Stability of rice grain’s milling quality in relation to genotype × environment interaction and climatic factors;

Unbiased prediction can be applied for predicting genotype effects and genotype × environment interaction effects, which can then be further used for mapping QTL or developmental QTL with genetic main effects and GE interaction effects by interval mapping or composite interval mapping approaches.

Genotype × environment interactions were expressed mainly as endosperm genotype × envi- ronment and maternal genotype × environment, while no cytoplasm × environment were detected signifi- c.

An additive-dominance genetic model with genotype by environment interaction, combined with unconditional and conditional variances approaches, was applied to analyze the developmental genetic behavior in leaf stay-green trait at different developmental stages in maize inbred lines under different environmental conditions.

An additive-dominance-maternal genetic model with genotype by environment interactions by Zhu Jun were applied to analyze genetic main effects and genotype by environment interactions for leaf protein content in maize under different environment conditions and different developmental stages.

Genentic analysis of genotype×environment interaction for major characters of sugarcane;

Effect of genotype×environment interaction on heterosis for lodging resistance of the culm in rice;

Analysis of genotype×environment interaction effects on canopy leaf areas and specific leaf weight in rice;

The genotype by environment interactions, and the stability performances of agronomic traits and their combined trait were analysed for hybrid rices in 1991 and 1992 with the methods proposed by Zhu et al.

A complete diallel mating system with Oreochromis niloticus,Oreochromis aureus,and their hybrids,and additive-dominant genetic model were used to analyse genotype-environment interaction and correlation of growth-related traits in different fish density environments of concrete pond and small cage.