Planting is an indispensable element of ecological engineering. It is the ultimate option for slope stabilization. Past researches have shed light on the effect of the roots in steadying gradients. 　　This paper employs pattern analysis to explore the impact of planting on slope stabilization under different grades and hydrological conditions. The mechanical model of the root system in this study is based on Mr. Wu Jheng-Syong’s “Relations of Root System Mechanics and Slope Stability” (1990) in which he studies root system mechanics of Taiwania and India-charcoal trema. Geological layer and destruction surface data of Slope/W（Geo-Slope,1991）are then utilized. Finally through Bishop’s adjusted analysis method and Janbu’s simplified analysis method under 8 different hydrological conditions, slope safety coefficients of destruction surface without plant or with plants of different kinds. 　　Analysis outcomes indicate Taiwania and India-charcoal trema are capable of raising safety coefficients of destruction surface at 1.3m under from 0.88 to 1 and from 0.7 to o.93 respectively. At the destruction surface at 3.4m under Taiwania and India-charcoal trema are capable of raising safety coefficients from 0.05 to 0.13 and from 0.04 to 0.12 respectively. At the destruction surface at 4.9m under, changes in safety coefficients caused by Taiwania and India-charcoal trema are both between -0.01 and 0.05. At deeper destruction surface increases in safety coefficient caused by planting are all below 0.03. Under dehydrated conditions, the safety coefficient is lowered by 0.017, indicating the fact that at deeper destruction surface planting does not enhance the safety coefficient and may cause it to decrease. Finally planting may not be appropriate for ecological engineering of every slope. Detailed study and analysis are required for identifying the suitable ecological engineering for a particular slope.