木材物理学研究分野

原著論文・総説・解説・著書

2019 / 2018 / 2017 / 2016 / 2015 / 2014 / 2013 / 2012 / 2011 / 2010 / 2009 / 2008 / 2007 / 2006 / 2005 / 2004

2019

  1. Gilbero DM, Abasolo WP, Matsuo-Ueda M, Yamamoto H (2019) Surface growth stress and wood properties of 8-year-old planted Big-leaf mahogany (Swietenia macrophylla King) from different landrace provenances and trial sites in the Philippines, Journal of Wood Science, 65: 35
  2. Ota A, Yoshida M, Sato S, Hiraide H, Matsuo-Ueda M, Yamamoto H (2019) Immunolocalization of a Normal Wood Specific Pectin Methylesterase (CoPME) and Quantification of PME Gene Expression in Differentiating Xylem of Chamaecyparis obtusa, American Journal of Plant Sciences, 10: 1949-1968
  3. Aoki D, Okumura W, Akita T, Matsushita Y, Yoshida M, Sano Y, Fukushima K (2019) Microscopic distribution of syringin in freeze-fixed Syringa vulgaris stems, Plant Direct, 3(8): e00155
  4. Yoshida M, Sato S, Kawamoto T, Kawamoto K, Saigusa D, Uruno A, Saito R, Matsuo-Ueda M, Yamamoto H (2019) Cryosection preparation for histological study, gene expression analysis and imaging mass spectrometry, Journal of Plant Biology Research, 8(1): 1-7
  5. Chen S, Matsuo-Ueda M, Yoshida M, Yamamoto H (2019) Changes in vibrational properties of compression wood in conifer due to hygrothermal treatment and their relationship with hygrothermal recovery strain. Journal of Materials Science, 54(4): 3069-3081

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2018

  1. Chen S, Obataya E, Matsuo-Ueda M (2018) Shape fixation of compressed wood by steaming: a mechanism of shape fixation by rearrangement of crystalline cellulose. Wood Science and Technology, 52(5): 1229-1241
  2. Sujan KC, Yamamoto H, Matsuo UM, Yoshida M, Asaka K (2018) Delayed recovery of growth stress in tension wood induced by drying and subsequent wetting treatment. Wood Science and Technology, 52(4): 1049-1060
  3. Marcon B, Goli G, Matsuo-Ueda M, Denaud L, Umemura K, Gril J, Kawai S (2018) Kinetic analysis of poplar wood properties by thermal modification in conventional oven. iForest, 11: 131-139
  4. Marie Capron, Sandrine Bardet, K. C. Sujan, Miyuki Matsuo-Ueda, Hiroyuki Yamamoto (2018) Viscoelastic modeling of wood in the process of formation to clarify the hygrothermal recovery behavior of tension wood. Journal of Materials Science, 53(2):1487-1496

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2017

  1. Okumura W, Aoki D, Matsushita Y, Yoshida M, Fukushima K (2017) Distribution of salicifoline in freeze-fixed stems of Magnolia kobus as observed by cryo-TOF-SIMS. Scientific Reports, 7(1): 5939
  2. Zheng P, Ito T, Aoki D, Sato S, Yoshida M, Sano Y, Matsushita Y, Fukushima K, Yoshida K (2017) Determination of inorganic element distribution in the freeze-fixed stem of Al2(SO4)3-treated Hydrangea macrophylla by TOF-SIMS and ICP-AES. Holzforschung, 71(6): 471-480

