Investigation of Foreign Cotton Cultivars Value of Cultivation and Use (VCU) in South Khorasan Province

Document Type : Research Article

Authors

1 Agricultural Research, Education and Extension Organization (AREEO), Seed and Plant Certification and Registration Institute (SPCRI), Karaj, Iran

2 Agricultural Research, Education and Extension Organization (AREEO), South Khorasan Province, Birjand, Iran

3 Agricultural Research, Education and Extension Organization (AREEO), Plant Pathology Department, Iranian Research Institute of Plant Protection, Karaj, Iran

4 Plant Production Department of Agriculture and Natural Resources Science University of Gorgan, Iran

5 Agricultural Research, Education and Extension Organization (AREEO), Golestan province Agriculture and Natural Resources Research and Education center (Gorgan) Seed and Plant Certification and Registration Unit, Gorgan, Iran

6 Cotton and Oil Seeds Office of Jihad-e-Agriculture Organization of Golestan province, Gorgan, Iran

Abstract

Introduction
Crop cultivars are the most important factor in crop optimum quantity and quality products achievement and cotton is one of the most industrial crops. Objectives of new cotton cultivars introduction are yield increase, earliness, and resistance to biotic and abiotic stresses. Despite the improvement and introduction of numerous new cotton cultivars in Iran in recent years, new foreign cotton cultivars have also been registered, introduced, and commercialized for the first time in Iran. Therefore, the cultivation of new foreign cotton cultivars that show early maturity, high-yielding, and have good fiber quality is included in projects of the Ministry of Jihad of Agriculture for cotton cultivation development. This research was carried out to evaluate and compare the seed cotton yield and its components and some fiber qualitative characteristics of new cotton with thought VCU trial in South Khorasaد province in Birjand Mohammadieh agriculture research station to introduce and commercialize these cultivars.
Materials and Methods
Value of Cultivation and Use (VCU) of six cotton new Turkey origin cultivars including Carisma, Lydia, PG2018, BA440, Flash, and Edesa cultivars in comparison with Varamin and Khordad cultivars as the control in South Khorasan province (Birjand- Mohammadieh agriculture research station) evaluated during 2016-2017 and 2017-218 crop years by determination of seed cotton yield and its components (boll number per plant and one boll weight), earliness and fiber quality characters including fibers percent, length, fitness, flexibility, strength, uniformity, yellowness and brightness and Verticellium wilt tolerance.
Results and Discussion
Combined analysis of variance in time showed that seed cotton yield, boll number, boll weight, length, fineness, elasticity, strength, uniformity, and reflectance of fibers showed year×cultivar were significant for boll number and fiber reflectance. Also, seed cotton yield, boll weight, and fiber uniformity in the first year were more than in the second year and Varamin and Khordad control cultivars had more boll numbers in the second year. The Varamin control cultivar had the finest fibers and the Lydia foreign cultivar and the Varamin control cultivar had the most and lowest fiber elasticity respectively. Lydia foreign cultivar having 33.55 and Carisma having 29.1375 gr/tex had the most and lowest strength respectively. The most and lowest fiber reflectance belonged to the Lydia foreign cultivar and Varamin control cultivar in the first year respectively. PG2018 foreign cultivar and Varamin control had the most and lowest gin turn out respectively. Varamin and Khordad control cultivars had the lowest and the most fiber yellowness. Varamin control cultivar having 5.720 Lydia foreign cultivar having 5.645 tons per hectare and Carisma foreign cultivar having 4.625 tons per hectare had the lowest seed cotton yield. The most boll weight belonged to the Varamin control cultivar and Lydia foreign cultivar having 5.720 and 5.645 gr respectively. Varamin and Khordad control cultivars were the late early and earliest maturity cultivars having 100 and 87 days from planting to full boll opening among the studied cultivars. Also, BA440 and Lydia foreign cultivars were the most tolerant and the most sensitive to Verticillium wilt cultivars.        
Conclusion
According to the results, the control cultivars Varamin and Khordad outperformed the studied foreign cultivars in terms of seed cotton yield, yield components, and earliness. Additionally, among the six new foreign cotton cultivars evaluated in this research, Lydia exhibited superior characteristics, including seed cotton yield, boll weight, and several fiber quality attributes such as fiber strength and reflectance. Moreover, Lydia demonstrated a high tolerance to Verticillium wilt. Based on these findings, we recommend Lydia as a suitable choice for commercial cotton cultivation in South Khorasan province and similar regions.

