Rachel L. Vannette
Rachel L. Vannette
Associate Professor of Entomology and Nematology, University of California, Davis
Verified email at - Homepage
Cited by
Cited by
Nectar bacteria, but not yeast, weaken a plant–pollinator mutualism
RL Vannette, MPL Gauthier, T Fukami
Proceedings of the Royal Society B: Biological Sciences 280 (1752), 20122601, 2013
Historical contingency in species interactions: towards niche‐based predictions
RL Vannette, T Fukami
Ecology letters 17 (1), 115-124, 2014
Nectar‐inhabiting microorganisms influence nectar volatile composition and attractiveness to a generalist pollinator
CC Rering, JJ Beck, GW Hall, MM McCartney, RL Vannette
New Phytologist 220 (3), 750-759, 2018
Honey bees avoid nectar colonized by three bacterial species, but not by a yeast species, isolated from the bee gut
AP Good, MPL Gauthier, RL Vannette, T Fukami
PloS one 9 (1), e86494, 2014
Dispersal enhances beta diversity in nectar microbes
RL Vannette, T Fukami
Ecology Letters, 2017
Plant defence theory re‐examined: Nonlinear expectations based on the costs and benefits of resource mutualisms
RL Vannette, MD Hunter
Journal of Ecology 99 (1), 66-76, 2011
Nectar microbes can reduce secondary metabolites in nectar and alter effects on nectar consumption by pollinators
RL Vannette, T Fukami
Ecology 97 (6), 1410-1419, 2016
Mycorrhizal fungi as mediators of defence against insect pests in agricultural systems
RL Vannette, MD Hunter
Blackwell Publishing Ltd, 2009
The floral microbiome: plant, pollinator, and microbial perspectives
RL Vannette
Annual Review of Ecology, Evolution, and Systematics 51, 363-386, 2020
Forager bees (Apis mellifera) highly express immune and detoxification genes in tissues associated with nectar processing
RL Vannette, A Mohamed, BR Johnson
Scientific reports 5 (1), 1-9, 2015
Predicting root defence against herbivores during succession
S Rasmann, TL Bauerle, K Poveda, R Vannette
Functional Ecology 25 (2), 368-379, 2011
Priority effects can persist across floral generations in nectar microbial metacommunities
H Toju, RL Vannette, MPL Gauthier, MK Dhami, T Fukami
Oikos 127 (3), 345-352, 2018
Genetic variation in expression of defense phenotype may mediate evolutionary adaptation of Asclepias syriaca to elevated CO2
RL Vannette, MD Hunter
Global Change Biology 17 (3), 1277-1288, 2011
Organic management promotes natural pest control through altered plant resistance to insects
R Blundell, JE Schmidt, A Igwe, AL Cheung, RL Vannette, ACM Gaudin, ...
Nature plants 6 (5), 483-491, 2020
Contrasting effects of yeasts and bacteria on floral nectar traits
RL Vannette, T Fukami
Annals of botany 121 (7), 1343-1349, 2018
Arbuscular mycorrhizal fungi mediate below‐ground plant–herbivore interactions: a phylogenetic study
RL Vannette, S Rasmann
Functional Ecology 26 (5), 1033-1042, 2012
Harnessing insect–microbe chemical communications to control insect pests of agricultural systems
JJ Beck, RL Vannette
Journal of agricultural and food chemistry 65 (1), 23-28, 2017
Plant‐derived differences in the composition of aphid honeydew and their effects on colonies of aphid‐tending ants
EG Pringle, A Novo, I Ableson, RV Barbehenn, RL Vannette
Ecology and Evolution 4 (21), 4065-4079, 2014
Arbuscular mycorrhizal fungi alter above- and below-ground chemical defense expression differentially among Asclepias species
RL Vannette, MD Hunter, S Rasmann
Frontiers in plant science 4, 361, 2013
Mycorrhizal abundance affects the expression of plant resistance traits and herbivore performance
RL Vannette, MD Hunter
Journal of Ecology 101 (4), 1019-1029, 2013
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