ESTIMATION OF GENE ACTION FOR THE SELECTION OF SUPERIOR PARENTS AND THEIR CROSS COMBINATIONS FOR YIELD AND FIBER ASSOCIATED ATTRIBUTES IN AMERICAN COTTON (GOSSYPIUM HIRSUTUM L.)

Authors

  • A FATIMA Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan
  • A SAEED Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan
  • MI ULLAH Cotton Research Institute Multan, Pakistan
  • SAH SHAH Soil and Water Testing Laboratory, Mianwali, Pakistan
  • M IJAZ Rice Research Station, Bahawalnagar, Pakistan
  • MR ANWAR Rice Research Station, Bahawalnagar, Pakistan
  • A KHALIQ Sugarcane Research Institute, Faisalabad, Pakistan
  • SM CHOHAN Cotton Research Station Faisalabad, Pakistan
  • MN KHALID Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan
  • A KHAN Maize and Millets Research Institute Yusafwala Sahiwal, Pakistan
  • I AMJAD Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Pakistan

DOI:

https://doi.org/10.54112/bcsrj.v2022i1.151

Keywords:

genetic variability, line × tester, Gossypium hirsutum, combining ability, gene action

Abstract

Cotton is very important crop regarding the global trade. It is grown for its fiber and edible oil in Pakistan. It contributes 1.5 percent to GDP and 69 percent in foreign exchange. There is need to enhance the yield per unit area of cotton by developing high yielding and stress tolerant varieties. In breeding program the parents and their crosses are selected on the basis of their combining ability. Combining ability analysis is performed to identify the general and specific combiner for yield attributed traits. This research was performed for evaluation of four lines as female parents (C-1, CIM-616, TIPO-1 and CYTO-608) and three testers as male parents (NIAB-1048, CYTO-124 and CIM-600) of cotton (Gossypium hirsutum L.). The traits such as plant height, first fruiting node, seed cotton yield, monopodial branches, sympodial branches, ginning out turn percentage, number of bolls per plant, height to node ratio and cotton seed yield was tested. The general combining ability of parental lines and specific combining ability of the F1 cross will be determined for yield related traits. The genotypes with good general combining ability and specific combining ability further exploited for hybrid/variety development programs. For most of the traits like number of monopods per plant, boll weight per plant, seed cotton yield, number of nodes per plant, 1st fruiting node, intermodal distance, ginning out turn percentage, cotton seed yield, seed index, plant height, fiber strength, fiber length, fiber uniformity and fiber fineness value had more value for dominance variance. The higher effects of GCA and SCA indicated that there is the role of additive and non-additive gene action for inheritance of traits.

Downloads

Download data is not yet available.

References

Abbas, H. G., Mahmood, A., & Ali, Q. (2016). Zero tillage: a potential technology to improve cotton yield. Genetika, 48(2), 761-776.

Ali, Q., Ahsan, M., Ali, F., Aslam, M., Khan, N. H., Munzoor, M., ... & Muhammad, S. (2013). Heritability, heterosis and heterobeltiosis studies for morphological traits of maize (Zea mays L.) seedlings. Advancements in Life sciences, 1(1):52-63.

Ali, Q., Ahsan, M., Kanwal, N., Ali, F., Ali, A., Ahmed, W., ... & Saleem, M. (2016). Screening for drought tolerance: comparison of maize hybrids under water deficit condition. Advancements in Life Sciences, 3(2), 51-58.

Ali, Q., Ali, A., Ahsan, M., Nasir, I. A., Abbas, H. G., & Ashraf, M. A. (2014). Line× Tester analysis for morpho-physiological traits of Zea mays L seedlings. Advancements in Life sciences, 1(4), 242-253.

Chaudhry, U. F., Khalid, M. N., Aziz, S., Amjad, I., Khalid, A., Noor, H., & Sajid, H. B. (2022). International Journal of Agriculture and Biosciences. Int J Agri Biosci11, 59-69.

Farooq, M. A., Shakeel, A., Zafar, M. M., Farooq, M., Chattha, W. S., & Husnain, T. (2020). A study towards the development of salt tolerant upland cotton (Gossypium Hirsutum L.). Journal of Natural Fibers, 1-17.

Gnanasekaran, M., Thiyagu, K., & Gunasekaran, M. (2019). Combining ability and heterosis studies for seed cotton yield and fibre quality traits in hirsutum cotton. Electronic Journal of Plant Breeding10, 1519-1531.

Hafeez, A., Razzaq, A., Ahmed, A., Liu, A., Qun, G., Junwen, L., Shi, Y., Deng, X., Zafar, M. M., & Ali, A. (2021a). Identification of hub genes through co-expression network of major QTLs of fiber length and strength traits in multiple RIL populations of cotton. Genomics113, 1325-1337.