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2016

  1. Sato S, Yoshida M, Ashizaki Y, Yamamoto H (2016) Diurnal periodicity of the expression of genes involved in monolignol biosynthesis in differentiating xylem of Cryptomeria japonica. American Journal of Plant Sciences, 7: 2457-2469
  2. 松尾 美幸 (2016) 木材物性の変化とその時間温度依存性. Cellulose Communications, 23(4): 178-182
  3. 錢谷 菜々未, 小幡谷 英一, 松尾 美幸 (2016) 古材および熱処理材の吸湿性および振動特性. 木材学会誌, 62(6): 250-258
  4. 松尾 美幸, 山本 浩之, 梅村 研二, 川井 秀一 (2016) 木材の経年および熱処理による色変化. 木材学会誌, 62(6): 266-274
  5. Yamashita M, Yoshida M, Matsuo M, Sato, S, Yamamto H (2016) Observations of wood cell walls with a scanning probe microscope. Materials Sciences and Applications, 7: 644-653
  6. Matsuo MU, Mitsui K, Kobayashi I, Kohara M, Yoshida M, Yamamoto H (2016) Effect of hygrothermal treatment on wood properties: Color changes and kinetic analysis using four softwood and seven hardwood species. Wood Science and Technology, 50(6): 1145-1160
  7. Endo K, Obataya E, Zeniya N, Matsuo M (2016) Effects of heating humidity on the physical properties of hydrothermally treated spruce wood. Wood Science and Technology, 50(6): 1161-1179
  8. Aoki D, Hanaya Y, Akita T, Matsushita Y, Yoshida M, Kuroda K, Yagami S, Takama R, Fukushima K (2016) Distribution of coniferin in freeze-fixed stem of Ginkgo biloba L. by cryo-TOF-SIMS/SEM. Scientific Reports, 6: 31525
  9. Zheng P, Aoki D, Matsushita Y, Yagami S, Sano Y, Yoshida M, Fukushima K (2016) Lignification of ray parenchyma cells (RPCs) in the xylem of Phellodendron amurense Rupr.: quantitative and structural investigation by TOF-SIMS and thioacidolysis of laser microdissection cuts of RPCs. Holzforschung, 70(7): 641-652
  10. Matsuo MU, Sujan KC, Hirota I, Kojima M, Yoshida M, Yamamoto H (2016) Utilisation of Styrax tonkinensis wood in Laos and its physical properties. Journal of Tropical Forest Science, 28(3): 298-307
  11. Matsuo MU, Niimi G, Sujan KC, Yoshida M, Yamamoto H (2016) Hygrothermal recovery of compression wood in relation to elastic growth stress and its physicochemical characteristics. Journal of Materials Science, 51(17): 7956-7965
  12. Sujan KC, Yamamoto H, Matsuo M, Yoshida M, Naito K, Suzuki Y, Yamashita N, Yamaji FM (2016) Is hygrothermal recovery of tension wood temperature-dependent? Wood Science and Technology, 50(4): 759-772
  13. Hiraide H, Yoshida M, Sato S, Yamamoto H (2016) Common Mechanism of Lignification of Compression Wood in Conifers and Buxus. American Journal of Plant Sciences, 7(7): 1151-1162
  14. Hiraide H, Yoshida M, Sato S, Yamamoto H (2016) In situ detection of laccase activity and immunolocalisation of a compression-wood-specific laccase (CoLac1) in differentiating xylem of Chamaecyparis obtusa. Functional Plant Biology, 43(6): 542-552
  15. Shirai T, Yamamoto H, Matsuo M, Inatsugu M, Yoshida M, Sato S, Sujan KC, Suzuki Y, Toyoshima I, Yamashita N (2016) Negative gravitropism of Ginkgo biloba: growth stress and reaction wood formation. Holzforschung, 70(3): 267-274
  16. Inagaki T, Matsuo M, Tsuchikawa S (2016) NIR Spectral-kinetic analysis for thermally degraded Sugi (Cryptomeria japonica) wood, Applied Physics A, 122: 208

