A study on the dependence between tracheid lengths and microfibril angle in resonant wood of spruce (Picea abies L.)

• Autorzy: Fabisiak Ewa , Moliński Waldemar , Kudela Jozef , Mania Przemysław
• Języki publikacji: EN

Abstrakty

EN

The paper presents results of measurements for tracheid lengths in annual growth rings in spruce wood classified as resonant wood. Annual rings came from the mature wood zone. Moreover, cellulose microfibril angle (MFA) was determined in the S2 layer of the secondary cell wall. This parameter was measured in tangential tracheid walls. Mean values of both tracheid lengths and MFA in the experimental annual growth rings showed slight fluctuations and the relationship of these values was described using a linear function.

Słowa kluczowe

EN

spruce wood; tracheid lengths; microfibril angle; mature wood; resonant wood

• Wydawca: Wydawnictwo Szkoły Głównej Gospodarstwa Wiejskiego w Warszawie
• Czasopismo: Annals of Warsaw University of Life Sciences - SGGW. Forestry and Wood Technology
• Rocznik: 2012
• Tom: No. 77
• Strony: 222--226
• Opis fizyczny: Bibliogr. 17 poz.

Twórcy

autor

Fabisiak Ewa

• Department of Wood Science, Poznan University of Life Sciences

autor

Moliński Waldemar

• Department of Wood Science, Poznan University of Life Sciences

autor

Kudela Jozef

• Department of Wood Science, Technical University in Zvolen

autor

Mania Przemysław

• Department of Wood Science, Poznan University of Life Sciences

Bibliografia

• 1.ANAGNOST S.E., MARK R.E., HANNA R.B., 2002: Variation of microfibril angle within individual tracheids. Wood Fibre Sci. 34: 337-349
• 2.DONALDSON L., 2008: Microfibril angle: measurement, variation and relationships – a review. IAWA J. 29(4): 345-386
• 3.DZBEŃSKI W., 1992: Nondestructive testing of structural coniferous sawn timber by static and dynamic methods. Proc. 5. Confer. “Forest Products” All – Div. Nancy France. 23-28 Aug. Vol. 1:343
• 4.FABISIAK E., 2005: Zmienność podstawowych elementów anatomicznych i gęstości drewna wybranych gatunków drzew. Roczniki AR w Poznaniu, z. 369:1-176
• 5.FABISIAK E., MOLIŃSKI W., CISOWSKI M., 2006: Changes in the MFA at the tangential walls of tracheids in larch wood (Larix decidua Mill.) versus the cambial age of annual rings. Proc. “Wood Structure and Properties ‘06” (Eds. S. Kurjatko, J. Kudela & R. Lagana) Zvolen, Arbora Publishers: 39-42
• 6.FABISIAK E., ČUNDERLIK I., MOLIŃSKI W., 2010: Ultrastructure and ultrasound wave propagation velocity in spruce (Picea abies L.) resonance wood. Ann. WULS –SGGW Forestry and Wood Technol. 71: 170-176
• 7.HERMAN M., DUTILLEUL P., AVELLA-SHAW T., 1998a: Intra-ring and inter ring variations of tracheid length in fast-grown versus slow-grown Norway spruces (Picea abies). IAWA J. 19:3-9
• 8.HERMAN M., DUTILLEUL P., AVELLA-SHAW T., 1998b: Growth rate effects on temporal trajectories of ring width, wood density, and mean tracheid length in Norway spruce (Picea abies) Wood Fibe Sci. 30,1: 6-17
• 9.HORI R., MÜLLER M., WATANABLE U., LICHTENEGGER H., FRATZL P., SUGIYAMA J., 2002: The importance of seasonal differences in the cellulose microfibril angle in softwoods in determining acoustic properties. Journal Mat. Sci. 37, 4279-4284
• 10.HUANG C.L., LINDSTRÖM H., NAKADA R., RALSTON L., 2003: Cell wall structure and wood properties determined by acoustics: A selective review. Holz als Roh und Werkstoff 61:321-335
• 11.MOLIŃSKI W., FABISIAK E., 2002: Selected aspects of ultrasonic wave propagation in wood of Larix decidua Mill. Ann. Warsaw Agricult. Univ. Forest and Wood Technol. Spec. No 1;225-229
• 12.MOLIŃSKI, W., FABISIAK, E., MARCINKOWSKA, A., 2008: Investigations on the relationships between the length of tracheids and the microfibril angle in the tangential walls of pine (Pinus sylvestris L.) wood tracheids. Proc. 4rd International of Wood with Various Forms of Energy. Sept. 9-11, Zvolen, : 1-8
• 13.NIEMZ P., AGUILERA A., 1995: Untersuchungen zur Schallausbreitungsgeschwindigkeit für ausgewalthe Holzarten Chiles. Holz als Roh- und Werkst. 53(3):187-191
• 14.ONO T., NORIMOTO M., 1984: On physical criteria for the selection of wood for soundboards of musical instruments. Rheol. Acta 23: 652-656
• 15.SHUPE T.F., CHOONG E.T., STOKKE D.D., GIBSON M.D., 1996: Variation in cell dimensions and figril angle for two fertilized even-aged loblolly pine plantations. Wood Fibre Sci. 28:268-275
• 16.SPYCHER M., SCHWARZE F.W.M.R., STEIGER R., 2008: Assessment of resonance wood quality by comparing its physical and histological properties. Wood Sci. Technol. 42: 325-342
• 17.WANG H.H., DRUMMOND J.G., REATH S.M, HUNT K., WATSON P.A., 2001: An improved fibril angle measurement method for wood fibres. Wood Sci. Technol. 23, 493-503