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- Title
Effects of predicted future and current atmospheric temperature and [CO<sub>2</sub>] and high and low soil moisture on gas exchange and growth of Pinus taeda seedlings at cool and warm sites in the species range.
- Authors
Wertin, Timothy M.; McGuire, Mary Anne; Teskey, Robert O.
- Abstract
Predicted future changes in air temperature and atmospheric CO2 concentration ([CO2]), coupled with altered precipitation, are expected to substantially affect tree growth. Effects on growth may vary considerably across a species range, as temperatures vary from sub-optimal to supra-optimal for growth. We performed an experiment simultaneously at two locations in the current range of loblolly pine, a cool site and a warm site, to examine the effect of future climate conditions on growth of loblolly pine seedlings in contrasting regions of the species range. At both sites 1-year-old loblolly pine seedlings were grown in current (local ambient temperature and [CO2]) and predicted future atmospheric conditions (ambient +2 °C temperature and 700 µmol mol-1 [CO2]). Additionally, high and low soil moisture treatments were applied within each atmospheric treatment at each site by altering the amount of water provided to the seedlings. Averaged across water treatments, photosynthesis (Anet) was 31% greater at the cool site and 34% greater at the warm site in elevated temperature and [CO2] compared with ambient temperature. Biomass accumulation was also stimulated by 38% at the cool site and by 24% at the warm site in that treatment. These results suggest that a temperature increase of 2°C coupled with an increase in [CO2] (predicted future climate) will create conditions favorable for growth of this species. Reduced soil moisture decreased growth in both current and predicted atmospheric conditions. Biomass accumulation and Anet were reduced by ~39 and 17%, respectively, in the low water treatment. These results suggest that any benefit of future atmospheric conditions may be negated if soil moisture is reduced by altered precipitation patterns.
- Subjects
LOBLOLLY pine; PHYSIOLOGICAL effects of atmospheric temperature; SOIL moisture; GAS exchange in plants; EFFECT of carbon dioxide on plants; WATER treatment plants; PHYSIOLOGY
- Publication
Tree Physiology, 2012, Vol 32, Issue 7, p874
- ISSN
0829-318X
- Publication type
Article
- DOI
10.1093/treephys/tps051