Free Access
Issue
Ann. For. Sci.
Volume 58, Number 8, December 2001
Page(s) 819 - 828
DOI https://doi.org/10.1051/forest:2001165

References

1
Bosac C., Gardner S.D.L., Taylor G., Wilkins D., Elevated CO2 and hybrid poplar: a detailed investigation of root and shoot growth and physiology of P. euramericana `Primo', For. Ecol. Manag. 74 (1995) 103-116.
2
Ceulemans R., Mousseau M., Effects of elevated atmospheric CO2 on woody plants. Tansley Review No. 71, New Phytol. 127 (1994) 425-446.
3
Ceulemans R., Jiang X.N., Shao B.Y., Effects of elevated atmospheric CO2 on growth, biomass production and nitrogen allocation of two Populus genotypes, J. Biogeogr. 22 (1995a) 261-268.
4
Ceulemans R., Jiang X.N., Shao B.Y., Growth and physiology of one-year old poplar (Populus) under elevated atmospheric CO2 levels, Ann. Bot. 75 (1995b) 609-617.
5
Ceulemans R., Shao B.Y., Jiang X.N., Kalina J., First- and second-year aboveground growth and productivity of two Populus hybrids grown at ambient and elevated CO2, Tree Physiol. 16 (1996) 61-68.
6
Curtis P.S., Zak D.R., Pregitzer K.S., Teeri J.A., Above- and below-ground response of Populus grandidentata to elevated atmospheric CO2 and soil N availability, Plant Soil 165 (1994) 45-51.
7
Curtis P.S., Vogel C.S., Pregitzer K.S., Zak D.R., Teeri J.A., Interacting effects of soil fertility and atmospheric CO2 on leaf growth and carbon gain physiology in Populus x euramericana (Dode) Guinier, New Phytol. 129 (1995) 253-263.
8
De Angelis P., Scarascia Mugnozza G.E., Long-term CO2-enrichment in a Mediterranean natural forest: an application of large open top chambers, Chemosphere 36 (1998) 763-770.
9
DeLucia E.H., Hamilton J.G., Naidu S.L., Thomas R.B., Andrews J.A., Finzi A., Lavine M., Matamala R., Mohan J.E., Hendrey G.R., Schlesinger W.H., Net primary production of a forest ecosystem with experimental CO2 enrichment, Sci. 284 (1999) 1177-1179.
10
Dickson R.E., Coleman M.D., Riemenschneider D.E., Isebrands J.G., Hogan G.E., Karnosky D.F., Growth of five hybrid poplar genotypes exposed to interacting elevated CO2 and O3, Can. J. For. Res. 28 (1998) 1706-1716.
11
Dickson R.E., Lewin K.F., Isebrands J.G., Coleman M.D., Heilman W.E., Riemenschneider D.E., Sober J., Host G.E., Hendrey G.R., Pregitzer K.S., Karnosky D.F., Forest atmosphere carbon transfer and storage-II (FACTS II). The Aspen free-air CO2 and O3 enrichment (FACE) projects: an overview. USDA Forest Service North Central Forest Experiment Station General Technical Report, 2000, 68 p.
12
Dixon R.K., Brown S., Houghton R.A., Solomon A.M., Trexler M.C., Wisniewski J., Carbon pools and flux of global forest ecosystems, Sci. 263 (1994) 185-189.
13
Eamus D., Jarvis P.G., The direct effects of increase in the global atmospheric CO2 concentration on natural and commercial temperate trees and forests, Adv. Ecol. Res. 19 (1989) 2-55.
14
Gardner S.D.L., Taylor G., Bosac C., Leaf growth of hybrid poplar following exposure to elevated CO2, New Phytol. 131 (1995) 81-90.
15
Hansen E.A., Poplar woody biomass yields: a look to the future, Biomass Bioenergy 1 (1991) 1-7.
16
Hendrey G.R., Lewin K.F., Nagy J., Free air carbon dioxide enrichment: development, progress, results, Vegetatio 104/105 (1993) 17-31.
17
Idso S.B., Kimball B.A., Allen S.G., CO2 enrichment of sour orange trees: 2.5 years into a long-term experiment, Plant Cell Environ. 14 (1991) 351-353.
18
Janous D., Dvorák V., Oplustilová M., Kalina J., Chamber effects and responses of trees in the experiment using open top chambers, J. Plant Physiol. 148 (1996) 332-338.
19
Jarvis P.G. (Ed.), European Forests and Global Change, Cambridge University Press, Cambridge, 1998, 380 p.
20
Kalina J., Ceulemans R., Clonal differences in the response of dark and light reactions of photosynthesis to elevated atmospheric CO2 in poplar, Photosynthetica 33 (1997) 51-61.
21
Kaushal P., Guehl J.M., Aussenac G., Differential growth response to atmospheric carbon dioxide enrichment in seedlings of Cedrus atlantica and Pinus nigra ssp. laricio var. Corsicana, Can. J. For. Res. 19 (1989) 1351-1358.
22
