Assess Correlation between Traits of Sorghum Affected Different Rate of Nitrogen Fertilizer and Vermicompost under Water Stress Situation
محورهای موضوعی : Journal of Crop Nutrition ScienceSeyedeh Zohreh Hashemi 1 , Saeed Zakernejad 2 , Khoshnaz Payandeh 3
1 - Msc. Graduated, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Assistant Professor, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
3 - Assistant Professor, Department of Soil Science, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
کلید واژه: harvest index, leaf area, Seed weight</i>, Relation between traits, <i>Biomass,
چکیده مقاله :
BACKGROUND: Yield in Sorghum, similar to the other crops, is a complex trait and constitute by many of morphological and physiological traits. Mentioned trait is affected by genotype and environmental factors because it is a quantitative trait.OBJECTIVES: This study was conducted to predict the most effective traits on sorghum seed yield according correlation between characteristics in response to apply different irrigation regime and nutrition crop.METHODS: Current research was done according split plot experiment based on randomized complete blocks design with four replications along 2017 year. The main factor included water deficit stress at three level (A1: 70, A2: 100 and A3: 130 mm Class A evaporation pan) and combined effect of nitrogen fertilizer and vermicompost at five level (B1: 100% Nitrogen; 100% pure nitrogen equivalent to 200 kg per hectare, B2: 75% Nitrogen+25% Vermicompost, B3: 50% Nitrogen+50% Vermicompost, B4: 25% Nitrogen+75% Vermicompost, B5: 100% Vermicompost) belonged to sub plot.RESULT: According result of analysis of variance effect of different level of irrigation regime and combined effect of nitrogen fertilizer and vermicompost on all measured traits was significant but interaction effect of treatments (instead seed yield and biologic yield) was not significant. Simple correlation coefficients between traits were estimated according to Pearson coefficient. The most positive and significant correlation was observed between seed yield and biologic yield (0.859**), harvest index (-0.703**) and number of seed per raceme (0.646**) at 1% probability level. The traits of number of raceme per race (0.641*), race length (0.541*), number of seed per race (0.533*) and chlorophyll index (0.521*) had correlation with the seed yield was significant at 5% probability level.CONCLUSION: According to the results of this research, characteristics such as of biologic yield, harvest index and number of seed per raceme had the most positive-direct effects on Sorghum seed yield can be proposal to plant breeder to more studied process such as stepwise regression and path analysis.
Abderrahmane, H., F. Abidine, B. Hamenna. and B. Ammar. 2013. Correlation, path analysis and stepwise regression in durum wheat (Triticum durum L.) under rainfed conditions. J. Sust. Agri. 3(2): 122-131.
Alghamd, S. S. 2007. Genetic behavior of some selected faba bean genotypes. Afri. Crop Sci. Conf. Proc. 8: 709-714.
Al-Salim, S. H. F., M. M. Saleh, R. H. A. ALbourky. and A. L. Abdurahman. 2017. Correlation and regression analysis in sorghum under different levels of nitrogen. J. Sci. Agri. 1: 69-78.
Ana, M. J., K. S. Ankica, S. Dejana, M. Radovan. and H. Nikola. 2009. Phenotypic and molecular evaluation of genetic diversity of rapeseed (Brassica napus L.) genotypes. Afr. J. Biotech. 8(19): 4835-4844.
Artoz, M. 2012. Determining relationships among yield and some yield components using path analysis of sorghum. Msc. Thesis. Faculty of Agri. Sci. Ental Univ. 121 pp.
AOAC. 1990. Official methods of analysis, association of official analytical chemists. 15th Ed. Arlington. Virginia. USA.
Badolay, A., J. S. Hooda. and B. P. S. Malik. 2009. Correlation and path analysis in fababean (Vicia faba L.). J. Haryana Agron. 25: 94-95.
Bremner, J. M. and G. A. Breitenbeck. 1983. A simple method for determination of ammonium in semi micro Kjeldahl analysis of soils and plant materials using a block digester. Soil Sci. Plant Anal. 14: 905-913.
Falconer, D. S. 1981. Introduction to quantitative genetics. Second Edition. Longman. New York. USA.
Gardner, F. P., R. B. Pearce. and R. L. Mitchell. 1985. Physiology of crop plants. Ames, IA: Iowa State Univ. Press. USA. 121 pp.
Ghalejoughi, E. S., S. Lack. and M. A. Fazel. 2013. Analysis of correlation and stepwise regression between grain yield and related traits of Corn hybrids. Intl. J. Agri. Crop Sci. 6(2): 100-102.
