Soybean varieties suitability in agroforestry system with kayu putih under influence of soil quality parameters
Keywords:
soil type, soil characteristic, yield of soybeanAbstract
The existence of soybean varieties and soil type interaction causes differences in productivity of soybean varieties in agroforestry systems with kayu putih. Soil quality parameters (physical, chemical and biological characteristics) will affect the productivity of soybean varieties. The objective of this study was to reveal the relationship between soil quality parameters with soybean varieties suitability in agroforestry system with kayu putih over three locations in which their soil type were different, i.e. Lithic Haplusterts, Ustic Epiaquerts and Vertic Haplustalfs. The study was conducted from May to August, 2018 in Menggoran Forest Resort, Playen District, Gunungkidul Regency, Special Province of Yogyakarta, Indonesia. The highest yield of soybean per hectare on Dering I grown in Lithic Haplusterts and Ustic Epiaquerts was 1.38 and 1.27 tons.ha-1, respectively, while Grobogan in Ustic Epiaquerts 1.24 tons.ha-1. Dering I showed the mean of the highest yield and most suitable in all soil types, while Gema showed the mean of the lowest yield and not suitable in all soil types. Soil quality parameters that had a significant influenced on the production of soybean varieties in agroforestry systems with kayu putih were chemical characteristic consisting of availability of P, Mg, NH4+, Mn and Ca.
References
Adams TC (2016) Soil and plant property differences among high-yield soybean areas in Arkansas. Master Dissertation. University of Arkansasa, Fayetteville. 58p.
Alam T (2014) Optimization management of clove, cacao and cardamom agroforestry system in Menoreh Mountain Area. Doctoral Thesis. Universitas Gadjah Mada, Yogyakarta. 63p.
Alam T, Suryanto P, Nurmalasari AI & Kurniasih B (2019) GGEBiplot analysis for the suitability of soybean varieties in an agroforestry system based on kayu putih (Melaleuca cajuputi) stands. Caraka Tani: Journal of Sustainable Agriculture, 34:213–222.
Andrews SS, Karlen DL & Cambardella CA (2004) The soil management assessment framework: A quantitative soil quality evaluation method. Soil Science Society of America Journal, 68:1945–1962.
Andrews SS, Karlen DL & Mitchell JP (2002) A comparison of soil quality indexing methods for vegetable production system in Northern California. Agriculture, Ecosystems & Environment, 90:25–45.
Aubert G, Ollat C & Pinta M (1954) Analytical methods currently used at IDERT soil laboratories. Available at: http://www.documentation.ird.fr/hor/fdi:11213. Accessed on: April 2, 2019.
Ayoubi S, Khormali F & Sahrawat KL (2009) Relationship of barley biomass and grain yields to soil properties within a field in the arid region: Use of factor analysis. Acta Agriculturae Scandinavica, Section B – Soil & Plant Science, 59:107–117.
Bilgili AV, Kucuk C & van Es HM (2017) Assessment of the quality of the Harran Plain soils under long-term cultivation. Environmental Monitoring and Assessment, 189:460.
Black CA (1965) Methods of soil analysis part 2. Madison, American Society of Agronomy. 771p.
Blake GR & Hartge KH (1986) Methods of soil analysis part I: Physical and mineralogical methods. In: Klute A (Ed.) Bulk density. Madison, American Society of Agronomy. p.363–375.
Boettinger J, Chiaretti J, Ditzler C, Galbraith J, Kerschen K, Loerch C, McDaniel P, McVey S, Monger C, Owens P, Ransom M, Scheffe K, Shaw J, Stolt M & Weindorf D (2015) Illustrated guide to soil taxonomy version 2. Lincoln, USDA / Natural Resources Conservation Service / National Soil Survey Center. 133p.
Cox MS, Gerard DP, Wardlaw MC & Abshire MJ (2003) Variability of selected soil properties and their relationships with soybean yield. Soil Science Society of America Journal, 67:1296–1302.
David AB & Davidson CE (2014) Estimation method for serial dilution experiments. Journal of Microbiological Methods, 107:214–221.
Djaenudin D, Marwan H, Subagjo H & Hidayat A (2011) Technical instructions land evaluation for agricultural commodities. Bogor, Indonesian Agency for Agricultural Research and Development / Ministry of Agriculture. 48p.
Domingues LDS, Ribeiro ND, Andriolo JL, Possobom MTDF, Emanoel A & Zemolin M (2016) Growth, grain yield and calcium, potassium and magnesium accumulation in common bean plants as related to calcium nutrition. Acta Scientiarum Agronomy, 38:207–217.
