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1.
The Yarlung Zangbo River (YR) is the highest great river in the world, and its basin is one of the centers of human economic activity in Tibet. Using 10 meteorological stations over the YR basin in 1961–2005, the spatial and temporal characteristics of temperature and precipitation as well as potential evapotranspiration are analyzed. The results are as follows. (1) The annual and four seasonal mean air temperature shows statistically significant increasing trend, the tendency is more significant in winter and fall. The warming in Lhasa river basin is most significant. (2) The precipitation is decreasing from the 1960s to the 1980s and increasing since the 1980s. From 1961 to 2005, the annual and four seasonal mean precipitation is increasing but not statistically significant, especially in fall and spring. The increasing precipitation rates are more pronounced in Niyangqu and Palong Zangbo river basins, the closer to the upper YR is, the less precipitation increasing rate would be. (3) The annual and four seasonal mean potential evapotranspiration has decreased, especially after the 1980s, and most of it happens in winter and spring. The decreasing trend is most significant in the middle YR and Nianchu river basin. (4) Compared with the Mt. Qomolangma region, Tibetan Plateau, China and global average, the magnitudes of warming trend over the YR basin since the 1970s exceed those areas in the same period, and compared with the Tibetan Plateau, the magnitudes of precipitation increasing and potential evapotranspiration decreasing are larger, suggesting that the YR basin is one of the most sensitive areas to global warming. 相似文献
2.
近50 年雅鲁藏布江流域潜在蒸散量的变化特征 总被引:1,自引:0,他引:1
采用1961-2010 年雅鲁藏布江流域6 个气象站近50 年逐日气温、气压等气象资料,利用Penman-Monteith (P-M) 模型计算了月、季及年的潜在蒸散量(PE),分析了雅江流域PE变化特征。研究表明:流域平均年、干季和湿季PE 呈微弱的增加趋势,增幅均在3.00 mm/10a 以下;PE的年代际变化表明20 世纪60 年代至80 年代,年PE有一个增加的过程,而后减少;雅江流域的PE在1981 年发生突变。 相似文献
3.
西藏羊卓雍湖流域近45 年气温和降水的变化趋势 总被引:4,自引:0,他引:4
利用西藏羊卓雍湖流域气象、水文观测站1961-2005 年逐月的平均气温、降水量等资 料, 分析了近45 年流域气温、降水的年际和年代际变化特征和异常年份, 以及羊湖水位变化趋势及影响因子, 结果表明: 近45 年流域年平均气温以0.25 oC/10a 的速率显著升高, 增温主要表现在秋、冬季。近25 年, 流域平均降水量除冬季呈减少趋势外, 其他各季节表现为显 著的增加趋势, 增幅为11.4~30.0 mm/10a, 夏季增幅最大; 年降水量以54.2 mm/10a 的速率明显增加。20 世纪60 年代至90 年代, 除夏季外, 其他3 季表现为逐年代增温趋势。在夏季, 降水量除80 年代偏少外, 其他3 个年代偏多; 而冬季相反, 80 年代降水偏多, 其他3 个年代偏少。流域年平均气温异常偏高年出现过3 次, 且发生在20 世纪90 年代末至21 世纪初; 60 年代后期和70 年代初降水多异常年份。自1997 年发电以来, 降水量呈增加趋势, 流域平均降水量达409.7 mm, 明显高于平衡降水量, 水位呈较明显的上升趋势。降水增多、日照减少, 以及气温明显升高、冰雪融水增加是造成水位上升的主要原因。 相似文献
4.
