低温恒温干燥法是测定不透水包衣种水分含量的理想方法

Southern Forests: a Journal of Forest Science Pub Date : 2022-12-20 DOI:10.2989/20702620.2022.2150586

G. Jaganathan, Jiajin Li, Baolin Liu

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摘要

国际种子测试协会(ISTA)推荐两种测定种子水分含量的方法:高温恒温干燥，在130°C下进行1、2、3或4小时，低温恒温干燥，在103°C下进行17小时。然而，对于具有不透水种皮的物种，即物理休眠(PY)，则使用一系列温度和持续时间来确定水分含量。这项工作发现，龙葵的种子(Bojer ex Hook。)英国皇家空军。大田葵(L.)Poir。和Adenanthera pavinona L，均含有PY，在103℃下干燥17小时，可在2 ~ 5小时内达到恒重。如此高的温度可能会打开水隙，例如豆科植物中存在于种皮中的晶状体，或者在火灾和干热处理期间观察到的种皮破裂。因此，对于种皮不透水的品种，建议采用低温恒温干燥法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Low constant temperature drying can be a satisfactory method to determinethe moisture content of impermeable seed coated species

The International Seed Testing Association (ISTA) recommends two methods for seed moisture content determination: high constant temperature drying, carried out at 130 °C for 1, 2, 3 or 4 hours, and low constant temperature drying, carried out at 103 °C for 17 hours. However, in species with impermeable seed coats, i.e. physical dormancy (PY), a range of temperatures and duration was used to determine the moisture content. This work found that seeds of Delonix regia (Bojer ex Hook.) Raf., Sesbania grandiflora (L.) Poir. and Adenanthera pavinona L, which all have PY, can reach constant weight between two and five hours when dried at 103 °C for 17 hours. Such high temperatures could either open the water gaps, e.g. the lens in Fabaceae which are present in the seed coat, or crack open the seed coat, as observed during episodes of fire and dry-heat treatments. Therefore, it is suggested that the low constant temperature drying method can be used for species with impermeable seed coats.

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Southern Forests: a Journal of Forest Science

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