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Freezing Behavior of Water in Small Pores and the Possible Role in the Freezing of Plant Tissues

机译：小毛孔中水的冻结行为及其在植物组织冻结中的可能作用

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Two model systems were used to study the freezing of water in small diameter pores. Water in pores having a diameter of less than 100 nanometers froze at lower temperatures than bulk water. Data obtained with a range of pore sizes were consistent with predicted values based on equations developed by Mazur (1965 Ann NY Acad Sci 125: 658-676), and Homshaw (1980 J Soil Sci 31: 399-414). The addition of solutes lowered the freezing point of water in small pores. We propose that the freezing behavior of water in small pores may account for some of the freezing patterns observed in plant tissues. In tissues where cells are tightly packed, share common walls, and lack intercellular spaces, the presence of water in cell wall microcapillaries would alter the freezing temperature of tissue water, impede the spread of ice, and facilitate supercooling.

机译：使用两个模型系统研究小直径孔隙中水的冻结。直径小于100纳米的孔中的水在比散装水低的温度下冻结。在一定孔径范围内获得的数据与基于Mazur（1965 Ann NY Acad Sci 125：658-676）和Homshaw（1980 J Soil Sci 31：399-414）开发的方程式的预测值一致。溶质的添加降低了小孔中水的凝固点。我们提出水在小孔中的冻结行为可能解释了在植物组织中观察到的某些冻结模式。在细胞紧密堆积，共有壁且缺乏细胞间空间的组织中，细胞壁微毛细管中水的存在会改变组织水的冷冻温度，阻碍冰的扩散并促进过冷。

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期刊名称 Plant Physiology
作者
Edward N. Ashworth; Fred B. Abeles;
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年(卷),期 1984(76),1
年度 1984
页码 201–204
总页数 4
原文格式 PDF
正文语种
中图分类人体生理学;
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专利

1. Freezing and melting of water in a single cylindrical pore: The pore-size dependence of freezing and melting behavior [J] . Kunimitsu Morishige, Keji Kawano The Journal of Chemical Physics . 1999,第10期

机译：单个圆柱孔中水的冻结和融化：冻结和融化行为的孔径依赖性
2. Mechanism of freezing of water in contact with mesoporous silicas MCM-41, SBA-15 and SBA-16: role of boundary water of pore outlets in freezing [J] . Shigeharu Kittaka, Yuki Ueda, Fumika Fujisaki Physical chemistry chemical physics: PCCP . 2011,第38期

机译：与中孔二氧化硅MCM-41，SBA-15和SBA-16接触时水的冻结机理：孔出口边界水在冻结中的作用
3. Freezing Efficiency and Quality Attributes as Affected by Voids in Plant Tissues During Ultrasound-Assisted Immersion Freezing [J] . Zhu Zhiwei, Chen Zhubing, Zhou Qianyun, Food and bioprocess technology . 2018,第9期

机译：在超声辅助浸没冻结期间冻结效率和质量属性受植物组织中的空隙影响
4. Behavior of evaporation-freezing of water containing freezing-accelerating agent [C] . Shimpei Itamoto, Isao Satoh, Takushi Saito 日本伝熱シンポジウム . 2001

机译：含有冻加热剂的蒸发冷冻的行为
5. Freezing behavior of water as influenced by ice cream stabilizers. [D] . Wang, Shu-Tai. 1996

机译：受冰淇淋稳定剂影响的水的冻结行为。
6. Freezing Characteristics of Rigid Plant Tissues (Development of Cell Tension during Extracellular Freezing). [O] . C. B. Rajashekar, M. J. Burke 1996

机译：刚性植物组织的冷冻特性（细胞外冷冻过程中细胞张力的发展）。
7. Freezing Behavior of Water in Small Pores and the Possible Role in the Freezing of Plant Tissues [O] . Ashworth, Edward N., Abeles, Fred B. 1984

机译：小毛孔中水的冻结行为及其在植物组织冻结中的可能作用
8. Direct Observations on the Mode of Invasion of Living Tissues by Ice. Part I. The Mode of Propagation of Ice in the Course of Freezing of Living Tissues. Part II. Behavior of Cells Upon Encounter with Invading Ice During Freezing of Living Tissues [R] . Luyet, B. J., Williams, R. J., Gehenio, P. M. 1964

机译：冰对活体组织侵袭模式的直接观察。第一部分冰在活组织冻结过程中的传播方式。第二部分。细胞在活组织冻结过程中遇到入侵冰的行为

Freezing Behavior of Water in Small Pores and the Possible Role in the Freezing of Plant Tissues

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