Character association and path analysis of soybean (Glycine max L.) genotypes under water deficit stress

Paper Details

Research Paper 01/10/2013
Views (412) Download (10)
current_issue_feature_image
publication_file

Character association and path analysis of soybean (Glycine max L.) genotypes under water deficit stress

Mohammad Mehdi Pour-Siahbidi, Jafar Hoseinzadeh, Alireza Pour-Aboughadareh, Abdolreza Bazdar, Hamid Besati, Houshang Naseri Rad
Int. J. Biosci.3( 10), 126-132, October 2013.
Certificate: IJB 2013 [Generate Certificate]

Abstract

Knowledge of interrelationships between seed yield and its contributing components will improve the efficiency of breeding programs through the use of appropriate selection indices. The objective of this study was to evaluate of interrelationships among seed yield and related characters in four soybean genotypes. The genotypes were evaluated using a split-plots design based on randomized complete block with three replications. The stress conditions consisted of three different levels of water deficit stress: I1: irrigation during all growth stages as control treatment, I2: omit irrigation at the onset of flowering stage (R1) and I3: omit irrigation at the onset of grain filling stage (R6). Under normal and abnormal irrigations the correlation of seed yield and three characters biological yield, oil yield and protein yield were positive significantly. However, under water deficiency the relation between seed yield and oil percent was positive significantly. Path analysis was used to partition the correlations between seed yield and most related characters. Under normal irrigation condition the most direct effect was obtained from number of pod per plant followed by the protein yield and oil yield. Also, in this condition the highest indirect effect was obtained from number of pod through protein yield, followed oil yield through number of pod per plant. Under water deficiency conditions the most direct effect of characters on seed yield was obtained from number of seed per plant, followed the protein yield and oil yield. The most indirect effect of characters was observed from oil yield through number of seed per plant followed the protein yield through number of seed per plant.

VIEWS 13

Aslam M, Khan IA, Saleem M, Ali Z. 2006. Assessment of water stress tolerance indifferent maize accessions at germination and early growth stage. Pakistan Journal of Botany 38(5), 1571-1579.

Board JE, Kang MS, Harville BG. 1997. Path analyses identify indirect selection criteria for yield of late-planted soybean. Crop Science 37, 879–884, http://dx.doi.org/10.2135/cropsci1997.0011183X003 700030030x

Ceccarelli S, Grando S. 1996. Droughts a challenge for the plant breeder. Plant Growth Regulation 20, 149-155, http://dx.doi.org/ 10.1007/BF00024011

Dewey DR, Lu KH. 1959. Correlation and path-coefficient analysis of components of crested Wheat grass seed production. Agronomy Journal 51, 515–518,http://dx.doi.org/10.2134/agronj1959.00021962005100090002x

Farshadfar E. 2004. Multivariate principles and procedures of statistics. Taghbostan press, Kermanshah, Iran. 734 p.

Garcia Del Moral LF, Rharrabti Y, Villegas D, Royo C. 2003. Evaluation of grain yield and its components in durum wheat under Mediterranean conditions. Agronomy Journal 95, 266–274, http://dx.doi.org/10.2134/agronj2003.2660

Ghassemi-Golezani K, Farshbaf-Jafari S. 2012. Influence of water deficit on oil and protein accumulation in soybean grains. International Journal of Plant, Animal and Environmental Sciences 2(3), 46-52.

Inamullah A, Isoda A. 2005. Adaptive responses of soybean and cotton to water stress. Plant Production Science 8(2), 16-26.

Kang MS, Miller JD, Tai PYP. 1983. Genetic and phenotypic path analyses and heritability in sugarcane. Crop Science 23, 643–647, http://dx.doi.org/10.2135/cropsci1983.0011183X002 300040010x

Khalili M, Pour Aboughadareh AR, Naghavi MR, Naseri Rad H. 2013. Path analysis of the relationships between seed yield and some of morphological traits in safflower (Carthamus tinctorius L.) under normal irrigated and rainfed conditions. Technical Journal of Engineering and Applied Sciences 3(15), 1692-1696.

