In order to study factors affecting phytoseiid mite occurrence in uncultivated areas, we sampled phytoseiid mites (densities, diversity and age structure) on several plants located in 4 uncultivated areas surrounding European vineyards over 3 years to determine how plants, and mainly their leaf structure, affect mite communities. The plant composition of these areas greatly influenced phytoseiids density and diversity. The relationships between leaf structure (trichomes, pollen densities, number and structure of domatia, leaf surface) and Kampimodromus aberrans (Oudemans) densities were also studied. The frequency of occurrence and the abundance of K. aberrans per cm2 were correlated to high trichome densities. A complex phylloplane (many hairs and shelters or domatia) can benefit K. aberrans more than other phytoseiid mite species. The number and the rating of domatia were important for the development of K. aberrans; high proportions of immatures were observed only on plants with these structures. Pollen densities were significantly correlated to trichome densities; domatia structure had only a somewhat lesser effect. Furthermore, we demonstrated that K. aberrans does take up plant fluids. Our study shows how dense trichome and pollen levels can affect the development of K. aberrans populations and adds perspective to the influence of domatia on these important predaceous mite populations.