1974—2009年西藏羊卓雍错湖泊水位变化分析 总被引:3,自引:0,他引:3
羊卓雍错(简称羊湖)是青藏高原南部最大的一个封闭型内陆湖泊,位于西藏自治区浪卡子县境内,与纳木错、玛旁雍错一起并列为西藏三大圣湖,是藏南地区重要的风景旅游区。始建于1989年的羊湖发电站于1997年正式投入运营,为世界上海拔最高的抽水蓄能电站。在全球气候变暖和人类活动的影响下,其湖面水位变化及其成因备受国内外关注。利用1974—2009年羊湖白地水文观测资料,分析了36年来羊湖水位年际、年内变化特征及其与自然要素(气温、降水和蒸发等)和人类活动之间的关系。结果表明,羊湖平均水位为19.06 m,历史最高值出现在1980年,为21.37 m,2009年水位降至17.08 m的历史最低值。自1974年有水位观测资料以来,羊湖水位呈波动式下降趋势,其中,1974—1977年水位表现为逐年下降,幅度为0.26 m/a;之后至1980年以0.4 m/a呈上升态势,1980年羊湖水位达到了历史最高值;此后,至1996年水位呈显著下降趋势,减少速率为2.08 m/(10 a),1996年是羊湖水位上升的一个转折点,至2004年水位在逐年上升;2004—2009年是一个水位显著下降的时段,速率为0.57 m/a,也是水位下降趋势最为显著的时段。羊湖水位下降年份占整个时段的56%,而44%的年份水位在上升。1974—1984年及2001—2005年水位高于多年平均值,而1985—2000年及2006年之后水位都低于多年平均值。羊湖水位的年内最低值一般出现在6月,最高值则在10月。羊湖年内水位变化对流域降水量的响应具有一定的滞后性,时间为2个月左右。羊湖水位变化主要是由降水波动、气温上升、蒸发的变化等自然因素共同作用的结果,特别是,流域年际降水量波动是湖面水位升降的主要影响因子,人为和工程的影响范围和程度均较小。自羊湖电站1997年运行以来,流域的环境在暖湿的气候大背景下有所改善,且对羊湖水位变化无明显影响。但如果电站不能蓄水与发电并举,达不到总体不消耗羊湖水量的设计目标和水量平衡,对羊湖水位的影响将不可忽视。 相似文献
5.
1971-2000年青藏高原气候变化趋势 总被引:2,自引:2,他引:0
Trends of annual and monthly temperature, precipitation, potential evapotranspi- ration and aridity index were analyzed to understand climate change during the period 1971–2000 over the Tibetan Plateau which is one of the most special regions sensitive to global climate change. FAO56–Penmen–Monteith model was modified to calculate potential evapotranspiration which integrated many climatic elements including maximum and mini- mum temperatures, solar radiation, relative humidity and wind speed. Results indicate gen- erally warming trends of the annual averaged and monthly temperatures, increasing trends of precipitation except in April and September, decreasing trends of annual and monthly poten- tial evapotranspiration, and increasing aridity index except in September. It is not the isolated climatic elements that are important to moisture conditions, but their integrated and simulta- neous effect. Moreover, potential evapotranspiration often changes the effect of precipitation on moisture conditions. The climate trends suggest an important warm and humid tendency averaged over the southern plateau in annual period and in August. Moisture conditions would probably get drier at large area in the headwater region of the three rivers in annual average and months from April to November, and the northeast of the plateau from July to September. Complicated climatic trends over the Tibetan Plateau reveal that climatic factors have nonlinear relationships, and resulte in much uncertainty together with the scarcity of observation data. The results would enhance our understanding of the potential impact of climate change on environment in the Tibetan Plateau. Further research of the sensitivity and attribution of climate change to moisture conditions on the plateau is necessary. 相似文献
6.
柴达木盆地气温、降水突变与周期特征分析 总被引:5,自引:0,他引:5
利用柴达木盆地6个站1954—2003年逐月气温、降水量资料,分析其近50年来气温、降水突变和周期特征。结果表明,盆地年气温与夏、秋、冬季气温增加趋势超过0.01显著性水平临界值,春季气温增加和年较差减小趋势达到0.05显著性水平。降水序列中,只有年降水与夏季降水增加达到0.10显著性水平。盆地各气温序列均有突变发生,年气温在20世纪80年代前期发生极显著暖突变,秋、冬季气温突变较春、夏季显著,冬季气温突变时间较其他季节偏早,在各气温序列中年较差突变时间最早。年降水在1976年发生突变,四季降水中只有春、夏季有突变。周期分析显示,盆地年气温变化的主周期按强弱依次为12 a、7 a和3 a,年降水主周期则依次为9 a和4 a。 相似文献
7.
