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  • Becker P. 1998. Limitations of a compensation heat pulse velocity system at low sap flow: implications for measurements at night and in shaded trees. Tree Physiology 18: 177184.
  • Bieker D, Rust S. 2012. Electric resistivity tomography shows radial variation of electrolytes in Quercus robur. Canadian Journal of Forest Research 40: 11891193.
  • Burgess SSO, Adams M, Turner NC, Beverly CR, Ong CK, Khan AAH, Bleby TM. 2001. An improved heat pulse method to measure low and reverse rates of sap flow in woody plants. Tree Physiology 21: 589598.
  • Burgess SSO, Bleby TM. 2006. Redistribution of soil water by lateral roots mediated by stem tissues. Journal of Experimental Botany 57: 32833291.
  • Burgess SSO, Dawson TE. 2008. Using branch and basal trunk sap flow measurements to estimate whole-plant water capacitance: a caution. Plant and Soil 305: 513.
  • Campbell GS, Calissendorff C, Williams JH. 1991. Probe for measuring soil specific-heat using a heat-pulse method. Soil Science Society of America Journal 55: 291293.
  • Clearwater MJ, Luo ZW, Mazzeo M, Dichio B. 2009. An external heat pulse method for measurement of sap flow through fruit pedicels, leaf petioles and other small-diameter stems. Plant, Cell & Environment 32: 16521663.
  • Cohen Y, Cohen S, Cantuarias-Aviles T, Schiller G. 2008. Variations in the radial gradient of sap velocity in trunks of forest and fruit trees. Plant and Soil 305: 4959.
  • Cohen Y, Fuchs M, Green GC. 1981. Improvement of the heat pulse method for determining sap flow in trees. Plant, Cell & Environment 4: 391397.
  • De Pauw DJW, Steppe K, De Baets B. 2008. Identifiability analysis and improvement of a tree water flow and storage model. Mathematical Biosciences 211: 314332.
  • Edwards WRN, Warwick NWM. 1984. Transpiration from a kiwifruit vine as estimated by the heat pulse technique and the Penman–Monteith equation. New Zealand Journal of Agricultural Research 27: 537543.
  • Granier A. 1985. Une nouvelle méthode pour la mesure du flux de sève brute dans le tronc des arbres. Annales Scientifique Forestières 42: 193200.
  • Green S, Clothier B, Jardine B. 2003. Theory and practical application of heat pulse to measure sap flow. Agronomy Journal 95: 13711379.
  • Green S, Clothier B, Perie E. 2009. A re-analysis of heat pulse theory across a wide range of sap flows. In: Fernandez JE, Diaz-Espejo A, eds. 7th International Workshop on Sap Flow. Seville, Spain: Acta Horticultura, 95104.
  • Huber B. 1932. Beobachtung und messung pflanzlicher saftstrome. Berichte der Deutschen Botanischen Gesellschaft 50: 89109.
  • Jones HG, Hamer PJC, Higgs KH. 1988. Evaluation of various heat-pulse methods for estimation of sap flow in orchard trees: comparison with micrometeorological estimates of evaporation. Trees – Structure and Function 2: 250260.
  • Jones M, Aptaker PS, Cox J, Gardiner BA, McDonald PJ. 2012. A transportable magnetic resonance imaging system for in-situ measurements of living trees: the tree hugger. Journal of Magnetic Resonance 218: 133140.
  • Kluitenberg GJ, Bristow KL, Das BS. 1995. Error analysis of heat pulse method for measuring soil heat-capacity, diffusivity and conductivity. Soil Science Society of America Journal 59: 719726.
  • Kluitenberg GJ, Ham JM. 2004. Improved theory for calculating sap flow with the heat pulse method. Agricultural and Forest Meteorology 126: 169173.
  • Marshall DC. 1958. Measurement of sap flow in conifers by heat transport. Plant Physiology 33: 385396.
  • Martin LH, Lang KC. 1933. The thermal conductivity of water. Proceedings of the Physical Society 45: 523529.
  • McCarthy EL. 1934. Mariotte’s bottle. Science 80: 100.
  • Nadezhdina N, Cermak J, Nadezhdin V. 1998. Heat field deformation method for sap flow measurements. In: Cermak J, Nadezhdina N, eds. Proceedings of the 4th International Workshop on Measuring Sap Flow in Intact Plants. Brno, Czech Republic: Publishing House of Mendel University, 7292.
  • Nadezhdina N, Vandegehuchte M, Steppe K. 2012. Sap flux density measurements based on the heat field deformation method. Trees – Structure and Function. doi: 10.1007/s00468-012-0718-3.
  • Nadler A, Raveh E, Yermiyahu U, Lado M, Nasser A, Barak M, Green S. 2008. Detecting water stress in trees using stem electrical conductivity measurements. Soil Science Society of America Journal 72: 10141024.
  • Nadler A, Tyree MT. 2008. Substituting stem’s water content by electrical conductivity for monitoring water status changes. Soil Science Society of America Journal 72: 10061013.
  • Nelder JA, Mead R. 1965. A simplex method for function minimization. Computer Journal 7: 308313.
  • Ren T, Ochsner TE, Horton R, Ju Z. 2003. Heat-pulse method for soil water content measurement. Soil Science Society of America Journal 67: 16311634.
  • Skaar C, ed. 1988. Wood–water relations. New York, NY, USA; Berlin, Heidelberg, Germany: Springer.
  • Steppe K, De Pauw DJW, Doody TM, Teskey RO. 2010. A comparison of sap flux density using thermal dissipation, heat pulse velocity and heat field deformation methods. Agricultural and Forest Meteorology 150: 10461056.
  • Steppe K, De Pauw DJW, Lemeur R, Vanrolleghem PA. 2006. A mathematical model linking tree sap flow dynamics to daily stem diameter fluctuations and radial stem growth. Tree Physiology 26: 257273.
  • Swanson RH. 1983. Numerical and experimental analyses of implanted-probe heat pulse velocity theory. PhD thesis, University of Alberta, Edmonton, AB, Canada.
  • Swanson RH, Whitfield DWA. 1981. A numerical analysis of heat pulse velocity theory and practice. Journal of Experimental Botany 32: 221239.
  • Testi L, Villalobos FJ. 2009. New approach for measuring low sap velocities in trees. Agricultural and Forest Meteorology 149: 730734.
  • Van As H, Scheenen T, Vergeldt FJ. 2009. MRI of intact plants. Photosynthesis Research 102: 213222.
  • Vandegehuchte MW, Steppe K. 2012a. Improving sap flux density measurements by correctly determining thermal diffusivity, differentiating between bound and unbound water. Tree Physiology. doi: 10.1093/treephys/tps034.
  • Vandegehuchte MW, Steppe K. 2012b. Unveiling the heat field deformation method: erroneous use of thermal diffusivity and need for a correction equation in sap flux measurements. Agricultural and Forest Meteorology 162–163: 9197.
  • Vandegehuchte MW, Steppe K. 2012c. Use of the correct heat conduction–convection equation as basis for heat-pulse sap flow methods in anisotropic wood. Journal of Experimental Botany 63: 28332839.
  • Vertessy RA, Hatton TJ, Reece P, O’Sullivan SK, Benyon RG. 1997. Estimating stand water use of large mountain ash trees and validation of the sap flow measurement technique. Tree Physiology 17: 747756.
  • Wullschleger SD, Hanson PJ, Dawson TE. 1996. Measuring stem water content in four deciduous hardwoods with a time-domain reflectometer. Tree Physiology 16: 809815.