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三江平原露水资源研究 被引量:12

Study on the dew resource in Sanjiang Plain
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摘要 研究了三江平原露日的变化特征,并对沼泽地毛果苔草(Carexlasiocarpa)群落和大豆地中露水的凝结进行了实地观测。结果表明:三江平原露水出现频率较高的季节是夏秋季(6~9月),露水凝结量最多的月份是9月;近12年来,年露日在66~108d,平均为95.42d;7~9月大豆地地面的露水凝结量明显高于沼泽地地面,而5~6、10月低于沼泽地地面;沼泽地中冠层的露水凝结量最多,地面上的露水量略低于顶层,而大豆地中露水凝结量的垂直差异不明显;2003年沼泽地、大豆地单位土地面积上实际凝结的露水量为20.68、19.46mm,分别占同期降雨量的5.05%、4.75%。露水在一定程度上弥补了干季降雨的不足,是影响水量平衡的重要因子。 Change characteristic of dew days in Sanjiang Plain was studied and dew was in situ collected using the collectors of poplar sticks in soybean field and marsh land from May to Oct. 2003.Carex lasiocarpa is the dominant plant in marsh land.At the same time, temporal and spatial changes of dew content were analyzed,including seasonal change and vertical distribution between marsh land and farmland.Dewfall condenses mainly in summer and fall and the peak of dewfall appears in September.The number of dew days in the years of 1992~2003 ranged from 66 to 108,and the mean is 95.42.The dewfalls in July,August and September collected on the surface of soybean field were higher than those on that of marsh land,and the dewfalls in May,June and October were lower than those of marsh land.The dewfalls varied with the height and dewfall was the richest in canopy in marsh land,and vertical changes of dewfalls in soybean field were unconspicuous.The unit area actual dewfalls in marsh land and soybean field reached 20.68mm and 19.46mm in 2003,which accounted for 5.05% and 4.75% of the rainfalls of the same period,respectively.Dew plays an important role in keeping water balance of marsh ecosystem and farmland ecosystem,and may compensate the shortage of rainfall in growth season of crops.
作者 阎百兴 邓伟
机构地区 中国科学院东北地理与农业生态研究所
出处 《自然资源学报》 CSSCI CSCD 北大核心 2004年第6期732-737,共6页 Journal of Natural Resources
基金 中国科学院知识创新工程重要方向性项目(KZCX3-SW-332) 中国科学院东北地理与农业生态研究所前沿领域项目(KZCX3-SW-NA-03)资助
关键词 三江平原 露水资源 沼泽地 大豆地 毛果苔草群落 Sanjiang Plain dew resource marsh land soybean field Carex lasiocarpa commu nity
分类号 P426.321 [天文地球—大气科学及气象学]
  • 相关文献

参考文献15

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二级参考文献41

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  • 6[3]Norimichi Takenaka, Hiroyuki Soda, Keiichi Sato, et al.. Difference in amounts and composition of dew from different types of dew collectors [J]. Water, Air, and Soil Pollution, 2003, 147:51 - 60.
  • 7[4]Jacobs F G, Heusinkveld G, Berkowicz S M. Dew deposition and drying in a desert system: a simple simulation model[J].Journal of Arid Environments, 1999,42: 211 - 222.
  • 8[5]Chiwa M, Oshiro N,Miyake T,et al.. Dry deposition washoff and dew on the surfaces of pine foliage on the urban - and mountain - facing sides of M t. Gokurakuji, western Japan [J].Atmospheric Environment,2003,37: 327 - 337.
  • 9[6]Kidron G J, Herrnstadt I, Barzilay E. The role of dew as a moisture source for sand microbiotic crusts in the Negev Desert,Israel[J]. Journal of Arid Environments, 2002, 52: 517 - 533.
  • 10[7]Madeira A C, Kim K S, Taylor S E, et al.. A simple cloudbased energy balance model to estimate dew [J]. Agricultural and Forest Meteorology, 2002,111: 55 - 63.

共引文献156

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引证文献12

二级引证文献54

自然资源学报
2004年 第6期

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