Trends and temporal-spatial distribution of fiber quality in the national cotton variety regional trials.

doi:10.13287/j.1001-9332.201702.027

Abstract

Abstract: This study applied a grey predicting model to predict the trend of cotton fiber quality for next 5 and 10 years in the Yellow River Valley (YeRV), the Yangtze River Valley (YaRV) and the Northwest Inland Region (NWIR) based on the data set from the fiber quality traits of candidate cultivars in National Cotton Variety Regional Trials during 2005-2014. The temporal and spatial distributions of cotton trails in the three major cotton producing regions were analyzed. The results showed that the overall fiber quality of the Regional Cotton Variety Trials was improved during 2005-2014. Fiber length showed excellence and the distribution of threshold increased to 27.0-32.0 mm, and the fiber length of most cultivars reached 29 or 30 mm. Fiber strength also showed an increase trend. The proportion of high level (31.0 cN·tex^-1) cultivars in YaRV was as high as 61.1% in 2011. Micronaire was significantly different among the three major cotton producing regions. In YeRV, micronaire was increased from class B₂(4.3-4.9) to class C₂(≥5.0). In YaRV, it maintained in a high level of class C₂; while it performed excellent in class A (3.7-4.2) and B₂ (4.3-4.9) in NWIR. As a comprehensive fiber quality trait, spinning consistency index decreased from NWIR, YaRV to YeRV, and was ranged from 130 to 149, which was suitable for 40-50 spun yarn and accounted for about 80.0% over the total. We concluded that NWIR had the best fiber quality, followed by YaRV and YeRV in recent ten years. In the near future, fiber quality in the regional cotton variety trails would slightly increase in YaRV, but significantly decrease in YeRV and NWIR. These changes should be highly concerned for breeders, the committee of National Cotton Variety Regional Trials and approval of management department in China.

TANG Shu-rong, GUO Rui-lin, WEI Jing-yan, MENG Jun-ting, WEI Shou-jun, YANG Wei-hua, ZHOU Zhi-guo. Trends and temporal-spatial distribution of fiber quality in the national cotton variety regional trials.[J]. Chinese Journal of Applied Ecology, 2017, 28(2): 589-602.

