カツラ冬芽の細胞の凍結挙動
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| Published in | 低温生物工学会誌 Vol. 58; no. 2; pp. 179 - 184 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
低温生物工学会
2012
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1340-7902 2424-1555 |
| DOI | 10.20585/cryobolcryotechnol.58.2_179 |
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| Author | 藤川, 清三 岡田, 香織 遠藤, 圭太 鈴木, 伸吾 荒川, 圭太 |
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| Author_xml | – sequence: 1 fullname: 鈴木, 伸吾 organization: 北海道大学大学院農学院 – sequence: 1 fullname: 荒川, 圭太 organization: 北海道大学大学院農学院 – sequence: 1 fullname: 岡田, 香織 organization: 北海道大学大学院農学院 – sequence: 1 fullname: 藤川, 清三 organization: 北海道大学大学院農学院 – sequence: 1 fullname: 遠藤, 圭太 organization: 北海道大学大学院農学院 |
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| References | 4) QUAMME H. A. Deep supercooling in buds of woody plants. Biological Ice Nucleation and Its Applications. APS Press. (1995) p.183-199. 5) QUAMME H. A. Anatomical features facilitating supercooling of the flower within the dormant peach flower bud. J. Am. Soc. Hortic. Sci.. (1995) vol.120, p.814-822. 6) FUJIKAWA S. Plasma membrane ultrastructural changes caused by mechanical stress in the formation of extracellular ice as a primary cause of slow freezing injury in fruit-bodies of basidiomycetes (Lyophyllum ulmarium). Cryobiology. (1986) vol.23, p.371-382. 12) Ishikawa Masaya. el al. Freezing Avoidance Mechanisms by Supercooling in Some Rhododendron flower Buds with Reference to Water Relations. Plant and cell physiology. The Japanese Society of Plant Physiologists. (1981) vol.22, no.6, p.953-967. 10) FUJIKAWA S. Seasonal ultrastructural alterations in the plasma membrane produced by slow freezing in cortical tissues of mulberry (Morus bombyciz Koidz. cv. Goroji). Trees. (1994) vol.8, p.288-296. 11) MAZUR P. Principles of cryobiology. Life in the Frozen State. CRC Press. (2004) p.3-65. 13) Sakai Akira. Freezing avoidance mechanism of primordial shoots of conifer buds. Plant and cell physiology. The Japanese Society of Plant Physiologists. (1979) vol.20, no.7, p.1381-1390. 7) FLINN C. L. Seasonal changes in ice distribution and xylem development in blueberry flower buds. J. Am. Soc. Hortic. Sci.. (1994) vol.119, p.1176-1184. 2) ISHIKAWA M. Extraorgan freezing in wintering flower buds of Cornus officinalis Sieb. et Zucc. Plant Cell Environ.. (1985) vol.8, p.333-338. 8) ENDOH K. Cryo-scanning electron microscopic study on freezing behaviors of tissue cells in dormant buds of larch (Larix kaempferi). Cryobiology. (2009) vol.59, p.214-222. 9) FUJIKAWA S. Cryo-scanning electron microscopic study on freezing behavior of xylem ray parenchyma cells in hardwood species. Micron. (2000) vol.31, p.669-686. 3) SAKAI A. Comparative study on freezing resistance of conifers with special reference to cold adaptation and its evolutive aspects. Can. J. Bot.. (1982) vol.61, p.2323-2332. 1) SAKAI A. Frost Survival of Plants : Responses and Adaptation to Freezing Stress. Springer-Verlag. (1987 |
| References_xml | – reference: 6) FUJIKAWA S. Plasma membrane ultrastructural changes caused by mechanical stress in the formation of extracellular ice as a primary cause of slow freezing injury in fruit-bodies of basidiomycetes (Lyophyllum ulmarium). Cryobiology. (1986) vol.23, p.371-382. – reference: 10) FUJIKAWA S. Seasonal ultrastructural alterations in the plasma membrane produced by slow freezing in cortical tissues of mulberry (Morus bombyciz Koidz. cv. Goroji). Trees. (1994) vol.8, p.288-296. – reference: 1) SAKAI A. Frost Survival of Plants : Responses and Adaptation to Freezing Stress. Springer-Verlag. (1987) – reference: 7) FLINN C. L. Seasonal changes in ice distribution and xylem development in blueberry flower buds. J. Am. Soc. Hortic. Sci.. (1994) vol.119, p.1176-1184. – reference: 8) ENDOH K. Cryo-scanning electron microscopic study on freezing behaviors of tissue cells in dormant buds of larch (Larix kaempferi). Cryobiology. (2009) vol.59, p.214-222. – reference: 3) SAKAI A. Comparative study on freezing resistance of conifers with special reference to cold adaptation and its evolutive aspects. Can. J. Bot.. (1982) vol.61, p.2323-2332. – reference: 13) Sakai Akira. Freezing avoidance mechanism of primordial shoots of conifer buds. Plant and cell physiology. The Japanese Society of Plant Physiologists. (1979) vol.20, no.7, p.1381-1390. – reference: 12) Ishikawa Masaya. el al. Freezing Avoidance Mechanisms by Supercooling in Some Rhododendron flower Buds with Reference to Water Relations. Plant and cell physiology. The Japanese Society of Plant Physiologists. (1981) vol.22, no.6, p.953-967. – reference: 9) FUJIKAWA S. Cryo-scanning electron microscopic study on freezing behavior of xylem ray parenchyma cells in hardwood species. Micron. (2000) vol.31, p.669-686. – reference: 4) QUAMME H. A. Deep supercooling in buds of woody plants. Biological Ice Nucleation and Its Applications. APS Press. (1995) p.183-199. – reference: 5) QUAMME H. A. Anatomical features facilitating supercooling of the flower within the dormant peach flower bud. J. Am. Soc. Hortic. Sci.. (1995) vol.120, p.814-822. – reference: 11) MAZUR P. Principles of cryobiology. Life in the Frozen State. CRC Press. (2004) p.3-65. – reference: 2) ISHIKAWA M. Extraorgan freezing in wintering flower buds of Cornus officinalis Sieb. et Zucc. Plant Cell Environ.. (1985) vol.8, p.333-338. |
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| SubjectTerms | カツラ 低温走査型電子顕微鏡 冬芽 器官外凍結 |
| Title | カツラ冬芽の細胞の凍結挙動 |
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