| The role of the gut microbiome in health and disease of adult honey bee workers |
42 |
| Insect cuticle: a critical determinant of insecticide resistance |
26 |
| Drivers of colony losses |
24 |
| The role of glutathione S-transferases (GSTs) in insecticide resistance in crop pests and disease vectors |
20 |
| Juvenile hormone signaling in insect oogenesis |
19 |
| Neonicotinoids: molecular mechanisms of action, insights into resistance and impact on pollinators |
18 |
| Responses of forest insect pests to climate change: not so simple |
17 |
| Composition and functional roles of the gut microbiota in mosquitoes |
17 |
| Does host plant adaptation lead to pesticide resistance in generalist herbivores? |
17 |
| Recently identified bee viruses and their impact on bee pollinators |
17 |
| Interactions between pesticides and pathogen susceptibility in honey bees |
16 |
| Variations on a protective theme: Hamiltonella defensa infections in aphids variably impact parasitoid success |
15 |
| The defensive Spiroplasma |
15 |
| Progress and challenges in identifying molecular mechanisms underlying host and vector manipulation by plant viruses |
14 |
| Complexity of the relationship between global warming and urbanization - an obscure future for predicting increases in vector-borne infectious diseases |
13 |
| Prey-predator phenological mismatch under climate change |
13 |
| Behavioural adaptations of mosquito vectors to insecticide control |
12 |
| An update on ecdysone signaling during insect oogenesis |
12 |
| Feedbacks between nutrition and disease in honey bee health |
12 |
| Detoxifying enzyme complements and host use phenotypes in 160 insect species |
12 |
| Species interactions under climate change: connecting kinetic effects of temperature on individuals to community dynamics |
12 |
| Unravelling the diversity of mechanisms through which nutrition regulates body size in insects |
11 |
| Lepidoptera genomes: current knowledge, gaps and future directions |
11 |
| Urban plants and climate drive unique arthropod interactions with unpredictable consequences |
11 |
| Wolbachia prevalence, diversity, and ability to induce cytoplasmic incompatibility in mosquitoes |
11 |
| Neuronal mechanisms underlying innate and learned olfactory processing in Drosophila |
11 |
| Mechanisms of aphid adaptation to host plant resistance |
11 |
| Regulating resistance: CncC:Maf, antioxidant response elements and the overexpression of detoxification genes in insecticide resistance |
11 |
| Immune-metabolic interactions during systemic and enteric infection in Drosophila |
10 |
| Global change and the importance of fire for the ecology and evolution of insects |
10 |
| Mechanisms of resistance to commercially relevant entomopathogenic bacteria |
10 |
| Rapid evolution of aphid pests in agricultural environments |
10 |
| Relevance of wild and managed bees for human well-being |
10 |
| Turning food into eggs: insights from nutritional biology and developmental physiology of Drosophila |
10 |
| Evolutionary responses of mutualistic insect-bacterial symbioses in a world of fluctuating temperatures |
9 |
| The puzzle of locust density-dependent phase polyphenism |
9 |
| Phenotypic plasticity, global change, and the speed of adaptive evolution |
9 |
| Transmission of mutualistic bacteria in social and gregarious insects |
9 |
| Effects of the gut parasite Nosema ceranae on honey bee physiology and behavior |
9 |
| The causes and evolutionary consequences of variation in female mate choice in insects: the effects of individual state, genotypes and environments |
9 |
| Nutritional ecology and foraging theory |
9 |
| Copy number variation (CNV) and insecticide resistance in mosquitoes: evolving knowledge or an evolving problem? |
8 |
| By land, air, and sea: hemipteran diversity through the genomic lens |
8 |
| Gene editing technologies and applications for insects |
8 |
| Saliva of hematophagous insects: a multifaceted toolkit |
8 |
| Novel RNAi delivery systems in the control of medical and veterinary pests |
8 |
| The diversity of pattern recognition receptors (PRRs) involved with insect defense against pathogens |
8 |
| Importance of endosymbionts Wolbachia and Rickettsia in insect resistance development |
8 |
| Rapid evolution in insect pests: the importance of space and time in population genomics studies |
8 |
| Transgenerational effects of insecticides - implications for rapid pest evolution in agroecosystems |
8 |