Study on hydroclimatological changes in the mountainous river basins has attracted great interest in recent years. Changes in temperature, precipitation and river discharge pattern could be considered as indicators of hydroclimatological changes of the river basins. In this study, the temperatures (maximum and minimum), precipitation, and discharge data from 1980 to 2009 were used to detect the hydroclimatological changes in the Bagmati River Basin, Nepal. Simple linear regression and Mann-Kendall test statistic were used to examine the significant trend of temperature, precipitation, and discharge. Increasing trend of temperature was found in all seasons, although the change rate was different in different seasons for both minimum and maximum temperatures. However, stronger warming trend was found in maximum temperature in comparison to the minimum in the whole basin. Both precipitation and discharge trend were increasing in the pre-monsoon season, but decreasing in the post-monsoon season. The significant trend of precipitation could not be observed in winter, although discharge trend was decreasing. Furthermore, the intensity of peak discharge was increasing, though there was not an obvious change in the intensity of maximum precipitation events. It is expected that all these changes have effects on agriculture, hydropower plant, and natural biodiversity in the mountainous river basin of Nepal. 相似文献
8.
气候转暖及人类活动对北疆中小河流降水-径流关系的影响 总被引:16,自引:3,他引:13
利用近40 a来的水文气象资料,分析北疆20世纪80~90年代气候转暖及人类活动对北疆不同地区的中小河流降水-径流关系的影响,主要结论如下:①北疆西部的哈拉依灭勒河、卡琅古尔河,在1980年以后气候转暖的背景下,它们的自然降水-径流关系并无明显改变。②北部额尔齐斯河流域东部产流区平均高程较高的大青河,在90年代气候显著转暖的背景下,其自然降水-径流关系并无明显改变;而位于大青河东侧、流域平均高程较低、山区流域降水量较小的小青河,在90年代气候明显转暖的背景下,其自然降水径流关系发生了变化,所形成的自然地表径流量明显减少。③天山中部北坡的乌鲁木齐河,在80~90年代气候转暖的背景下,其自然降水-径流关系发生了变化,产流量明显偏多。④天山东部北坡的开垦河,在80~90年代气候转暖及人类活动影响的背景下,其自然降水-径流关系发生了变化,产流量减少。⑤乌鲁木齐近郊低山丘陵区的水磨河,在近40 a来的增温及人类活动影响的背景下,其自然降水-径流关系发生了变化,尽管乌鲁木齐年降水量有增加趋势,而其径流却是减少的。 相似文献
9.
石羊河流域1961-2005年蒸发皿蒸发量变化趋势及原因初探 总被引:4,自引:0,他引:4
利用1961—2005年石羊河流域上、中、下游当地气象站的逐月20 cm口径蒸发皿蒸发量、平均气温、平均相对湿度、降水量、平均风速、日照时数、最高气温和最低气温资料,研究了近45 a石羊河流域蒸发皿蒸发量变化趋势及原因。结果表明,45 a来,石羊河流域及上、下游年蒸发皿蒸发量呈上升趋势,中游年蒸发皿蒸发量呈下降趋势,上游上升趋势最明显。四季中,春、秋、冬季蒸发皿蒸发量呈上升趋势,上升最明显的是冬季,其次为秋季,春季变化不明显,夏季蒸发皿蒸发量变化呈下降趋势。石羊河流域在不同时段不同区域年蒸发皿蒸发量都存在明显的6~7 a周期和1~2 a的短周期,并都发生了突变。相关系数法分析表明,影响石羊河流域及中、下游年蒸发皿蒸发量变化的主要影响因子是相对湿度和降水,上游的主要影响因子是相对湿度和气温。四季中,春季的主要影响因子是相对湿度和降水;夏季影响石羊河流域及上、中蒸发皿蒸发量变化的主要因子是相对湿度和气温,下游的主要影响因子是相对湿度和降水;秋季影响石羊河流域及中、下游蒸发皿蒸发量变化的主要影响因子是相对湿度和气温日较差,上游其主要影响因子是相对湿度和降水;冬季的主要影响因子是气温和相对湿度。影响年以及春、夏、秋最显著的因子是相对湿度,冬季最显著的影响因子是气温。 相似文献
10.
