Belowground competition and the response of developing forest communities to atmospheric CO < inf> 2 and O < inf> 3
Document Type
Article
Publication Date
10-1-2007
Abstract
As human activity continues to increase CO2 and O3, broad expanses of north temperate forests will be simultaneously exposed to elevated concentrations of these trace gases. Although both CO2 and O3 are potent modifiers of plant growth, we do not understand the extent to which they alter competition for limiting soil nutrients, like nitrogen (N). We quantified the acquisition of soil N in two 8-year-old communities composed of trembling aspen genotypes (n = 5) and trembling aspen-paper birch which were exposed to factorial combinations of CO3 (ambient and 560 μL L-1) and O3 (ambient = 30-40 vs. 50-60 nL L-1). Tracer amount of 15NH4+ were applied to soil to determine how these trace gases altered the competitive ability of genotypes and species to acquire soil N. One year after isotope addition, we assessed N acquisition by measuring the amount of 15N tracer contained in the plant canopy (i.e. recent N acquisition), as well as the total amount of canopy N (i.e. cumulative N acquisition). Exposure to elevated CO2 differentially altered recent and cumulative N acquisition among aspen genotypes, changing the rank order in which they obtained soil N. Elevated O3 also altered the rank order in which aspen genotypes obtained soil N by eliciting increases, decreases and no response among genotypes. If aspen genotypes respond similarly under field conditions, then rising concentrations of CO2 and O3 could alter the structure of aspen populations. In the aspen-birch community, elevated CO2 increased recent N (i.e. 15N) acquisition in birch (68%) to a greater extent than aspen (19%), suggesting that, over the course of this experiment, birch had gained a competitive advantage over aspen. The response of genotypes and species to rising CO2 and O3 concentrations, and how these responses are modified by competitive interactions, has the potential to change the future composition and productivity of northern temperate forests. © 2007 Blackwell Publishing Ltd.
Publication Title
Global Change Biology
Recommended Citation
Zak, D.,
Holmes, W.,
Pregitzer, K.,
King, J.,
Ellsworth, D.,
&
Kubiske, M.
(2007).
Belowground competition and the response of developing forest communities to atmospheric CO < inf> 2 and O < inf> 3 .
Global Change Biology,
13(10), 2230-2238.
http://doi.org/10.1111/j.1365-2486.2007.01436.x
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/11295