Ghobary, H. M. M. and S. A. M. Abd-Allah. 2010. Correlation and path coefficient studies in common bean (Phaseolus vulgaris L.). J. Plant Prod. 9: 1233–1239.
Gunasekera, C. P., L. D. Martin, K. H. M. Siddique. and G. H. Walton. 2006. Genotype by environment interactions of Indian mustard (Brassica juncea L.) and Rapeseed (B. napus L.) in Mediterranean-type environments. 1. Crop growth and seed yield. Euro. J. Agron. 25:1-12.
Jafari, A. 2001. Genetic distance of 29 permanent ryegrass genotypes by cluster analysis based on yield and morphological traits. Genetic modification of plants for forestry research. Res. Inst. Forests Range Pub. 6: 79-91.
Keneni, G. and M. Jarso. 2002. Comparison of three secondary traits as determination of grain yield in Faba bean on water logged vertisols. J. Genet. Breed. 56: 314-325.
Kumar, N. V., C. V. C. M. Reddy. and P. V. R. M. Reddy. 2012. Study on character association in Rabi Sorghum (Sorghum bicolor L. Moench). Plant Arch. 12(2):1049-1051.
Mahasi, M. J. and J. W. Kamundia. 2007. Cluster analysis in rapeseed (Brassica napus L.), Afr. J. Agri. Res. 2(9): 409-411.
Majumder, D. A. N., A. K. M. Shamsuddin, M. A. Kabir. and L. Hassan. 2008. Genetic variability, correlated response and path analysis of yield and yield contributing traits of spring wheat. J. Bangladesh Agri. Univ. 6(2): 227-234.
Marjanovic-Jeromela, A., A. Kondic-Spika, D. Saftic-Pankovic, R. Marinkovic. and N. Hristov. 2009. Phenotypic and molecular evaluation of genetic diversity of rapeseed (Brassica napus L.) genotypes. Afr. J. Biotech. 8(19): 4835-4844.
Mohammadi, M., P. Sharifi, R. Karimizadeh, M. Kazem. and M. K. Shefazadeh.2012. Relationships between grain yield and yield components in bread wheat under different water availability (dry land and supplemental irrigation conditions). Not. Bot. Hortic. Agro Bot. 40(1): 195-200.
Nadimpour, T. and M. Mojaddam. 2015. The effect of drought stress and time of distribution of nitrogen fertilizer on the yield and yield components of grain sorghum. Indian J. Fundamental and Appl. Life Sci. 5(1): 5463-5468.
Newman, Y., J. Erickson, W. Vermerris. and D. Wright. 2010. Forage Sorghum (Sorghum bicolor): Overview and Management. University of Florida IFAS Extension. http://edis.ifas.ufl.edu.
Qulipor, A., N. Latifi, K. Qasemi. and M. Moqadam. 2004. Comparative growth and grain yield of Canola under dry land conditions in Gorgan. J. Agri. Sci. Natural Res. 11(1): 5-14. (Abstract in English)
Sabaghnia, N., H. Dehghani, B. Alizadeh. and M. Mohghaddam. 2010. Interrelationships between seed yield and 20 related traits of 49 canola (Brassica napus L.) genotypes in non-stressed and water-stressed environments. Spanish J. Agri. Res. 8(2): 356-370.
Semahegn Belete, Y. 2011. Genetic variability, correlation and path analysis studies in Ethiopian mustard (Brassica carinata A. Brun) genotypes. Intl. J. Plant Breed. Genetics. 5(4): 328–338.
Sharifi, P., H. Astaraki, F. Sheikh. and A. Izadi-Darbandi. 2020. Study the relationships between yield and yield component of faba bean (Vicia faba L.) genotypes by multivariate analyses. Iranian J. Pulses Res. 11(1): 74-87. (Abstract in English)
Tadesse, T., M. Fikere, T. Legesse. and A. Parven. 2011. Correlation and path coefficient analysis of yield and its component in faba bean (Vicia faba L.) germplasm. Inter. J. Biodiv. Conserv. 3: 376-382.
Ulukan, H., G. Mustafa. and K. Siddik. 2003. A Path Coefficient Analysis Some Yield and Yield Components in Faba Bean (Vicia faba L.) Genotypes. Pak. J. Biol. Sci. 6: 1951-1955.
Undersander, D. J., L. H. Smith, A. R. Kamiski, K. A. Kelling. and J. D. Doll. 2013. Sorghum-Forage. Alternative field crops manual. Univ. Wisconsin Cooperative Extension.