Research Article
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Year 2016, Volume: 21 Issue: 2, 261 - 268, 15.12.2016
https://doi.org/10.17557/tjfc.75186

Abstract

References

  • Aguado, A., B.D.L. Santos, D. Gamane, L.G.D. Moral and F. Romero. 2010. Gene effects for cotton-fibre traits in cotton plant (Gossypium hirsutum L.) under Verticilliumconditions. Field Crops Res. 116: 209-217.
  • Ali, B., M.S. Iqbal, M.K.N. Shah, G. Shabbir and N.M. Cheema. 2011. Genetic analysis for various traits in Gossypium hirsutum L. Pak. J. Agri. Res. 24: 8-13.
  • Ali, I., A. Shakeel, A.A. Khan and B. Sadia. 2015. Genetic basis of variation for within-boll yield components in cotton. Turk J. Agri. For. DOI: 10.3906/tar-1409-117.
  • Ashraf, M. and S. Ahmad. 2000. Genetic effects for yield components and fibre characteristics in upland cotton (Gossypium hirsutum L.) cultivated under salinized (NaCl) conditions. Agronomie, 20: 917–926.
  • Azhar, F.M., M. Naveed and A. Ali. 2004. Correlation analysis of seed cotton yield with lint characteristics in Gossypium hirsutum L. Int. J. Agri. Bio. 6: 656-658.
  • Bardak, A. and Y. Bolek. 2012. Genetic diversity of diploid and tetraploid cottons determined by SSR and ISSR markers. Turkish J. Field Crops. 17: 139-144.
  • Basal, H. and I. Turgut. 2005. Genetic analysis of yield components and fibre strength in upland cotton (Gossypium hirsutum L.). Asian J. Plant Sci. 4: 293-298.
  • Basal, H., A. Unay, O. Canavar and I. Yavas. 2009. Combining ability for fibre quality parameters and within-boll yield components in intraspecific and interspecific cotton populations. Spanish J. Agri. Res. 7: 364-374.
  • Bednarz, C.W., R.L. Nichols and S.M. Brown. 2006. Plant density modifications of cotton within-boll yield components. Crop Sci. 46: 2076-2080.
  • Bednarz, C.W., R.L. Nichols and S.M. Brown. 2007. Within-boll yield components of high yielding cotton cultivars. Crop Sci. 47: 2108-2112.
  • Chattha, W.S., J. Farooq, A. Ahmad, S.A. Kang and M.N. Haq. 2013. Correlation analysis of quality and yield contributing traits in upland cotton (Gossypium hirsutum L.). Int. J. Modern Agri. 2: 95-101.
  • Coyle, G.G. and C.W. Smith. 1997. Combining ability for within-boll yield components in cotton, Gossypium hirsutum L. Crop Sci. 37: 1118-1122.
  • Culp, T.W. and D.C. Harrell. 1975. Influence of lint percentage, boll size and seed size on lint yield of upland cotton with high fibre strength. Crop Sci. 15: 741-746.
  • Desalegn, Z., N. Ratanadilok and R. Kaveeta. 2009. Correlation and heritability for yield and fibre quality parameters of Ethiopian cotton (Gossypium hirsutum L.) estimated from 15 diallel crosses. Kasetsart J. Nat. Sci. 43: 1-11.
  • Farooq, J., M. Anwar, M. Riaz, A. Mahmood, A. Farooq and M.S. Iqbal. 2013. Association and path analysis of earliness yield and fibre related traits under cotton leaf curl virus (CLCuV) intensive conditions in Gossypium hirsutum L. Plant Knowledge J. 2: 43-50.
  • Green, C. and T.W. Culp. 1990. Simultaneous improvement of yield, fibre quality and yarn strength in upland cotton. Crop Sci. 30: 66-69.
  • Hodson, E.A. 1920. Lint frequency in cotton with a method for determination. pp. 3-11. Ark. Agri. Exp. Sta. Bul. No. 168.
  • Imran, M., A. Shakeel, F.M. Azhar, J. Farooq, M.F. Saleem, A. Saeed, W. Nazeer, M. Riaz, M. Naeem and A. Javaid. 2012. Combining ability analysis for within-boll yield components in upland cotton (Gossypium hirsutum L.). Genet. Mol. Res. 11: 2790-2800.
