Dl. Godbold et al., GROWTH AND MYCORRHIZAL COLONIZATION OF 3 NORTH-AMERICAN TREE SPECIES UNDER ELEVATED ATMOSPHERIC CO2, New phytologist, 137(3), 1997, pp. 433-440
We investigated the effect of elevated CO2 on the growth and mycorrhiz
al colonization of three tree species native to north-eastern American
forests (Betula papyrifera Marsh., Pinus strobus L. and Tsuga canaden
sis L. Carr). Saplings of the tree species were collected from Harvard
Forest, Massachusetts, and grown in forest soil under ambient (c. 375
ppm) and elevated (700 ppm) atmospheric CO2 concentrations for 27-35
wk. In all three species there was a trend to increasing whole-plant,
total-root and fine-root biomass in elevated CO2, and a significant in
crease in the degree of ectomycorrhizal colonization in B. papyrifera
and P. strobus, but not in T. canadensis. However, in T. canadensis th
e degree of colonization with arbuscular mycorrhizas increased signifi
cantly. In both the ambient and elevated environments, on the roots of
B. papyrifera and P. strobus 12 distinct ectomycorrhizal morphotypes
were identified. Distinct changes in the ectomycorrhizal morphotype as
semblage of B. papyrifera were observed under CO2 enrichment. This cha
nge resulted in an increase in the frequency of ectomycorrhizas with a
higher incidence of emanating hyphae and rhizomorphs, and resulted in
a higher density of fungal hyphae in a root exclusion chamber.