Free‐air CO2 enrichment (FACE) allows open‐air elevation of [CO2] without altering the
microclimate. Its scale uniquely supports simultaneous study from physiology and yield to …

Despite its fundamental role for carbon (C) and nutrient cycling, rhizodeposition remains 'the
hidden half of the hidden half': it is highly dynamic and rhizodeposits are rapidly …

Soil organic carbon (SOC), as the largest terrestrial carbon pool, plays an important role in
global carbon (C) cycling, which may be significantly impacted by global changes such as …

The elevation of atmospheric CO 2 concentration has a strong impact on the physiology of
C3 plants, far beyond photosynthesis and C metabolism. In particular, it reduces the …

Plants buffer increasing atmospheric carbon dioxide (CO2) concentrations through
enhanced growth, but the question whether nitrogen availability constrains the magnitude of …

Plant-soil feedbacks (PSFs) are interactions among plants, soil organisms, and abiotic soil
conditions that influence plant performance, plant species diversity, and community …

Soil fungi and bacteria are the key players in the transformation and processing of carbon
and nutrients in terrestrial ecosystems, yet controls on their abundance and activity are not …

The increasing input of anthropogenically derived nitrogen (N) to ecosystems raises a
crucial question: how does available N modify the decomposer community and thus affects …

Microbial necromass is an important source and component of soil organic matter (SOM),
especially within the most stable pools. Global change factors such as anthropogenic …

Carbon (C) metabolism is at the core of ecosystem function. Decomposers play a critical role
in this metabolism as they drive soil C cycle by mineralizing organic matter to CO2. Their …