Drury CF, Zhang TQ & Kay BD (2003) The non-limiting and least limiting water ranges for soil nitrogen mineralization. Soil Science Society of America Journal, 67:1388–1404.
Dwidjopuspito T (1986) Soil moisture prediction. Master Dissertation. University of The Philippines, Los Banos. 50p.
European Union (2012) Sustainable agriculture for the future we want. International Cooperation and Development, European Commission, Brussels, Belgium. Faustino LI, Moretti AP & Graciano C (2015) Fertilization with urea, ammonium and nitrate produce different effects on growth, hydraulic traits and drought tolerance in Pinus taeda seedlings. Tree Physiology, 35:1062–1074.
Gabriel KR (1971) The biplot graphic display of matrices with application to principal component analysis. Biometrica, 58:453–467.
Gauch HG (2006) Statistical analysis of yield trials by AMMI and GGE. Crop Science, 46:1488–1500.
Giller KE, Tittonell P, Rufino MC, van Wijk MT, Zingore S, Mapfumo P, Adjeinsiah S, Herrero M, Chikowo R, Corbeels M, Rowe EC, Baijukya F, Mwijage A, Smith J, Yeboah E, van der Burg WJ, Sanogo OM, Misiko M, de Ridder N, Karanja S, Kaizzi C, K’ungu J, Mwale M, Nwaga D, Pacini C & Vanlauwe B (2011) Communicating complexity: Integrated assessment of tradeoffs concerning soil fertility management within African farming system to support innovation and development. Agricultural Systems, 104:191–203.
Govaerts B, Sayre KD & Deckers J (2006) A minimum data set for soil quality assessment of wheat and maize cropping in the highlands of Mexico. Soil and Tillage Research, 87:163–174.
Hajek BF, Adams F & Cope Jr JT (1972) Rapid determination of exchangeable bases, acidity and base saturation for soil characterization. Soil Science Society of America Journal, 36:436–438.
Hatcher L & Stepanski EJ (1994) A step-by-step approach to using the sas system for univariate and multivariate statistics. North Carolina, SAS Institute. 279p.
Hinkelman K & Kempthorne O (2008) Design and analysis of experiments volume 1. 2nd ed. New Jersey, John Wiley and Sons. 278p.
Indonesian Agency for Agricultural Research and Development (2007) Integrated of crop management for irrigated rice fields. Available at: http://bbpadi.litbang.pertanian.go.id/index.php/publikasi/panduan-teknis/pengelolaan-tanaman-terpadu-pttpadi-lahan-sawah-irigasi. Accessed on: April 2, 2019.
Jandoung EA, Uguru M & Benedict O (2011) Determination of yield stability of some soybean genotypes (Glycine max (L.) merr) across diverse soil pH levels using GGE biplot analysis. Journal of Applied Biosciences, 43:2924–2941.
Jones Jr JB (2001) Laboratory guide of exercises in conducting soil test and plant analysis. Boca Raton, CRC Press. 191p.
Klee HJ & Tieman DM (2013) Genetic challenges of flavor improvement in tomato. Trends in Genetics, 29:257–267.
Krisnawati A & Adie MM (2018) Yield stability of soybean promising lines across environments. IOP Conference Series: Earth and Environmental Science, 102:012044.
Makalew AM (2011) Determination of minimum data set (mds) and soil quality index base on sustainable land management. Master Dissertation. Universitas Gadjah Mada, Yogyakarta. 2p.
Marschner H (2011) Mineral nutrition of higher plants. 3rd ed. London, Academic Press. 131p.
Moncada MP, Gabriels D & Cornelis WM (2014) Data-driven analysis of soil quality parameters using limited data. Geoderma, 235–236:271–278.
Olsen SR, Cole CV, Watanabe FS & Dean LA (1954) Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Environmental Science, 939:242-246.
Piepho HP, Nazir MF, Qamar M, Rattu AUR, Din RU, Hussain M, Ahmad G, Subhan FE, Ahmad J, Abdullah, Laghari KB, Vistro IA, Kakar MS, Sial MA & Imtiaz M (2016) Stability analysis for a countrywide series of wheat trials in Pakistan. Crop Science, 56:2465–2475.
Qi YB, Darilek JL, Huang B, Zhao YC, Sun WX & Gu ZQ (2009) Evaluating soil quality indices in an agricultural region of Jiangsu Province, China. Geoderma, 149:325–334.
Rao IM, Miles JW, Beebe SE & Horst WJ (2016) Root adaptations to soils with low fertility and aluminium toxicity. Annals of Botany, 118:593–605.