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2015

  1. Sujan KC, Yamamoto H, Matsuo M, Yoshida M, Naito K, Shirai T. (2015) Continuum contraction of tension wood fiber induced by repetitive hygrothermal treatment. Wood Science and Technology, 49(6): 1157-1169
  2. Shirai T, Yamamoto H, Matsuo M, Yoshida M, Inatsugu M, Ko C, Yagami S, Matsushita Y, Fukushima K, Lahjie AM, Sawada M, Kule A (2015) Eccentric growth and growth stress in inclined stem of Gnetum gnemon L. IAWA Journal, 36(4): 365-377
  3. Tanaka M, Yamamoto H, Yoshida M, Matsuo M, Lahjie AM (2015) Retarded recovery of remaining growth stress in Agathis wood specimen caused by drying and subsequent re-swelling treatments. European Journal of Wood and Wood Products 73(3): 289-298

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2014

  1. Hiraide H, Yoshida M, Ihara K, Sato S, Yamamoto H (2014) High lignin deposition on the outer region of the secondary wall middle layer in compression wood matches the expression of a laccase gene in Chamaecyparis obtusa, Journal of Plant Biology Research 3 (3): 87-100
  2. Zhen P, Aoki D, Yoshida M, Matsushita Y, Imai T, Fukushima K (2014) Lignification of ray parenchyma cells in the xylem of Pinus densiflora. Part I: Microscopic investigation by POM, UV microscopy, and TOF-SIMS. Holzforschung 68(8): 897-905
  3. 松尾美幸 (2014) 木材の劣化と寿命予測(解説XVI.環境・エネルギーと接着(8)). 接着学会誌 50(9): 300-305
  4. Sato S, Yoshida M, Hiraide H, Ihara K, Yamamoto H (2014) Transcriptome analysis of reaction wood in gymnosperms by next-generation sequencing. American Journal of Plant Sciences 5: 2785-2798
  5. Tanaka M, Yamamoto H, Kojima M, Yoshida M, Matsuo M, Abubakar M. Lahjie, Hongo I, Arizono T (2014) The interrelation between microfibril angle (MFA) and hygrothermal recovery (HTR) in compression wood and normal wood of Sugi and Agathis. Holzforschung 68(7): 823-830
  6. Baskin Tobias I, Orr Teri J, Jercinovic Michael, Yoshida Masato (2014) Sample Preparation for Scanning Electron Microscopy: The Surprising Case of Freeze Drying from Tertiary Butanol, Microscopy Today 22(3): 36-39
  7. Matsuo M, Umemura K, Kawai S (2014) Kinetic analysis of color changes in keyaki (Zelkova serrata) and sugi (Cryptomeria japonica) wood during heat treatment. Journal of Wood Science 60(1): 12-20

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2013

  1. 鳥羽 景介, 中井 毅尚, 山本 浩之, 吉田 正人, 西尾 伸洋 (2013) 木材の水分およびガス吸着性能に及ぼす乾湿繰り返し処理の影響, 木材学会誌, 59 (6): 334-338
  2. Toda Y, Yoshida M, Hattori T, Takeda S (2013) RICE SALT SENSITIVE3 binding to bHLH and JAZ factors mediates control of cell wall plasticity in the root apex. Plant signaling & behavior 8(11): e26256
  3. Toba K, Yamamoto H, Yoshida M (2013) On the mechanical interaction between cellulose microfibrils and matrix substances in wood cell walls: effects of chemical pretreatment and subsequent repeated dry-and-wet treatment. Journal of Wood Science 59(5): 359-366
  4. Ando K, Mizutani M, Taniguchi Y, Yamamoto H (2013) Time dependence of Poisson's effect in wood III: asymmetry of three-dimensional viscoelastic compliance matrix of Japanese cypress. Journal of Wood Science 59(4) : 290-298
  5. 松尾美幸(2013)リグノセルロース材料の経年変化,木材工業,68(8): 336-341,総説
  6. Sato S, Hiraide H, Yoshida M, Yamamoto H (2013) Changes in xylem tissue and laccase transcript abundance associated with posture recovery in Chamaecyparis obtusa saplings growing on an incline. Functional Plant Biology 40 (6) : 637-643
  7. 保立道久, 高島晶彦, 江前敏晴, 韓 允煕, 杉山 巖, 山口悟史, 松尾美幸, 谷 昭佳, 高山さやか (2013) 編纂と文化財科学 -大徳寺文書を中心に, 東京大学史料編纂所研究紀要 23 : 107-148
  8. Takeichi Y, Yoshida M, Kitano K, Terashima N, Yamamoto H (2013) In situ measurement of tensile elastic moduli of individual component polymers with a 3D assembly mode in wood cell walls, Journal of Wood Science 59 (2) : 104-111
  9. Toba K, Yamamoto H, Yoshida M (2013) Micromechanical detection of growth stress in wood cell wall by wide-angle X-ray diffraction (WAX), Holzforschung 67 (3) : 315-323
  10. Toba K, Yamamoto H, Yoshida M (2013) Crystallization of cellulose microfibrils in wood cell wall by repeated dry-and-wet treatment, using X-ray diffraction technique. Cellulose 20 (2) : 633-643
  11. 山本浩之 (2013) 第3章-成長・分化より, 3.6.2 木化細胞壁のバイオメカニックス,第7章-解析法より, 7.2.3 樹木の力学的性質の測定.(西谷和彦・梅澤俊明共編)植物細胞壁.講談社,東京

