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Analiza jakości dojrzałych włókien bawełny Upland i jej struktury nadcząsteczkowej
Języki publikacji
Abstrakty
A RIL(recombinant inbred lines) population with 196 F6:9 lines was developed from an F2 population of upland cotton (Gossypium hirsutum L.) cross of sGK9708×0-153. sGK9708 is a commercial transgenic variety with Bt+CpTI genes resistant to budworm and 0-153 with high fibre quality. Five materials with high fibre strength and five materials with low fibre strength from the recombinant inbred lines were researched [1]. Ten materials of super-molecular structure and fibre quality were studied by X-ray diffraction and the HVI900 technique. The results indicated that cotton matured fibre quality should mainly depend on the decrease in the orientational parameter in the crystalline section, especially the orientational separate and orientational distribution angles. The correlation of fibre maturity, linear density and the fibre super-molecular structure is an innovation in the study. Studies on the correlation of cotton fibre quality and the fibre super-molecular structure provide a scientific basis for the improvement cotton fibre quality.
Artykuł dotyczy badań jakości dojrzałych włókien bawełny amerykańskiej Upland i jej struktury nadcząsteczkowej. Uzyskano zmodyfikowany genetycznie gatunek bawełny amerykańskiej Upland za pośrednictwem sztucznego samozapylenia bawełny wykazującej cechy włókniste (linii wsobnej). Dla uzyskanych w opisany sposób włókien bawełny przeprowadzono wszechstronne badania właściwości fizycznych, a także struktury nadcząsteczkowej. Uzyskane wyniki badań skonfrontowano z właściwościami fizycznymi i strukturą nadczasteczkową tradycyjnej bawełny amerykańskiej Upland posiłkując się w tym celu analizą korelacyjną.
Czasopismo
Rocznik
Strony
28--33
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- P. R. China, Henan, Chinese Academy of Agricultural Sciences/ State Key Laboratory of Cotton Biology, Institute of Cotton Research
- P. R. China, Changde, Changde Municipal Institute of Agricultural Sciences
- P. R. China, Henan, Henan University
autor
- P. R. China, Changde, Hunan Cotton Research Institute
autor
- P. R. China, Henan, Chinese Academy of Agricultural Sciences/ State Key Laboratory of Cotton Biology, Institute of Cotton Research
autor
- P. R. China, Changde, Changde Municipal Institute of Agricultural Sciences
autor
- P. R. China, Changde, Anyang Institute of Technology
autor
- P. R. China, Henan, Chinese Academy of Agricultural Sciences/ State Key Laboratory of Cotton Biology, Institute of Cotton Research
autor
- P. R. China, Changde, Hunan Cotton Research Institute
Bibliografia
- 1. Wang Y-B. Study of Cotton Matured Fiber Quality and Its Super-Molecular Structure in Upland Cotton RILs. Agricultural Science Paper 2012.
- 2. Liu J-H, Jia J-N, Yin C-Y, Bian D-C, Yu F-Y, Yang H-B. Study on the mechanism of difference of cotton matured fiber strength. Cotton Sci 1994; 6, 4: 201-205.
- 3. Liu J-H, Yin C-Y, Sun Q-R, YangH-B, Yu F-Y, Jia J-N, Bian D-C. Dynamic changes of cotton fiber cell wall supermolecular structure during the course of fiber development and correlation with its strength. Acta Agron Sin 1996; 22, 3: 325-330.
- 4. Jia J-N, Bian D-C, Wen Y-P, Zhao X, Liu J-H, Yin C-Y, Yu F-Y. The relationship between the differences in the microstructure and strength of cotton fiber. Textile J. 1992; 13,
- 5: 9-12. 5. Shan S-H, Shi P, Sun X-Z, Zhou Z-G, Bian D-C. Effect of anthesis date and fruiting branches on cotton fiber qualities and super-molecular structure. Sci Agric Sin 2002; 35, 2: 163-168.
- 6. Liu J-H, Yin C-Y, Yu F-Y, Sun Q-R, Wang Y-M, Jia J-N, Bian D-C, Chen X-L. Formation mechanism and improvement approach of cotton fiber structure. Sci Agric Sin 1994; 27, 5: 10-16.
- 7. Liu J-H, Yin C-Y, Sun Q-R, Wang Y-M, Yu F-Y. The deposition of cellulose and correlation with fiber strength in cotton. J Nucl Agric Sci 1991; 5, 4: 205-209.
- 8. Liu J-H, Yin C-Y, Yu F-Y, Chen X-L. Genetic analysis on cellulose deposition of cotton fiber. J Nucl Agric Sci 1993; 7, 2: 117-120.
- 9. Liu J-H. The cotton fiber strength and its getting mechanism. J Shandong Agric Univ. 1988; 19, 2: 98-104.
- 10. Wang Y-M. The relationship between the structure and strength of cotton fiber. Jiangxi Cotton 1993; 1:14-16.
- 11. Tao L-H, Liu W-S, Feng G-L, Ruan X-G, Deng J-P. The relationship between qualitative characters and orientational parameters of cotton fiber(II). Acta Agron Sin. 1999; 25, 3: 396-400.
- 12. Tao L-H, Liu X, Liu W-S, Ran X-G. A study on ultrastructure of cotton fiber. Acta Biophys Sin 2001; 17, 2: 245-252.
- 13. Tao L-H, Liu W-S, Feng G-L, Chen D-H, Wu Y-K, Ruan X-G, Deng J-P. The relationships between qualitative characters and orientational parameters of cotton fiber. Acta Agron Sin 1998; 24, 2: 221- 224.
- 14. Zhang M-L, Song X-L, Sun X-Z, Chen E-Y, Zhao Q-L, and Li Z-T. Relationship between Super-Molecular Structure Changes and Fiber Quality in Fiber Development Process of Colored Cotton Cultivars. Acta Agron Sin, 2010; 36, 8: 1386-1392.
- 15. Liu J-H.Genetic Analysis on the Super- Molecular Structure Parameter of Cotton Fiber. Acta Agron Sin 1994; 20, 3: 133-138.
- 16. Hu H-L, Mu X-Q, Jia J-N, Bian D-C. The determination of cotton fiber crystallinity and crystalline grain size by X-ray diffraction method. Textile J. 1984; 5, 7: 426-429.
- 17. Hu H-L. X-ray Diffraction Technique. Beijing: Textile Industry Press, 1988.
- 18. Paakkari T, Serimma R. A study of the structure of wood cells by X-ray diffraction. Wood Sci Technol. 1984; 18: 79-85.
- 19. Deluca LB, Orr RS. Crystallite orientational and spiral structure of cotton. Polymer Sci. 1961; 54: 457-470.
- 20. Zhu J. Mixed model approaches for estimating genetic variances and covariances. Journal of Biomathematics 1992; 7, 1: 1-11.
- 21. Zhu J, Ji D-F, Xu F-H. A genetic approach for analyzing inter-cultivar heterosis in crops. Chinese Journal of Genetics 1993; 20, 3: 183-191.
- 22. Zhu J. General genetic models and new analysis methods for quantitative traits. Journal of Zhejiang Agricultural University 1994; 20, 6: 551-559.
- 23. Zhu J. Analysis Methods for Genetic Models. Beijing: China Agriculture Press, 1997: 202 – 212.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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