Abstract
Understanding the role of terrestrial ecosystems in removing carbon
dioxide (CO2) from the atmosphere remains one of the fundamental
challenges to predicting future changes in the Earth's climate. Will
forests continue to sequester carbon (C) under rising atmospheric CO2
and nitrogen (N) deposition, or will the capacity of trees to build new
biomass be constrained by lack of nutrients? Recent research shows that
not all tree species react similarly to N-deposition; differences are
found in growth rates, survival and C-storage. Mycorrhizal fungi are an
important link in coupling the C and N cycles and are critical for tree
growth. Mycorrhizal fungi form mutualistic relationships, receiving
carbohydrates from their plant hosts and in return enhancing the supply
of critical nutrients. The two most abundant mycorrhizal associations
are arbuscular mycorrhizae (AM) and ectomycorrhizae (EM), both having
different mechanisms of N acquisition, which may explain observed
differences in tree species response to N-deposition. Changing
environmental variables influence mycorrhizal fungi. Increasing CO2
concentration increases mycorrhizal abundance, growth and plant C
allocation belowground. However, the effect of N-deposition on
mycorrhizae is less clear. N-deposition can have positive, neutral or
negative effects on mycorrhizal abundance and growth. It has been
hypothesized that the effect of N-deposition on mycorrhizal growth
depends on initial soil nutrient status. This soil nutrient status may
also determine the nature of the mycorrhizal relationship to the tree,
where in nutrient poor conditions, they could be more beneficial than in
nutrient rich conditions. In this research, we extend the hypothesis to
include growth of trees associated with either EM or AM, as a function
of increasing nitrogen deposition and soil nutrient status. Therefore,
we take into account the C-cost and the N-gain of the mycorrhizal fungi
for the tree in the different nutrient stages.
Original language | English |
---|---|
Article number | EGU2013-10746 |
Journal | Geophysical Research Abstracts |
Volume | 15 |
Publication status | Published - 1 Apr 2013 |
Event | EGU General Assembly 2013 - Vienna, Austria Duration: 7 Apr 2013 → … |