Plant growth and yield of soybean and sweet corn by application soil amendment and cropping pattern on podzolic soil

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Research Paper 01/01/2018
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Plant growth and yield of soybean and sweet corn by application soil amendment and cropping pattern on podzolic soil

Teuku Fachrul Razie, Syakur, Bakhtiar Basyah
Int. J. Agron. Agri. Res.12( 1), 77-83, January 2018.
Certificate: IJAAR 2018 [Generate Certificate]

Abstract

Efforts to improve the properties of podzolic can be done by application soil amendment for example cow dung and biochar. Application of soil amendment can be combined with cropping patterns to increase growth and yield of plant. This research aims to study the growth rate and yield of soybean and sweet corn by application of soil amendment and cropping patterns on podzolic soil. This research was conducted in Teurebeh Village, Kota Jantho, Regency of Aceh Besar, and in Plant Physiology Laboratory, Faculty of Agriculture, Syiah Kuala University from June 2016 to January 2017. This research used a Randomized Block Design with 3 replications and two factors, i.e. soil amendment (NPK 400kg ha-1, biochar 10-ton ha-1, cow dung 10-ton ha-1, biochar 10-ton ha-1 + NPK 400kg ha-1, cow dung 10-ton ha-1 + NPK 400kg ha-1) and cropping pattern (soybean monoculture, sweet corn monoculture, intercropping (soybeans-sweet corn). The results showed that the soil amendment had not significantly affected on all parameters. In general, the cropping pattern had significantly affected on all parameters of observation where monoculture increase changes in plant height and yield of soybeans and sweet corn than intercropping. The highest level of sugar content was found in intercropping with NPK, while the highest LER value was shown in Biochar + NPK that was 1.45.

VIEWS 108

ACIAR Research Team. 2015. Soil and land characterization of permanent site. Field Visit Program Report. Australian: Australian Center for International Agriculture Research 10-11.

Arifin Z, Suwono, Arsyad, DM. 2014. The influence of cropping system and plant trimming on growth and yield of maize and soybean. Jurnal Pengkajian dan Pengembangan Teknologi Pertanian 17, 15-26.

Chatarina TS. 2009. Response of maize plant in monoculture system with nuts intercropping on N nutrient availability and land equivalent value of dry land. Ganec Swara 3, 17-21.

Dinariani, Heddy YBS, Guritno B. 2014. Study of the additional goat manure and different plant density on growth and yield of sweet corn (Zea mays saccharata Sturt). Jurnal Produksi Tanaman 2, 128-136.

Fan Z, An T, Wu K, Zhou F, Zi S, Yang Y, Xue G, Wu B. 2015. Effects of intercropping of maize and potato on sloping land on the water balance and surface runoff. Agricultural Water Management 166, 9-16.

Hariadi YC, Nurhayati AY, Hariyani P. 2016. Biophysical monitoring on the effect on different composition of goat and cow manure on the growth responds of maize to support sustainability. Agriculture and Agricultural Science Procedia 9, 118-127.

Herliana O, Atang, Ujiono S. 2015. The effect of fertilizer doses of multiple cropping pattern on growth and yield sweet corn and soybean. Jurnal Agroekotek 7, 129-137.

Khatir R, Ratna, Puri MA. 2015. Shelf life estimation of sweet corn based on its total soluble solid by using Arrhenius model. Agritech 35, 200-204.

Li JY, Liu ZD, Zhao AZ, Xu RK. 2013. Microbial and enzymatic properties in response to amelioration of an acidic Ultisol by industrial and agricultural by-product. Journal Soils Sediments 14, 441-450.

Maruapey A. 2011. The influence of planting distance and type of manure on weed growth and yield of sweet corn. Proceedings of the National Seminar on Cereals, Cereal Plant Research Agency, Maros 123-129.

Monzon JP, Meracu JL, Andrade JF, Caviglia OP, Cerrudo AG, Cirilo AG, Vega CRC, Andrade FH, Calvino PA. 2014. Maize-soybean intensification alternatives for the Pampas. Field Crops Research 162, 48-59.

Murdiono EW, Nihayati E, Sitawati, Azizah N. 2016. Increasing temulawak (Curcuma xanrhorrhiza) production in different cropping pattern with maize (Zea mays). Indonesian Journal of Horticulture 7(2), 129-137.

Myrna EFN, Lestari AP. 2010. Increased efficiency of solar energy conversion on soybean cultivation through maize planting with different planting distance. Jurnal Penelitian Universitas Jambi 12, 49-54.

Permanasari I, Kastono, D. 2012. The growth of corn and soybean in different planting time and corn defoliation. Journal of Agrotechnology 3, 13-20.

Rajiman. 2013. Potential land damage. Scientific and Popular Articles. High School Agricultural Extension, Yogyakarta 16 p.

Stoltz E, Nadeau E. 2014. Effect of intercropping on yield, weed incidence, forage quality and soil residual N in organically grown forage maize (Zea mays L.) and faba bean (Vicia faba L.). Field Crop Research 169, 21-29.

Surtinah. 2008. Proper harvest time determine sugar content of sweet corn seeds (Zea mays saccharata). Jurnal Ilmiah Pertanian 4, 1-4.

Susanto GWA, Sundari T. 2011. The changes of agronomy characters of soybean germplasm under shading condition. Indonesian Journal of Agronomy 39, 1-6.

Wang ZG, Bao XG, Li XF, Jin X, Zhao JH, Sun JH, Christie P, Li L. 2015. Intercropping maintains soil fertility in terms of chemical properties and enzyme activities on a timescale of one decade. Plant Soil 391, 265-282.

Wibowo A, Purwanti S, Rabaniyah R. 2013. Growth and yield of black soybean (Glycine max (L.) Merr) seed of mallika plantes by intercropping with sweet corn (Zea mays saccharata group). Vegetalika 1, 1-10.

Zhu QH, Peng XH, Huang TQ, Xiem ZB, Holden NM. 2014. Effect of biochar addition on maize growth and nitrogen use efficiency in acidic red soils. Pedosphere 24, 699-708.