Keywords

Main Subjects

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References

  1. Allen, R. D., & Aleman, L. (2011). Abiotic stress and cotton fiber development. p. 149-160. In D.M. Oosterhuis (ed.) Stress Physiology in Cotton. The Cotton Foundation. Cordova, TN.
  2. Alishah, O. (2009). Special Words of Cotton. Ministry of Jahad-e-Agriculture, Research Education and Extension Organization (ARREO), Extension and Education Deputy, Education Technology Office, Agriculture Education Publication, 269 p. (in Persian).
  3. Alishah, O. (2013). Cotton genetics and breeding. Iran University Press.
  4. Alishah, O., & Ahmadikhah, A. (2009), The Effects of Drought Stress on Improved Cotton Varieties in Golesatn Province of Iran. International Journal of Plant Production, 3(1), 17-25. https://doi.org/22069/IJPP.2012.628
  5. Anjum, R., Soomro, A. R., Chang, M. A., & Memon, A. M. (2001). Effect of fruiting position on yield in American cotton. Pakiatan Journal of Biological Science, 4, 96-962. https://doi.org/10.3923/pjbs.2001.960.962
  6. Arevalo, L. S., Oosterhuis, D. M., Coker, D., & Brown, R. S. (2008). Physiological response of cotton to high night temperature. American Journal of Plant Science and Biotechnology, 2, 63-68.
  7. Ashokkumar, K., & Ravikesavan, R. (2011), Morphological Diversity and per se Performance in Upland Cotton (Gossypium hirsutum). Journal of Agricultural Science, 3(2), 107-113. https://doi.org/10.5539/jas.v3n2p107
  8. Baloch, M. J., & Baloch, Q. B. (2004). Plant characters in relation to earliness in cotton (Gossypium hirsutum). Proceengs of the Pakistan Academic Sciences, 41, 103-108.
  9. Barış Engizek, O., Beycioğlü, T., & Kıllı, F. (2021). Yield and Quality Parameters of Current Commercial Cotton (Gossypium hirsutum ) Cultivars under Mediterranean Climatic Conditions of Turkey. International Journal of Scientific Engineering and Science, 5(8), 27-32.
  10. Conaty, W., Brodrick, R., Mahan, J., & Payton, P. (2015). Climate and Its Interactionwith Cotton Morphology. In: Cotton. Agronomy Monograph 57.ASA-CSSA-SSSA, Madison, WI, pp. 401-418.
  11. Çopur, O., Polat, D., & Odabaşioğlu, C. (2019). Effect of Different Sowing Dates on Cotton (Gossypium hirsutum ) Fiber Color at Double Crop Growing Conditions. Harran Tarım ve Gıda Bilimleri Dergisi, 22(1), 62-72. https://doi.org/10.29050/harranziraat.337782
  12. Cotton (2013). Textile Fibers, America’s Cotton Producers and Importers.
  13. Desalegn, Z., Ratanadilok, N., & Kaveeta, R. (2009). Correlation and heritability for yield and fiber quality parameters of Ethiopian cotton. Kasetsart Journal of Natural Sciences, 43(1), 1-11.
  14. Ehsan, F., Ali, A., Nadeem Tahir, M. A., & Majeed, A. (2008). Comparative yield performance of new cultivars of cotton (Gossypium hirsutum). Pakistan Journal of Life Society Science, 6(1), 1-3.
  15. Entesari, M. H., Zangi, M. R., & Dadashi, M. R. (2015). Evaluation of the morphological and yield traits in the new Varieties of cotton. Iranian Journal of Cotton Researches, 3(1), 119-132. https://doi.org/10.22092/IJCR.2016.106079
  16. Göre, M. E., Erdoğan, O., Altin, N., Aydın, M. H., Caner, Ö. K., Filizer, F., & Büyükdöğerlioğlu, A. (2011). Seed transmission of verticillium wilt of cotton. Phytoparasitica, 39, 285-292. https://doi.org/10.1007/s12600-011-0163-7