Richards LA (1954) Diagnosis and improvement of saline and alkali soils. Washington, U.S. Salinity Laboratory Staff / Departement of Agriculture. 7p.
Rousseau GX, Deheuvels O, Arias IR & Somarriba E (2012) Indicating soil quality in cocao-based agroforestry system and old-growth forests: The potential of soil macrofauna assemblages. Ecological Indicators, 23:535–543.
RStudio Team (2015) RStudio: Integrated development for R. Available at: http://www.rstudio.com/. Accessed on: April 2, 2019.
SAS Institute Inc (2013) Base SAS® 9.4. procedures guide: Statistical procedures. 2nd ed. North Carolina, SAS Institute Inc. 263p.
Shukla MK, Lal R & Ebinger M (2004a) Soil quality indicators for reclaimed minesoils in southeastern Ohio. Soil Science, 169:133–142.
Shukla MK, Lal R & Ebinger M (2004b). Principal component analysis for predicting corn biomass and grain yields. Soil Science, 169:215–224.
Sys C, Van Ranst E & Debaveye J (1991) Land evaluation part 1: Principles in land evaluation and crop production calculations. Brussels, General Administration for Development Cooperation. 53p.
Silva DD, Fonte NDSD, Souza KRDD, Brandão IR, Libeck IT & Alves JD (2017) Relationship between manganese toxicity and waterlogging tolerance in Zea mays L. cv. Saracura. Acta Scientiarum Agronomy, 39:75–82.
Smith JL, Halvorson JJ & Papendick RI (1993) Using multiplevariable indicator kriging for evaluating soil quality. Soil Science Society of America Journal, 57:743–749.
Soil Survey Staff (2014) Key to soil taxonomy version 2. Lincoln, U.S. Department of Agriculture / Natural Resources Conservation Service, National Soil Survey Center. 43p.
Stenholm A, Holmstrom S & Ragnarsson A (2009) Total nitrogen in waste water analysis: Comparison of devarda’s alloy method and high temperature oxidation followed by chemiluminescence detection. Journal of Analytical Chemistry, 64:1047–1053.
Sudaryanto T & Swastika KS (2016) Soybean economic in Indonesia. Available in: http://balitkabi.litbang.pertanian.go.id/wp-content/uploads/2016/03/dele_1.tahlim-1.pdf. Access April, 2, 2019.
Suryanto P, Tohari, Putra ETS & Alam T (2017a) Minimum soil quality determinant for rice and »kayu putih’ yield under hilly areas. Journal of Agronomy, 16:115–123.
Suryanto P, Tohari, Sulistyaningsih E, Putra ETS, Kastono D & Alam T (2017b) Estimation of critical period for weed control in soybean on agroforestry system with kayu putih. Asian Journal of Crop Science, 9:82–91.
Suwignyo B, Suryanto P, Putra ETS, Alam T & Prianto SDA (2015) Potential of corn as forage on alfisol and vertisol soil in agrosilvopastural system with kayu putih (Melaleuca leucadendron Linn.). Journal of Agricultural Science, 7:268–276.
Van Reeuwijk LP (1993) Procedures for soil analysis. Wageningen, International Soil Reference and Information Centre. 4p.
Venkatesan S & Jayaganesh S (2010) Characterisation of magnesium toxicity, its influence on amino acid synthesis pathway and biochemical parameters of tea. Research Journal of Phytochemistry, 4:67–77.
Weiner J, Shreemanta KP, Jeroen M, Gillian FB, Dirk R, Anna T & Robert PM (2012) Biomarkers of inflammation, immunosuppression and stress with active disease are revealed by metabolomic profiling of tuberculosis patients. PLoS ONE, 7:e40221.
Wu CT, Budding M, Griffin MS & Croop JM (1991) Isolation and characterization of drosophila multidrug resistance gene homologs. Molecular and Cellular Biology, 11:3940–3948.
Xu HX, Weng XY & Yang Y (2007) Effect of phosphorus deficiency on the photosynthetic characteristics of rice plants. Russian Journal of Plant Physiology, 54:741–748.
Xu FF, Tang FF, Shao YF, Chen YL, Tong C & Bao JS (2014). Genotype x environment interaction for agronomic traits of rice revealed by association mapping. Rice Science, 21:133–141.
Yao R, Yang J, Gao P, Zhang J & Jin W (2013) Determining minimum data set for soil quality assessment of typical salt affected farmland in the coastal reclamation area. Soil and Tillage Research, 128:137–148.
