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Acta Agron Sin ›› 2014, Vol. 40 ›› Issue (05): 891-898.doi: 10.3724/SP.J.1006.2014.00891

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Ecological Regionalization of Cotton Fiber Quality Based on GGE Biplot in Yangtze River Valley

XU Nai-Yin,LI Jian   

  1. Institute of Industrial Crops, Jiangsu Academy of Agricultural Sciences / Key Laboratory of Cotton and Rapeseed, Ministry of Agriculture, Nanjing 210014, China
  • Received:2013-12-02 Revised:2014-02-18 Online:2014-05-12 Published:2014-03-24

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Abstract:

Ecological regionalization based on cotton fiber quality can improve raw cotton quality and the machining efficiency. The “environment vs. trait biplot” of GGE biplot software was used to explore the interaction pattern between test environments and cotton fiber quality characters based on datasets collected from the national cotton regional trials in Yangtze River Valley from 2000 to 2012. The results showed that the cotton planting area could be divided into three special fiber quality ecological regions, namely, the “moderate fiber quality ecological region”, the “high fiber length and strength ecological region” and the “low micronaire ecological region”. The moderate fiber quality ecological region was characterized by moderate fiber quality with the best representativeness of the whole region, which covers the major area of cotton planting region in YaRV, including the Jianghan plain and the southeast downland in Hubei Province, Nan-xiang basin across Henan and Hubei Provinces, the west and east regions around Dongting Lake in Hunan Province, the area around Poyang Lake in Jiangxi Province, Jiang-huai plain and along the Yangtze River region in Anhui Province, Ningzhen hilly region and along the Yangtze River region in Jiangsu Province, and also the coastal region in Zhejiang Province. The high fiber length and strength ecological region was characterized by high fiber length, fiber strength, and also micronaire value including the north fertile region around the Dongting Lake. The low micronaire ecological region was characterized by the best micronaire value and average fiber strength performance containing of the most west hilly cotton planting area at relatively high altitude and with earlier mature season in Sichuan Province, and the most east coastal cotton field with higher salt content soil grown weaker cotton plants in Jiangsu Province. This study demonstrated the effectiveness of “environment vs. trait biplot” in the ecological regionalization of cotton fiber quality, provided references for the regionalized cotton production and raw cotton selection strategy for textile industry, and set a good example for the implementation of similar ecological regionalization for cotton in other planting regions and for other crops elsewhere as well.

Key words: Cotton (Gossypium hirsutum L.), GGE biplot, Cotton fiber quality, Ecological regionalization, Yangtze River Valley (YaRV)

[1]唐淑荣, 肖荧南, 杨伟华. 中国棉花纤维品质地域和年份间分析. 中国农学通报, 2006, 22(10): 177–183



Tang S R, Xiao Y N, Yang W H. Analysis of raw cotton fiber quality between region and year in China. Chin Agric Sci Bull, 2006, 22(10): 177–183 (in Chinese with English abstract)



[2]Robert L L, Michael P B, Stuart G G, Marinus H J, Geoffrey R S N, Greg A C. Fiber quality and textile performance of some Australian cotton genotypes. Crop Sci, 2010, 50: 1509–1518



[3]Foulk J, Meredith W, Mcalister D, Luke D. Fiber and yarn properties improve with new cotton cultivar. J Cotton Sci, 2009, 13: 212–220



[4]唐淑荣, 彭振, 褚平, 侯爱玲, 孟俊婷, 冯翠萍, 魏守军. 2012年我国生产领域棉花纤维品质抽检结果分析. 中国棉花, 2013, 40(7): 9–13



Tang S R, Peng Z, Chu P, Hou A L, Meng J T, Feng C P, Wei S J. Evaluation of fiber quality of major cotton cultivars in China during 2012. China Cotton, 2013, 40(7): 9–13 (in Chinese)



[5]马富裕, 朱艳, 曹卫星, 杨建荣, 郑重, 程海涛, 慕彩芸. 棉纤维品质指标形成的动态模拟, 作物学报. 2006, 32: 442–448



Ma F Y, Zhu Y, Cao W X, Yang J R, Zheng Z, Cheng H T, Mu C Y. Modeling fiber quality for-mation in cotton. Acta Agron Sin, 2006, 32: 442–448 (in Chinese with English abstract)



