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Stem emissions of monoterpenes, acetaldehyde and methanol from Scots pine (Pinus sylvestrisL.) affected by tree–water relations and cambial growth

Authors :
Jaana Bäck
Anni Vanhatalo
Yann Salmon
Kaisa Rissanen
Teemu Hölttä
Ecosystem processes (INAR Forest Sciences)
Department of Forest Sciences
Institute for Atmospheric and Earth System Research (INAR)
Micrometeorology and biogeochemical cycles
INAR Physics
Forest Ecology and Management
Viikki Plant Science Centre (ViPS)
Source :
Plant, Cell & Environment. 43:1751-1765
Publication Year :
2020
Publisher :
Wiley, 2020.

Abstract

Tree stems are an overlooked source of volatile organic compounds (VOCs). Their contribution to ecosystem processes and total VOC fluxes is not well studied, and assessing it requires better understanding of stem emission dynamics and their driving processes. To gain more mechanistic insight into stem emission patterns, we measured monoterpene, methanol, and acetaldehyde emissions from the stems of mature Scots pines (Pinus sylvestris L.) in a boreal forest over three summers. We analysed the effects of temperature, soil water content, tree water status, transpiration, and growth on the VOC emissions, and used generalized linear models to test their relative importance in explaining the emissions. We show that Scots pine stems are considerable sources of monoterpenes, methanol, and acetaldehyde, and their emissions are strongly regulated by temperature. However, even small changes in water availability affected the emission potentials: increased soil water content increased the monoterpene emissions within a day, whereas acetaldehyde and methanol emissions responded within two to four days. This lag corresponded to their transport time in the xylem sap from the roots to the stem. Moreover, the emissions of monoterpenes, methanol, and acetaldehyde were influenced by the cambial growth rate of the stem with six- to ten-day lags. This article is protected by copyright. All rights reserved.

Details

ISSN :
13653040 and 01407791
Volume :
43
Database :
OpenAIRE
Journal :
Plant, Cell & Environment
Accession number :
edsair.doi.dedup.....d5b646030d63b613ac90bdfcb8b39e0e
Full Text :
https://doi.org/10.1111/pce.13778