|
Up a level |
Bieri, A P S; Härri, S A; Vorburger, C; Müller, C B (2009). Aphid genotypes vary in their response to the presence of fungal endosymbionts in host plants. Journal of Evolutionary Biology, 22(8):1775-1780.
Härri, S A; Krauss, J; Müller, C B (2009). Extended larval development time for aphid parasitoids in the presence of plant endosymbionts. Ecological Entomology, 34(1):20-25.
Züst, T; Härri, S A; Müller, C B (2008). Endophytic fungi decrease available resources for the aphid Rhopalosiphum padi and impair their ability to induce defences against predators. Ecological Entomology, 33(1):80-85.
Härri, S A. Fungal endosymbionts of grasses, and their effects on multitrophic interactions. 2008, University of Zurich, Faculty of Science.
Härri, S A; Krauss, J; Müller, C B (2008). Fungal endosymbionts of plants reduce lifespan of an aphid secondary parasitoid and influence host selection. Proceedings of the Royal Society B: Biological Sciences, 275(1651):2627 -2632.
Härri, S A; Krauss, J; Müller, C B (2008). Natural enemies act faster than endophytic fungi in population control of cereal aphids. Journal of Animal Ecology, 77(3):605-611.
Härri, S A; Krauss, J; Müller, C B (2008). Trophic cascades initiated by fungal plant endosymbionts impair reproductive performance of parasitoids in the second generation. Oecologia, 157(3):399-407.
Krauss, J; Härri, S A; Bush, L; Husi, R; Bigler, L; Power, S A; Müller, C B (2007). Effects of fertilizer, fungal endophytes and plant cultivar on the performance of insect herbivores and their natural enemies. Functional Ecology, 21(1):107-116.
Meister, B; Krauss, J; Härri, S A; Schneider, M V; Müller, C B (2006). Fungal endosymbionts affect aphid population size by reduction of adult life span and fecundity. Basic and Applied Ecology, 7(3):244-252.