SEARCH

SEARCH BY CITATION

References

  • Amthor J.S. (1991) Respiration in a future, higher-CO2 world. Plant, Cell and Environment 14, 1320.
  • Amthor J.S. (1997) Plant respiratory responses to elevated carbon dioxide partial pressure. In Advances in Carbon Dioxide Effects Research (eds L. H. Allen Jr, M. B. Kirkham, D. M. Olszyk & C. E. Whitman) ASA Special Publication Number 61, pp. 3577. ASA, Madison, WI, USA.
  • Amthor J.S. (2000a) Direct effect of elevated CO2 on nocturnal in situ leaf respiration in nine temperate deciduous tree species is small. Tree Physiology 20, 139144.
  • Amthor J.S. (2000b) The McCree–de Wit–Penning de Vries–Thornley respiration paradigms: 30 years later. Annals of Botany 86, 120.DOI: 10.1006/anbo.2000.1175
  • Amthor J.S., Koch G.W. & Bloom A.J. (1992) CO2 inhibits respiration in leaves of Rumex crispus L. Plant Physiology 98, 757760.
  • Amthor J.S., Koch G.W., Willms J.R. & Layzell D.B. (2001) Leaf O2 uptake in the dark is independent of coincident CO2 partial pressure. Journal of Experimental Botany 52, 22352238.
  • Bunce J.A. (2001) Effects of prolonged darkness on the sensitivity of leaf respiration to carbon dioxide concentration in C3 and C4 species. Annals of Botany 87, 463468.
  • Clinton B.D. & Vose J.M. (1999) Fine root respiration in mature eastern white pine (Pinus strobus) in situ: the importance of CO2 in controlled environments. Tree Physiology 19, 475479.
  • Dale J.E. (1988) The control of leaf expansion. Annual Review of Plant Physiology and Plant Molecular Biology 39, 267295.
  • Drake B.G., Azcon-Bieto J., Berry J., Bunce J., Dijkstra P., Farrar J., Gifford R.M., Gonzàlez-Meler M.A., Koch G., Lambers H., Siedow J. & Wullschleger S. (1999) Does elevated atmospheric CO2 concentration inhibit mitochondrial respiration in green plants? Plant, Cell and Environment 22, 649657.
  • El Kohen A., Pontailler J.-Y. & Mousseau M. (1991) Effet d’un doublement du CO2 atmosphérique sur la respiration à l’obscurité des parties aérienne de jeunes châtaigniers (Castanea sativa Mill.). Comptes Rendus de l’Academie de Sciences Paris 312, 477481.
  • Esau K. (1969) Pflanzenanatomie. Gustav Fischer Verlag, Stutt­gart, Germany.
  • Esau K. (1977) Anatomy of Seed Plants. John Wiley & Sons, New York, USA.
  • Gale J. (1982) Evidence for essential maintenance respiration of leaves of Xanthium strumarium at high temperature. Journal of Experimental Botany 33, 471476.
  • Gonzàlez-Meler M.A. & Siedow J.N. (1999) Direct inhibition of mitochondrial respiratory enzymes by elevated CO2: does it matter at the tissue or whole-plant level? Tree Physiology 19, 253259.
  • Gonzàlez-Meler M.A., Ribas-Carbó M., Siedow J.N. & Drake B.G. (1996) Direct inhibition of plant mitochondrial respiration by elevated CO2. Plant Physiology 112, 13491355.
  • Hamilton J.G., Thomas R.B. & DeLucia E.H. (2001) Direct and indirect effects of elevated CO2 on leaf respiration in a forest ecosystem. Plant, Cell and Environment 24, 975982.DOI: 10.1046/j.0016-8025.2001.00730.x
  • Hunt S., Cen Y., Willms J., Wong C., Farquhar G.D., Davey P.A., Long S.P. & Layzell D.B. (2000) Advances in photosynthesis and respiration research using a differential oxygen analyser with +/– 1 p.p.m. resolution. Plant Physiology and Biochemistry 38 (Suppl.), S11.
  • IPCC (2000) Special Report on Emission Scenarios (SRES). A Special Report of the IPCC Working Group III. Intergovernmental Panel on Climate Change, Geneva, Switzerland .
  • Jach M.E. & Ceulemans R. (2000) Short- versus long-term effects of elevated CO2 on night-time respiration of needles of Scots pine (Pinus sylvestris L.). Photosynthetica 38, 5767.
  • Jahnke S. (2001) Atmospheric CO2 concentration does not directly affect leaf respiration in bean or poplar. Plant, Cell and Environment 24, 11391151.
  • Jeffree C.E., Dale J.E. & Fry S.C. (1986) The genesis of intercellular spaces in developing leaves of Phaseolus vulgaris L. Protoplasma 132, 9098.
  • Johnson I.R. (1990) Plant respiration in relation to growth, maintenance, ion uptake and nitrogen assimilation. Plant, Cell and Environment 13, 319328.
