Climate warming is predicted to affect temperate forests severely, but the response of fine
roots, key to plant nutrition, water uptake, soil carbon, and nutrient cycling is unclear …

Global warming is predicted to impact high-latitude and high-altitude forests severely,
jeopardizing their overall functioning and carbon storage, both of which depend on the …

Increased CO2 emissions and global warming may alter the composition of fungal
communities through the removal of temperature limitation in the plant–soil system, faster …

Fine root acclimation to different environmental conditions is crucial for growth and
sustainability of forest trees. Relatively small changes in fine root standing biomass (FRB) …

The mechanisms by which warming affects fine root lifespan remain unclear. In a large-scale
soil warming experiment in a Chinese fir plantation, fine root dynamics were monitored for …

Climate warming and elevated ozone (eO3) are important climate change components that
can affect plant growth and plant-microbe interactions. However, the resulting impact on soil …

Aims and methods The effects of changing climate on ectomycorrhizal (EcM) fine roots were
studied in northern Sweden by manipulating soil temperature for 14 years and/or by …

Climate warming is expected to have particularly strong effects on tundra and boreal
ecosystems, yet relatively few studies have examined soil responses to temperature change …

Whether and how warming alters functional traits of absorptive plant roots remains to be
answered across the globe. Tackling this question is crucial to better understanding …

Soil fungi are key regulators of forest carbon cycling and their responses to global change
have effects that ripple throughout ecosystems. Global changes are expected to push many …