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REFERENCES

  • Amthor J.S. (1989) Respiration and Crop Productivity. Springer-Verlag, New York, USA.
  • Bosc A., De Grandcourt A. & Loustau D. (2003) Variability of stem and branch maintenance respiration in a Pinus pinaster tree. Tree Physiology 23, 227236.
  • Bowman W.P., Barbour M.M., Turnbull M.H., Tissue D.T., Whitehead D. & Griffin K.L. (2005) Sapflow rates and sapwood density are critical factors in within- and between-tree variation in CO2 efflux from stems of mature Dacrydium cupressinum trees. New Phytologist 167, 815828.
  • Butnor J.R., Johnsen K.H. & Maier C.A. (2005) Soil properties differentially influenced estimates of soil CO2 efflux from three chamber based measurement systems. Biogeochemistry 73, 283301.
  • Carey E.V., DeLucia E.H. & Ball J.T. (1996) Stem maintenance and construction respiration in Pinus ponderosa grown in different concentrations of atmospheric CO2. Tree Physiology 16, 125130.
  • Cernusak L.A. & Marshall J.D. (2000) Photosynthetic refixation in branches of Western White Pine. Functional Ecology 14, 300311.
  • Cienciala E. & Lindroth A. (1995) Gas exchange and sap flow measurements of Salix viminalis trees in short rotation forest. II. Diurnal and seasonal variation of stomatal response and water use efficiency. Trees 9, 295301.
  • Clinton B.D., Maier C.A. & Sullivan N.H. (2001) An examination of the relationship between sapflow rate and measured stem CO2 efflux in trees. The Ecological Society of America 86th Annual Meeting, Madison, WI, August 5–10.
  • Damesin C., Ceschia E., Le Goff N., Ottorini J.M. & Dufrene E. (2002) Stem and branch respiration of beech: from tree measurements to estimations at the stand level. New Phytologist 153, 159172.
  • Daudet F.A., Améglio T., Cochard H., Archilla O. & Lacointe A. (2005) Experimental analysis of the role of water and carbon in tree stem diameter variations. Journal of Experimental Botany 56, 135144.
  • Edwards N.T. & McLaughlin S.B. (1978) Temperature-independent diel variations of respiration rates in Quercus alba and Liriodendron tulipifera. Oikos 31, 200206.
  • Edwards N.T. & Wullschleger S.D. (2000) Carbon dioxide efflux rates from stems of mature Quercus prinus L. & Acer rubrum L. trees do not appear to be affected by sapflow rates. Journal of Sustainable Forestry 10, 125131.
  • Edwards N.T., Tschaplinski T.J. & Norby R.J. (2002) Stem respiration increases in CO2-enriched sweetgum trees. New Phytologist 155, 239248.
  • Eklund L. (1990) Endogenous levels of oxygen, carbon dioxide and ethylene in stems of Norway spruce trees during one growing season. Trees 4, 150154.
  • Eklund L. (1993) Seasonal variations of O2, CO2, and ethylene in oak and maple stems. Canadian Journal of Forest Research 23, 26082610.
  • Eklund L. (2000) Internal oxygen levels decrease during the growing season and with increasing stem height. Tree 14, 177180.
  • Eklund L. & Lavigne M.B. (1996) Restricted lateral gas movement in Pinus strobus branches. Trees 10, 8385.
  • Ewers B.E. & Oren R. (2000) Analysis of assumptions and errors in the calculation of stomatal conductance from sap flux measurements. Tree Physiology 20, 579589.
  • Ewers B.E., Oren R. & Sperry J.S. (2000) Root hydraulic conductance: a reflection of water balance and a constraint on canopy stomatal conductance. Plant, Cell & Environment 23, 10551066.
  • Ewers B.E., Oren R., Johnsen K.H. & Landsberg J.J. (2001) Estimating maximum mean canopy stomatal conductance for use in models. Canadian Journal of Forest Research 31, 198207.
  • Goodwin R.H. & Goddard D.R. (1940) The oxygen consumption of isolated woody tissues. American Journal of Botany 27, 234237.
  • Granier A. (1985) Une nouvelle methode pour la mesure du flux de seve brute dans le tronc des arbres. Annales Des Sciences Forestieres 42, 193200.
  • Granier A. (1987) Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements. Tree Physiology 3, 309320.
  • Hari P., Pekka P. & Korpilahti E. (1991) Internal circulation of carbon within a tree. Canadian Journal of Forest Research 21, 514515.
  • Hook D.D., Brown C.L. & Wetmore R.H. (1972) Aeration in trees. Botanical Gazette 133, 443454.
  • Kabubari Y. (1988) Diurnal and seasonal fluctuations in the bark respiration of standing Fagus sylvatica trees at Solling, West Germany. Journal of the Japanese Forestry Society 70, 6470.
  • Kaipiainen L.K., Sofronova G.I., Hari P. & Yalynskaya E.E. (1998) The role of xylem in CO2 exchange in Pinus sylvestris woody stems. Russian Journal of Plant Physiology 45, 500505.
  • Lavigne M.B. (1987) Differences in stem respiration response to temperature between balsam firs trees in thinned and un-thinned stands. Tree Physiology 3, 225233.
  • Lavigne M.B. (1996) Comparing stem respiration and growth of jack pine provenances from northern and southern locations. Tree Physiology 16, 847852.
  • Levy P.E., Meir P., Allen S.J. & Jarvis P.G. (1999) The effect of aqueous transport of CO2 in xylem sap on gas exchange in woody plants. Tree Physiology 19, 5358.