1981-2010 年气候变化对青藏高原实际蒸散的影响 总被引:6,自引:1,他引:5
基于1981-2010 年青藏高原80 个气象台站观测数据, 通过改进的LPJ 动态植被模型, 模拟并分析了青藏高原实际蒸散及其与降水的平衡关系(P-E) 的时空变化。研究结果表明, 在过去三十年来青藏高原气候呈现以变暖为主要特征的背景下, 降水量整体略有增加, 潜在蒸散呈减少趋势, 特别是2000 年以前减少趋势显著;青藏高原大部分地区实际蒸散呈增加趋势, P-E的变化趋势呈西北增加-东南减少的空间格局。大气水分蒸散发能力降低理论上会导致实际蒸散减少, 而青藏高原大部分地区实际蒸散增加, 主要影响因素是降水增加, 实际蒸散呈增加(减少) 趋势的区域中86% (73%) 的降水增加(减少)。 相似文献
11.
西藏高原汛期降水日数和强度的时空演变特征 总被引:1,自引:0,他引:1
利用西藏高原38个气象站自建站以来至2007年的逐日降水资料,分析了西藏高原汛期不同等级降水日数和降水强度的时空演变特征及其对旱涝的影响。结果表明:西藏降水日数和小雨日数呈现北增南减的趋势,中雨日数在雅鲁藏布江中下游、昌都地区东南部一线增加。1961-2007年总降水日数的减少主要体现在小雨日数下降和贡献率减少,而中雨的日数和贡献率增加;降水强度表现出一定的增加趋势,体现为小雨和大雨强度的增加。20世纪80年代前多小雨,80年代至90年代多中雨以上强度的降水,21世纪前7年多小雨,而大雨主要在90年代对降水量的贡献率较大。西藏高原降水有向不均衡、极端化发展的趋势,这对西藏高原旱涝灾害的发生具有重要的影响。 相似文献
12.
湖泊是陆地水资源的重要组成部分,也是局地气候和全球环境变化的敏感指示器之一。湖泊面积增加和水位的变化直接反映了流域内水量平衡变化过程,对区域和全球的气候变化的反映较为敏感。利用线性趋势法对青海湖流域长时间序列气象、水文资料以及流域水热条件和植被生长状况进行分析研究,利用皮尔逊相关系数法计算了各因素与湖水位的相关关系,旨在定量评估区域气象、水文、植被等要素的变化对和湖泊水位变化过程的贡献,开展细致的青海湖水位变化特征的影响因子探讨与分析。结果表明:该流域气候呈现显著的暖湿化趋势,其中流域年降水量总体上呈现弱的增加态势,气候倾向率为10.8 mm·(10 a)-1;流域年平均气温呈显著的升高趋势(P <0.01)。流域年可能蒸散率和年实际蒸散波动较大,年实际蒸散虽有波动但增加趋势非常明显(P <0.01)。流域净第一性生产力(P)平均值为2.86 t DM·hm-2·a-1,呈现显著的增加趋势(P <0.01)。从1961年开始湖水位呈现逐年波动下降的趋势,到2004年水位最低(P<0.01);2004—2015年的近10 a连续上升,上升速率达14.4 m·(10 a)-1(P <0.01)。流域气温升高、降水量增加,流域气候呈显著的暖湿化特征,入湖河流径流量也呈现出弱的增加态势;气候暖湿化特征导致流域生物温度增加,植被生长状况得到改善,[WTBX]NPP[WTBZ]显著增加。年降水量增多,河流径流量增大,湖水位抬升;前一年的降水量、≥0 ℃积温、温度、径流量、NPP和蒸发量对湖水位的影响更大;NDVI和NPP的增加反映流域植被生长状况得到好转,从而增加了流域植被水土保持和水源涵养能力,对湖水位产生间接的影响。降水量、≥0 ℃积温、温度、径流量和NPP对青海湖水位起到正反馈效应,而蒸发量对湖水位主要起负反馈效应,年降水量和年径流量是湖水位变化的最直接的影响因子。 相似文献
13.