[6]Read J J, Reddy K R, Jenkins J N. Yield and fiber quality of upland cotton as influenced by nitrogen and potassium nutrition. Eur J Agron, 2006, 24: 282–290



[7]Smith C W, Braden C A, Hequet E F. Genetic analysis of fiber length uniformity in upland cotton. Crop Sci, 2010, 50: 567–573



[8]王学德, 俞碧霞, 夏如冰, 朱乾浩, 邱新棉, 黄秀国. 浙江棉区棉花纤维品质生态分布特征. 浙江农业科学, 1994, (1): 3–7



Wang X D, Yu B X, Xia R B, Zhu G H, Qiu X M, Huang X G. Cotton fiber quality regional distribution characteristics in the cotton planting region in Zhejiang province. Zhejiang Agric Sci, 1994, (1): 3–7 (in Chinese)



[9]余隆新, 唐仕芳, 王少华, 霍红, 陈光琬, 别墅. 湖北省棉纤维品质生态区划及研究, 棉花学报. 1993, 5(2): 15–20



Yu L X, Tang S F, Wang S H, Huo H, Chen G W, Bie S. The study on the ecological classification of the fiber quality of upland cotton in Hubei province. Cotton Sci, 1993, 5(2): 15–20 (in Chinese with English abstract)



[10]杨伟华, 熊宗伟, 唐淑荣, 项时康. 从不同领域棉花品质差异谈实行区划种植的必要性, 中国棉花. 2002, 29(4): 2–6



Yang W H, Xiong Z W, Tang S R, Xiang S K. Discuss on the necessity of regionalized cotton planting based on the cotton fiber quality discrepancy in different fields. China Cotton, 2002, 29(4): 2–6 (in Chinese)



[11]Yan W, Hunt L A, Sheng Q, Szlavnics Z. Cultivar evaluation and mega-environment investigation based on the GGE biplot. Crop Sci, 2000, 40: 597–605



[12]严威凯. 双标图分析在农作物品种多点试验中的应用. 作物学报, 2010, 36: 1805–1819



Yan W K. Optimal use of biplots in analysis of multi-location variety test data. Acta Agron Sin, 2010, 36: 1805–1819( in Chinese with English abstract)



[13]Yan W K, Kang M S, Ma B L, Woods S, Cornelius P L. GGE biplot vs. AMMI analysis of genotype-by-environment data. Crop Sci, 2007, 47: 643–655



[14]Yan W K, Cornelius P L, Crossa J, Hunt L A. Two types of GGE biplots for analyzing multi-environment trial data. Crop Sci, 2001, 41: 656–663



[15]Yan W K. GGE biplot—a windows application for graphical analysis of multienvironment trial data and other types of two-way data. Agron J, 2001, 93: 1111–1118



[16]陈四龙, 李玉荣, 程增书, 刘吉生. 用GGE双标图分析种植密度对高油花生生长和产量的影响, 作物学报, 2009, 35: 1328–1335



Chen S L, Li Y R, Cheng Z S, Liu J S. GGE biplot analysis of effects of planting density on growth and yield components of high oil peanut. Acta Agron Sin, 2009, 35: 1328–1335 (in Chinese with English abstract)



[17]罗俊, 张华, 邓祖湖, 许莉萍, 徐良年, 袁照年, 阙友雄. 应用GGE双标图分析甘蔗品种(系)的产量和品质性状. 作物学报, 2013, 39: 142–152



Luo J, Zhang H, Deng Z H, Xu L P, Xu L N, Yuan Z N, Que Y X. Analysis of yield and quality traits in sugarcane varieties (lines) with GGE-biplot. Acta Agron Sin, 2013, 39: 142–152 (in Chinese with English abstract)



[18]Reddy P S, Rathore A, Reddy B V S, Panwar S. Application GGE biplot and AMMI model to evaluate sweet sorghum (Sorghum bicolor) hybrids for genotype?environment interaction and seasonal adaptation. Indian J Agric Sci, 2011, 81: 438–444