  • McGuire M.A. & Teskey R.O. (2002) Microelectrode technique for in situ measurement of carbon dioxide concentrations in xylem sap of trees. Tree Physiology 22, 807811.
  • McGuire M.A. & Teskey R.O. (2004) A method for estimating stem respiration in trees using a mass balance approach that accounts for internal and external fluxes of CO2. Tree Physiology 24, 571578.
  • McKeand S.E., Grissom J.E., Handest J.A., O’Malley D.M. & Allen H.L. (2000) Responsiveness of diverse provenances of loblolly pine to fertilization – age 4 results. Journal of Sustainable Forestry 10, 8794.
  • Maier C.A. (2001) Stem growth and respiration in loblolly pine plantations differing in soil resource availability. Tree Physiology 21, 11831193.
  • Maier C.A., Albaugh T.J., Allen H.L. & Dougherty P.M. (2004) Respiratory carbon use and storage in mid-rotation loblolly pine (Pinus taeda) plantations: the effect of site resources on the stand carbon balance. Global Change Biology 10, 13351350.
  • Maier C.A., Zarnoch S.J. & Dougherty P.M. (1998) Effects of temperature and tissue nitrogen on dormant season stem and branch maintenance respiration in a young loblolly pine (Pinus taeda) plantation. Tree Physiology 18, 1120.
  • Martin T.A., Teskey R.O. & Dougherty P.M. (1994) Movement of respiratory CO2 in stems of loblolly pine (Pinus taeda) seedlings. Tree Physiology 14, 481495.
  • Negisi K. (1975) Diurnal fluctuations of CO2 released from the stem of standing young Pinus densiflora trees. Journal of Japanese Forestry Society 57, 375383.
  • Negisi K. (1978) Daytime depression in bark respiration and radial shrinkage in stem of a standing young Pinus densiflora tree. Journal of Japanese Forestry Society 60, 380382.
  • Negisi K. (1979) Bark respiration rate in stem segments detached from young Pinus densiflora trees in relation to velocity of artificial sap flow. Journal of Japanese Forestry Society 61, 8893.
  • Negisi K. (1982) Diurnal fluctuations of the stem bark respiration in relationship to the wood temperature in standing young Pinus densiflora, Chamaecyparis obtuse, and Quercus myrsinaefolia trees. Journal of Japanese Forestry Society 64, 315319.
  • Oren R., Phillips N., Ewers B.E., Pataki D.E. & Megonigal J.P. (1999) Sap-flux-scaled transpiration response to light, vapor pressure deficit, and leaf area reduction in a flooded Taxodium distichum forest. Tree Physiology 19, 337347.
  • Pataki D.E., Oren R. & Phillips N. (1998) Responses of sap flux and stomatal conductance of Pinus taeda L. trees to stepwise reductions in leaf area. Journal of Experimental Botany 49, 871878.
  • Pruyn M.L., Gartner B.L. & Harmon M.E. (2002) Respiratory potential in sapwood of old versus young ponderosa pine trees in the Pacific Northwest. Tree Physiology 22, 105116.
  • Pruyn M.L., Harmon M.E. & Gartner B.L. (2003) Stem respiratory potential in six softwood and four hardwood tree species in the central cascades of Oregon. Oecologia 137, 1021.
  • Ryan M.G., Linder S., Vose J.M. & Hubbard R.M. (1994) Dark respiration in pines. Ecological Bulletins 43, 5063.
  • Ryan M.G., Gower S.T., Hubbard R.M., Waring R.H., Gholz H.L., Cropper W.P. Jr. & Running S.W. (1995) Woody tissue maintenance respiration of four conifers in contrasting climate. Oecologia 101, 133140.
  • Ryan M.G., Hubbard R.M., Pongracic S., Raison R.J. & McMurtrie R.E. (1996) Foliage, fine root, woody tissue and stand respiration in Pinus radiata in relation to nitrogen status. Tree Physiology 16, 333343.
  • Sala A., Smith S.D. & Devitt D.A. (1996) Water use by Tamarix ramosissima and associated phreatophytes in a Mojave Desert floodplain. Ecological Applications 6, 888898.
  • Sprugel D.G. & Benecke U. (1991) Measuring woody-tissue respiration and photosynthesis. In Techniques & Approaches in Forest Tree Ecophysiology (eds J.P.Lassoie & T.M.Hinckley), pp. 329355. CRC Press, Boca Raton, FL, USA.
  • Stockfors J. (2000) Temperature variations and distribution of living cells within tree stems: implications for stem respiration modeling and scale-up. Tree Physiology 20, 10571062.
  • Stringer J.W. & Kimmerer T.W. (1993) Refixation of xylem sap CO2 in Populus deltoids. Physiologia Plantarum 89, 243251.
  • Teskey R.O. & McGuire M.A. (2002) Carbon dioxide transport in xylem causes errors in estimation of rates of respiration in stems and branches of trees. Plant, Cell & Environment 25, 15711577.
  • Teskey R.O. & McGuire M.A. (2005) CO2 transported in xylem sap affects CO2 efflux from Liquidambar styraciflua and Platanus occidentalis stems, and contributes to observed wound respiration phenomena. Trees 19, 357362.
  • Tyree M.T. & Ewers F.W. (1991) The hydraulic architecture of trees and other woody plants. Tansley Review No. 34. New Phytologist 119, 345390.
  • Xu M., DeBiase T., Qi Y., Goldstein A. & Liu Z. (2001) Ecosystem respiration in a young Ponderosa pine plantation in the Sierra Nevada Mountains, California. Tree Physiology 21, 309318.