  • Iqbal, M.Z. and M.A. Nadeem. 2003. Generation mean analysis for seed cotton yield and number of sympodial branches per plant in cotton (Gossypium hirsutum L.). Asian J. Plant Sci. 2: 395-399.
  • Kempthorne, O. 1957.An introduction to genetics statistics.New York, John Wiley and Sons Inc. London.
  • Khan, N.U., G. Hassan, M.B. Kumbhar, K.B. Marwat, M.A. Khan, A. Parveen and M. Saeed. 2009. Combining ability analysis to identify suitable parents for heterosis in seed cotton yield, its components and lint% in upland cotton. Indust. Crops and Prod. 29: 108-115.
  • Pakistan Economic Survey.2012-13. Government of Pakistan.Ministry of Finance, Economic Advisors Wing, Islamabad.
  • Pearson, K. 1920. Notes on history of correlation. Biometrika 13: 25-45.
  • Pole, S., S. Kamble, I. Madrap and D. Sarang. 2008. Diallel analysis for combining ability for seed cotton yield and its components in upland cotton (Gossypium hirsutum L.). J. Cotton Res. Develop. 22: 19-22.
  • Preetha, S. and T. Raveendran. 2008. Combining ability and heterosis for yield and fibre quality traits in line × tester crosses of upland cotton (Gossypium hirsutum L.). Int. J. Plant Breed. Genet. 2: 64-74.
  • Pushpam, R. and T.S. Raveendran. 2005. Heterosis and combining ability studies in upland cotton for fibre characters. Tropical Agric. Res. Ext. 8: 65-70.
  • Sarwar, G., M. Baber, N. Hussain, I.A. Khan, M. Naeem, M. Amanullah and A.A. Khan. 2011. Genetic dissection Sarwar, G., M. Baber, N. Hussain, I.A. Khan, M. Naeem, M. Amanullah and A.A. Khan. 2011. Genetic dissection of yield and its components in upland cotton (Gossypium hirsutum L.). African J. Agri. Res. 6: 2527-2531.Shakeel, A., F.M.
  • Azhar and I.A. Khan. 2008. Assessment of earliness in Gossypium hirsutum L. Pak. J. Agri. Sci. 45: 80-87.
  • Smith, C.W. and C.G. Coyle. 1997. Association of fibre quality parameters and within-boll yield components in upland cotton. Crop Sci. 37: 1775-1779.
  • Subhan, M., M. Qasim, R.D. Ahmad, M.U. Khan, M.A. Khan and M.A. Amin. 2003. Diallel analysis for estimating combining ability of quantitatively inherited traits in upland cotton. Asian J. Plant Sci. 2: 853-857.
  • Swamy, M.L., M. Gopinath, K. Gopala and K. Murthy. 2013. Line × tester analysis for yield and yield attributes in upland cotton (Gossypium hirsutum L.). Helix. 5: 378-382.
  • Tang, F. and W. Xiao. 2013. Genetic effects and heterosis of within-boll yield components in upland cotton (Gossypium hirsutum L.). Euphytica. 194: 41-51.
  • United States Department of Agriculture. Foreign Agriculture Service. World Agricultural Production. Circular series WAP 12-13. December, 2013.
  • Worley, S., T.W. Culp and D.C. Harrell. 1974. The relative contributions of yield components to lint yield of upland cotton, Gossypium hirsutum L. Euphytica. 23: 399-403.
  • Yuan, L., T. Zhang, W. Guo, J. Pan and R.J. Kohel. 2001. Heterosis and gene action of boll weight and lint percentage in high quality fibre property varieties in upland cotton. Zuowuxuebao. 28: 196-202.
  • Zangi, M.R., N.B. Jelodar, S.K. Kazemitabar and M. Vafaeitabar. 2009. Cytoplasmic and combining ability on fibre quality traits in intra and inter-specific crosses of tetraploid cotton (G. hirsutum L. × G. barbadense L.). American-Eurasian J. Agri. Env. Sci. 5: 519-525.

THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON

Year 2016, Volume: 21 Issue: 2, 261 - 268, 15.12.2016
https://doi.org/10.17557/tjfc.75186

Abstract

Increase in productivity and selection procedures chiefly depend upon genetic control of yield related traits,
combining ability of the genotypes for concerned characters and association of these parameters among
themselves and with the final yield. Single and three way crosses in cotton were analyzed for genetic behavior,
combining ability, heterosis and correlation of various traits related to boll (synonymously known as withinboll
yield traits) and fibre quality. The experiments were carried out at the Department of Plant Breeding and
Genetics, University of Agriculture, Faisalabad. Crosses were made using line × tester mating design. All the
genotypes showed highly significant variability with respect to all the parameters studied. Variances for both
general combining ability (GCA) and specific combining ability (SCA) were significant for most of the traits
however variances due to SCA were higher than variance due to GCA for all the traits. Likewise dominance
variance (D) was higher than additive variance (A) which indicated dominant genetic behavior of the traits.
The line BH-160 was found to be the best general combiner for most of the traits like average boll weight,
number of seeds per boll, seed mass per boll, lint mass per boll, seed volume, seed surface area, seed cotton
yield per plant and fibre fineness. Among testers, CIM-496 exhibited the highest GCA effects for boll weight,
seed mass per boll, lint mass per boll and seed cotton yield per plant, while for number of seeds per boll, staple
length and fibre strength, S-12 was considered the best. Highest SCA effects for boll weight, number of seeds
per boll and seed mass per boll were displayed by (NIAB-228 × BH-160) × Reshmi-90. Most of the boll related
traits revealed significant positive correlation with seed cotton yield. 

