Articles
Growth, transpiration and water use efficiency of Larix sibirica, Larix gmelinii and Pinus sylvestris forest in Siberia
Article number
1222_17
Pages
124 – 132
Language
English
Abstract
Larix and Pinus are two of the most common genera in Siberia.
They together cover more than 80% of the Siberia’s forested area.
In a warming climate, larch may be replaced by pine.
Here we compare sap flow, growth and water use efficiency of stem growth (WUE) in three even-aged stands of Larix sibirica, Larix gmelinii, and Pinus sylvestris in Central Siberia in order to better understand possible changes in future water and carbon fluxes.
Larch species transpired more water than Scots pine.
As a result, pine maintained higher WUE than both larches.
Water use efficiency of stem biomass production was lowest in Larix sibirica and highest in P. sylvestris. Larix sibirica produced 1.00±0.30 kg of biomass dm-3 of transpired water, L. gmelinii produced 1.39±0.04 kg dm-3 and P. sylvestris produced 3.15±0.27 kg dm-3. Results suggest the transition from larch to pine forests will likely affect tree-level carbon and water balance either by decreased tree transpiration or increased carbon sequestration.
Increased water use efficiency may also increase tree resilience to a warm and dry climate.
They together cover more than 80% of the Siberia’s forested area.
In a warming climate, larch may be replaced by pine.
Here we compare sap flow, growth and water use efficiency of stem growth (WUE) in three even-aged stands of Larix sibirica, Larix gmelinii, and Pinus sylvestris in Central Siberia in order to better understand possible changes in future water and carbon fluxes.
Larch species transpired more water than Scots pine.
As a result, pine maintained higher WUE than both larches.
Water use efficiency of stem biomass production was lowest in Larix sibirica and highest in P. sylvestris. Larix sibirica produced 1.00±0.30 kg of biomass dm-3 of transpired water, L. gmelinii produced 1.39±0.04 kg dm-3 and P. sylvestris produced 3.15±0.27 kg dm-3. Results suggest the transition from larch to pine forests will likely affect tree-level carbon and water balance either by decreased tree transpiration or increased carbon sequestration.
Increased water use efficiency may also increase tree resilience to a warm and dry climate.
Publication
Authors
J. Urban, A.V. Rubtsov, A.V. Shashkin, V.E. Benkova
Keywords
sap flow, transpiration, boreal forest, larch, Scots pine, water use efficiency
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