  17. Haigler, C. H. (2010). Physiological and anatomical factors determining fiber structure and utility. In: Physiology of Cotton, pp: 33-47, By: Stewart, J. Mc D., Oosterhuis, D., Heitholt, J.J. and Mauney, J. (eds.), Springer Science +Business Media B.V. https://doi.org/10.1007/978-90-481-3195-2_4
  18. Hamidi, (2019). Value for Cultivation and Use (VCU) determination of six cotton (Gossypium hirsutum L.) new foreign cultivars. Final Report of Project. Ministry of Jahad-e-Agriculture, Research Education and Extension Organization (ARREO), Seed and Plant Certification and Registration Institute (SPCRI), 73 p. (In Persian with English abstract).
  19. Hamidi, A., Naderi Arefi, A., Forghani, S. R., Vafayi Tabar, M., Arab Salmani, M., & Hakimi, M. (2012). Cotton Seed Production and Technology. Seed and Plant Certification and Registration Institute, Karaj, Iran. 648 pp. (in Persian).
  20. Hamidi, A., Baniani, E., Vafai Tabar, M. A., Arab Salmani, M., Boorboor, S., Karimi, F., Mohammadi, S., Mohajer Abbasi, A., & Gharib, N. (2021a) Evaluation of Some New Genotypes and Cultivars of Cotton for Determining Value of Cultivation and Use (VCU) in Varamin. Journal of Crops Improvement, 23(2), 361-375. (In Persian with English abstract). https://doi.org/10.22059/jci.2021.300081.2374
  21. Hamidi, A., Karimi Mazidi, S., Esmaeili Mazidi, M., Ansari, M. A., Sarfarazi, S., Hakimi, M., Monfared, Z., Khelghati Bana, F., Maleki Ziarati, H., & Rahnama, K. (2021b). Evaluation of six new foreign Cotton Cultivars Value of Cultivation and use (VCU) in Fars province (Darab). Iranian Journal of Cotton Research, 8(2), 193-222. (In Persian with English abstract). https://org/10.22092/IJCR.2021.352087.1156
  22. Hamidi, A., Alishah, O., Rahemi, M. R., Mohajer Abbasi, A., Jafari Mofid Abadi, Y., Hosseipour, J., Ghasemi Bezdi, K., Jazayeri Noushabadi, M. R., & Najafian, M. (2022a). Evaluation of some quantitative and qualitative characteristics of six newly introduced genotypes of cotton (Gossypium hirsutum ). Iranian Journal of Cotton Researches, 9(2).
  23. Hamidi, A., Rahmani, M., Noori, M., Alizadeh, S., Taghinezhad Gigloo, G., Monfared, Z., Khandan, A., Sheidai Kojal, S., Sadeghi, H., & Rezvani Khorshidi, E. (2022b). Study on Seed Cotton Yield and its Components, Earliness and Fiber Quality of Six New Foreign Upland Cotton (Gossypium hirsutum ) Cultivars for Evaluating of Value of Cultivation and use (VCU) in Ardabil Province (Moghan plain). Journal of Agricultural Science and Sustainable Production, 32(3), 95-113. (In Persian with English abstract). https://doi.org/10.22034/SAPS.2021.44371.2629
  24. Hamidi, A., Ramezani Moghaddam, M. R., Najjar, H., Arab Salmani, M., & Mohajer Abbasi, (2022c). Value of Cultivation and Use (VCU) Evaluation of Some New Promising Genotypes of Upland Cotton (Gossypium hisutum L.) in Razavi Khorasan Province. Agrotechniques in Industrial Crops, 2(4), 166-176. https://doi.org/10.22126/ATIC.2023.8346.1069
