鄱阳湖流域水文变化特征成因及旱涝规律
Annual Variations in Climatic and Hydrological Processes and Related Flood and Drought Occurrences in the Poyang Lake Basin
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文摘
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本研究分析了1960-2008年鄱阳湖流域的气候和水文变化特征,用水量和能量平衡关系解释和印证了这些特征,并由此揭示了鄱阳湖流域水文变化特征的成因及干旱和洪涝发生的规律。得到以下主要结论:1)正常或偏湿年份鄱阳湖流域6月份容纳水量能力已达到饱和,若6-7月降水量超出正常年份,则流域超饱和,洪涝发生。长江中上游降水量7月份的异常偏多会对鄱阳湖流域的洪涝起触发和强化作用。2)鄱阳湖流域7-10月蒸发量大于降水量,特别是7-8月蒸发量大于降水量的一倍以上,所以若4-6月流域降水量少于平均年同期量的20%以上,则累积效应使秋旱发生。当初冬(11月)降水偏少时,秋旱可持续到来年的初春,形成严重的春旱。长江中上游降水量对鄱阳湖流域的春旱没有直接影响,但7-8月降水量偏少时则对秋旱起重要的强化作用。3)长江对鄱阳湖流域的水文过程和旱涝的发生、发展的影响主要在7-8月的"长江与鄱阳湖耦合作用"时期和9-10月的"弱长江作用"期。 |
其他语种文摘
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Observational data from 1960-2008 were analyzed to obtain the mean annual climate and hydrological variations in the Poyang Lake basin, China. These variations were explained by the surface water and energy budgets, and the characteristics of these variations and the budgets were further used to deduce the rhythms of flood and drought developments in the lake basin. Some conclusions can be drawn as follows. (1) The precipitation in the lake basin increases at a large rate from January to June, reaching the annual maximum in late June. Amplifying monthly precipitation, particularly from April to June, coupled with weak surface evaporation and transpiration (ET), saturates the soils and produces a large amount of surface runoff which raises the lake level. In July, rainfall decreases sharply with clear sky and high ET, which reduces surface runoff and reverses the hydrological processes developed in the first half of the year. These drying processes continue through October, making the basin dry again. (2) When June and July have above average monthly precipitation the lake basin becomes supersaturated, and floods develop. In such conditions, if July rainfall in the middle and upper reaches of the Yangtze River basin is above average, the Yangtze River blocking (or reversed flow) effect can trigger, intensify, and prolong Poyang Lake floods. Thus, Poyang Lake floods generally occur in July and August. (3) Because the lake basin is drying after July with strong ET, if there is below average rainfall in July and the months afterwards, ET would be greater than rainfall, causing drying. Drought could occur in fall. This fall drought can persist through the winter and into the following spring and result in severe spring drought in the lake basin. Thus, the droughts occur in the fall and spring months in the lake basin. (4) The Yangtze River effects on the floods and droughts in the lake basin are most significant during the "river-lake coupling period" from July to August. Strong effects can lead to floods in the lake basin. Lack of river effects would help lower the lake level and dry the basin, leading to drought in fall. |
来源
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地理学报
,2012,67(5):699-709 【核心库】
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关键词
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旱涝规律
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气候
;
水文
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长江
;
鄱阳湖
;
江湖作用
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地址
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1.
中国科学院南京地理与湖泊研究所, 湖泊与环境国家重点实验室, 南京, 210008
2.
School of Natural Resources and Department of Earth and Atmospheric Sciences University of Nebraska-Lincoln, USA, Lincoln, 68583-0987
3.
南京信息工程大学遥感学院, 南京, 210044
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语种
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中文 |
ISSN
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0375-5444 |
学科
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地球物理学 |
基金
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国家自然科学基金
;
美国农业部研究项目
;
南京地理与湖泊研究所科学基金
;
中国科学院知识创新工程重要方向项目
;
国家973计划
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文献收藏号
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CSCD:4539368
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参考文献 共
28
共2页
|
1.
姜彤. 全球变暖、长江水灾与可能损失.