Kubiske M.E., Pregitzer K.S., Mikan C.J., Zak D.R., Maziasz J.L., Teeri J.A., Populus tremuloides photosynthesis and crown architecture in response to elevated CO2 and soil N availability, Oecologia 110 (1997) 328-336.
23
Lee H.S.J., Overdieck D., Jarvis P.G., Biomass, growth and carbon allocation, in: Jarvis P.G. (Ed.), European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature, Cambridge University Press, Cambridge, 1998, pp. 126-191
24
Long S.P., Modification of the response of photosynthetic productivity to rising temperature by atmospheric CO2 concentrations: Has its importance been underestimated? Plant Cell Environ. 14 (1991) 729-739.
25
Miglietta F., Peressotti A., Vaccari F.P., Zaldei A., De Angelis P., Scarascia-Mugnozza G., Free-air CO2 enrichment (FACE) of a poplar plantation: the POPFACE fumigation system, New Phytol. 150 (2001) 465-476.
26
Norby R.J., Wullschleger S.D., Gunderson C.A., Johnson D.W., Ceulemans R., Tree responses to rising CO2 in field experiments: implications for the future forest, Plant Cell Environ. 22 (1999) 683-714.
27
Norby R.J., Todd D.E., Fults J., Johnson D.W., Allometric determination of tree growth in a CO2-enriched sweetgum stand, New Phytol. 150 (2001) 477-487.
28
Oechel W.C., Strain B.R., Native species responses to increased atmospheric carbon dioxide concentration, in: Strain B.R., Cure J.D. (Eds.), Direct Effects of Increasing Carbon Dioxide on Vegetation. Department of Energy, Office of Basic Energy Sciences, Carbon Dioxide Research Division, Springfield, VA, Washington DC, 1985, pp. 117-154
29
Pauley S.S., Perry T.O., Ecotypic variation of the photoperiodic response in Populus, J. Arnold Arbor. Vol. XXXV, (1954) 167-188.
30
Pontailler J.Y., Ceulemans R., Guittet J., Mau F., Linear and non-linear functions of volume index to estimate woody biomass in high density young poplar stands, Ann. Sci. For. 54 (1997) 335-345.
31
Pregitzer K.S., Zak D.R., Curtis P.S., Kubiske M.E., Teeri J.A., Vogel C.S., Atmospheric CO2, soil nitrogen and turnover of fine roots, New Phytol. 129 (1995) 579-585.
32
Radoglou K.M., Jarvis P.G., Effects of CO2 enrichment on four poplar genotypes. 1. Growth and leaf anatomy, Ann. Bot. 65 (1990) 617-626.
33
Remphrey W.R., Powell G.R., Crown architecture of Larix laricina saplings: sylleptic branching on the main stem, Can. J. Bot. 63 (1985) 1296-1302.
34
Saxe H., Ellsworth D.S., Heath J., Tree and forest functioning in an enriched CO2 atmosphere. Tansley Review No. 98, New Phytol. 139 (1998) 395-436.
35
Scarascia-Mugnozza G.E., Hinckley T.M., Stettler R.F., Heilman P.E., Isebrands J.G., Production physiology and morphology of Populus species and their hybrids grown under short rotation. III. Seasonal carbon allocation patterns from branches, Can. J. For. Res. 29 (1999) 1419-1432.
36
Scarascia-Mugnozza G.E., De Angelis P., Sabatti M., Calfapietra C., Ceulemans R., Peressotti A., Miglietta F., A FACE experiment on short rotation, intensive poplar plantation: objective and experimental set up of POPFACE, in: Sutton M.A., Moreno J.M., van der Putten W., Struwe S. (Eds.), Terrestrial Ecosystem Research in Europe: Successes, Challenges and Policy. Final Conference of the Terrestrial Ecosystem Research Initiative - Concerted Action (TERICA), Ecosystem Research Report, European Commission, Luxembourg, 2000, pp. 136-140.
37
Schimel D., Alves D., Enting D., Heimann M., Joos F., Radiative forcing of climate change, in: Houghton J.T., Filho L.G.M., Callander B.A., Harris N., Kattenberg A., Maskell K. (Eds.), Climate change 1995: the science of climate change, Cambridge University Press, Cambridge, 1996, pp. 65-132.
38
Sekawin M., La génétique du Populus alba L., Ann. For. Zagreb 6 (1975) 157-189.
39
Taylor G., Ranasinghe S., Bosac C., Gardner S.D.L., Ferris R., Elevated CO2 and plant growth: cellular mechanisms and responses of whole plants, J. Exp. Bot. 45 (1994) 1761-1774.
40
Tognetti R., Longobucco A., Raschi A., Miglietta F., Fumagalli I., Responses of two Populus clones to elevated atmospheric CO2 concentration in the field, Ann. For. Sci. 56 (1999) 493-500.

Abstract

Copyright INRA, EDP Sciences