Leaf pubescence mediates the abundance of non-prey food and the density of the predatory mite Typhlodromus pyri
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[1] R. Hoffmann,et al. Effect of wind-borne pollens on the population dynamics ofAmblyseius hibisci [Acarina: Phytoseiidae] , 1979, Entomophaga.
[2] E. El-banhawy,et al. Behaviour and bionomics of the predatory mite,Phytoseius plumifer [Acarina: Phytoseiidae] as affected by physical surface features of host plants , 1974, Entomophaga.
[3] J. Nyrop,et al. Dynamics ofPanonychus ulmi andTyphlodromus pyri: factors contributing to persistence , 1992, Experimental & Applied Acarology.
[4] C. Duso,et al. Developmental times and oviposition rates of predatory mitesTyphlodromus pyri andAmblyseius andersoni (Acari: Phytoseiidae) reared on different foods , 1991, Experimental & Applied Acarology.
[5] C. Duso,et al. Mite Population Dynamics on Different Grape Varieties With or Without Phytoseiids Released (Acari: Phytoseiidae) , 1999, Experimental & Applied Acarology.
[6] R. Karban,et al. Abundance of phytoseiid mites on Vitis species: effects of leaf hairs, domatia, prey abundance and plant phylogeny , 1995, Experimental & Applied Acarology.
[7] D. O'dowd,et al. Plants, mites and mutualism: leaf domatia and the abundance and reproduction of mites on Viburnum tinus (Caprifoliaceae) , 1994, Oecologia.
[8] J. Hardman,et al. Pollen availability for predaceous mites on apple: spatial and temporal heterogeneity , 2004, Experimental & Applied Acarology.
[9] S. Walde,et al. The functional response of Typhlodromus pyri to its prey, Panonychus ulmi: the effect of pollen , 2004, Experimental & Applied Acarology.
[10] L. Tanigoshi,et al. Non-prey food for subsistence of Amblyseius idaeus (Acari: Phytoseiidae) on cassava in Africa , 1993, Experimental & Applied Acarology.
[11] M. Dicke,et al. Trichomes and spider-mite webbing protect predatory mite eggs from intraguild predation , 2000, Oecologia.
[12] E. Grafton-Cardwell,et al. Leguminous Cover Crops to Enhance Population Development of Euseius tularensis (Acari: Phytoseiidae) in Citrus , 1999 .
[13] A. Roda,et al. Conservation biological control of spider mites in perennial cropping systems , 1998 .
[14] B. Croft,et al. Life-styles of Phytoseiid mites and their roles in biological control. , 1997, Annual review of entomology.
[15] J. Tsai,et al. Development, Survivorship, and Reproduction of Amblyseius largoensis (Acari: Phytoseiidae) on Selected Plant Pollens and Temperatures , 1996 .
[16] D. Walter. Living on leaves: mites, tomenta, and leaf domatia. , 1996, Annual review of entomology.
[17] E. Grafton-Cardwell,et al. Augmentation of Euseius tularensis (Acari: Phytoseiidae) in Citrus , 1995 .
[18] B. Ohnesorge,et al. Die Rolle von Ersatznahrung und Mikroklima im System Typhlodromus pyri Scheuten (Acari, Phytoseiidae)—Panonychus ulmi Koch (Acari, Tetranychidae) auf Weinreben I. Untersuchungen im Labor , 1994 .
[19] B. Ohnesorge,et al. Die Rolle von Ersatznahrung und Mikroklima im System Typhlodromus pyri (Acari, Phytoseiidae) —Panonychus ulmi (Acari, Tetranychidae) auf Weinreben , 1994 .
[20] E. Grafton-Cardwell,et al. Effects of various pollens on development, survivorship, and reproduction of Euseius tularensis (Acari : Phytoseiidae) , 1992 .
[21] J. Peña. Predator-Prey Interactions between Typhlodromalus peregrinus and Polyphagotarsonemus latus: Effects of Alternative Prey and Other Food Resources , 1992 .
[22] H. W. Woolhouse,et al. Vegetation and the atmosphere. Volume 1. Principles. , 1978 .
[23] H. Tauber. Investigations of the mode of pollen transfer in forested areas , 1967 .
[24] R. Downing,et al. RELATIVE DENSITIES OF PREDACIOUS AND PHYTOPHAGOUS MITES ON THREE VARIETIES OF APPLE TREES , 1967, The Canadian Entomologist.
[25] J. Mcmurtry,et al. Some Factors Influencing the Abundance of the Predaceous Mite Amblyseius hibisci in Southern California (Acarina: Phytoseiidae) , 1965 .
[26] J. L. Martin. The Bionomics of the Pine Bud Moth, Exoteleia dodecella L. (Lepidoptera: Gelechiidae), in Ontario , 1959, The Canadian Entomologist.