References

  • Aguado, A., B.D.L. Santos, D. Gamane, L.G.D. Moral and F. Romero. 2010. Gene effects for cotton-fibre traits in cotton plant (Gossypium hirsutum L.) under Verticilliumconditions. Field Crops Res. 116: 209-217.
  • Ali, B., M.S. Iqbal, M.K.N. Shah, G. Shabbir and N.M. Cheema. 2011. Genetic analysis for various traits in Gossypium hirsutum L. Pak. J. Agri. Res. 24: 8-13.
  • Ali, I., A. Shakeel, A.A. Khan and B. Sadia. 2015. Genetic basis of variation for within-boll yield components in cotton. Turk J. Agri. For. DOI: 10.3906/tar-1409-117.
  • Ashraf, M. and S. Ahmad. 2000. Genetic effects for yield components and fibre characteristics in upland cotton (Gossypium hirsutum L.) cultivated under salinized (NaCl) conditions. Agronomie, 20: 917–926.
  • Azhar, F.M., M. Naveed and A. Ali. 2004. Correlation analysis of seed cotton yield with lint characteristics in Gossypium hirsutum L. Int. J. Agri. Bio. 6: 656-658.
  • Bardak, A. and Y. Bolek. 2012. Genetic diversity of diploid and tetraploid cottons determined by SSR and ISSR markers. Turkish J. Field Crops. 17: 139-144.
  • Basal, H. and I. Turgut. 2005. Genetic analysis of yield components and fibre strength in upland cotton (Gossypium hirsutum L.). Asian J. Plant Sci. 4: 293-298.
  • Basal, H., A. Unay, O. Canavar and I. Yavas. 2009. Combining ability for fibre quality parameters and within-boll yield components in intraspecific and interspecific cotton populations. Spanish J. Agri. Res. 7: 364-374.
  • Bednarz, C.W., R.L. Nichols and S.M. Brown. 2006. Plant density modifications of cotton within-boll yield components. Crop Sci. 46: 2076-2080.
  • Bednarz, C.W., R.L. Nichols and S.M. Brown. 2007. Within-boll yield components of high yielding cotton cultivars. Crop Sci. 47: 2108-2112.
  • Chattha, W.S., J. Farooq, A. Ahmad, S.A. Kang and M.N. Haq. 2013. Correlation analysis of quality and yield contributing traits in upland cotton (Gossypium hirsutum L.). Int. J. Modern Agri. 2: 95-101.
  • Coyle, G.G. and C.W. Smith. 1997. Combining ability for within-boll yield components in cotton, Gossypium hirsutum L. Crop Sci. 37: 1118-1122.
  • Culp, T.W. and D.C. Harrell. 1975. Influence of lint percentage, boll size and seed size on lint yield of upland cotton with high fibre strength. Crop Sci. 15: 741-746.
  • Desalegn, Z., N. Ratanadilok and R. Kaveeta. 2009. Correlation and heritability for yield and fibre quality parameters of Ethiopian cotton (Gossypium hirsutum L.) estimated from 15 diallel crosses. Kasetsart J. Nat. Sci. 43: 1-11.
  • Farooq, J., M. Anwar, M. Riaz, A. Mahmood, A. Farooq and M.S. Iqbal. 2013. Association and path analysis of earliness yield and fibre related traits under cotton leaf curl virus (CLCuV) intensive conditions in Gossypium hirsutum L. Plant Knowledge J. 2: 43-50.
  • Green, C. and T.W. Culp. 1990. Simultaneous improvement of yield, fibre quality and yarn strength in upland cotton. Crop Sci. 30: 66-69.
  • Hodson, E.A. 1920. Lint frequency in cotton with a method for determination. pp. 3-11. Ark. Agri. Exp. Sta. Bul. No. 168.
  • Imran, M., A. Shakeel, F.M. Azhar, J. Farooq, M.F. Saleem, A. Saeed, W. Nazeer, M. Riaz, M. Naeem and A. Javaid. 2012. Combining ability analysis for within-boll yield components in upland cotton (Gossypium hirsutum L.). Genet. Mol. Res. 11: 2790-2800.
  • Iqbal, M.Z. and M.A. Nadeem. 2003. Generation mean analysis for seed cotton yield and number of sympodial branches per plant in cotton (Gossypium hirsutum L.). Asian J. Plant Sci. 2: 395-399.
  • Kempthorne, O. 1957.An introduction to genetics statistics.New York, John Wiley and Sons Inc. London.
  • Khan, N.U., G. Hassan, M.B. Kumbhar, K.B. Marwat, M.A. Khan, A. Parveen and M. Saeed. 2009. Combining ability analysis to identify suitable parents for heterosis in seed cotton yield, its components and lint% in upland cotton. Indust. Crops and Prod. 29: 108-115.
  • Pakistan Economic Survey.2012-13. Government of Pakistan.Ministry of Finance, Economic Advisors Wing, Islamabad.
  • Pearson, K. 1920. Notes on history of correlation. Biometrika 13: 25-45.
  • Pole, S., S. Kamble, I. Madrap and D. Sarang. 2008. Diallel analysis for combining ability for seed cotton yield and its components in upland cotton (Gossypium hirsutum L.). J. Cotton Res. Develop. 22: 19-22.
  • Preetha, S. and T. Raveendran. 2008. Combining ability and heterosis for yield and fibre quality traits in line × tester crosses of upland cotton (Gossypium hirsutum L.). Int. J. Plant Breed. Genet. 2: 64-74.
  • Pushpam, R. and T.S. Raveendran. 2005. Heterosis and combining ability studies in upland cotton for fibre characters. Tropical Agric. Res. Ext. 8: 65-70.
  • Sarwar, G., M. Baber, N. Hussain, I.A. Khan, M. Naeem, M. Amanullah and A.A. Khan. 2011. Genetic dissection Sarwar, G., M. Baber, N. Hussain, I.A. Khan, M. Naeem, M. Amanullah and A.A. Khan. 2011. Genetic dissection of yield and its components in upland cotton (Gossypium hirsutum L.). African J. Agri. Res. 6: 2527-2531.Shakeel, A., F.M.
  • Azhar and I.A. Khan. 2008. Assessment of earliness in Gossypium hirsutum L. Pak. J. Agri. Sci. 45: 80-87.
  • Smith, C.W. and C.G. Coyle. 1997. Association of fibre quality parameters and within-boll yield components in upland cotton. Crop Sci. 37: 1775-1779.
  • Subhan, M., M. Qasim, R.D. Ahmad, M.U. Khan, M.A. Khan and M.A. Amin. 2003. Diallel analysis for estimating combining ability of quantitatively inherited traits in upland cotton. Asian J. Plant Sci. 2: 853-857.
  • Swamy, M.L., M. Gopinath, K. Gopala and K. Murthy. 2013. Line × tester analysis for yield and yield attributes in upland cotton (Gossypium hirsutum L.). Helix. 5: 378-382.
  • Tang, F. and W. Xiao. 2013. Genetic effects and heterosis of within-boll yield components in upland cotton (Gossypium hirsutum L.). Euphytica. 194: 41-51.
  • United States Department of Agriculture. Foreign Agriculture Service. World Agricultural Production. Circular series WAP 12-13. December, 2013.
  • Worley, S., T.W. Culp and D.C. Harrell. 1974. The relative contributions of yield components to lint yield of upland cotton, Gossypium hirsutum L. Euphytica. 23: 399-403.
  • Yuan, L., T. Zhang, W. Guo, J. Pan and R.J. Kohel. 2001. Heterosis and gene action of boll weight and lint percentage in high quality fibre property varieties in upland cotton. Zuowuxuebao. 28: 196-202.
  • Zangi, M.R., N.B. Jelodar, S.K. Kazemitabar and M. Vafaeitabar. 2009. Cytoplasmic and combining ability on fibre quality traits in intra and inter-specific crosses of tetraploid cotton (G. hirsutum L. × G. barbadense L.). American-Eurasian J. Agri. Env. Sci. 5: 519-525.
There are 36 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

