Tobias Zuest
TitelZitiert vonJahr
Natural enemies drive geographic variation in plant defenses
T Züst, C Heichinger, U Grossniklaus, R Harrington, DJ Kliebenstein, ...
Science 338 (6103), 116-119, 2012
1692012
Using knockout mutants to reveal the growth costs of defensive traits
T Züst, B Joseph, KK Shimizu, DJ Kliebenstein, LA Turnbull
Proceedings of the Royal Society B: Biological Sciences 278 (1718), 2598-2603, 2011
922011
Mechanisms and evolution of plant resistance to aphids
T Züst, AA Agrawal
Nature plants 2 (1), 15206, 2016
842016
Trade-offs between plant growth and defense against insect herbivory: an emerging mechanistic synthesis
T Züst, AA Agrawal
Annual review of plant biology 68, 513-534, 2017
702017
A new method for measuring relative growth rate can uncover the costs of defensive compounds in Arabidopsis thaliana
C Paul‐Victor, T Züst, M Rees, DJ Kliebenstein, LA Turnbull
New Phytologist 187 (4), 1102-1111, 2010
612010
Hierarchical nuclear and cytoplasmic genetic architectures for plant growth and defense within Arabidopsis
B Joseph, JA Corwin, T Züst, B Li, M Iravani, G Schaepman-Strub, ...
The Plant Cell 25 (6), 1929-1945, 2013
352013
Growth–defense tradeoffs for two major anti‐herbivore traits of the common milkweed Asclepias syriaca
T Züst, S Rasmann, AA Agrawal
Oikos 124 (10), 1404-1415, 2015
282015
Evolution of plant growth and defense in a continental introduction
AA Agrawal, AP Hastings, GS Bradburd, EC Woods, T Züst, JA Harvey, ...
The American Naturalist 186 (1), E1-E15, 2015
232015
Endophytic fungi decrease available resources for the aphid Rhopalosiphum padi and impair their ability to induce defences against predators
T Zuest, SA Haerri, CB Mueller
Ecological Entomology 33 (1), 80-85, 2008
202008
Population growth and sequestration of plant toxins along a gradient of specialization in four aphid species on the common milkweed Asclepias syriaca
T Züst, AA Agrawal
Functional ecology 30 (4), 547-556, 2016
152016
Above‐ground herbivory by red milkweed beetles facilitates above‐and below‐ground conspecific insects and reduces fruit production in common milkweed
AC Erwin, T Züst, JG Ali, AA Agrawal
Journal of Ecology 102 (4), 1038-1047, 2014
152014
Plant chemical defense indirectly mediates aphid performance via interactions with tending ants
T Züst, AA Agrawal
Ecology 98 (3), 601-607, 2017
112017
Climate change and insect pests: resistance is not futile?
SN Johnson, T Züst
Trends in plant science 23 (5), 367-369, 2018
42018
Population transcriptomic characterization of the genetic and expression variation of a candidate progenitor of Miscanthus energy crops
J Yan, Z Song, Q Xu, L Kang, C Zhu, S Xing, W Liu, J Greimler, T Züst, J Li, ...
Molecular ecology 26 (21), 5911-5922, 2017
22017
Toxicity of Milkweed Leaves and Latex: Chromatographic Quantification Versus Biological Activity of Cardenolides in 16 Asclepias Species
T Züst, G Petschenka, AP Hastings, AA Agrawal
Journal of chemical ecology 45 (1), 50-60, 2019
12019
Erysimum cheiranthoides, an ecological research system with potential as a genetic and genomic model for studying cardiac glycoside biosynthesis
T Züst, M Mirzaei, G Jander
Phytochemistry reviews 17 (6), 1239-1251, 2018
12018
What doesn’t kill you makes you stronger: The burdens and benefits of toxin sequestration in a milkweed aphid
T Züst, S Mou, AA Agrawal
Functional ecology 32 (8), 1972-1981, 2018
12018
Convergent evolution of a metabolic switch between aphid and caterpillar resistance in cereals
B Li, C Förster, CAM Robert, T Züst, L Hu, RAR Machado, JD Berset, ...
Science advances 4 (12), eaat6797, 2018
2018
Mitteilungen aus der Presse
T Züst, L Turnbull
Gesunde Pflanzen 64 (4), 187-191, 2012
2012
Insect Herbivores as Drivers of Natural Selection
T Züst
Verlag nicht ermittelbar, 2012
2012
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