ZHU Guofeng HE Yuanqing PU Tao WANG Xufeng JIA Wenxiong LI Zongxing XIN Huijuan 《地理学报》2012,22(1):71-85
Based on the meteorological data of 20 stations in the Hengduan Mountains region during 1961-2009, the annual and seasonal variation of potential evapotranspiration was analyzed in combination with the Penman-Monteith model. With the method of Spline interpolation under ArcGIS, the spatial distribution of potential evapotranspiration was presented to research the regional difference, and the correlation analysis was used to discuss the dominant factor affecting the potential evapotranspiration. The results indicated that the annual potential evapotranspiration showed a decreasing tendency since the 1960s, especially from the 1980s to 1990s, while it showed an increasing tendency since 2000. Regional potential evapotranspiration showed a rate of -0.17 mm a-1. Potential evapotranspiration in north, middle and south of the Hengduan Mountains exhibited decreasing trends over the studied period, and its regional trend was on the decline from southwest to northeast. 相似文献
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15.
全球气候变暖背景下中国降水量变化的区域差异显著。基于1961—2016年期间,全国763个观测台站白昼和夜间的降水观测数据,分别从昼夜降水量、降水日数、降水强度以及对总降水量的贡献率等四个方面,解读中国九大流域昼夜降水变化的时空格局。结果表明:① 昼夜降水量变化的流域差异显著,可归纳为四种类型:昼夜同增型、昼夜同减型、昼增夜减型和昼减夜增型。② 流域总降水量变化与昼夜降水量密切相关。淮河流域降水量减少是由白昼降水量(-0.72 mm/a)减少所致,而黄河流域降水量减少则是由夜间降水量(-0.21 mm/a)减少所致。③ 干旱区、半干旱区及半湿润区的流域,昼夜大雨的雨量要高于昼夜暴雨;湿润区的流域,则表现为昼夜暴雨的雨量要高于昼夜大雨,尤其是珠江流域和东南诸河流域。④ 从全国尺度来看,白昼大雨、夜间大雨和暴雨对总降水量的贡献率超过10%,而白昼暴雨的贡献率约10%。湿润区流域昼夜暴雨对总降水量的贡献率高于昼夜大雨对总降水量的贡献率,而干旱区-半干旱区流域则相反。研究结果有助于深化认识全球变暖对区域日降水循环的影响。 相似文献
16.
Based on the meteorological data of 20 stations in the Hengduan Mountains region during 1961-2009, the annual and seasonal variation of potential evapotranspiration was analyzed in combination with the Penman-Monteith model. With the method of Spline interpolation under ArcGIS, the spatial distribution of potential evapotranspiration was presented to research the regional difference, and the correlation analysis was used to discuss the dominant factor affecting the potential evapotranspiration. The results indicated that the an-nual potential evapotranspiration showed a decreasing tendency since the 1960s, especially from the 1980s to 1990s, while it showed an increasing tendency since 2000. Regional potential evapotranspiration showed a rate of -0.17 mm a?1. Potential evapotranspiration in north, middle and south of the Hengduan Mountains exhibited decreasing trends over the studied period, and its regional trend was on the decline from southwest to northeast. 相似文献
17.
