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Research Article

volume 41 issue 4 (august 2018) : 602-605,   Doi: 10.18805/LR-3766

Stability of mungbean [Vigna radiata (L.) Wilczek] genotypes for seed yield during summer

P
Prakash H. Kuchanur
C
C.R.Konda
C
Channayya Hiremath
V
Vijayakumar
A
A.G.
1Department of Genetics and Plant Breeding, College of Agriculture Bheemarayanagudi, University of Agricultural Science, Raichur-585 287, Karnataka, India.

  • Submitted11-08-2016|

  • Accepted06-05-2017|

  • First Online 29-12-2017|

  • doi 10.18805/LR-3766

Cite article:- Kuchanur H. Prakash, C.R.Konda, Hiremath Channayya, Vijayakumar, A.G. (2017). Stability of mungbean [Vigna radiata (L.) Wilczek] genotypes for seed yield during summer. Legume Research. 41(4): 602-605. doi: 10.18805/LR-3766.

ABSTRACT

Experiments were conducted to study the stability performance over three environments for seed yield in mungbean cultivars during summer. Twenty two genotypes were evaluated by using randomized complete block design with three replications. The analysis of variance at individual locations showed significant differences among genotypes. Further, pooled analysis of variance over environments displayed highly significant differences among the genotypes, environments and G×E interaction and the contribution of genotypes, environments and G x E to the total variability were 31.94, 40.74 and 12.52 per cent, respectively. Based on the stability parameters genotypes, Co-6, LGG 460 and Pusa 7092 were found stable and high yielding across the years during summer.

REFERENCES

  1. Abbas, G., Manzoor, B., Mahmood, T., Siddique M., and Ahsanul H.M. (2008). Stability analysis for seed yield in mungbean [Vigna radiata (L.) Wilczek]. J. Agri. Res., 46(3) : 223-228.
  2. Ali, Y. and Sarwar G. (2008). Genotype X Environment interaction in cowpea genotypes. Int. J. Environ., 2(2): 125-132.
  3. Arunkumar, B and Konda, C. R. (2009). Genotype and environment interaction and stability analysis for seed yield in yellow mungbean (Vigna radiata L.). J. Appl. & Nat. Sci. 6 (2): 782-785
  4. Azab, M.A. (1997). Salt tolerance of two varieties of mungbean [Vigna radiata (L.) Wilczek]. Zagazig. J. Agri. Res., 24: 11-21.
  5. Chakravorty, A. and Khanikar M.. (2002). Studies on maize and pulse intercropping system during summer season. J. Agri. Sci. Soc. North East India, 15(2):188-191.
  6. Eberhart, S.A. and Russell, W.W., (1966). Stability parameters for comparing varieties. Crop Sci., 6: 36-40.
  7. Fehr, W.R., Welke, G.A., Hammond, E.G., Duvick D.N. and Cianzio, S.R., (1991). Inheritance of reduced palmitic acid content in seed oil of soybean. Crop Sci., 31: 88-89.
  8. Mahbubul, A. A. K. M. , Prakit. S., Choosak, J., Chatwachirawong, P and Srinives, P. 2014. Evaluation of mungbean genotypes based on yield stability and reaction to mungbean yellow mosaic virus disease. Plant Pathol. J., 30(3): 261-268.
  9. Mohan Lal , Kiran Pal Singh and Dhirendra Singh. (2013). Phenotypic stability for seed yield and its components characters in mungbean (Vigna radiate (L.) Wilczek. Legume Res., 36 (6): 484 – 488.
  10. Nath Anamika , Harer, P. N. and Utpal Dey. (2013). Stability analysis and G × E interaction in mungbean [Vigna radiata (L.) Wilcze]: A review. African J. Agric. Res., 8(26): 3340-3347
  11. Patel, J.D. Naika, M.R. Chaudhari, S.B. Vaghelaa, K.O. and Kodappully, V.C. (2009). Stability analysis for seed yield in greengram [Vigna radiata (L.) Wilczek). Agric. Sci. Digest., 29: 24-27.
  12. Sarma, R.N., Borthakur, A.K. and Sarma, S.K. (1993). Stability analysis in summer sown greengram (Phaseolus radiata). Indian J. Agric. Sci., 63(9):594-596.
  13. Sarobol, N. (1997). Mungbean: Past, present and future. In Proceedings of the National Mungbean Research Conference VII held at Golden Grand Hotel, Thailand, 2-4 1997, pp: 1-20.
  14. Singh, S.K., I.P. Singh, B.B. Singh and O. Singh. (2009). Stability analysis in mungbean [Vigna radiata (L.) Wilczek]. Legume Res., 32(2): 108-112.
  15. Singh Tejbir and Sharma Amitesh. (2014). Identification of stable genotypes under varying environments in mungbean. Legume Res., 37 (3): 253-258.
  16. Singh Vijayata, Yadav Ram Kumar, Yadav Rajesh, Malik R.S., Yadav Neelam R. and Singh Jogendra. (2013). Stability analysis in mungbean [Vigna radiata (L) wilczek] for nutritional quality and seed yield. Legume Res., 36(1):56- 61
  17. Srinivas, P. (2006). Research direction and legume crop development. In Proceedings of the National Legume Crop Research Conference I held at Rimkok Resort Hotel, Chiang Rai, Thailand, 2006, pp: 389.
  18. Swamy A. Appala and Reddy, G.L.K. (2004). Stability analysis of yield in mungbean [Vigna radiata (L.) Wilczek]. Legume Res., 27(2): 107.
  19. Sundararaj, N., Nagaraj, V. S., Venkataramu, M. N. and Jagannath, M. K. (1972). Design and Analysis of Field Experiments. University of Agricultural Sciences, Bangalore, p. 424. 
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    Research Article

    volume 41 issue 4 (august 2018) : 602-605,   Doi: 10.18805/LR-3766

    Stability of mungbean [Vigna radiata (L.) Wilczek] genotypes for seed yield during summer

    P
    Prakash H. Kuchanur
    C
    C.R.Konda
    C
    Channayya Hiremath
    V
    Vijayakumar
    A
    A.G.
    1Department of Genetics and Plant Breeding, College of Agriculture Bheemarayanagudi, University of Agricultural Science, Raichur-585 287, Karnataka, India.