Hafeez, M. N., Khan, M. A., Sarwar, B., Hassan, S., Ali, Q., Husnain, T., & Rashid, B. (2021b). Mutant Gossypium universal stress protein-2 (GUSP-2) gene confers resistance to various abiotic stresses in E. coli BL-21 and CIM-496-Gossypium hirsutum. Scientific reports, 11(1), 1-19.

Hassan, A., Khalid, M. N., Rehman, Z. U., Amjad, I., Mudasir, M., Rasheed, Z., & Chaudhry, U. F. (2021). Hormones Performs a Crucial Role in the Regulation of Cotton Fiber Synthesis.

Ijaz, M., Akram, M. S., Irfan, M., Khalid, M., Hassan, M., & Shafiq, M. (2021). Biology and Management of Cotton Grey Weevil: A Review. Current Research in Agriculture and Farming2, 17-21.

Khokhar, E., Shakeel, A., Maqbool, M., Abuzar, M., Zareen, S., Aamir, S., & Asadullah, M. (2018). Studying combining ability and heterosis in different cotton (Gossypium hirsutum L.) genotypes for yield and yield contributing traits. Pakistan Journal of Agricultural Research31, 55-68.

Mahmood, T., Wang, X., Ahmar, S., Abdullah, M., Iqbal, M. S., Rana, R. M., Yasir, M., Khalid, S., Javed, T., & Mora-Poblete, F. (2021). Genetic potential and inheritance pattern of phenological growth and drought tolerance in cotton (Gossypium hirsutum L.). Frontiers in plant science12, 705392.

Manan, A., Zafar, M. M., Ren, M., Khurshid, M., Sahar, A., Rehman, A., Firdous, H., Youlu, Y., Razzaq, A., & Shakeel, A. (2022). Genetic analysis of biochemical, fiber yield and quality traits of upland cotton under high-temperature. Plant Production Science25, 105-119.

Mudasir, M., Noman, M., Zafar, A., Khalid, M. N., Amjad, I., & Hassan, A. (2021). Genetic Evaluation of Gossypium hirsutum L. for Yield and Fiber Contributing Attributes in Segregating Population. Int. J. Rec. Biotech9, 1-9.

Puspito, A. N., Rao, A. Q., Hafeez, M. N., Iqbal, M. S., Bajwa, K. S., Ali, Q., ... & Husnain, T. (2015). Transformation and evaluation of Cry1Ac+ Cry2A and GTGene in Gossypium hirsutum L. Frontiers in plant science, 6, 943.

Rani Chapara, S. R. M., & Satish, Y. (2020). Combining ability studies in cotton (Gossypium hirsutum L.) for yield and fibre quality parameters. IJCS8, 523-527.

RAZZAQ, A., ZAFAR, M. M., ALI, A., HAFEEZ, A., BATOOL, W., SHI, Y., GONG, W., & YUAN, Y. (2021). Cotton germplasm improvement and progress in Pakistan. Journal of Cotton Research4, 1-14.

Sultan, M., Abdel-Moneam, M., El-Mansy, Y., & El-Morshidy, H. S. (2018). Estimating of Heterosis and Combining Ability for some Egyptian Cotton Genotypes Using Line X Tester Mating Design. Journal of Plant Production9, 1121-1127.

Zafar, M. M., Jia, X., Shakeel, A., Sarfraz, Z., Manan, A., Imran, A., Mo, H., Ali, A., Youlu, Y., & Razzaq, A. (2022a). Unraveling heat tolerance in upland cotton (Gossypium hirsutum L.) using univariate and multivariate analysis. Frontiers in plant science12, 727835.

Zafar, M. M., Mustafa, G., Shoukat, F., Idrees, A., Ali, A., Sharif, F., Shakeel, A., Mo, H., Youlu, Y., & Ali, Q. (2022b). Heterologous expression of cry3Bb1 and cry3 genes for enhanced resistance against insect pests in cotton. Scientific reports12, 1-11.

Zhang, Y., Li, W., Hu, Y., Ding, T., Zafar, M. M., Jia, X., Zhang, L., Ren, M., Li, F., & Wang, W. (2022). Cotton flower metabolites inhibit SARS‐CoV‐2 main protease. FEBS Open bio12, 1886-1895.

Downloads

Published

2022-11-26

How to Cite

FATIMA, A., SAEED, A., ULLAH, M., SHAH, S., IJAZ, M., ANWAR, M., KHALIQ, A., CHOHAN, S., KHALID, M., KHAN, A., & AMJAD, I. (2022). ESTIMATION OF GENE ACTION FOR THE SELECTION OF SUPERIOR PARENTS AND THEIR CROSS COMBINATIONS FOR YIELD AND FIBER ASSOCIATED ATTRIBUTES IN AMERICAN COTTON (GOSSYPIUM HIRSUTUM L.). Biological and Clinical Sciences Research Journal, 2022(1). https://doi.org/10.54112/bcsrj.v2022i1.151

Issue

Section

Original Research Articles

Most read articles by the same author(s)

<< < 1 2 3 4 5 6 7 > >>