  25. Hamidi, A., Zangi, M. R., Soltani, S., Arab Salmani, M., & Mohajer Abbasi, A. (2022d). Evaluation of Seed Cotton Yield, its Components and some Morphological traits, Fiber quality and Verticillium wilt tolerance of cotton new genotypes and cultivars in Golestan province. Crop Production Journal, 15(3), 1-20. (in Persian with English abstract). https://org/10.22069/EJCP.2022.17898.2316
  26. Hanefi Mutlu, M., & Karademir, Ç. (2022). Determination of Yield, Yield Component Technological and Physiological Characteristics in Different Cotton (Gossypium hirsutum) Varieties –I. ISPEC Journal of Agricultural Sciences, 6(2), 395-406. https://doi.org/10.46291/ispecjasvol6iss2id318
  27. Jatoi, W. A., Baloch, M. J., Panhwar, A. Q., Veesar, N. F., & Panhwar, S. A. (2012). Characterization and identification of early maturing upland cotton varieties. Sarhad Journal of Agriculture, 28(1), 53-56.
  28. Jian, G. L., Ma, C., Zheng, C. L., & Zou, Y. F. (2003). Advances in cotton breeding for resistance to Fusarium and Verticillium wilt in the last fifty years in China. Agricultural Science China, 2, 280-288.
  29. Kakaei, M., Kahrizi, D., & Moosavi, S. S. (2017). Assessing the relationships of lint-yield and cottonseed-yield with some agro-morphological traits of Gossypium hirsutum var. Varamin by path analysis. Iranian Journal of Cotton Research, 4(2), 101-114. (in Persian with English abstract). https://doi.org/10.22092/IJCR.2017.113073
  30. Kamali, G. H., & Koocheki, A. (1994). Climatic analogues for cotton in Khorasan province from stand point of crop ecology. Agricultural Science and Technology, 8(1). 35-54. (in Persian with English abstract).
  31. Karademir, E., Karademir, Ç., Ekinci, R., Baran, B., & Sagirc, A. (2012). Effect of Verticillium dahliae Kleb on cotton yield and fiber technological properties. International Journal Plant Production, 6(4), 387-408. https://doi.org/22069/IJPP.2012.756
  32. Karademir, E., Karademir, Ç., Arsalan, , & Önder Ucar, Ö. (2018). Determination of Some Physiological Properties of Modern Cotton Varieties. Proceeding International Conference on Agriculture, Forest, Food science and Technologies, 2-5 April 2018, Çeṣme-Izmir/Turkey.
  33. Karakan Günaydin, G., Serkan Soydan, A., & Palamutçu, (2018). Evaluation of Cotton Fibre Properties in Compact Yarn Spinning Processes and Investigation of Fibre and Yarn Properties. Fibers & Textiles in Eastern Europe, 26(3-129), 23-34. https://doi.org/10.5604/01.3001.0011.7299
  34. Khalid, M. A., Malik, T. W., Fatima, N., Shakeel, A., Karim, I., Arfan, M., Merrium, S., & Khanum, P. (2018). Correlation of economic traits in upland cotton. ACTA Scientific Agriculture, 2(10), 59- https://actascientific.com/ASAG/pdf/ASAG-02-0196
  35. Khan, A. I., Awan, F. S., Sadia, B., Rana, R. M., & Khan, I. A. (2010). Genetic diversity studies among coloured cotton genotypes by using RAPD markers. Pakistan Journal of Botany, 42(1), 71-77.
  36. Ministry of Jihad-e-Agriculture. (2022). Crops area, production and yield in 2020-2021 crop year report. Information and Communication Technology Center of Ministry of Jihad-e-Agriculture. 98p (in Persian).
  37. Morello, C. L., Barros Pedrosa, M., Suassuna, N. D., Lamas, F. M., Chitarra, L.G., Silva Filho, J. L., Andrade, F. P., Vianna Barroso, P. A., & Ribeiro, J. L., Campos Godinho, V. P., & Lanza, M. A. (2012). BRS 336: A high-quality fiber upland cotton cultivar for Brazilian savanna and semi-arid conditions. Crop Breeding Applied Biotechnology, 12, 92-95. https://doi.org/10.1590/s1984-70332012000100012