  • Kidd F. (1916) The controlling influence of carbon dioxide. Part III. The retarding effect of carbon dioxide on respiration. Proceedings of the Royal Society of London B89, 136156.
  • Maksymowych R. (1959) Quantitative analysis of leaf development in Xanthium pensylvanicum. American Journal of Botany 46, 635644.
  • McDermitt D.K., Garcia R.L., Welles J.M. & Demetriades-Shah T.H. (2001) Common errors in gas exchange measurements. In Probing Photosynthesis. Mechanisms, Regulation and Adaptation (eds M. Yunus, U. Pathre & P. Mohanty), pp. 525538. Taylor & Francis, London, UK.
  • McDowell N.G., Marshall J.D., Qi J. & Mattson K. (1999) Direct inhibition of maintenance respiration in western helmlock roots exposed to ambient soil carbon dioxide concentrations. Tree Physiology 19, 599605.
  • Melzer E. & O’Leary M.H. (1987) Anapleurotic CO2 fixation by phosphoenolpyruvate carboxylase in C3 plants. Plant Physiology 84, 5860.
  • Napp-Zinn K. (1973) Anatomie des Blattes. II. Blattanatomie der Angiospermen. In Handbuch der Pflanzenantamie (eds W. Zimmermann, S. Carlquist, P. Ozenda & H. D. Wulff). Gebrüder Bornträger, Berlin, Stuttgart.
  • Neger F.W. (1912) Spaltöffnungsschluß und künstliche Turgorsteigerung. Berichte der Deutschen Botanischen Gesellschaft 30, 179194.
  • Neger F.W. (1918) Die Wegsamkeit der Laubblätter für Gase. Flora 111, 152161.
  • Parkhurst D.F. (1986) Internal leaf structure: a three-dimensional perspective. In On the Economy of Plant Form and Function (ed. T. J. Givnish), pp. 215249. Cambridge University Press, Cambridge, UK.
  • Parkhurst D.F. (1994) Tansley Review No. 65. Diffusion of CO2 and other gases inside leaves. New Phytologist 126, 449479.
  • Reuveni J. & Gale J. (1985) The effect of high levels of carbon dioxide on dark respiration and growth of plants. Plant, Cell and Environment 8, 623628.
  • Ryan M.G. (1991) Effects of climate change on plant respiration. Ecological Applications 1, 157167.
  • Strain B.R. & Thomas R.B. (1995) Anticipated effects of elevated CO2 and climate change on plants from Mediterranean-type ecosystems utilizing results of studies in other ecosystems. In Anticipated Effects of a Changing Global Environment on Mediterranean-Type Ecosystems (eds J. M. Moreno & W. W. Oechel), pp. 121139. Springer-Verlag, New York, USA.
  • Terashima I. (1992) Anatomy of non-uniform leaf photosynthesis. Photosynthesis Research 31, 195212.
  • Terashima I., Wong S.-C., Osmond C.B. & Farquhar G.D. (1988) Characterisation of non-uniform photosynthesis induced by abscisic acid in leaves having different mesophyll anatomies. Plant and Cell Physiology 29, 385394.
  • Thomas R.B. & Griffin K.L. (1994) Direct and indirect effects of atmospheric carbon dioxide enrichment on leaf respiration of Glycine max (L.) Merr. Plant Physiology 104, 355361.
  • Thomas R.B., Reid C.D., Ybema R. & Strain B.R. (1993) Growth and maintenance components of leaf respiration of cotton grown in elevated carbon dioxide partial pressure. Plant, Cell and Environment 16, 539546.
  • Tjoelker M.G., Oleksyn J., Lee T.D. & Reich P.B. (2001) Direct inhibition of leaf dark respiration by elevated CO2 is minor in 12 grassland species. New Phytologist 150, 419424.
  • Tjoelker M.G., Reich P.B. & Oleksyn J. (1999) Changes in leaf nitrogen and carbohydrates underlie temperature and CO2 acclimation of dark respiration in five boreal tree species. Plant, Cell and Environment 22, 767778.DOI: 10.1046/j.1365-3040.1999.00435.x
  • Tognetti R. & Johnson J.D. (1999) The effect of elevated atmospheric CO2 concentration and nutrient supply on gas exchange, carbohydrates and foliar phenolic concentration in live oak (Quercus virginiana Mill.) seedlings. Annals of Forest Science 56, 379389.
  • Will R.E. & Ceulemans R. (1998) Effects of elevated CO2 concentration on photosynthesis, respiration and carbohydrate status of coppice Populus hybrids. Physiologia Plantarum 100, 933939.
  • Winter H., Robinson D.G. & Heldt H.W. (1993) Subcellular volumes and metabolite concentrations in barley leaves. Planta 191, 180190.