Stomatal development is regulated to cope with external changing environment by a complex signaling network. Sugar, as an integrator of environmental signals and metabolites, has been known to perturb stomatal patterning. ICE1/SCRM, a transcriptional activator of freezing tolerance, has been found to promote the cell fate transition during stomatal development. This implicates ICE1 might be a link between environmental adaptation and stomatal development. We found that an ICE1 mutant, ice1-2, was less sensitive to sugar solution immersion treatment, which enhanced cell transition of stomatal development, than WT as shown by stomata index. This finding indicates the crucial role of ICE in sugar-mediated stomatal development. In this study, several mutants related to stomatal development were used to find components that participate in sugar-mediated stomatal development. Mutants of ABA biosynthesis and signaling and MAPK signaling pathway were shown to be less sensitive to sugar solution immersion treatment, while mutants of small peptide ligands and BR-mediated signaling were not. Our results suggested that ICE1 may be a key component to sugar induced promotion of the cell fate transition of stomatal development, and this process is likely regulated by ABA and MAPK signaling.