References

[1] Xiang S-K (项时康), Yang W-H (杨伟华), Xiong Z-W (熊宗伟), et al. Discussion on the current situation of cotton quality in China. Cotton Science (棉花学报), 1999, 11(1): 1-10 (in Chinese)
[2] Yang W-H (杨伟华), Xu H-X (许红霞), Wang Y-Q (王延琴), et al. Analysis on fiber quality of the cotton varieties released in the last 20 years in China. Cotton Science (棉花学报), 2001, 13(6): 377-384 (in Chinese)
[3] Tang S-R (唐淑荣), Yang W-H (杨伟华). Regional distribution of cotton fiber quality in China. Cotton Science (棉花学报), 2008, 20(suppl.1): 11-16 (in Chinese)
[4] Tang S-R (唐淑荣), Jin S-Q (金石桥), Fu X-Q (付小琼), et al. Evaluate on the cotton fiber quality in China during the Sixth and the TwelfthFive-Year Plan Period. China Cotton (中国棉花), 2015, 42(9): 18-24 (in Chinese)
[5] Zhao W-Q (赵文青), Ren X-M (任晓明), Zhang L-J (张丽娟), et al. Study on the key meteorological factors-based model for main characters of cotton fiber quality. Cotton Science (棉花学报), 2008, 20(2): 116-122 (in Chinese)
[6] Wang C-H (王朝晖), Xiang G-H (向国红), Zhong L-G (钟林光), et al. Application of several analysis methods on evaluation of meteorological factors affecting cotton fiber quality. Southwest China Journal of Agricultural Sciences (西南农业学报), 2010, 23(4): 1061-1067 (in Chinese)
[7] Wanjura DF, Barker GL. Cotton lint yield accumulation rate and quality development. Field Crops Research, 1985, 10: 205-218
[8] Roussopoulos D, Liakatas A, Whittington WJ. Cotton responses to different light-temperature regimes. Journal of Agricultural Science, 1998, 131: 277-283
[9] Chen J-X (陈金湘), Li M-R (李曼瑞), Liu H-H (刘海荷), et al. Grey relational analysis of climatic element effects on cotton yield and fiber grade. Cotton Science (棉花学报), 1996, 8(2): 88-91 (in Chinese)
[10] Ma F-Y (马富裕), Cao W-X (曹卫星), Li S-K (李少昆), et al. Quantitative analysis on the relationship between cotton fiber quality and meteorological factors. Chinese Journal of Applied Ecology (应用生态学报), 2005, 16(11): 2102-2107 (in Chinese)
[11] Zhang L-J (张丽娟), Meng Y-L (孟亚利), Xue X-P (薛晓萍), et al. Establishing model of an integrated fiber quality index. Scientia Agricultura Sinica (中国农业科学), 2006, 39(6): 1130-1137 (in Chinese)
[12] Wiggins MS, Leib BG, Mueller TC, et al. Investigation of physiological growth, fiber quality, yield, and yield stability of upland cotton varieties in differing environments. Journal of Cotton Science, 2013, 17: 140-148
[13] Li X-H (李谢辉), Zhang C (张超), Yao J-L (姚佳林). Spatial-temporal distribution and trend analysis of drought in Henan Province. Journal of Northwest Normal University (Natural Science) (西北师范大学学报: 自然科学版), 2013, 17(3): 140-148 (in Chinese)
[14] Wang Y-H (王友贺), Shen S-H (申双和), Gu X-J (谷秀杰). Time-space evolution feature of precipitation in Henan Province from 1965 to 2009. Meteorological and Environmental Sciences (气象与环境科学), 2011, 34(3): 56-60 (in Chinese)
[15] Ma F-Y (马富裕). Eco-study and Simulation of Boll Development and Fiber Quality Formation in Cotton. PhD Thesis. Nanjing: Nanjing Agricultural University, 2004 (in Chinese)
[16] Jiang C-Y (蒋承仪). Grey-Markov Forecasting Model. Journal of Chongqing Jianzhu University (重庆建筑大学学报), 1996, 18(3): 118-122 (in Chinese)
[17] Chen R-J (陈荣江), Sun C-F (孙长法), Zhang Y-F (张艳凤). Comprehensive evaluation on experimental varieties of cotton region by using grey relation degree. Journal of Jilin Agricultural University (吉林农业大学学报), 1998, 20(4): 73-77 (in Chinese)
[18] Kyriakidis PC, Journal AG. Geostatistical space-time models: A review. Mathematical Geology, 1999, 31: 651-684
[19] Chen B-L (陈兵林), Cao W-X (曹卫星), Zhou Z-G (周治国), et al. Construction and validation of spatio-temporal distribution models of cotton fiber quality indexes. Acta Agronomica Sinica (作物学报), 2007, 33(5): 763-770 (in Chinese)
[20] Liu X-X (刘晓晓). Spatial Temporal Analysis and Modeling of Meteorological Data. Master Thesis. Kaifeng: Henan University, 2009 (in Chinese)
[21] Yeates SJ, Constable GA, Mccumstie T. Irrigated cotton in the tropical dry season. Ⅲ. Impact of temperature, cultivar and sowing date on fiber quality. Field Crops Research, 2010, 116: 300-307
[22] General Administration of Quality Supervision, Inspection and Quarantine of the People’s Republic of China (中华人民共和国国家质量监督检验检疫总局), Standardization Administration of the People’s Republic of China (中国国家标准化管理委员会). Test Method of Properties of Cotton Fibers by High Volume Instruments (GB/T 20392-2006). Beijing: China Standards Press, 2006 (in Chinese)
[23] General Administration of Quality Supervision, Inspection and Quarantine of the People’s of China (中华人民共和国国家质量监督检验检疫总局). Cotton-Part 1: Saw Ginned Upland Cotton (GB 1103.1-2012). Beijing: China Standards Press, 2012 (in Chinese)
[24] Jr Montalvo JG. Relationships between micronaire, fineness, and maturing. Part Ⅰ. Fundamentals. Journal of Cotton Science, 2005, 9: 81-88
[25] Jr Montalvo JG, Von Hoven TM. Relationships between micronaire, fineness, and maturing. Part Ⅱ. Experimental. Journal of Cotton Science, 2005, 9: 89-96
[26] Long RL, Bange MP, Gordon SG, et al. Fiber quality and textile performance of some Australian cotton genotypes. Crop Science, 2010, 50(4): 1509-1518
[27] Xiong Z-W (熊宗伟), Wang X-J (王雪姣), Gu S-H (顾生浩), et al. Correlation between meteorological factors and cotton fiber quality in major cotton-producing regions of China. Cotton Science (棉花学报), 2014, 26(2): 95-104 (in Chinese)
[28] Xiong Z-W (熊宗伟), Gu S-H (顾生浩), Mao L-L (毛丽丽), et al. Spatial distribution characteristics of China cotton fiber quality and climatic factors based on GIS. Chinese Journal of Applied Ecology (应用生态学报), 2012, 23(12): 3385-3392 (in Chinese)
[29] Jiang B-G (姜保功), Kong F-L (孔繁玲), Zhang Q-Y (张群远), et al. Genetic improvements of cotton varieties in Huanghuai region in China since 1950’s: Improvements on fiber properties. Acta Agronomica Sinica (作物学报), 2000, 26(5): 528-535 (in Chinese)
[30] Xu N-Y (许乃银), Chen X-S (陈旭升), Di J-C (狄佳春), et al. Regional characteristics of cotton fiber quality in the Yangtze River. Cotton Science (棉花学报), 2003, 15(4): 221-226 (in Chinese)