Journal
AGRICULTURAL AND FOREST METEOROLOGY
Volume 194, Issue -, Pages 167-174Publisher
ELSEVIER
DOI: 10.1016/j.agrformet.2014.04.003
Keywords
Elevated atmospheric humidity; Soil respiration; Climate change; Silver birch; Below-ground production; Microbial biomass
Categories
Funding
- Estonian Science Foundation, by Target projects [SF0180025s12, IUT2-16]
- Ministry of Education and Science of Estonia
- EU through the European Regional Development Fund (Centre of Excellence ENVIRON)
- European Regional Fund [3.2.0802.11-0043 (BioAtmos)]
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The predicted increase in precipitation at northern latitudes is an important factor affecting the functioning of forest ecosystems, yet the influence of increased atmospheric humidity on the forest ecosystem carbon cycle is still largely unknown. Our objectives were to determine the effect of elevated atmospheric humidity on soil respiration in silver birch (Betula pendula Roth.) plantations in a Free Air Humidity Manipulation experimental facility (FAHM). Soil respiration was monitored monthly from May to October, in 2008 and 2009 in three control and in three misting plots; soil temperature and soil moisture were measured simultaneously. Fine-root and rhizome biomass of the understory was measured by sequential soil cores. Soil microbial biomass and basal respiration were measured using manometric respirometers. After the first two years of manipulation, humidification led to lower soil respiration. Soil temperature was the main factor influencing seasonal dynamics of soil respiration, describing up to 75% of the total variation of soil respiration. Soil moisture had a weak negative effect on soil respiration. Humidification caused a remarkable increase in below-ground biomass and the production of the understory, and a 28% increase in the basal respiration of microbes. However, above-ground biomass and root turnover rate of the understory were almost unchanged. Hence, elevated atmospheric humidity significantly affects carbon cycle of deciduous forest. However, further studies are necessary for a better understanding of soil respiration response to changes in atmospheric humidity, in order to predict carbon balance in changing climate conditions. (C) 2014 Elsevier B.V. All rights reserved.
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