The growth and gas exchange response of soil-planted Norway spruce [Picea abies (L.) Karst.] and red oak (Quercus rubra L.) exposed to elevated CO2 and to naturally occurring drought
Article first published online: 28 APR 2006
Volume 129, Issue 2, pages 265–273, February 1995
How to Cite
DIXON, M., THIEC, D. L. and GARREC, J. P. (1995), The growth and gas exchange response of soil-planted Norway spruce [Picea abies (L.) Karst.] and red oak (Quercus rubra L.) exposed to elevated CO2 and to naturally occurring drought. New Phytologist, 129: 265–273. doi: 10.1111/j.1469-8137.1995.tb04296.x
- Issue published online: 28 APR 2006
- Article first published online: 28 APR 2006
- Received 20 April 1994; accepted 11 October 1994
- 1988. Effects of thinning on water stress and growth in Douglas-fir. Canadian Journal of Forest Research 18: 100–105. ,
- 1992. A reappraisal of the use of DMSO for the extraction and determination of chlorophyll a and b in lichens and higher plants. Environmental and Experimental Botany 32: 85–100. , , , ,
- 1993. A branch bag and CO2 control system for long-term CO2 enrichment of mature Sitka spruce (Picea sitchensis (Bong.) Carr.). Plant, Cell and Environment 16: 1139–1148. , ,
- 1979. Leaf conductance as related to xylem water potential and carbon dioxide concentration in Sitka spruce. Physiologia Plantarum 45: 158–166. , ,
- 1987. European open-top chambers programme. Specifications of open-top chambers. In: Microclimate and plant growth in open-top chambers. Proceedings of 2nd European open-top chamber workshop, 17–19 September 1986, Freiburg. Air Pollution Research Report 5. 170–172.
- 1992. Water stress, CO2 and climate change. Journal of Experimental Botany 43: 1131–1139. ,
- 1993. A comparison of photosynthetic responses to water stress in seedlings from 3 oak species: Quercus petraea (Matt.) Liebl, Q rubra L. and Q cerris L. Annales des Sciences Forestières 50: 48–60. , ,
- 1994. Interactive effects of elevated CO2 and soil drought on growth and transpiration efficiency and its determinants in two European forest tree species. Tree Physiology 14: 707–724. , , ,
- 1993. Foliar gas exchange responses of two deciduous hardwoods during 3 years of growth in elevated CO2: no loss of photosynthetic enhancement. Plant, Cell and Environment 16: 797–807. , ,
- 1987. Climatic change: a review of the causes. Canadian Journal of Forest Research 17: 1313–1339.
- 1987. Gas exchange and dry matter allocation responses to elevation of atmospheric CO2 concentration in seedlings of three species. Tree Physiology 3: 193–208.
- 1988. The effect of acid precipitation on epicuticular wax in Norway spruce and lodgepole pine. Meddelelser fra Norsk Institutt for Skogforkning 40: 1–13.
- 1991. Downward regulation of photosynthesis and growth at high CO2 levels. No evidence for either phenomenon in three-year study of sour orange trees. Plant Physiology 96: 990–992. , .
- 1993. Growth and ecophysiological responses of black spruce seedlings to elevated CO2 under varied water and nutrient additions. Canadian Journal of Forest Research 23: 1033–1042.
- 1994. Elevated atmospheric CO2 alters stomatal responses to variable sunlight in a CO2 grass. Plant, Cell and Environment 17: 189–195. , ,
- 1988. Does global increase of CO2 alter stomatal density Flora 181: 253–257.
- 1988. Etude en chambres à ciel onvert, des effets de doses subnécrotiques d'ozone et de dioxyde de soufre sur la croissance et le fonctionnement stomatique de Picea abies. Ph.D. thesis, University of Paris val de Marne, France.
- 1990. Some current aspects of stomatal physiology. Annual Review of Plant Physiology and Plant Molecular Biology 41: 55–75. , ,
- 1993. Limitations to CO2-induced growth enhancement in pot studies. Oecologia 94: 550–557. , ,
- 1993. Response of plants to CO2 under water limited conditions. Vegetatio 104/105: 193–209.
- 1989. Growth dynamics and water use of seedlings of Quercus alba L. in CO2-enriched atmospheres. New Phytologist 111: 491–500. ,
- 1990. Changes in N and S leaf content, stomatal density and specific leaf area of 14 plant species during the last three centuries of CO2 increase. Journal of Experimental Botany 41: 1119–1124. ,
- 1988. Surface areas, lengths and volumes of Picea abies (L.) Karst. needles: determination, biological variability and effect of environmental factors. Trees 2: 165–172. , , ,
- 1992. Effect of elevated CO2 on the photosynthesis, respiration and growth of perennial ryegrass. Journal of Experimental Botany 43: 811–818. , ,
- 1993. Interactive role of elevated CO2, nutrient limitations, and water stress in the growth responses of red spruce seedlings. Forest Science 39: 348–358. ,
- SAS Institute Inc. 1985. SAS user's guide, version 5 edition. Gary NC : SAS Institute Inc.
- 1965. Sap measure in plants. Science 148: 339–346. , , ,
- 1991. Rising CO2 levels and their potential significance for carbon flow in photosynthetic cells. Plant, Cell and Environment 14: 741–762.
- 1985. Effects of CO2 enrichment and water stress on gas exchange of Liquidambar styraciflua and Pinus taeda seedlings grown under different irradiance levels. Oecologia 65: 166–172. ,
- 1993. Effects of elevated carbon dioxide and drought on the growth and physiology of clonal Sitka spruce plants (Picea sitchensis (Bong.) Carr.). Tree Physiology 13: 389–399.
- 1994. Physiological and growth responses to atmospheric carbon dioxide concentration. In: PessarakliM, ed. Handbook of plant and crop physiology. New York : Marcel Dekker (in the press.).
- 1987. Stomatal number are sensitive to increase in CO2 from pre-industrial levels. Nature 327: 617–618.