount and type can increase growth, productivity, and yield. The study aims to understand the response of growth, productivity, and yield of sugarcane crop (plant cane) against various packages fertilization. The activities carried out in KP. Asembagus, Situbondo began November 2012-October 2013. Seven package dose of fertilizer, namely: 1) 600 kg of new inorganic compound fertilizer + 100 kg ZA; 2) 900 kg of new inorganic compound fertilizer 900 kg + 150 kg ZA; 3) 1.200 kg of new inorganic compound fertilizer + 150 kg ZA; 4) 900 kg of new inorganic compound fertilizer + 3 tons of organic fertilizer A; 5) 900 kg of new inorganic compound fertilizer + 3 tons of organic fertilizer B; 6) 600 kg of old inorganic compound fertilizer type I + 300 kg ZA; 7) 600 kg old inorganic compound fertilizer type II + 500 kg ZA arranged in a randomized block design was repeated three times. The results showed that the fertilizer package 2, 3, and 7 generates growth and productivity tends to be higher, while the fertilizer package (except packet 5) produces yields tend to be higher. The fertilizer package 1, 2, and 3 resulted in the production of crystal tends to be higher.

Keywords


crystal production; inorganic compound fertilizer; productivity; sugarcane; sugar content

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References


Ashraf MY, Hussain F, Akhter J, Gul A, Ross M, Ebert G. 2008. Effect of different sources dan rates of nitrogen dan supra optimal level of potassium fertilization on growth, yield, dan nutrient uptake by sugarcane growth under saline conditions. Pakistan Journal of Botany. 40(4): 1521-1531.

Bokhtiar SM, Sakurai K. 2005. Integrated use of organic manure dan chemical fertilizer on growth, yield dan quality of sugarcane in high Ganges river flood plain soils of Bangladesh. Communication in Soil Science and Plant Analysis. 36(13-14): 1823-1837. http://doi.org/c9ccg2

de Camargo MS, Junior ARG, Wyler P, Korndorfer GP. 2010. Silicate fertilization in sugarcane: effects on solube silicon in soil, uptake dan occurrence of stalk borer (Diatraea saccharalis). Proceeding in World Congress of Soil Science, Soil Solutions for a Changing World 1-6 August 2010, Brisbane (AU).

de Sousa-Vieira O, Milligan SB. 2005. Interrelationships of cane yield components dan their utility in sugarcane family selection: path coefficient analysis. Interciencia. 30(2) Caracas.

Dutta S, Pal R, Chakeraborty A, Chakrabarti K. 2003. Influence of integrated plant nutrient supply system on soil quality restoration in a red dan laterite soil. Archives of Agronomic and Soil Science. 49(6): 631-637. http://doi.org/bcwrhq

Farooq M, Wahid A, Kobayashi N, Fujita D, Basra SMA. 2009. Plant drought stress: effects, mechanisms, dan management. Agronomy for Sustainable Development. 29(1): 185-212. http://doi.org/fn58hx

Gravois KA, Legendre BL, Bischoff KP. 2002. Cultivar dan crop effects of sugarcane bull shoots on sugarcane yield in Louisiana. Journal American Society of Sugar Cane Technology. 22: 42-52.

Hakim M, Arifin M. 2007. Beberapa cara perbaikan tanam pada tanaman tebu ratoon. [Thesis]. Bandung (ID): Universitas Pajajaran.

Hunsigi G. 1993. Production of Sugarcane. Theory dan Practise. Berlin (DE): Springer-Vertag. http://doi.org/b32zw6

Keeping MG, Mcfarlane SA, Sewpersad N, Rutherford RS. 2010. Effects of silicon dan plant defence inducers on sugarcane yield parameters, Eldana saccharina Walker (Lepidoptera: Pyralidae) and Fulmekiola serrata Kobus (Thysanoptera: Thripidae). Proceeding of South African Sugar Technology Association. 83: 271-275.