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2012

  1. 広橋 亜希, 児嶋 美穂, 吉田 正人, 山本 浩之, 渡邊 良広, 井上 広喜, 鴨田 重裕 (2012) 国産早生樹ユーカリ6樹種の材質特性, 木材学会誌 58(6): 339-346
  2. Terashima N, Yoshida M, Hafren J, Fukushima K, Westermark U (2012) Proposed supramolecular structure of lignin in softwood tracheid compound middle lamella regions, Holzforschung 66: 907-915
  3. 吉田正人(2012) 樹木の成長と姿勢を調整する仕組み、木材工業 67 (10): 426-430 総説
  4. Toba K, Yamamoto H, Yoshida M (2012) Mechanical interaction between cellulose microfibrils and matrix substances in wood cell walls induced by repeated wet-and-dry treatment, Cellulose 19 (4): 1405-1412
  5. Kojima M, Yamamoto H, Saegusa K, Yamaji F M, Yoshida M, Yamashita S, Nakai T (2012) Anatomical and chemical factors affecting tensile growth stress in Eucalyptus grandis plantations at different latitudes in Brazil, Canadian Journal of Forest Research 42: 134-140

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2011

  1. Ruelle, J.; Beauchene, J.; Yamamoto, H.; Thibaut, B.( 2011) Variations in physical and mechanical properties between tension and opposite wood from three tropical rainforest species. Wood Science and Technology, Vol.45, 339-357
  2. Hosoo, Y.; Yoshida, M.; Yamamoto, H. (2011) Effect of light intensity on diurnal differences in the supply of cell wall components to the innermost surface of developing S2 layers of tracheids in Cryptomeria japonica. Journal of Wood Science, Vol. 57, 345-351

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2010

  1. Yamamoto, H.; Ruelle, J.; Arakawa, Y.; Yoshida, M.; Clair, B.; Gril, J. Origin of characteristic properties of gelatinous layer in tension wood from Kunugi Oak (Quercus acctissima). Wood Science and Technology, Vol.44, 149-163 (2010).
  2. Taniguchi, Y.; Ando, K.; Yamamoto, H. Determination of three-dimensional viscoelastic compliance in wood by tensile creep test. Journal of Wood Science, Vol.56, 82-84 (2010).
  3. Hadi, Y. S.; Nurhayati, T.; Jasni, Yamamoto, H.; Kamiya, N. Smoked wood resistance against termite. Journal of Tropical Forest Sciences, Vol.22, 127-132 (2010).

