Growth response of branches of Picea sitchensis to four years exposure to elevated atmospheric carbon dioxide concentration

C. V. M. BARTON; P. G. JARVIS

doi:10.1046/j.1469-8137.1999.00520.x

Abstract

Branch bags were used to expose branches on mature Sitka spruce trees to either ambient [CO2] (A) or elevated [CO2] (E) for 4 yr. This paper reports the effects of this treatment on the growth, development and phenology of the branches, including shoot expansion, shoot numbers, needle dimensions, needle numbers and stomatal density. The effect of elevated [CO2] on the relationship between leaf area and sapwood area was investigated. Exposure to elevated [CO2] doubled photosynthetic rates in current-year shoots and, despite some down-regulation, 1-yr-old E shoots also had higher rates of photosynthesis than their A counterparts. Thus, the amount of assimilate fixed by E branches was substantially more than that fixed by A branches; however, this increase in the local production of assimilate did not lead to an increase in non-structural carbohydrate or stimulate growth or meristematic activity within the E branches. There was a very consistent relationship between leaf area and stem cross-sectional area that was not influenced by [CO2]. However, unbagged branches had thicker stems than bagged branches, resulting in a slightly lower ratio of leaf area to cross-sectional area. The implications of the results for the modelling of growth and allocation and the potential utility of the branch bag technique are discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Berninger, F. Nikinmaa, E. Sievänen, R. and Nygren, P. 2000. Modelling of reserve carbohydrate dynamics, regrowth and nodulation in a N2‐fixing tree managed by periodic prunings. Plant, Cell & Environment, Vol. 23, Issue. 10, p. 1025.

Medlyn, B. E. Barton, C. V. M. Broadmeadow, M. S. J. Ceulemans, R. De Angelis, P. Forstreuter, M. Freeman, M. Jackson, S. B. Kellomäki, S. Laitat, E. Rey, A. Roberntz, P. Sigurdsson, B. D. Strassemeyer, J. Wang, K. Curtis, P. S. and Jarvis, P. G. 2001. Stomatal conductance of forest species after long‐term exposure to elevated CO2 concentration: a synthesis. New Phytologist, Vol. 149, Issue. 2, p. 247.

Gielen, B. Calfapietra, C. Claus, A. Sabatti, M. and Ceulemans, R. 2002. Crown architecture of Populus spp. is differentially modified by free‐air CO2 enrichment (POPFACE). New Phytologist, Vol. 153, Issue. 1, p. 91.

Sigurdsson, Bjarni D Roberntz, Peter Freeman, Michael Næss, Marius Saxe, Henrik Thorgeirsson, Halldor and Linder, Sune 2002. Impact studies on Nordic forests: effects of elevated CO2 and fertilization on gas exchange. Canadian Journal of Forest Research, Vol. 32, Issue. 5, p. 779.

Tuba, Z. Raschi, A. Lanini, G. M. Nagy, Z. Helyes, L. Vodnik, D. and Di Toppi, L. Sanità 2003. Abiotic Stresses in Plants. p. 157.

Zhou, Y. M. and Han, S. J. 2005. Photosynthetic response and stomatal behaviour of Pinus koraiensis during the fourth year of exposure to elevated CO<sub>2</sub> concentration. Photosynthetica, Vol. 43, Issue. 3, p. 445.

Medlyn, Belinda E. Berbigier, Paul Clement, Robert Grelle, Achim Loustau, Denis Linder, Sune Wingate, Lisa Jarvis, Paul G. Sigurdsson, Bjarni D. and McMurtrie, Ross E. 2005. Carbon balance of coniferous forests growing in contrasting climates: Model-based analysis. Agricultural and Forest Meteorology, Vol. 131, Issue. 1-2, p. 97.

Yu-mei, Zhou Shi-jie, Han Ying, Liu and Xia, Jia 2005. Stomatal response ofPinus sylvestriformis to elevated CO2 concentrations during the four years of exposure. Journal of Forestry Research, Vol. 16, Issue. 1, p. 15.

Medlyn, Belinda E. and McMurtrie, Ross E. 2005. A History of Atmospheric CO2 and Its Effects on Plants, Animals, and Ecosystems. Vol. 177, Issue. , p. 441.

Overdieck, Dieter and Strassemeyer, Jörn 2005. Gas exchange of Ginkgo biloba leaves at different CO2 concentration levels. Flora - Morphology, Distribution, Functional Ecology of Plants, Vol. 200, Issue. 2, p. 159.

Körner, Christian 2006. Plant CO2 responses: an issue of definition, time and resource supply. New Phytologist, Vol. 172, Issue. 3, p. 393.

Hall, M. Rantfors, M. Slaney, M. Linder, S. and Wallin, G. 2009. Carbon dioxide exchange of buds and developing shoots of boreal Norway spruce exposed to elevated or ambient CO2 concentration and temperature in whole-tree chambers. Tree Physiology, Vol. 29, Issue. 4, p. 461.

Overdieck, Dieter and Fenselau, Karin 2009. Elevated CO2 concentration and temperature effects on the partitioning of chemical components along juvenile Scots pine stems (Pinus sylvestris L.). Trees, Vol. 23, Issue. 4, p. 771.

Haworth, Matthew Heath, James and McElwain, Jennifer C. 2010. Differences in the response sensitivity of stomatal index to atmospheric CO2 among four genera of Cupressaceae conifers. Annals of Botany, Vol. 105, Issue. 3, p. 411.

MEDLYN, BELINDA E. DUURSMA, REMKO A. EAMUS, DEREK ELLSWORTH, DAVID S. PRENTICE, I. COLIN BARTON, CRAIG V. M. CROUS, KRISTINE Y. DE ANGELIS, PAOLO FREEMAN, MICHAEL and WINGATE, LISA 2011. Reconciling the optimal and empirical approaches to modelling stomatal conductance. Global Change Biology, Vol. 17, Issue. 6, p. 2134.

Pokorny, R. Tomaskova, I. and Marek, M. V. 2011. The effects of elevated atmospheric [CO2] on Norway spruce needle parameters. Acta Physiologiae Plantarum, Vol. 33, Issue. 6, p. 2269.

Kharouba, Heather M. Vellend, Mark Sarfraz, Rana M. Myers, Judith H. and Amarasekare, Priyanga 2015. The effects of experimental warming on the timing of a plant–insect herbivore interaction. Journal of Animal Ecology, Vol. 84, Issue. 3, p. 785.

Klein, Tamir Bader, Martin K.‐F. Leuzinger, Sebastian Mildner, Manuel Schleppi, Patrick Siegwolf, Rolf T.W. Körner, Christian and Lines, Emily 2016. Growth and carbon relations of mature Picea abies trees under 5 years of free‐air CO2 enrichment. Journal of Ecology, Vol. 104, Issue. 6, p. 1720.

Overdieck, Dieter 2016. CO2, Temperature, and Trees. p. 65.

Hoshika, Yasutomo Osada, Yutaka de Marco, Alessandra Peñuelas, Josep and Paoletti, Elena 2018. Global diurnal and nocturnal parameters of stomatal conductance in woody plants and major crops. Global Ecology and Biogeography, Vol. 27, Issue. 2, p. 257.

Download full list

Article contents

Growth response of branches of Picea sitchensis to four years exposure to elevated atmospheric carbon dioxide concentration

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Growth response of branches of Picea sitchensis to four years exposure to elevated atmospheric carbon dioxide concentration

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests