[1] Bacha T, Alemerew S, Tadesse Z. Genotype X Environment Interaction and Yield Stabliity of Breade Wheat (Triticum Eastivum L.) Genotype in Ethiopia using the Ammi Analisis, 2015,5(11):129-139.
[2] Flores F, Moreno M T, Cubero J I. A comparison of univariate and multivariate methods to analyze G×E interaction[J]. Field Crops Research, 1998,56(3):271-286.
[3] 许乃银,陈旭升,狄佳春,等.棉花区域试验中品种稳定性分析方法探讨[J].江西棉花,2004,26(4):9-13.
[4] 金文林.作物区试中品种稳定性评价的秩次分析模型[J].作物学报,2000,26(6):925-930.
[5] 曹雯梅,刘松涛,杨青华,等.小麦品种丰产性和稳产性的非参数分析[J].麦类作物学报,2008,28(3):528-530.
[6] Sabaghnia N. Multivariate statistical analysis of genotype × environment interaction in multi-environment trials of breeding programs[J]. Agriculture & Forestry, 2012,56(10):19-38.
[7] Scapim C A, Pacheco C A P, Vieira R A, et al. Correlations between the stability and adaptability statistics of popcorn cultivars[J]. Euphytica, 2010,174(2):209-218.
[8] Pourdad S S. Repeatability and relationships among parametric and non-parametric yield stability measures in safflower (Carthamus tinctorius L.) genotypes[J]. Crop Breeding Journal, 2011,1(2):109-118.
[9] Segherloo A E, Sabaghpour S H, Dehghani H, et al. Non-parametric measures of phenotypic stability in chickpea genotypes (Cicer arietinum L.)[J]. Euphytica, 2008,162(2):221-229.
[10] 常磊,岳云,柴守玺,等.品种稳定性不同分析模型在西北小麦区域试验中应用探讨[J].干旱地区农业研究,2013,31(02):13-18.
[11] Sabaghnia N. Multivariate statistical analysis of genotype × environment interaction in multi-environment trials of breeding programs[J]. Agriculture & Forestry, 2012,56(10):19-38.
[12] Nath A, Harer P, Dey U. Stability analysis and G× E interaction in Mungbean (Vigna radiate L. Wilczek): A review[J]. African Journal of Agricultural Research, 2013,8(26):3340-3347.
[13] 王春平,吕静霞,王黎明,等.几种模型在玉米区域试验的适用性与品种评价中的差异研究[J].中国农学通报,2012,28(33):35-39.
[14] Mohammadi R, Amri A. Comparison of parametric and non-parametric methods for selecting stable and adapted durum wheat genotypes in variable environments[J]. Euphytica, 2008,159(3):419-432.
[15] K?l?c?H, Akc?Ura M, Aktas? H. Assessment of Parametric and Non-parametric Methods for Selecting Stable and Adapted Durum Wheat Genotypes in Multi-Environments[J]. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2010,38(3):271-279.
[16] 冯雪楠,崔玉杰.实用统计软件比较分析[J].北方工业大学学报,2008,20(1):62-65,79.
[17] Francis T R, Kannenberg L W. Yield stability studies in short-season maize. I. A descriptive method fur grouping genotypes[J]. Canadian Journal of Plant Science, 1978,58(4):1035-1039.
[18] Eberhart S A, Russell W A. Stability parameters for comparing varieties[J]. Crop Science, 1966,6(1):36-40.
[19] Shukla G K. Some statistical aspects of partitioning genotype-environmental components of variability[J]. Heredity, 1972,29(10):237-245.
[20] Lin C S, Binns M R. A superiority measure of cultivar performance for cultivar × location data[J]. Canadian Journal of Plant Science, 1988,68(1):193-198.
[21] Becker H C, Léon J. Stability Analysis in Plant Breeding[J]. Plant Breeding, 1988,101(1):1-23.
[22] Nassar R, Hühn M. Studies on Estimation of Phenotypic Stability: Tests of Significance for Nonparametric Measures of Phenotypic Stability[J]. Biometrics, 1987,43(1):45-53.
