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
Predicting root defence against herbivores during succession
S Rasmann, TL Bauerle, K Poveda, R Vannette
Functional Ecology 25 (2), 368-379, 2011
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
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
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
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
The floral microbiome: plant, pollinator, and microbial perspectives
RL Vannette
Annual Review of Ecology, Evolution, and Systematics 51 (1), 2020
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
Forest area and connectivity influence root‐associated fungal communities in a fragmented landscape
RL Vannette, DR Leopold, T Fukami
Ecology 97 (9), 2374-2383, 2016
The system can't perform the operation now. Try again later.
Articles 1–20