How soil carbon balance will be affected by plant–mycorrhizal interactions under future
climate scenarios remains a significant unknown in our ability to forecast ecosystem carbon …

Our ability to make predictions about the impact of global environmental change on
arbuscular mycorrhizal (AM) fungi and on their role in regulating biotic response to such …

Arbuscular mycorrhizal fungi (AMF) play an important role in regulating carbon fluxes
between the biosphere and the atmosphere. A recent study showed that live hyphae can …

Comparing the belowground allocation of assimilated carbon (C) to roots and mycorrhizal
fungi across biomes can reveal specific plant nutrient acquisition strategies in ecosystems …

Mycorrhizal fungi are responsible for most nutrient uptake by the majority of land plants. As
such, mycorrhizas are increasingly recognized as important drivers of terrestrial ecosystem …

Although arbuscular mycorrhizal (AM) fungi are a major pathway in the global carbon cycle,
their basic biology and, in particular, their respiratory response to temperature remain …

The growth response of the hyphae of mycorrhizal fungi has been determined, both when
plant and fungus together and when only the fungus was exposed to a temperature change …

Mycorrhizas are ubiquitous symbioses that may have an important role in the movement of C
from air to soil. Studies on the effects of climate change factors on mycorrhizas have been …

The nutrient and carbon (C) allocation dynamics in mycorrhizal hyphal networks cause
variation in costs and benefits for individual plants and fungi and influence the productivity …

Arbuscular mycorrhizal (AM) fungi have a major influence on the structure, responses and
below‐ground C allocation of plant communities. Our lack of understanding of the response …