İmtiaz Alı This is me

Amir Shakeel This is me

Asif Saeed This is me

Manzoor Hussaın This is me

Ahsan Irshad This is me

Muhammad Tariq Mahmood This is me

Zia Ullah Zıa This is me

Waqas Malık This is me

Muhammad Kashif Azız This is me

Muhammad Arshad Hussaın This is me

Publication Date December 15, 2016
Published in Issue Year 2016 Volume: 21 Issue: 2

Cite

APA Alı, İ., Shakeel, A., Saeed, A., Hussaın, M., et al. (2016). THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON. Turkish Journal Of Field Crops, 21(2), 261-268. https://doi.org/10.17557/tjfc.75186
AMA Alı İ, Shakeel A, Saeed A, Hussaın M, Irshad A, Mahmood MT, Zıa ZU, Malık W, Azız MK, Hussaın MA. THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON. TJFC. December 2016;21(2):261-268. doi:10.17557/tjfc.75186
Chicago Alı, İmtiaz, Amir Shakeel, Asif Saeed, Manzoor Hussaın, Ahsan Irshad, Muhammad Tariq Mahmood, Zia Ullah Zıa, Waqas Malık, Muhammad Kashif Azız, and Muhammad Arshad Hussaın. “THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON”. Turkish Journal Of Field Crops 21, no. 2 (December 2016): 261-68. https://doi.org/10.17557/tjfc.75186.
EndNote Alı İ, Shakeel A, Saeed A, Hussaın M, Irshad A, Mahmood MT, Zıa ZU, Malık W, Azız MK, Hussaın MA (December 1, 2016) THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON. Turkish Journal Of Field Crops 21 2 261–268.
IEEE İ. Alı, “THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON”, TJFC, vol. 21, no. 2, pp. 261–268, 2016, doi: 10.17557/tjfc.75186.
ISNAD Alı, İmtiaz et al. “THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON”. Turkish Journal Of Field Crops 21/2 (December 2016), 261-268. https://doi.org/10.17557/tjfc.75186.
JAMA Alı İ, Shakeel A, Saeed A, Hussaın M, Irshad A, Mahmood MT, Zıa ZU, Malık W, Azız MK, Hussaın MA. THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON. TJFC. 2016;21:261–268.
MLA Alı, İmtiaz et al. “THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON”. Turkish Journal Of Field Crops, vol. 21, no. 2, 2016, pp. 261-8, doi:10.17557/tjfc.75186.
Vancouver Alı İ, Shakeel A, Saeed A, Hussaın M, Irshad A, Mahmood MT, Zıa ZU, Malık W, Azız MK, Hussaın MA. THE MOST BASIC SELECTION CRITERIA FOR IMPROVING YIELD AND QUALITY OF UPLAND COTTON. TJFC. 2016;21(2):261-8.

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