地球科学进展,2003,18(2):277-284
|
CSCD被引
50
次
|
|
|
|
2.
Shankman D. Flood frequency in China's Poyang Lake region: Trends and teleconnections.
International Journal of Climatology,2006,26:1255-1266
|
CSCD被引
35
次
|
|
|
|
3.
闵骞. 鄱阳湖区干旱演变特征与水文防旱对策.
水文,2010,30(1):84-88
|
CSCD被引
18
次
|
|
|
|
4.
郭华. 近50年来长江与鄱阳湖水文相互作用的变化.
地理学报,2011,66(5):609-618
|
CSCD被引
40
次
|
|
|
|
5.
Shi Y. Yangtze floods observations and scenarios.
Climatc Change and Yangtze Floods,2004:182-202
|
CSCD被引
1
次
|
|
|
|
6.
Su B. Trends in frequency of precipitation extremes in the Yangtze River Baisn, China: 1960-2003.
Hydrological Sciences Journal,2005,50(3):479-492
|
CSCD被引
7
次
|
|
|
|
7.
Feng S. Modeling annual extreme precipitation in China using the generalized extreme value distribution.
Journal of Meteorological Society of Japan,2007,85(5):599-613
|
CSCD被引
9
次
|
|
|
|
8.
闵蚰. 鄱阳湖区域极端降水异常的特征及成因.
湖泊科学,2011,23(3):435-444
|
CSCD被引
1
次
|
|
|
|
9.
郭华. 1961-2003年间鄱阳湖流域气候变化趋势及突变分析.
湖泊科学,2006,18(5):443-451
|
CSCD被引
43
次
|
|
|
|
10.
Zhang Q. Spatial and temporal variability of precipitation maxima during 1960-2005 in the Yangtze River Basin and possible association with large-scale circulation.
Journal of Hydrology,2008,353:215-227
|
CSCD被引
22
次
|
|
|
|
11.
Jiang T. Yangtze floods and droughts (China) and teleconncctions with ENSO activities (1470-2003).
Quaternary International,2006,144:29-37
|
CSCD被引
20
次
|
|
|
|
12.
闵骞. 近50年鄱阳湖形态和水情的变化及其与围垦的关系.
水科学进展,2000,11(1):76-81
|
CSCD被引
27
次
|
|
|
|
13.
闵骞. 鄱阳湖退田还湖及其对洪水的影响.
湖泊科学,2004,16(3):215-222
|
CSCD被引
6
次
|
|
|
|
14.
Xiong L. Trend test and change-point detection for the annual discharge series of the Yangtze River at the Yichang hydrological station.
Hydrological Sciences Journal,2004,49:99-112
|
CSCD被引
7
次
|
|
|
|
15.
Zhang Q. Periodicity of sediment load and runoff in the Yangtze River Basin and possible impacts of climatic changes and human activities.
Hydrological Sciences Journal,2008,53(2):457-465
|
CSCD被引
6
次
|
|
|
|
16.
Chen X. Human impacts on the Changjiang (Yangtze) River Basin, China, with special reference to the impacts on the dry season water discharges into the sea.
Geomorphology,2001,41:111-123
|
CSCD被引
10
次
|
|
|
|
17.
Chen X. Large and episodic decrease of water discharge from the Yangtze River to the sea during the dry season.
Hydrological Sciences Journal,2002,47(1):41-47
|
CSCD被引
6
次
|
|
|
|
18.
Yang S L. Trends in annual discharge from the Yangtze River to the sea (1865-2004).
Hydrological Sciences Journal,2005,50(5):825-836
|
CSCD被引
17
次
|
|
|
|
19.
Varis O. China's 8 challenges to water resources management in the first quarter of the 21st century.
Geomorphology,2001,41:93-104
|
CSCD被引
43
次
|
|
|
|
20.
Dai Z. Runoff characteristics of the Changjiang River during 2006: Effect of extreme drought and the impounding of the Three Gorges Dam.
Geophysical Research Letters,2008,35:L07406
|
CSCD被引
6
次
|
|
|
|
|