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温度诱导荧光变化：一种筛选马铃薯（茄属）抗寒能力的方法。

Temperature-induced fluorescence changes : a screening method for frost tolerance of potato (solanum sp.).

机构信息

Department of Plant Physiology, University of Umeå, S-901 87 Umeå, Sweden.

出版信息

Plant Physiol. 1982 Nov;70(5):1299-302. doi: 10.1104/pp.70.5.1299.

DOI:10.1104/pp.70.5.1299

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1065878/

Abstract

Field-grown tuber-bearing potatoes were screened for frost tolerance in a late stage of development. Three different clones of Solanum tuberosum L. and two interspecific crosses between clones of S. tuberosum and the wild potato species S. demissum Lindl. were studied. Two different methods were used. (a) Temperature-induced fluorescence changes of intact leaves were measured in freeze-thaw cycles between 20 degrees C and -10 degrees C. The variable fluorescence pattern was characterized in relation to frost tolerance. (b) Controlled freezings of plants in a climate chamber with successively increased low temperature stress, of 1 to 2 hours duration during the dark period. Freezing damages were classified visually.The short-term frost during the fluorescence measurement was compared with the long-term frost treatments in the climate chamber. The results of the two were identical to ranking of the different clones for frost tolerance. The temperature-induced fluorescence changes also monitored progressive damages to the chloroplast membranes when plants were exposed to successively lower temperatures in a controlled climate chamber freezing test. It was deduced from the fluorescence measurements that the freezing injury of potato occurs on the water splitting side of photosystem II.

摘要

田间生长的块茎马铃薯在发育后期进行了抗冻性筛选。研究了三个不同的马铃薯品种（Solanum tuberosum L.）克隆和两个马铃薯品种（S. tuberosum）与野生马铃薯品种（S. demissum Lindl.）之间的种间杂交。使用了两种不同的方法。（a）在 20 度到-10 度的冻融循环中测量完整叶片的温度诱导荧光变化。根据抗冻性对可变荧光模式进行了特征描述。（b）在气候室中对植物进行受控冷冻，低温胁迫持续时间为 1 至 2 小时，在黑暗期。通过目视分类来评估冷冻损伤。将荧光测量期间的短期冷冻与气候室中的长期冷冻处理进行了比较。两种结果与不同克隆对冻害的耐受性排序一致。在受控气候室冷冻试验中，当植物暴露在逐渐降低的温度下时，温度诱导的荧光变化也监测到叶绿体膜的渐进性损伤。从荧光测量中推断出，马铃薯的冷冻损伤发生在光系统 II 的水分裂侧。