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2009

  1. Terashima N., Kitano K., Kojima M., Yoshida M., Yamamoto H., Westermark U.(2009) Nanostructural assembly of cellulose, hemicellulose, and lignin in the middle layer of secondary wall of ginkgo tracheid. Journal of Wood Science 55(6)409-416
  2. Kojima M., Yamaji F. M., Yamamoto H., Yoshida M., Saegusa K. (2009) Determining factor of xylem maturation in Eucalyptus grandis planted in different latitude and climatic divisions of South America: A view based on fiber length. Canadian Journal of Forest Research, 39:1971-1978
  3. Kojima M., Yamamoto H., Okumura K., Ojio Y., Yoshida M., Okuyama T., Ona T., Matsune K., Nakamura K., Ide Y., Marsoem S.N., Sahri M.H., Hadi Y.S.(2009) Effect of the lateral growth rate on wood properties in fast-growing hardwood species. Journal of Wood Science 55(6)417-424
  4. Kojima M., Yamamoto H., Marsoem S.N., Okuyama T., Yoshida M., Nakai T., Yamashita S., Saegusa K., Matsune K., Nakamura K., Inoue Y., Arizono T. (2009) Effects of the lateral growth rate on wood quality of Gmelina arborea from 3.5, 7, and 12-years-old plantations. Annals of Forest Science, 66: Article Number 507
  5. Yamada, K.; Takahashi, R.; Fujitani, C.; Mishima, K.; Yoshida, M.; Joyce, D.C.; Yamaki, S. (2009) Cell wall extensibility and effect of cell-wall-loosening proteins during rose flower opening. J. Japan. Soc. Hort. Sci. 78:242-251
  6. Abasolo, W.P.; Yoshida, M.; Yamamoto, H.; Okuyama, T. (2009) Stress generation in aerial roots of Ficus elastica (Moraceae). IAWA Journal 30:216-224
  7. Kojima, M.; Yamaji, F. M.; Yamamoto, H.; Yoshida, M.; Nakai, T.(2009) Effects of the lateral growth rate on wood quality parameters of Eucalyptus grandis from different latitudes in Brazil and Argentina. Forest Ecology and Management 257:2175-2181
  8. Kojima, M.; Yamamoto, H.; Yoshida, M.; Ojio, Y.; Okumura, K. (2009) Maturation property of fast-growing hardwood plantation species: A view of fiber length. Forest Ecology and Management 257:15-22
  9. Yamashita, S.; Yoshida, M.; Yamamoto, H. (2009) Relationship between development of compression wood and gene expression. Plant Science 176:729-735

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2008

  1. Yamashita, S.; Yoshida, M.; Yamamoto, H.; Okuyama, T. (2008) Screening genes that change expression during compression wood formation in Chamaecyparis obtusa. Tree Physiology 28:1331-1340

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2007

  1. Nakai, T.; Yamamoto, H. (2007) Properties of the piezoelectric voltage considering the microscopic structure of wood cell walls. Holzforschung 61:95-100
  2. Ruelle, J.; Yamamoto, H.; Thibaut, B. (2007) Growth stresses and cellulose structural parameter in tension and normal wood from three tropical rainforest angiosperm species. Bioresources 2:235-251
  3. Yamamoto, H.; Almeras, T. (2007) Mathematical verification of the reinforced-matrix hypothesis by the Mori-Tanaka theory. Journal of Wood Science 53:505-509
  4. Fujimoto, T.; Yamamoto, H.; Tsuchikawa, S. (2007) Estimation of wood stiffness and strength properties of hybrid larch by near-infrared spectroscopy. Applied Spectroscopy 61:882-888
  5. Mitsuda, N.; Iwase, A.; Yamamoto, H.; Yoshida, M.; Seki, M.; Shinozaki, K.; Ohme-Takagi, M. (2007) NAC transcription factors, NST1 and NST3, are key regulators of the formation of secondary walls in woody tissues of Arabidopsis. The Plant Cell 19:270-280
  6. Ruelle, J.; Yoshida, M.; Clair, B.; Thibaut, B. (2007) Peculiar tension wood structure in Laetia procera (Poepp.) Eichl. (Flacourtiaceae). Trees 21:345-355
  7. Abe, K.; Yamamoto, H. (2007) The influence of boiling and drying treatments on the behaviors of tension wood with gelatinous layers in Zelkova serrata. Journal of Wood Science 53:5-10
  8. Yamashita, S.; Yoshida, M.; Takayama, S.; Okuyama, T. (2007) Stem-righting mechanism in gymnosperm trees deduced from limitations in compression wood development. Annals of Botany 99:487-493

