New research by Lauren Brzozowski and colleagues develops our understanding of how plant preference gradients mediate herbivore behaviour, and how this can ultimately help us manage crop damage from insect pests. Associate Editor, Ian Kaplan collaborates with Christie Shee to introduce our new Journal of Applied Ecology Editor’s Choice article, Attack and aggregation of a major squash pest: Parsing the role of plant chemistry and … Continue reading Editor’s Choice 57:08 – The mechanisms underlying crop colonisation, aggregation and damage in an insect pest
In their recently published research, Laura Dobor, Tomáš Hlásny and colleagues investigate how different levels of intensity in salvage logging affect both bark beetle outbreaks and landscape-scale carbon storage. Salvage logging – the removal of trees killed by wind, insects and other agents – is one of the most frequently applied management responses to forest disturbances worldwide. In European Norway spruce forests, salvaging of windfelled … Continue reading A novel view of salvage logging in Europe’s spruce forests
Without sufficient water, urban trees are susceptible to other stressors, including insect pests. Associate Editor, Pieter De Frenne (Ghent University, Belgium) explains how Meineke and Frank’s recent paper, Water availability drives urban tree growth responses to herbivory and warming, provides key research into the management of a vital ecosystem service. Cities are hot. Not only to taste the best latte macchiato in the fanciest coffee … Continue reading How to manage city trees in a changing climate?
Emily Meineke comments on new research, Water availability drives urban tree growth responses to herbivory and warming published today in Journal of Applied Ecology. Cities are getting warmer. This is due in part to global climate change. The more important factor for now, though, is the urban heat island effect; local warming in cities caused by sidewalks, asphalt, and reduced tree cover. In short, areas with less … Continue reading Warming, insect pests and water stress combine to reduce tree growth in the city