human | Q5 |
P496 | ORCID iD | 0000-0002-0142-1654 |
P69 | educated at | Stony Brook University | Q969850 |
P108 | employer | Elms College | Q5366900 |
P106 | occupation | researcher | Q1650915 |
Q51561798 | Advertising to the enemy: enhanced floral fragrance increases beetle attraction and reduces plant reproduction. |
Q44261515 | Attracting mutualists and antagonists: plant trait variation explains the distribution of specialist floral herbivores and pollinators on crops and wild gourds |
Q51145900 | Barley yellow dwarf virus Infection Leads to Higher Chemical Defense Signals and Lower Electrophysiological Reactions in Susceptible Compared to Tolerant Barley Genotypes. |
Q46591559 | Cranberry Resistance to Dodder Parasitism: Induced Chemical Defenses and Behavior of a Parasitic Plant |
Q51726271 | Fragrance of Canada thistle (Cirsium arvense) attracts both floral herbivores and pollinators. |
Q46321765 | Gypsy moth herbivory induced volatiles and reduced parasite attachment to cranberry hosts. |
Q51552666 | Herbivory reduces plant interactions with above- and belowground antagonists and mutualists. |
Q51641682 | Leaf herbivory increases floral fragrance in male but not female Cucurbita pepo subsp. texana (Cucurbitaceae) flowers. |
Q45342014 | Linking agricultural practices, mycorrhizal fungi, and traits mediating plant-insect interactions. |
Q56639853 | Phylogenetics of the Caprifolieae and Lonicera (Dipsacales) Based on Nuclear and Chloroplast DNA Sequences |
Q52681846 | Pollinator and herbivore attraction to cucurbita floral volatiles. |
Q116759582 | Root herbivory indirectly affects above- and below-ground community members and directly reduces plant performance |
Q58071265 | The Challenge of Attracting Pollinators While Evading Floral Herbivores: Patterns of Fragrance Emission in Cirsium arvense and Cirsium repandum (Asteraceae) |
Q29035578 | The Evolution of Function in Plant Secondary Metabolites |
Q81450154 | The effect of pollination on floral fragrance in thistles |
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