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2006

  1. 山本浩之 (2006) 木質バイオマスの積極的利用が文明の危機を救う, 木材工業新聞 58-73
  2. Nakai, T. ; Yamamoto, H. ; Hamatake, M. ; Nakao, T. (2006) Initial shapes of stress strain curve of wood specimen subjected to repeated combined compression and vibration stresses and piezoelectric behaviors. Journal of Wood Science 52:539-543
  3. Nakai, T. ; Yamamoto, H. ; Nakao, T.; Hamatake, M. (2006) Mechanical behavior of the crystal lattice of natural cellulose in wood under repeated uniaxial tension stress in the fiber direction. Wood Science and Technology 40:683-695
  4. 中井毅尚,山本浩之 (2006) 木材細胞壁の微細構造を考慮した圧電気出力特性, 材料 55:378-383
  5. Clair, B.; Almeras, T.; Yamamoto, H.; Okuyama, T.; Sugiyama, J. (2006) Mechanical behaviors of cellulose microfibrils in tension wood in relation with maturation stress generation. Biophysical Journal 91:112-1135
  6. Pari, G.; Sofyan, K.; Syafii, W.; Buchari; Yamamoto, H. (2006) Study on Chacoal Structure of Lignin. Journal of Forest Products Research (Jurnal Penelitian Hasil Hutan) 24:9-20
  7. Almeras, T.; Yoshida, M.; Okuyama, T. (2006) The generation of longitudinal maturation stress in wood is not dependent on diurnal changes in diameter of trunk. Journal of Wood Science 52:452-455
  8. Almeras, T.; Yoshida, M.; Okuyama, T. (2007) Strains inside xylem and inner bark of a stem submitted to a change in hydrostatic pressure. Trees 20:460-467
  9. Terashima, N.; Yoshida, M. (2006) Ultrastructure of lignified plant cell wall observed by field-emission scaning electron microscopy. Observation on periodate lignin prepared from Ginkgo biloba. Cellulose Chemistry and Technology 40(9-10):272-733
  10. Hosoo, Y.; Imai, T.; Yoshida, M. (2006) The supply of matrix containing glucomannans to the innermost surface of S2 layers is associated with changes in turgor pressure of differentiating tracheids in Cryptomeria japonica. Journal of Wood Science 52:471-476
  11. Hosoo, Y.; Imai, T.; Yoshida, M. (2006) Diurnal differences in the supply of glucomannans and xylans to innermost surface of cell walls at various developmental stages from cambium to mature xylem in Cryptomeria japonica. Protoplasma 229:11-19
  12. Abe, K.; Yamamoto, H. (2006) Behavior of the cellulose microfibril in shrinking woods. Journal of Wood Science 52:15-19
  13. Abe, K.; Yamamoto, H. (2006) Change in mechanical interaction between cellulose microfibril and matrix substance in wood cell wall induced by hygrothermal treatment. Journal of Wood Science 52:107-110

