As ocean temperatures rise and currents shift, the plastisphere may become an even more effective route for biological ...

Climate change could hasten the release of ‘time-travelling’ pathogens from melting permafrost and ice that have been trapped for millennia. Their emergence increases threats to the global environment ...

Many alpine ecosystems are undergoing vegetation degradation because of global change, which is affecting ecosystem functioning and biodiversity. The ecological consequences of alpine pioneer ...

In the wake of the Covid-19 pandemic, we’ve heard a lot about gain-of-function research, and some of its risks, particularly regarding the possible creation of dangerous pathogens. But there’s a lot ...

Introduction -- Setting the scene : the context of investigating ecosystem functioning -- What do we need for a functioning ecosystem? The debate on biodiversity and ecosystem functioning -- Becoming ...

The world’s peatlands are highly diverse, from moss dominated, boreal and alpine Sphagnum bogs to tropical peat swamp forests with trees up to 70 m tall, yet they all share distinctive, harsh, ...

As biodiversity loss accelerates globally, understanding environmental influence over biodiversity–ecosystem functioning (BEF) relationships becomes crucial for ecosystem management. Theory suggests ...

Population and ecosystem approaches in ecology -- The maintenance and functional consequences of species diversity -- Biodiversity and ecosystem functioning -- Food webs, interaction webs, and ...

Autotrophs play an essential role in the cycling of carbon and nutrients, yet disease-ecosystem relationships are often overlooked in these dynamics. Importantly, the availability of elemental ...

In the eastern United States, oaks are abundant and provide significant economic and ecological benefits. However, oak ecosystems have experienced significant changes over the past century due to fire ...