    • Submitted11-08-2016|

    • Accepted06-05-2017|

    • First Online 29-12-2017|

    • doi 10.18805/LR-3766

    Cite article:- Kuchanur H. Prakash, C.R.Konda, Hiremath Channayya, Vijayakumar, A.G. (2017). Stability of mungbean [Vigna radiata (L.) Wilczek] genotypes for seed yield during summer. Legume Research. 41(4): 602-605. doi: 10.18805/LR-3766.

    ABSTRACT

    Experiments were conducted to study the stability performance over three environments for seed yield in mungbean cultivars during summer. Twenty two genotypes were evaluated by using randomized complete block design with three replications. The analysis of variance at individual locations showed significant differences among genotypes. Further, pooled analysis of variance over environments displayed highly significant differences among the genotypes, environments and G×E interaction and the contribution of genotypes, environments and G x E to the total variability were 31.94, 40.74 and 12.52 per cent, respectively. Based on the stability parameters genotypes, Co-6, LGG 460 and Pusa 7092 were found stable and high yielding across the years during summer.

    REFERENCES

    1. Abbas, G., Manzoor, B., Mahmood, T., Siddique M., and Ahsanul H.M. (2008). Stability analysis for seed yield in mungbean [Vigna radiata (L.) Wilczek]. J. Agri. Res., 46(3) : 223-228.
    2. Ali, Y. and Sarwar G. (2008). Genotype X Environment interaction in cowpea genotypes. Int. J. Environ., 2(2): 125-132.
    3. Arunkumar, B and Konda, C. R. (2009). Genotype and environment interaction and stability analysis for seed yield in yellow mungbean (Vigna radiata L.). J. Appl. & Nat. Sci. 6 (2): 782-785
    4. Azab, M.A. (1997). Salt tolerance of two varieties of mungbean [Vigna radiata (L.) Wilczek]. Zagazig. J. Agri. Res., 24: 11-21.
    5. Chakravorty, A. and Khanikar M.. (2002). Studies on maize and pulse intercropping system during summer season. J. Agri. Sci. Soc. North East India, 15(2):188-191.
    6. Eberhart, S.A. and Russell, W.W., (1966). Stability parameters for comparing varieties. Crop Sci., 6: 36-40.
    7. Fehr, W.R., Welke, G.A., Hammond, E.G., Duvick D.N. and Cianzio, S.R., (1991). Inheritance of reduced palmitic acid content in seed oil of soybean. Crop Sci., 31: 88-89.
    8. Mahbubul, A. A. K. M. , Prakit. S., Choosak, J., Chatwachirawong, P and Srinives, P. 2014. Evaluation of mungbean genotypes based on yield stability and reaction to mungbean yellow mosaic virus disease. Plant Pathol. J., 30(3): 261-268.
    9. Mohan Lal , Kiran Pal Singh and Dhirendra Singh. (2013). Phenotypic stability for seed yield and its components characters in mungbean (Vigna radiate (L.) Wilczek. Legume Res., 36 (6): 484 – 488.
    10. Nath Anamika , Harer, P. N. and Utpal Dey. (2013). Stability analysis and G × E interaction in mungbean [Vigna radiata (L.) Wilcze]: A review. African J. Agric. Res., 8(26): 3340-3347
    11. Patel, J.D. Naika, M.R. Chaudhari, S.B. Vaghelaa, K.O. and Kodappully, V.C. (2009). Stability analysis for seed yield in greengram [Vigna radiata (L.) Wilczek). Agric. Sci. Digest., 29: 24-27.
    12. Sarma, R.N., Borthakur, A.K. and Sarma, S.K. (1993). Stability analysis in summer sown greengram (Phaseolus radiata). Indian J. Agric. Sci., 63(9):594-596.
    13. Sarobol, N. (1997). Mungbean: Past, present and future. In Proceedings of the National Mungbean Research Conference VII held at Golden Grand Hotel, Thailand, 2-4 1997, pp: 1-20.
    14. Singh, S.K., I.P. Singh, B.B. Singh and O. Singh. (2009). Stability analysis in mungbean [Vigna radiata (L.) Wilczek]. Legume Res., 32(2): 108-112.
    15. Singh Tejbir and Sharma Amitesh. (2014). Identification of stable genotypes under varying environments in mungbean. Legume Res., 37 (3): 253-258.
    16. Singh Vijayata, Yadav Ram Kumar, Yadav Rajesh, Malik R.S., Yadav Neelam R. and Singh Jogendra. (2013). Stability analysis in mungbean [Vigna radiata (L) wilczek] for nutritional quality and seed yield. Legume Res., 36(1):56- 61
    17. Srinivas, P. (2006). Research direction and legume crop development. In Proceedings of the National Legume Crop Research Conference I held at Rimkok Resort Hotel, Chiang Rai, Thailand, 2006, pp: 389.
    18. Swamy A. Appala and Reddy, G.L.K. (2004). Stability analysis of yield in mungbean [Vigna radiata (L.) Wilczek]. Legume Res., 27(2): 107.
    19. Sundararaj, N., Nagaraj, V. S., Venkataramu, M. N. and Jagannath, M. K. (1972). Design and Analysis of Field Experiments. University of Agricultural Sciences, Bangalore, p. 424. 
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