Elevated carbon dioxide (eCO2), a much-discussed topic in global warming, influences
development and functions of mycorrhizal fungi and plants. However, due to the inconsistent …

We advocate the concept of an arbuscular mycorrhiza (AM) as a temporally and spatially
complex symbiosis representing a suite of hosts and fungi, as against the more traditional" …

Climate change and other anthropogenic activities have the potential to alter the dynamics
of resource exchange in the mutualistic symbiosis between plants and mycorrhizal fungi …

Elevated atmospheric CO 2 concentration (eCO 2) effects on plants depend on several
factors including plant photosynthetic physiology (eg C 3, C 4), soil nutrient availability and …

The aim here was to separately assess mycorrhizal fungal and plant responses under
elevated atmospheric CO2, and to test a mycocentric model that assumes that increased …

The symbiosis between plants and root‐colonizing arbuscular mycorrhizal (AM) fungi is one
of the most ecologically important examples of interspecific cooperation in the world. AM …

It has been suggested that enrichment of atmospheric CO2 should alter mycorrhizal function
by simultaneously increasing nutrient‐uptake benefits and decreasing net C costs for host …

The influence of mycorrhizal symbiosis, atmospheric CO 2 concentration and the interaction
between both factors on biomass production and partitioning were assessed in nodulated …

Arbuscular mycorrhizal (AM) symbioses are a potentially important link in the chain of
response of ecosystems to elevated atmospheric [CO2]. By promoting plant phosphorus …

Global environmental change (GEC), in particular rising atmospheric CO 2 concentration
and temperature, will affect most ecosystems. The varied responses of plants to these …