C
Christine B. Müller
Researcher at University of Zurich
Publications - 52
Citations - 4577
Christine B. Müller is an academic researcher from University of Zurich. The author has contributed to research in topics: Aphid & Population. The author has an hindex of 33, co-authored 51 publications receiving 4214 citations. Previous affiliations of Christine B. Müller include ETH Zurich & University of Basel.
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Journal ArticleDOI
Incidence of Sarcoma Histotypes and Molecular Subtypes in a Prospective Epidemiological Study with Central Pathology Review and Molecular Testing
Françoise Ducimetière,A. Lurkin,Dominique Ranchère-Vince,Anne-Valérie Decouvelaere,Michel Peoc'h,Luc Istier,Philippe Chalabreysse,Christine B. Müller,Laurent Alberti,Pierre-Paul Bringuier,Jean-Yves Scoazec,Anne-Marie Schott,Christophe Bergeron,Dominic Cellier,Jean-Yves Blay,Isabelle Ray-Coquard +15 more
TL;DR: This study is the first detailed investigation of the crude incidence of histological and molecular subtypes of sarcomas in a European region of six million inhabitants, based on a central pathological review of the cases.
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The robustness of pollination networks to the loss of species and interactions: a quantitative approach incorporating pollinator behaviour.
Christopher N. Kaiser-Bunbury,Stefanie Muff,Jane Memmott,Christine B. Müller,Amedeo Caflisch +4 more
TL;DR: Tolerance of generalized networks to species extinctions was high in the random removal scenario, with an increase in network stability if species formed new interactions, however, Anthropogenic disturbance that promote the extinction of the strongest interactors might induce a sudden collapse of pollination networks.
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Symbiotic fungal endophytes control insect host–parasite interaction webs
Marina Omacini,Enrique J. Chaneton,Claudio M. Ghersa,Christine B. Müller,Christine B. Müller +4 more
TL;DR: The effects of fungal endophytes on insect food webs that reflect limited energy transfer to consumers as a result of low plant quality, rather than low productivity are presented.
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The role of nutrition, crowding and interspecific interactions in the development of winged aphids
TL;DR: The evidence for Winged morph production in aphids is reviewed, the evidence to support this theory is reviewed and the ecological and evolutionary significance of the findings are discussed.
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Diverse pollinator communities enhance plant reproductive success
TL;DR: This study demonstrates enhanced pollination services of diverse pollinator communities at the plant population level and suggests that both the niche complementarity and the presence of specific taxa in a pollinator community drive this positive relationship.