Resisting the atmospheric instability in agriculture is one of the major missions in agriculture. In order to minimize the loss of harvest, understanding the mechanism of plan growth, metabolism and resistance to environmental stress is of great importance. During environmental stresses, plant hormones play a critical role in the metabolism and physiological regulation of plant cells in different concentrations. In order to understand comprehensively the functions of genes (specificity) and relationships between genes (synergy), genes network studies under different plant hormones is of great importance. In this study, the microarray expression data under plant hormones was downloaded from public available database and to construct the weighted gene co-expression network. Furthermore, in order to study the non-linear relationships between genes modules and plant hormones, the subgroup of coefficient of intrinsic dependence (subCID) was also used instead of taking average expression levels of eigengenes modules before singular value decomposition and biplot. The biplot was plotted for clearly visualizing the gene modules changing their expression levels under different conditions in different tissue parts. The angles between genes modules and treatments in biplot were calculated and tested with statistical significance. Results show that most genes modules response specifically to hormone treatments and same gene modules response differently to plant hormones in root and shoot tissues and the fact that suggests their different roles in different tissues are validated in gene ontology analysis and literature research. In addition, the synergies of genes among genes modules under plant hormones were also found by subCID.