[23] Kang M S. A RANK-SUM METHOD FOR SELECTING HIGH-YIELDING, STABLE CORN GENOTYPES[J]. Cereal Research Communications, 1988,16(1/2):113-115.
[24] 陈宝音,段贵娥.大豆品种稳定性主坐标法分析[J].河南农业科学,1993(9):30-34.
[25] Westcott B. A method of assessing the yield stability of crop genotypes[J]. Journal of Agricultural Science, 1987,108(4):267-274.
[26] Flores F, Moreno M T, Martinez A, et al. Genotype-environment interaction in faba bean: Comparison of AMMI and principal coordinate models[J]. Field Crops Research, 1996,47(2-3):117-127.
[27] 严威凯.双标图分析在农作物品种多点试验中的应用[J].作物学报,2010,36(11):1805-1819.
[28] Ferraudo G M, Perecin D. Mixed Model, AMMI and Eberhart-Russel Comparison via Simulation on Genotype× Environment Interaction Study in Sugarcane[J]. Applied Mathematics, 2014,2014(4):2107-2119.
[29] Bose L K, Jambhulkar N N, Pande K, et al. Use of AMMI and other stability statistics in the simultaneous selection of rice genotypes for yield and stability under direct-seeded conditions[J]. Chilean Journal of Agricultural Research, 2014,74(1):3-9.
[30] Pourdad S S. Repeatability and relationships among parametric and non-parametric yield stability measures in safflower (Carthamus tinctorius L.) genotypes[J]. Crop Breeding Journal, 2011,1(2):109-118.
[31] 汤永禄,吴元奇,朱华忠,等.四川小麦主栽品种的品质性状表现及其稳定性[J].作物学报,2010,36(11):1910-1920.
[32] Voltas J, Eeuwijk F A v, Igartua E, et al. Genotype by environment interaction and adaptation in barley breeding: basic concepts and methods of analysis, in: G. Slafer (Ed.) Barley science: Recent advances from molecular biology to agronomy of yield and quality, Food Product Press, New york, 2002:205-241.
[33] Thillainathan M, Fernandez G C J. SAS Applications for Tai’s Stability Analysis and AMMI Model in Genotype ×environmental Interaction (GEI) Effects[J]. The Journal of Heredity, 2001,92(4):367-371.
[34] Lu H Y. PC-SAS Program for Estimating Hühn''s Nonparametric Stability Statistics[J]. Agronomy Journal, 1995,87(5):888-891.
[35] 吕秀英.稳定性回归分析之SAS程式[J].中华农业研究,1994,43(3):283-292.
[36] Fernandez G C J. Analysis of Genotype × Environment Interaction by Stability Estimates[J]. Hortscience, 1991,26(8):947-950.
[37] Kang M. SAS PROGRAM FOR CALCULATING STABILITY-VARIANCE PARAMETERS[J]. Journal of Heredity, 1985,76(2):142-143.
[38] 张祯勇,高明文,徐国伦,等.基于R语言的GGE双标图在玉米品种区域试验中的应用[J].中国农学通报,2014,30(34):238-243.
[39] 温岚,陈基权,戴志刚,等.长蒴黄麻产叶量的多元回归与偏相关的R语言分析[J].作物杂志,2013,1:49-52,53.
[40] Gentleman R C, Carey V J, Bates D M, et al. Bioconductor: open software development for computational biology and bioinformatics[J]. Genome biology, 2004,5(10):R80.
[41] 杨宜平,赵培信.R统计软件在统计教学中的应用[J].重庆工商大学学报:自然科学版,2013,30(3):74-76.
[42] 胡希远,尤海磊,宋喜芳,等.作物品种稳定性分析不同模型的比较[J].麦类作物学报,2009,29(1):110-117.
[43] 吴元奇,潘光堂,荣廷昭.作物稳定性研究进展[J].四川农业大学学报,2005(4):482-489.
|