Under　the　assumption　that　the　predators　better　detect　the　prey　species　exposed　to　the　wind　blowing,　a　modified　Leslie-Gower　predator　prey　system　incorporating　wind　effect　is　proposed　and　studied　in　this　paper.　Local　and　global　stability　properties　of　the　boundary　equilibrium　and　the　positive　equilibrium　are　investigated,　respectively.　For　the　wind　large　than　the　threshold,　the　prey　species　will　be　driven　to　extinction,　and　for　the　limited　wind　effect,　though　the　density　of　the　prey　species　will　be　reduced,　both　prey　and　predator　species　could　coexist　in　a　stable　state.　Our　study　shows　that　the　wind　effect　plays　a　crucial　role　in　the　persistence　and　stability　property　of　the　system.　Our　study　also　indicates　that　with　the　increasing　of　the　other　food　resource,　the　final　density　of　the　prey　species　will　decrease　while　the　density　of　predator　species　will　increase.　Numeric　simulations　are　run　to　demonstrate　the　viability　of　the　major　conclusions.　©　(2023),　(International　Association　of　Engineers).　All　Rights　Reserved.