Interaction of increasing atmospheric carbon dioxide and soil nitrogen on the carbon balance of tundra microcosms

Natural cores of vegetation and soils of arctic tundra were collected in frozen condition in winter near Barrow, Alaska (71°20′N). These cores were used as microcosms in a phytotron experiment to measure the interactions, if any, between increasing atmospheric CO₂ concentration and fertilization by...

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Bibliographic Details
Published in:Oecologia 1984-12, Vol.65 (1), p.26-29
Main Authors: Billings, W.D, Peterson, K.M, Luken, J.O, Mortensen, D.A
Format: Article
Language:English
Subjects:
atmosphere
Atmospherics
Billing
carbon
Carbon dioxide
ecological balance
Fertilization
Microcosms
Nitrogen
soil
Terrestrial ecosystems
tundra
Tundra soils
Tundras
Water tables
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Summary:Natural cores of vegetation and soils of arctic tundra were collected in frozen condition in winter near Barrow, Alaska (71°20′N). These cores were used as microcosms in a phytotron experiment to measure the interactions, if any, between increasing atmospheric CO₂ concentration and fertilization by ammonium nitrate on net ecosystem CO₂ exchange and net yield of tundra vegetation. Increased soil N significantly enhanced net ecosystem CO₂ uptake. The effect of increased CO₂ concentration had little or no effect on mean net ecosystem carbon balance of the tundra microcosms. Added N significantly increased leaf area and phytomass of vascular plants in the microcosms while increased atmospheric CO₂ had no effect on these parameters. We conclude that atmospheric CO₂ is not now limiting net ecosystem production in the tundra and that its direct effects will be slight even at double the present concentration. The most probable effects of carbon dioxide in the coastal tundra will be through its indirect effects on temperature, water table, peat decomposition, and the availability of soil nutrients.
ISSN:0029-8549
1432-1939
DOI:10.1007/BF00384458