  38. Mozafari, J., Sadeghian, S. Y., Mobasser, S., Khademi, H., & Mohammadi, S. A. (2010). Principles of plant variety protection. Ministry of Jihad-e-Agriculture Agricultural Research Education and Extensions Organization (AREEO). Seed and Plant Certification and Registration Institute (SPCRI). (In Persian).
  39. Naderi Arefi, A., & Hamidi, A. (2014). Seed Cotton Yield and some Related Traits in Different Cultivars of Cotton (Gossypium hirsutum ) in Garmsar Conditions. Seed Plant Production, 30(4), 401-420. (in Persian with English abstract). https://doi.org/10.22092/SPPJ.2017.110558
  40. Neg, E. H., Jernigan, K., Smith,W., Hequet, E., Dever, J., Hague, S., & Ibrahim, A. M. H. (2013). Stability analysis of upland cottonin Texas. Crop Science, 53, 1347-1355. https://doi.org/10.2135/cropsci2012.10.0590
  41. Pettigrew, W. T. (2004). Moisture deficit effects on cotton lint yield, yield components, and boll distribution. Agronomy Journal, 96, 377-383. https://doi.org/10.2134/agronj2004.3770
  42. Ramazani Moghaddam, M. R. (2014). Introduction of Khordad, new cultivar of cotton. Report. Ministry of Jihade-Agriculture Agricultural Research, Education and Extension Organization Cotton Research Institute. (in Persian with English abstract)
  43. Rauf, S., Mansoor Khan, T., & Nazir, Sh. (2005). Combining ability and hetrosis in Gossypium hirsutum International Journal of Agriculture and Biology, 1, 109-113.
  44. Sarwar, G., Nazir, A., Rizwan, M., Shahzadi, E., & Mahmood, A. (2021). Genetic diversity among cotton genotypes for earliness, yield and fiber quality traits using correlation, principal component and cluster analyses. Sarhad Journal of Agriculture, 37(1). 307-314. https://doi.org/10.17582/journal.sja/2021/37.1.307.314
  45. Seddighi, E., Ramezani Moghaddam, M. R., Sirousmehr, A. R., & Asgharipour, M. R. (2013). Investigation on the effect of cotton cultivars and different planting dates on barley-cotton double cropping system in Gonabad climatic conditions. Journal of Agroecology, 5, 58-66. https://doi.org/22067/JAG.V5I1.21323
  46. Seed and Plant Certification and Registration Institute. (2009). Guideline For the conduct of Value for Cultivation and Use. Seed and Plant Certification and registration Institute (SPCRI). 13 p. (in Persian).
  47. Seed and Plant Certification and Registration Institute. (2019). Act of plant varieties registration, control and certification of seed and plant material, Islamic Republic of Iran. Seed and Plant Certification and registration Institute (SPCRI). 64 p. (in Persian).
  48. Seed and Plant Certification and Registration Institute. (2019). Seed and Plant Certification and Registration Institute 2022 seed certification task report. Seed and Plant Certification and registration Institute (SPCRI). 24 p. (in Persian).
  49. Sissoko, S., Diawara, M. O., Kassambara, E. M., Bayoko, G., & Coulibaly, M. M. (2023). Correlation between some morpho-physiological and agronomic traits of cotton (Gossypium hirsotum) varieties grown in two agroecological areas of Mali. Ecobiotech-Journal, 6(1). https://doi.org/10.31163/2618-964x-2023-6-1-14-23
