2018 journal article

Global predation pressure redistribution under future climate change

Nature Climate Change, 8(12), 1087–1091.

TL;DR: A global experiment using model caterpillars shows that climate explains patterns of predation better than latitude or elevation alone, and predation pressure is found to be greater under higher temperatures and more stable climatic conditions. (via Semantic Scholar)
UN Sustainable Development Goal Categories
13. Climate Action (OpenAlex)
Source: ORCID
Added: March 4, 2021

How climate affects biotic interactions is a question of urgent concern1–3. Theory predicts that biotic interactions are stronger at lower latitudes4–6. However, the role of climate in governing these patterns is typically assumed, rather than explicitly tested. Here, we dissected the influence of climatic descriptors on predation pressure using data from a global experiment with model caterpillars. We then used projections of future climate change to predict shifts in predation pressure. Climate, particularly components of temperature, explained latitudinal and elevational patterns of predation better than latitude or elevation by themselves. Projected predation pressure was greater under higher temperatures and more stable climates. Increased climatic instability projected for the near future predicts a general decrease in predation pressure over time. By identifying the current climatic drivers of global patterns in a key biotic interaction, we show how shifts in these drivers could alter the functioning of terrestrial ecosystems and their associated services. A global experiment using model caterpillars shows that climate explains patterns of predation better than latitude or elevation alone. Predation pressure is found to be greater under higher temperatures and more stable climatic conditions.