Khan IA, Abdullah K, Ghulam SN, Siddiqui MA, Raza S, Dahar NA. 2005. Effect of NPK fertilizers on the growth of sugarcane clone AEC86-347 Developed at Nia, Tdano Jam, Pakistan. Pakistan Journal of Botany. 37(2): 355-360.

Liang YC. 2008. Effect of silicon on growth dan tolerance to stressful environments an plant diseases in higher plants including protein dan oil-bearing crops. Silicon in Agriculture, 4th International Conference, Port Edward (ZA).

Maswal ZA. 1988. Pengaruh pemupukan NPK terhadap pertumbuhan vegetatif dan produksi tebu varietas F-156 pada tanah aluvial. Bulletin. 2: 1-36.

Matichenkov VV, Dane B, Dane P, Calvert DV, Bocharnikova EA. 2002. Effect of silicon-rich slag dan lime on phosphorus leaching in sdany soils. Journal American Society of Sugarcane Technology. 22: 9-20.

Muchovej RM, Newman PR. 2004. Nitrogen fertilization of sugarcane on a sdany soil: 1. Yield dan leaf nutrient composition. Journal American Society of Sugarcane Technology. 24: 210-224.

Nurhayati, Basit A, Sunawan. 2013. Hasil tebu pertama dan keprasan serta efisiensi penggunaan hara N dan S akibat substitusi ammonium sulfat. Jurnal Agronomi Indonesia. 41(1): 54-61.

Purwanti E. 2008. Pengaruh dosis pupuk majemuk dan konsentrasi EM-4 terhadap pertumbuhan bibit stek tebu (Saccharum officinarum L.). [Skripsi]. Surakarta (ID): Universitas Sebelas Maret.

Sarlikioti V, de Visser PHB, Buck-Sorlin GH, Marcelis LFM. 2011. How plant architecture affects light absorption dan photosynthesis in tomato: towards an ideotype for plant architecture using a functional–structural plant model. Part Of a Special Issue On Functional–Structural Plant Modelling. Annals of Botany. 1-9.

Singh VK, Shukla AK, Gill MS, Sharma SK, Tiwari KN. 2008. Improving sugarcane productivity through balanced nutrition with potassium, sulphur, and magnesium. Better Crops India. 12-14.

Sitompul SM, Guritno B. 1995. Analisis Pertumbuhan Tanaman. Yogyakarta (ID): UGM Press.

Soomro AF, Tunio S, Keerio MI, Rajper I, Chachar Q, Arain MY. 2014. Effect of inorganic NPK Fertilizers under different proportions on growth, yield dan juice quality of sugarcane (Saccharum officinarum L.). Pure Application of Biology. 3(1): 10-18. http://doi.org/bvmq

Sugito Y. 1999. Pengaruh dosis pupuk organic “Azola” dan EM-4 terhadap pertumbuhan dan hasil tanaman kacang hijau (Vigna radiate L.). Habitat. 10(107): 51-58.

The Wall Street Journal Indonesia. 2013. Konsumsi Gula 2013 diprediksi naik 3%. http://indo.wsj.com/posts/2013/05/29/konsumsi-gula-2013-diprediksi-naik-3/, [29 Mei 2013].

Tjokrodirdjo HS. 1985. Fisiologi Tanaman Tebu. Yogyakarta (ID): Lembaga Pendidikan Perkebunan.

Whalen JK, Hu Q, Liu A. 2003. Compost applications increase water-stable agregates in conventional dan no-tillage systems. Soil Science and Social Of American Journal. 67(6): 1842-1847. http://doi.org/bxxkgk

Wicaksono A. 2009. Upaya peningkatan efektivitas pupuk anorganik NPK melalui pemberian pupuk organik pada pertumbuhan vegetatif tanaman tebu (Saccharum officinarum L.). [Skripsi]. Malang (ID): Universitas Brawijaya.

Yukamgo E, Yuwono NW. 2007. Peran silikon sebagai unsur bermanfaat pada tanaman tebu. Jurnal Ilmu Tanah dan Lingkungan. 7(2): 103-116.




DOI: https://doi.org/10.18343/jipi.21.3.159

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