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- Title
Soil moisture controls Engelmann spruce ( Picea engelmannii) seedling carbon balance and survivorship at timberline in Utah, USA.
- Authors
Gill, Richard A.; Campbell, Colin S.; Karlinsey, Sarah M.
- Abstract
Most hypotheses about controls over high-altitude forests, including treeline, the elevation for upright woody plants, or timberline, the upper elevation for aggregated forest, suggest that low temperature drives forest dynamics, either through effects on cell division and tree growth or indirectly through frost damage or nutrient availability. However, abiotic factors other than temperature, including water availability, may serve as other important controls at high elevations, particularly for seedlings. To test the hypothesis that the timing and amount of precipitation exerts a strong control over the high-elevation forest boundary on the Wasatch Plateau in central Utah, USA, we conducted a field experiment that manipulated water availability and monitored photosynthesis, growth, and survivorship in Picea engelmannii Parry ex Engelm. seedlings. Survivorship increased from the driest to the wettest conditions, whereas the timing of precipitation did not explain differences in survival. However, we found that large, infrequent rain events increased maximum photosynthetic flux density compared with small, frequent rain events. Our results highlight the potential role of growing season water availability in limiting timberline expansion below the low-temperature thermal limits of P. engelmannii. As a consequence, the infilling of trees below the treeline in this region in response to climate change is likely to be episodic and driven by multiyear periods of high water availability and frequency that overcome drought limitations.
- Subjects
UTAH; ENGELMANN spruce; SEEDLINGS; SOIL moisture; TIMBERLINE; CARBON cycle
- Publication
Canadian Journal of Forest Research, 2015, Vol 45, Issue 12, p1845
- ISSN
0045-5067
- Publication type
Article
- DOI
10.1139/cjfr-2015-0239