EntoLab is a computerized system for automated screening of plants for resistance to sucking insects. It can accurately screen many different plant lines in a high-throughput manner.
Gammarus shrimps are exceptionally difficult to track, but Noldus solved the puzzle, resulting in interesting insights into its ecology.
Over the past year we have hosted several webinars, technical briefings and virtual meet-ups. Now we have listed our Top 5 Webinars of 2020 on Animal Behavior Research for you. Don’t miss out and watch them for free any time!
Behavioral cores benefit universities as well as science in general. Recent cases show improved reproducibility of tests and protocols to assess a more complex phenotype of model animals.
Shrimp is a popular dish, and these crustaceans are a very large part of commercial aquaculture. Especially Pacific white-leg shrimp, as they grow fast and are able to adapt to a wide range of environments.
The early life environment of male bank voles can influence their offspring significantly. Both social stress and nutrient supply have an effect on the chances of survival for two generations.
Maarten Jongsma and colleagues use EntoLab to detect changes in insect behavior that provide a sensitive method for identifying and quantifying resistance development. They tested this approach with pyrethrins against aphids.
Karen Kloth used EntoLab in her research on the genetic basis of plant resistance to aphids. Genome-wide association mapping of aphid behavior on 350 natural Arabidopsis accessions led to the discovery of a new gene.
Jessica de Bruijn used EntoLab for automated high-throughput screening of parasitic wasps in individual olfactory 2-choice tests. Various behavioral parameters were measured to compute a memory retention index.
Maarten Jongsma explains how he used EntoLab to facilitate insect choice assays and automate the acquisition and analysis of movement tracks. Two Arabidopsis accessions were tested for resistance to western flower thrips.