[19]Sharma D, Sharma R C, Dhakal R, Dhami N B, Gurung D B, Katuwal R B, Koirala K B, Prasad R C, Sah S N, Upadhyay S R, Tiwari T P, Ortiz-Ferrara G. Performance stability of maize genotypes across diverse hill environments in Nepal. Euphytica, 2008, 164: 689–698



[20]许乃银, 张国伟, 李健, 周治国. 基于GGE双标图和比强度选择的棉花品种生态区划分. 中国生态农业学报, 2012, 20: 1500–1507



Xu N Y, Zhang G W, Li J, Zhou Z G. Investigation of cotton mega-environment based on fiber strength selection and GGE biplot. Chin J Eco-Agric, 2012, 20: 1500–1507 (in Chinese with English abstract)



[21]许乃银, 张国伟, 李健, 周治国. 基于HA-GGE双标图的长江流域棉花区域试验环境评价. 作物学报, 2012, 38: 2229–2236



Xu N Y, Zhang G W, Li J, Zhou Z G. Evaluation of cotton regional trial environments based on HA-GGE biplot in the Yangtze River valley. Acta Agron Sin, 2012, 38: 2229–2236 (in Chinese with English abstract)



[22]Baxevanos D, Goulas C, Rossi J, Braojos E. Separation of cotton cultivar testing sites based on representativeness and discriminating ability using GGE biplots. Agron J, 2008, 100: 1230–1236



[23]Yan W K. GGE biplot vs. AMMI graphs for genotpe-by-environment data analysis. J Ind Sco Agric Statist, 2011, 65(2): 1–10



[24]Adugna W, Labuschagne M T. Cluster and canonical variate analyses in multilocation trials of linseed. J Agric Sci, 2003, 140: 297–304



[25] 陈荣江, 孙长法, 朱明哲. 河南棉花纤维品质的生态分布及聚类分析. 吉林农业大学学报, 2007, 29: 478–482



Chen R J, Sun C F, Zhu M Z. Ecological distribution and clustering analysis of cotton fiber quality in Henan province. J Jilin Agric Univ, 2007, 29: 478–482 (in Chinese with English abstract)



[26]许乃银, 陈旭升, 狄佳春, 肖松华, 刘剑光. 长江流域棉花纤维品质的区域特征研究. 棉花学报, 2003, 15: 221–226



Xu N Y, Chen X S, Di J C, Xiao S H, Liu J G. Studies on the regional characteristics of cotton fiber quality in Yangtze Valley. Cotton Sci, 2003, 15: 221–226 (in Chinese with English abstract)



[27]唐淑荣, 杨付新, 周关印. 黄河流域棉纤维品质区域分布特征. 中国棉花, 1997, 24(6): 11–12



Tang S R, Yang F X, Zhou G Y. Regional distribution characteristics of cotton fiber quality in the Yellow River Valley. China Cotton, 1997, 24(6): 11–12 (in Chinese)



[28]许乃银, 李健, 张国伟, 周治国. 基于GGE双标图和马克隆值选择的棉花区域试验环境评价. 中国生态农业学报, 2013, 21: 1241–1248



Xu N Y, Li J, Zhang G W, Zhou Z G. Evaluation of regional cotton trial environments based on cotton fiber micron-aire selection by using GGE biplot analysis. Chin J Eco-Agric, 2013, 21: 1241–1248 (in Chinese with English abstract)



[29]Robert L L, Michael P B. Consequences of immature fiber on the processing performance of upland cotton. Field Crop Res, 2011, 121: 401–407



[30]Zeng L H, Meredith J W R. Associations among lint yield, yield components, and fiber properties in an introgressed population of cotton. Crop Sci, 2009, 49: 1647–1654



[31]张丽娟, 熊宗伟, 陈兵林, 薛晓萍, 周治国. 气候条件变化对棉纤维品质的影响. 自然灾害学报, 2006, 15(2): 79–84



Zhang H J, Xiong Z W, Chen B L, Xue X P, Zhou Z G. Sensitivity analysis of cotton fiber quality to climate condition. J Natl Disasters, 2006, 15(2): 79–84 (in Chinese with English abstract)
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