  50. South Khorasan Province Meteorological Bureau. (2017). Agricultural Meteorology News Bulletin. South Khorasan Province Meteorology Bureau Scientific Publication. 25 p. (in Persian).
  51. South Khorasan Meteorological Bureau. (2018). Agricultural Meteorology News Bulletin. South Khorasan Province Meteorology Bureau Scientific Publication. 28 p. (in Persian).
  52. Suassuna, N. D., Morello, C. L., Pedrosa, M. B., Vianna Barroso, P. A., da Silva Filho, J. L., Falleiro Suassuna, T. M., Perina, F. J., Sofiatti, V., da Cunha Magalhães, F. O., & Correia Farias, F. J. (2018). BRS 430 B2RF and BRS 432 B2RF: Insect-resistant and glyphosate-tolerant high-yielding cotton cultivars. Crop Breeding and Applied Biotechnology, 18, 221-225. https://doi.org/10.1590/1984-70332018v18n2c31
  53. Sudhir, K. (2010). How effective is Sui Generis plant variety protection in India: some initial feedback. Journal of Intellectual Property Rights, 15, 273-284.
  54. Tariq, M., Abbas, G., Yasmeen, A., & Ahmad, S. (2020). Cotton Ontogeny. Springer Nature Singapore Pte Ltd. S. Ahmad, M. Hasanuzzaman (eds.), Cotton Production and Uses, https://doi.org/10.1007/978-981-15-1472-2_23
  55. Vafayi Tabar, M., & Tajick Khaveh, Z. (2012). Variation in yield and earliness correlation with other quantitative traits of early upland cotton cultivars. Electronic Journal of Cotton Fiber Crop, 1, 97-114.
  56. Vianna Barroso, M. B., Suassuna, N. D., Pedrosa, M. B., Morello, C. L., da Silva Filho, J. L., Lamas, F. M., & Bogiani, J. C. (2017). BRS 368RF: A glyphosate tolerant, midseason upland cotton cultivar for Northeast and North Brazilian cerrado. Crop Breeding and Applied Biotechnology, 17, 399-402. https://doi.org/10.1590/1984-70332017v17n4c59
  57. Verma, S. K., Tuteja, O. P., Koli, N. R., Singh, J., & Monga, D. (2006). Assessment of genetic variability nature and magnitude of character association in cytotype genotypes of uplan cotton (Gosyspium hirsutum), Journal of the Indian Society for Cotton Improvement, 31(3), 129-133.
  58. Wiggins, M. S., Brian, G., Leib, T., Mueller, C., & Christopher, L. M. (2013). Investigation of physiological growth, fiber quality, yield, and yield stability of upland cotton varieties in differing environments. The Journal of Cotton Science, 17, 140-148.
  59. Yazdi Samadi, B., Rezaei, A., & Valyzadeh, M. (2013). Statistical Designs in Agricultural Research. Tehran University Publication.
  60. Zhang, N., Tian, L., Feng, L., Xu, W., Li, Y., Xing, F., Fan, Z., Xiong, S., Tang, J., Li, C., Li, L., Ma, Y., & Wang, F. (2021). Boll characteristics and yield of cotton in relation to the canopy microclimate under varying plant densities in an arid area. Peer Journal, 9, e12111. https://doi.org/10.7717/peerj.12111
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Iranian Journal of Field Crops Research
Volume 21, Issue 4 - Serial Number 72
January 2024
Pages 435-457

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History

  • Receive Date: 10 May 2023
  • Revise Date: 01 August 2023
  • Accept Date: 21 August 2023
  • First Publish Date: 21 August 2023

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