Free Access
Ann. For. Sci.
Volume 66, Number 5, July-August 2009
Article Number 508
Number of page(s) 12
Published online 09 July 2009
References of  Ann. For. Sci. 66 (2009) 508
  1. Badel E., Delisee C., and Lux J., 2008. 3D structural characterisation, deformation measurements and assessment of low-density wood fibreboard under compression: the use of X-ray microtomography. Compos. Sci. Technol. 68: 1654–1663 [CrossRef].
  2. Boone M., De Witte Y., Dierick M., Van den Bulcke J., Vlassenbroeck J., and Van Hoorebeke L. (2009). Practical use of the Modified Bronnikov algorithm in micro-CT. Nucl. Instrum. Methods Phys. Res. Sect. B: Beam Interact. Mater. At. 267: 1182–1186.
  3. Cnudde V. and Jacobs P.J.S., 2004. Monitoring of weathering and conservation of building materials through non-destructive X-ray computed microtomography. Environ. Geol. 46: 477–485.
  4. Coyle H.M., Ladd C., Palmbach T., and Lee H.C., 2001. The green revolution: Botanical contributions to forensics and drug enforcement. Croat. Med. J. 42: 340–345 [PubMed].
  5. De Vetter L., Cnudde V., Masschaele B., Jacobs P.J.S., and Van Acker J., 2006. Detection and distribution analysis of organosilicon compounds in wood by means of SEM-EDX and micro-CT. Mater. Charact. 56: 39–48 [CrossRef].
  6. Fonti P., Solomonoff N., and Garcia-Gonzalez I., 2007. Earlywood vessels of Castanea sativa record temperature before their formation. New Phytol. 173: 562–570 [PubMed] [CrossRef].
  7. Fu D.S. and Kuduvalli G., 2008. A fast, accurate, and automatic 2D-3D image registration for image-guided cranial radiosurgery. Med. Phys. 35: 2180–2194 [PubMed] [CrossRef].
  8. Fuchs A., Schreyer A., Feuerbach S., and Korb J., 2004. A new technique for termite monitoring using computer tomography and endoscopy. Int. J. Pest Manage. 50: 63–66 [CrossRef].
  9. IAWA Committee, Richter H.G., Grosser D., Heinz I., and Gasson P.E., 2004. IAWA list of microscopic features for softwood identification. IAWA J. 25: 1–70.
  10. IAWA Committee, Wheeler E.A., Baas P., and Gasson P.E., 1989. IAWA list of microscopic features for hardwood identification. IAWA Bull. 10: 219–332.
  11. Knapic S., Louzada J.L., Leal S., and Pereira H., 2007. Radial variation of wood density components and ring width in cork oak trees. Ann. For. Sci. 64: 211–218 [EDP Sciences] [CrossRef].
  12. Larrabide I., Feijóo R.A., Novotny A.A., and Taroco E.A., 2008. Topological derivative: A tool for image processing. Comput. Struct. 86: 1386–1403 [CrossRef].
  13. Lee S.J. and Kim Y., 2008. In vivo visualization of the water-refilling process in xylem vessels using X-ray micro-imaging. Ann. Bot. 101: 595–602 [PubMed] [CrossRef].
  14. Limaye A., 2006. Drishti – Volume exploration and presentation tool. visualization conference, Baltimore, USA.
  15. Macchioni N., Palanti S., and Rozenberg P., 2007. Measurements of fungal wood decay on Scots pine and beech by means of X-ray microdensitometry, Wood Sci. Technol. 41: 417–426 [CrossRef].
  16. Makinen H., Jyske T., and Saranaa P., 2008. Variation of tracheid length within annual rings of Scots pine and Norway spruce. Holzforschung 62: 123–128 [CrossRef].
  17. Masschaele B.C., Cnudde V., Dierick M., Jacobs P., Van Hoorebeke L., and Vlassenbroeck J., 2007. UGCT: new X-ray radiography and tomography facility, Nucl. Instrum. Methods Phys. Res. Sect. A: Accel. Spectrom. Detect. Assoc. Equip. 580: 266–269 [CrossRef].
  18. Park W.-K. and Telewski F.W., 1993. Measuring maximum latewood density by image analysis at the cellular level. Wood Fiber Sci. 25: 326–332.
  19. Philippe M. and Bamford M.K., 2008. A key to morphogenera used for Mesozoic conifer-like woods. Rev. Palaeobot. Palynol. 148: 184–207 [CrossRef].
  20. Reme P.A. and Helle T., 2002. Assessment of transverse dimensions of wood tracheids using SEM and image analysis, Holz Roh- Werkst. 60: 277–282.
  21. Schweingruber F.H., 1990. Anatomy of European woods, Paul Haupt Berne and Stuttgart Publishers, Stuttgart.
  22. Steppe K., Cnudde V., Girard C., Lemeur R., Cnudde J.P., and Jacobs P., 2004. Use of X-ray computed microtomography for non-invasive determination of wood anatomical characteristics. J. Struct. Biol. 148: 11–21 [PubMed] [CrossRef].
  23. Taina I.A., Heck R.J., and Elliot T.R., 2008. Application of X-ray computed tomography to soil science: A literature review. Can. J. Soil Sci. 88: 1–20.
  24. Tomazello M., Brazolin S., Chagas M.P., Oliveira J.T.S., Ballarin A.W., and Benjamin C.A., 2008. Application of X-ray technique in nondestructive evaluation of eucalypt wood, Maderas-Cienc. Tecnol. 10, 139–149.
  25. Trtik P., Dual J., Keunecke D., Mannes D., Niemz P., Stahli P., Kaestner A., Groso A., and Stampanoni M., 2007. 3D imaging of microstructure of spruce wood. J. Struct. Biol: 159, 46–55.
  26. Van den Bulcke J., Masschaele B., Dierick M., Van Acker J., Stevens M., and Van Hoorebeke L., 2008. Three-dimensional imaging and analysis of infested coated wood with X-ray submicron CT. Int. Biodeterior. Biodegrad. 61: 278–286 [CrossRef].
  27. Vlassenbroeck J., Dierick M., Masschaele B., Cnudde V., Van Hoorebeke L., and Jacobs P., 2007. Software tools for quantification of X-ray microtomography at the UGCT. Nucl. Instrum. Meth. Phys. Res. A 580: 442–445 [CrossRef].
  28. Wagenführ R., 2007. Holzatlas, Fachbuchverlag Leipzig, Leipzig.
  29. Wagenführ R. and Schreiber C., 1989. Holzatlas, 3rd éd. VEB Fachbuchverlag Leipzig, Leipzig.
  30. Wang Y., Muszynski L., and Simonsen J., 2007. Gold as an X-ray CT scanning contrast agent: Effect on the mechanical properties of wood plastic composites. Holzforschung 61: 723–730 [CrossRef].
  31. Wildenschild D., Hopmans J.W., Vaz C.M.P., Rivers M.L., Rikard D., and Christensen B.S.B., 2002. Using X-ray computed tomography in hydrology: systems, resolutions, and limitations. J. Hydrol. 267: 285–297 [CrossRef].