Jurnal TANAH TROPIKA (Journal of Tropical Soils), Vol 17, No 2

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Application of Bokashi Botom Ash for Increasing Upland Rice Yield and Decreasing Grain Pb Content in Vitric Hapludans

Nunung Sondari, Ervina Siti Nurkhalidah

Abstract


Greenhouse experiment was conducted at Agricultural Faculty of Winaya Mukti University Tanjungsari Sumedang
Regency, from May to October 2009. The objective of this experiment was to study the effect of bokashi bottom ash
on the growth, yield, and Pb content of upland rice. The experiment used a Randomized completely Block Design
(RBD) which consisted of five treatments and five replications. The treatments were level of bokashi bottom ash i.e.
0, 5, 10, 15, and 20 Mg ha-1. The results showed that the application of bokashi bottom ash increased the growth and
yield of upland rice of Situbagendit variety except plant height at age of 21 days after seedling (DAS). Application
15 Mg ha -1 of bokashi bottom ash gave the best effect to the plant height, number of leaves, number of tillers and
shoot/root ratio, while applications of 10, 15 and 20 Mg ha -1 increased number of productive tillers, amount of filled
grains, and weight of grains. Bokashi bottom ash did not affect the heavy metal content of upland rice grain of
Situbagendit variety.

[How to Cite: Sondari N and ES Nurkhalidah. 2012. Application of Bokashi Botom Ash for Increasing Upland Rice Yield and Decreasing Grain Pb Content in Vitric Hapludans. J Trop Soils 17 (2) : 157-163. Doi: 10.5400/jts.2012.17.2.157]

 

[Permalink/DOI: www.dx.doi.org/10.5400/jts.2012.17.2.157]


References


ACAA [American Coal Ash Assosiation]. 1997. Coal Combustion Pruduct-Production and Use. Alexandria, Virginia. Available online at http://www.tfhrc.gov/hnr/recycle/waste. Accessed on 29 February 2004.
Chen CK, C Lin, LC Wang, YC Lin and GPC Chien. 2008. Size distribution of metals in bottom ash of municipal solid waste incinerators. J Environ Eng Manage 18 (2): 105-115.
Cooper EM,  JT Sims, SD Cunningham, JW Huang and WR Berti. 1999. Chelate-assisted phytoextraction of lead from contaminated soils. J Environ Qual 28: 1709-1719.
CRD [Center of Research and Development]. 2008. Opportunity to gain sustainable rice production.National Department of Agriculture. Bogor.
Harjadi SS. 1991. Pengantar Agronomi. Gramedia. Jakarta (in Indonesian).
Harjowieno S. 1995. Ilmu Tanah. Akademika Pressindo, Jakarta (in Indonesian).
Jones B, W Benyamin and AM Harry. 1991. Plant analisis Hand Book. A practice sampling, preparation, analisys and interpretation guide. Micro Macro Publishing, Inc. Georgia.
Kasno A, S Adiningsih, Y Sulaeman and Subowo. 2000. Status pencemaran lead dan cadmium pada padi sawah intensifikasi jalur Pantura Jawa Barat. J I Tanah Lingk 3 (2): 25-32 (in Indonesian).
Kishor P, AK Ghosh and D Kumar. 2010. Use of flyash in agriculture: A way to improve soil fertility and its productivity. Asian J Agric Res 4 (1): 1-14.
KLH RI [Kementrian Lingkungan Hidup Republik Indonesia]. 2010. Himpunan Peraturan Perundang-undangan di Bidang Perlindungan dan Pengelolaan Lingkungan Hidup (Jilid 1). PP No.18 Tahun 1999 tentang Pengelolaan Limbah Bahan Berbahaya dan Beracun dan PP No. 85 Tahun 1999 tentang Perubahan Atas Peraturan Pemerintah No. 18 Tahun 1999 tentang Pengelolaan Limbah Bahan Berbahaya dan Beracun. Jakarta (in Indonesian).
Kumar V, G Goswami and KA Zacharia. 2000. Flyash in Agriculture. A Prespective News and Views. TIFAC. http://www.tifac.org.in/news. Accessed on 5 August 2003.
Marschner H. 1986. Mineral Nutrition of Higher Plants. Academic Press. Harcott Jovanovich Publisher. Tokyo.
Mengel K. and EA Kirkby. 1987. Principles of Plant Nutrition. 4th ed. Completely revised. International Potash Institute, Switzerland.
Nurjaya A, Emona, Zihan. and MS Saeni. 2006. Pengaruh amelioran terhadap kadar Pb tanah, serapannya serta hasil tanaman bawang merah pada Inceptisol. J I Pert Indon 8: 110-119.
Park BJ, J Lee and WI Kim. 2011. Influence of soil characteristics and arsenic, cadmium, and lead contamination on their accumulation levels in rice and human health risk through intake of rice grown nearby abandoned mines. J Korean Soc Appl Biol Chem 54 (4): 575-582.
Sauve S, M McBride and W Hendershot. 1998. Soil solution specification of lead (II): Effect of organic matter and pH. Soil Sci Soc Am J 62 (3): 618-621.
Schlossberg MJ, CP Vanags and WP Miller. 2003. Bermudagrass sod growth and metal uptake in coal combustion by-product-amended media. J Environ Qual 33: 740-748.
Sharma P and RS Dubey. 2005. Lead toxicity in plants. Braz J Plant Physiol 17 (1): 35-52.
Sondari N. 2006. N-total dan P-tersedia Tanah serta Hasil Hermada / Sorghum Akibat Pemberian Bottom Ash dan Pupuk Hijau pada Typic Kanhapludults. J Wacana Pert V: 45-50.
Sondari N. 2005. Beberapa Sifat Fisika dan Kimia Tanah, Konsentrasi Hara, serta Hasil Hermada (Sorghum bicolor L. Moench) akibat Pemberian Abu Sisa Bakaran Batubara (ASBB) dan Pupuk Hijau pada Typic Kanhapludults. [Dissertation] Program Pasca Sarjana Universitas Padjadjaran Bandung (in Indonesian).
Sondari, N. 2009. Pertumbuhan kadar logam berat pb dan hasil padi gogo (Oryza sativa L.) akibat pemberian kombinasi limbah batubara bottom ash dan bokashi bottom ash. J I Tanah Lingk 9 (2): 88-94.
Stevens G and D Dunn. 2004. Fly ash as a liming material for cotton. J Environ Qual 33: 343-348.
Veli S, L Kirli, B Alyuz and E Durmusoglu. 2008. Characterizaion of bottom ash, fly ash, and filter cake produced from hazardous waste incineration. Polish J Environ Stud 17 (1): 139-145.
Willcox OW. 1954. Quantitative agrobiology: III. The Mitscherlich equation and its constants. Agron J 46: 323-326.

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