Kobraei S, Etminan A, Mohammadi R, Kobraei S. 2011. Effects of drought stress on yield and yield components of soybean. Annals of biological Research 2(5), 504-509.

Vendruscolo LGE. 2007. Stress-induced synthesis of proline confers tolerance to water deficit in transgenic wheat. Journal Plant Physiology 164(10), 1367-1376, http://dx.doi.org/10.1016/j.jplph.2007.05.001

Malik MFA, Qureshi AS, Ashraf MA. Ghafoor A. 2006. Genetic variability of the main yield related characters in soybean. International Journal of Agriculture and Biology 8, 815–819.

Milligan SB, Gravois KA, Bischoff KP, Martin FA. 1990. Crop effects on genetic relationships among sugarcane traits. Crop Science 30, 927–931, http://dx.doi.org/10.2135/cropsci1990.0011183X003 000040034x

Moustafa MA. Boersma L, Kronstad WE. 1996. Response of four spring wheat cultivars to drought stress. Crop Science 36, 982-986. http://dx.doi.org/10.2135/cropsci1996.0011183X003 600040027x

Puri YP, Qualset CO, Williams WA. 1982. Evaluation of yield components as selection criteria in barley breeding. Crop Science. 22, 927–931. http://dx.doi.org/10.2135/cropsci1982.0011183X002 200050007x

Roy-Macauley H, Zuily-Fodil H, Kidric Y, Pham-Thi  M,  Silva  JV.  1992.  Effect of drought stress on proteolytic activities in phaseolus and vigna leaves from sensitive and resistant plants. Physiologia Plantrum 85(1), 90-96. http://dx.doi.org/10.1111/j.1399-3054.1992.tb05268.x

Sadras VO, Milroy SP. 1996. Soil-water thresholds for the responses of leaf expansion and gas exchange: A review. Field Crops Research 47, 253-266, http://dx.doi.org/10.1016/0378-4290(96)00014-7

Samonte OPB, Wilson LT, McClung AM. 1998. Path analyses of yield and yield related traits of fifteen diverse rice genotypes. Crop Science 38, 1130–1136, http://dx.doi.org/10.2135/cropsci1998.0011183X003 800050004x

Shinde AK, Birari SP, Bhave SG, Joshi RM. 1996. Correlation and path coefficient analysis in soybean (Glycine max L.). Annual of Agriculture Research 17, 28–32.

Silvieira JAG, Costa RCI, Viefgas RA, Olive-Ina JTA. Figueiredo MVB. 2003. N-compound accumulation and carbohydrate shortage on n2 fixation in drought stressed and rewatered cowpea plants. Spanish Journal of Agricultural Research 1(3), 65-75.

Taware SP, Halvankar GB, Raut VM. 1997. Variability, correlation and path analysis insome germplasm lines of soybean (Glycine max L.) with high oil content. The Indian Journal of Agricultural Science 67, 476–477.

Vendruscolo LGE. 2007. Stress-induced synthesis of proline confers tolerance to water deficit in transgenic wheat. Journal Plant Physiology 164(10), 1367-1376, http://dx.doi.org/10.1016/j.jplph.2007.05.001

Vieira  Williams  WA,  Jones  MB,  Demment MW. 1990. A concise table for path analysis statistics.   Agronomy   Journal   82,   1022–1024, http://dx.doi.org/10.2134/agronj1992.00021962008400050030x

Zarei B, Kahrizi D, Pour Aboughadareh AR, Sadeghi F. 2012. Correlation and path analysis for determining interrelationships among grain yield and related  characters  in  corn  hybrids  (Zea  mays  L.). International  Journal  of  Agriculture  and  Crop Sciences 4(20), 1519-1522.