蒙古栎和紫椴叶片滞留水滴形态及在蒸发过程中的变化

生态学杂志

蒙古栎和紫椴叶片滞留水滴形态及在蒸发过程中的变化

林茂森^1,2,关德新¹,王安志^1**,金昌杰¹,吴家兵¹,袁凤辉¹

(¹森林与土壤生态国家重点实验室，中国科学院沈阳应用生态研究所，沈阳 110016； ^2中国科学院大学，北京 100049)

出版日期:2015-07-10 发布日期:2015-07-10

Shape of water droplet retained on leaves of Quercus mongolica and Tilia amurense and shape change during evaporation.

LIN Mao-sen^1,2, GUAN De-xin¹, WANG An-zhi^1**, JIN Chang-jie¹, WU Jia-bing¹, YUAN Feng-hui^1

(¹State Key Laboratory of Forest and Soil Ecology, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, China; ^2University of Chinese Academy of Sciences, Beijing 100049, China)

Online:2015-07-10 Published:2015-07-10

摘要/Abstract

摘要：

叶片表面的水滴形态不仅可以反映叶片的润湿性和持水能力，对了解森林的降雨截留及再分配过程也有重要的意义。本文通过对蒙古栎（Quercus mongolica）、紫椴（Tilia amurense）叶片上20～100 μL水量的水滴形态（高度、底面积、接触角）及100 μL水滴在蒸发过程中形态变化规律的观测，探讨了2种叶片上水滴形态的差异，并构建了水滴液表的曲面模型。结果表明，等水量条件下，紫椴叶片上的水滴形态较蒙古栎相对扁平，水滴高度较蒙古栎低0.15～0.41 mm，底面积大1.07～9.99 mm²，接触角小5°～10°；蒙古栎、紫椴叶片上水滴水量每增加1 μL，高度分别增加0.0125和0.0091 mm，底面积分别增加0.59和0.70 mm²，接触角分别减小0.185°和0.25°。在蒸发过程中，2种叶片上水滴形态变化规律相同，但形变速率不同，紫椴叶片上水滴高度和底面积的变化速率均大于蒙古栎，分别快9.8%和41.1%，这与2种叶片上的水滴形态有直接关系。

关键词: 黄瓜, 抗氧化, 盐碱胁迫, 活性氧, AsA-GSH循环

Abstract: The shape of droplets on leaf surface (DLS) can not only reflect the leaf wettability and water holding capacity, but also has important significance to understanding the rainfall interception and redistribution of rainfall in the forest. We observed the shape (height, basal area and contact angle) of DLS with 20-100 μL water amount on Quercus mongolica and Tilia amurense leaves and the shape change of 100 μL water drops during evaporation, revealed the shape difference of DLS on these two species and constructed the drop surface model. The result showed that the shape of DLS on T. amurense was relatively flat compared with that on Q. mongolica under the same amount water for separate drops. Namely, the drop on T. amurense leaf surface was 0.15-0.41 mm lower in height, 1.07-9.99 mm² larger in basal area and 5°-10° smaller in contact angle. By every 1 μL increasing in water amount, the DLS on Q. mongolica and T. amurense increased 0.0125 mm and 0.0091 mm in height, 0.59 mm² and 0.70 mm² in basal area and decreased 0.185° and 0.25° in contact angle, respectively. During evaporation, the shape changes of DLS were similar, but the changing rates of height and basal area of DLS on T. amurense were 9.8% and 41.1% faster than that on Q. mongolica respectively, which indicated the dependence of drop evaporation on its shape.

Key words: cucumber, antioxidation, salt alkaline stress, reactive oxygen species, AsA-GSH cycle.

林茂森1,2,关德新1,王安志1**,金昌杰1,吴家兵1,袁凤辉1. 蒙古栎和紫椴叶片滞留水滴形态及在蒸发过程中的变化[J]. 生态学杂志.

LIN Mao-sen1,2, GUAN De-xin1, WANG An-zhi1**, JIN Chang-jie1, WU Jia-bing1, YUAN Feng-hui1. Shape of water droplet retained on leaves of Quercus mongolica and Tilia amurense and shape change during evaporation.[J]. cje.

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