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2005

  1. 山本浩之 (2005) 木質細胞壁構造に由来する物性の発現, 材料の科学と工学 44:114-120
  2. Nakai, T.; Yamamoto, H.; Nakao, T.; Hamatake, M. (2005) Mechanical behavior of crystalline region of wood and piezoelectric response of wood in tension tests. Wood Science and Technology 51:163-168
  3. Almeras, T.; Gril, J.; Yamamoto, H. (2005) Modelling anisotropic maturation strains in wood in relation with fibre boundary conditions, microstructure and maturation kinetics. Holzforschung 59:347-353
  4. Nakai, T.; Yamamoto, H.; Nakao, T (2005) The relationship between macroscopic strain and crystal lattice strain in wood under uniaxial stress in the fiber direction. Journal of Wood Science 51:193-194
  5. Yamamoto, H.; Abe, K.; Arakawa, Y.; Okuyama, T.; Gril, J. (2005) Role of the gelatinous layer (G-layer) on the origin of the physical properties of the tension wood of Acer sieboldianum. Journal of Wood Science 51:222-233
  6. Yoshida, M.; Fujiwara, D.; Tsuji, Y.; Fukushima, K.; Nakamura, T.; Okuyama, T. (2005) Ultraviolet microspectrophotometric investigation of the distribution of lignin in Prunus jamasakura differentiated on a three-dimensional clinostat. Journal of Wood Science 51:448-454
  7. Abe, K.; Yamamoto, H. (2005) Mechanical linkage between cellulose microfibril and the matrix substance in wood cell walls, determined by X-ray diffraction. Journal of Wood Science 51:334-338
  8. Kojima, Y.; Yamamoto, H. (2005) Effect of moisture content on the longitudinal tensile creep behavior of wood. Journal of Wood Science 51:426-467
  9. Abasolo, W.P.; Yoshida, M.; Yamamoto, H.; Okuyama, T. (2005) Influence of structure and chemical composition on thermal softening of Palasan canes (Calamus merrillii). IAWA Journal 26(3):363-374
  10. Hosoo, Y.; Yoshida, M.; Imai, T.; Okuyama, T. (2005) The effect of day length on diurnal differences in the innermost surface of the S2 layer in differentiating tracheids. Journal of Wood Science 51(4):323-327
  11. Hosoo, Y.; Yoshida, M.; Imai, T.; Okuyama, T. (2005) Ultrastructual investigation of diurnal periodicity in cell wall formation of conifer tracheids. Bull. Facul. Agric. Niigata Univ. 57(2):63-69

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2004

  1. 山本浩之 (2004) 木材組織のモデル化とシミュレーション マクロな振舞いからミクロな構造を推し量る, 木材工業 59(4):152-158
  2. Okuyama, T.; Doldan, A.; Yamamoto, H.; Ona, T. (2004) Heart splitting at crosscutting of Eucalyptus grandis logs. Journal of Wood Science 50:1-6
  3. Yamamoto, H. (2004) Role of the gelatinous layer on the origin of the physical properties of the tension wood. Journal of Wood Science 50:197-208
  4. 中井毅尚, 山本浩之, 濱武正年, 中尾哲也 (2004) 繊維方向繰り返し一軸引張応力を受けるヒノキ材のX線応力測定, 材料 53:358-363
  5. Terashima, N.; Awano, T.; Takabe, K.; Yoshida, M. (2004) Formation of macromolecular lignin in ginkgo xylem cell walls as observed by field emission scanning electron microscopy. Comptes Rendus Biologies 327:903-910
  6. Kojima, Y.; Yamamoto, H. (2004) Properties of the cell wall constituents in relation to the longitudinal elasticity of wood (Part 2). Origin of the moisture dependency of the longitudinal elasticity of wood. Wood Science and Technology 37:427-434
  7. Kojima, Y.; Yamamoto, H. (2004) Effect of microfibril angle on the longitudinal tensile creep behavior of wood. Journal of Wood Science 50:301-306
  8. 伊藤潤一, 吉田正人, 奥山剛 (2004) 二次壁新生面への壁成分の供給と光・膨圧の関係. 名古屋大学森林科学研究 23:5-7
  9. 山下彩織, 岡田雅子, 吉田正人, 奥山剛 (2004) 遺伝子発現を指標としたヒノキ圧縮あて材形成の判定. 名古屋大学森林科学研究 23:1-3

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