References
- 전수경. 2015. 은행나무, 감나무, 가중나무 세포내강의 액체이동. 한국가구학회지 Vol. 26. No. 2: 179-185.
- Ahmed, S. A., S. H. Chong, S. K. Chun, and B. S. Park. 2006. Ray parenchyma and ray tracheid structure of four Korean pine wood species. J Korea Furniture Society 17(4): 101-107.
- Ahmed, S. A. and S. K. Chun. 2009. Observation of liquid permeability related to anatomical characteristics in Samaneasaman. Turkish Journal of Agriculture and Forestry 33(2): 155-163.
- Banks, W. B. 1970. Some factors affecting the permeability of Scots pine and Norway spruce. Journal of Wood Science .5: 10-17.
- Bolton, A. J. 1988. A re-examination of some deviations from Darcy's Law in coniferous wood. Wood Science and Technology 22: 311-322. https://doi.org/10.1007/BF00353321
- Bolton, A. J. and J. A. Petty. 1978. A model describing axial flow of liquid through conifer wood. Wood Science and Technology 12: 37-48. https://doi.org/10.1007/BF00390009
- Erickson, H. D. (1970) Permeability of southern pine wood-A review. Journal of Wood Science 2(3): 149-158.
- Erickson, H. D. and J. J. Balatinecz. 1964. Liquid flow paths into wood using polymerization techniques: Douglas-fir and styrene. Forest Products Journal 14: 293-299.
- Flynn, K. A. (1995) A review of the permeability, fluid flow, and anatomy of spruce (Piceaspp.). Wood and Fiber Science 27: 278-284.
- Fujii, T., S. J. Lee, N. Kuroda, and Y. Suzuki. 2001. Conductive function of intervessel pits through a growth ring boundary of Machilusthunbergii. IAWA Journal 22(1): 1-14. https://doi.org/10.1163/22941932-90000264
- Hansmann, C., W. Gindl, R. Wimmer, and A. Teischinger. 2002. Permeability of wood: A review. Wood Research 47: 1-16.
- Keith, C. T. and G. Chauret. 1988. Anatomical studies of CCA penetration associated with conventional (tooth) and with micro (needle) incising. Wood and Fiber Science 20: 197-208.
- Liese, W. and J. Bauch. 1967. On anatomical causes of the refractory behaviour of spruce and Douglas fir. Journal of Wood Science 19: 3-14.
- Lihra, T., A. Cloutier, and S. Y. Zhang. 2000. Longitudinal and transverse permeability of Balsam fir wetwood and normal heartwood. Wood and Fiber Science 32(2): 164-178.
- Leal, S., V. B. Sousa, and H. Pereira. 2007. Radial variation of vessel size and distribution in cork oak wood (QuercussuberL.) Wood Science and Technology 41: 339-350. https://doi.org/10.1007/s00226-006-0112-7
- Olsson, T., M. Megnis, J. Varna, and H. Lindberg. 2001. Study of the transverse liquid flow paths in pine and spruce using scanning electron microscopy. Journal of Wood Science 47: 282-288. https://doi.org/10.1007/BF00766714
- Owoyemi, J. M. and J. O. Kayode. 2008. Effect of incision on preservative capacity of Gmelinaarboreawood. Biotechnology 7: 351-353. https://doi.org/10.3923/biotech.2008.351.353
- Petty, J. A. 1970. Permeability and structure of the wood of Sitkaspruce. Proceedings of the Royal Society of London B 175: 149-166. https://doi.org/10.1098/rspb.1970.0016
- Wardrop, A. B. and G. W. Davies. 1961. Morphological factors relating to the penetration of liquids into wood. Holzforschung 15: 130-141.
- Watanabe, U., Y. Imamura, and I. Iida. 1998. Liquid penetration of precompressed wood VI: Anatomical characterization of pit fractures. Journal of Wood Science 44: 158-162. https://doi.org/10.1007/BF00526263
- Wheeler, E. A. 1982. Ultrastructural characteristics of red maple (AcerrubrumL.) wood. Wood Fiber 14(1): 43-53.