Agahi K, Ahmadi J, Oghan H A, Fotokian M H, Orang S F (2020). Analysis of genotype × environment interaction for seed yield in spring oilseed rape using the AMMI model. Crop Breeding and Applied Biotechnology 20(1):e26502012.
Crossref

Ajay BC, Aravind J, Fiyaz R A, Kumar N, Lal C, Kona P, Dagla M C, Bera S K (2019). Rectification of modified AMMI stability value (MASV). Indian Journal of Genetics and Plant Breeding 79(4):726-731.
Crossref

Ajay BC, Bera SK, Singh AL, Kumar N, Gangadhar K, Kona P (2020). Evaluation of Genotype × Environment Interaction and Yield Stability Analysis in Peanut Under Phosphorus Stress Condition Using Stability Parameters of AMMI Model. Agriculture Research 9:477-486.
Crossref

Annicchiarico P (1992). Cultivar adaptation and recommendation from alfalfa trials in northern Italy. Journal of Genetics and Plant Breeding 46:269-278.

Ashwini KVR, Ramesh S, Sunitha NC (2021). Comparative BLUP, YREM-based performance and AMMI model-based stability of horse gram [Macrotyloma uniflorum (Lam.) Verdc.] genotypes differing in growth habit. Genetic Resources and Crop Evolution https://doi.org/10.1007/s10722-020-01089-x.
Crossref

Gauch HG (2013). A simple protocol for AMMI analysis of yield trials. Crop Science 53(5):1860-1869.
Crossref

Lin CS, Binns MR (1988). A superiority measure of cultivar performance for cultivar x location data. Canadian Journal of Plant Science 68(1):193-198.
Crossref

Mendes FF, Guimarães LJM, Souza JC, Guimarães PEO, Pacheco CAP, Machado JR, de A, Meirelles WF, Silva AR da, Parentoni SN (2012). Adaptability and stability of maize varieties using mixed model methodology. Crop Breeding and Applied Biotechnology 12(2):111-117.
Crossref

Mohammadi M, Sharifi P, Karimizadeh R, Jafarby JA, Khanzadeh H, Hosseinpour T, Poursiabidi MM, Roustaii M, Hassanpour HM, Mohammadi P (2015). Stability of grain yield of durum wheat genotypes by AMMI model. Agriculture Forestry 61(3):181-193.
Crossref

Mohammadi R, Amri A (2008). Comparison of parametric and non-parametric methods for selecting stable and adapted durum wheat genotypes in variable environments. Euphytica 159(3):419-432.
Crossref

Olivoto T, Lucio A Dal'Col, Gonzalez, Silva JA da, Marchioro VS (2019). Mean performance and stability in multi-environment trials I: Combining features of AMMI and BLUP techniques. Agronomy Journal 111(6):2949-2960.
Crossref

Oyekunle M, Menkir A, Mani H, Olaoye G, Usman IS, Ado S (2017). Stability analysis of maize cultivars adapted to tropical environments using AMMI analysis. Cereal Research Communications 45(2):336-345.
Crossref

Piepho HP (1994). Best linear unbiased prediction (BLUP) for regional yield trials: a comparison to additive main effects and multiplicative interaction (AMMI) analysis. Theoretical and Applied Genetics 89(5):647-654.
Crossref

Piepho HP, Mo¨hring J, Melchinger AE, Bu¨chse A (2008). BLUP for phenotypic selection in plant breeding and variety testing. Euphytica 161(1):209-228.
Crossref

Resende MDV (2007). Software Selegen - REML/BLUP: sistema estatístico e seleção genética computadorizada via modelos lineares mistos. Embrapa Florestas, Colombo 350 p.

Resende MDV, Duarte JB (2007). Precision and Quality Control in Variety Trials. Pesquisa Agropecuaria Tropical 37:182-194.

Sa'diyah H, Hadi A F (2016) AMMI Model for Yield Estimation in Multi-Environment Trials: A Comparison to BLUP. Agriculture and Agricultural Science Procedia 9:163-169.
Crossref

Zali H, Farshadfar E, Sabaghpour SH, Karimizadeh R (2012) Evaluation of genotype × environment interaction in chickpea using measures of stability from AMMI model. Annals of Biological Research 3:3126-3136.