Slaney, Michelle
- Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences
Research article2009Peer reviewedOpen access
Hall, M; Räntfors, M; Slaney, Michelle; Linder, Sune; Wallin, G
Effects of Effects of ambient and elevated temperature and atmospheric carbon dioxide concentration ([CO2]) on CO2 assimilation rate and the structural and phenological development of shoots during their first growth season were studied in 45-year-old Norway spruce trees (Picea abies (L.) Karst.) abies (L) Karst.) enclosed in whole-tree chambers. Continuous measurements of net assimilation rate (NAR) in individual buds and shoots were made from early bud development to late August in two consecutive years. The largest effect of elevated temperature (T-E) was manifest early in the season as an earlier start and completion of shoot length development, and a 1-3-week earlier shift from negative to positive NAR compared with the ambient temperature (T-A) treatments. The largest effect of elevated [CO2] (C-E) was found later in the season, with a 30% increase in maximum NAR (C-A), and shoots assimilating their own mass in terms of carbon earlier in the C-E treatments than in the C-A treatments. Once the net carbon assimilation compensation point (NACP) had been reached T-E had little or no effect on the development of NAR performance, where as C-E had little effect before the NACP. No interactive effects of T-E and C-E on NAR were found. We conclude that in a climate predicted for northern Sweden in 2100, current-year shoots of P. abies will assimilate their own mass in terms of carbon 20-30 days earlier compared with the current climate, and thereby significantly contribute to canopy assimilation during their first year.
climate change; NAR; net CO2 assimilation rate; phenology; photosynthesis; Picea abies; shoot development
Tree Physiology
2009, Volume: 29, number: 4, pages: 467-481 Publisher: OXFORD UNIV PRESS
SDG13 Climate action
Forest Science
Renewable Bioenergy Research
DOI: https://doi.org/10.1093/treephys/tpn047
https://res.slu.se/id/publ/49961