Trends of annual and monthly temperature, precipitation, potential evapotranspi-ration and aridity index were analyzed to understand climate change during the period 1971–2000 over the Tibetan Plateau which is one of the most special regions sensitive to global climate change. FAO56–Penmen–Monteith model was modified to calculate potential evapotranspiration which integrated many climatic elements including maximum and mini-mum temperatures, solar radiation, relative humidity and wind speed. Results indicate gen-erally warming trends of the annual averaged and monthly temperatures, increasing trends of precipitation except in April and September, decreasing trends of annual and monthly poten-tial evapotranspiration, and increasing aridity index except in September. It is not the isolated climatic elements that are important to moisture conditions, but their integrated and simulta-neous effect. Moreover, potential evapotranspiration often changes the effect of precipitation on moisture conditions. The climate trends suggest an important warm and humid tendency averaged over the southern plateau in annual period and in August. Moisture conditions would probably get drier at large area in the headwater region of the three rivers in annual average and months from April to November, and the northeast of the plateau from July to September. Complicated climatic trends over the Tibetan Plateau reveal that climatic factors have nonlinear relationships, and resulte in much uncertainty together with the scarcity of observation data. The results would enhance our understanding of the potential impact of climate change on environment in the Tibetan Plateau. Further research of the sensitivity and attribution of climate change to moisture conditions on the plateau is necessary. 相似文献
18.
民勤荒漠区气候变化对全球变暖的响应 总被引:2,自引:0,他引:2
近年来,全球变暖已成为一个全世界广泛关注的问题。那么,荒漠气候是如何响应全球变暖的呢?以中国西北典型荒漠地区民勤为例进行了分析。结果表明,民勤荒漠区年平均气温的抬升速率高于20世纪全球气温抬升速率和中国近100 a气温抬升速率;2—6月和11—12月月平均气温表现为不同程度增温趋势,其中,2月增温最明显;从20世纪全球最暖的80—90年代开始极端最高气温变幅明显增大,极端最低气温间歇式下降,极端最高气温和极端最低气温的不稳定性增大;在变暖的同时,降水量表现为增加趋势;1956年以来当地沙尘暴发生日数表现为减少趋势,其原因主要是1961年以来当地的空气相对湿度增大,暖湿气候是导致沙尘暴减少的主要原因之一。 相似文献
19.
华北平原降水的长期趋势分析(英文) 总被引:4,自引:1,他引:3
The North China Plain (NCP) is the most important food grain producing area in China and has suffered from serious water shortages. To capture variation water availability, it is necessary to have an analysis of changing trends in precipitation. This study, based on daily precipitation data from 47 representative stations in NCP records passed the homogeneity test, analyzed the trend and amplitude of variation in monthly, seasonal and annual precipitation, annual maximum continuous no-rain days, annual rain days, rainfall intensity, and rainfall extremes from 1960 to 2007, using the MannKendall (M-K) test and Sen’s slope estimator. It was found that monthly precipitation in winter had a significant increasing trend in most parts, while monthly precipitation in July to September showed a decreasing trend in some parts of NCP. No significant changing trend was found for the annual, dry and wet season precipitation and rainfall extremes in the majority of NCP.A significant decreasing trend was detected for the maximum no-rain duration and annual rain days in the major part of NCP. It was concluded that the changing trend of precipitation in NCP had an apparent seasonal and regional pattern, i.e., precipitation showed an obvious increasing trend in winter, but a decreasing trend in the rainy season (July to September), and the changing trend was more apparent in the northern part than in the southern and middle parts. This implies that with global warming, seasonal variation of precipitation in NCP tends to decline with an increasing of precipitation in winter season, and a decreasing in rainy season, particularly in the sub-humid northern part. 相似文献
20.
1960~1997年新疆北部降水序列的趋势探测 总被引:25,自引:13,他引:25
利用非参数统计检验法(Mann-Kendall法)分析了新疆北部地区13个气象台站1961-1997近40年降水序列的趋势。因季节性差异,对1月、4月、7月、10月的降水序列也进行了分析。结果表明,1961-1997年新疆北部地区年降水序列大致存在增加的趋势,但不是很普遍;多数测站的年降水序列无趋势。以4月、10月为代表的春秋季降水量没有趋势存在;在少数测站以1月为代表的冬季降水序列出现了上升趋势,说明1961-1997年间新疆北部冬降水量有一定量的增加;3个测站在以7月以代表的13个夏季降水序列中出现了上升趋势,还有一个测站出现了下降趋势,说明新疆北部地区夏季降水在1961-1997年间有少量的增加,并且降水变化趋势存在一定的地区差异。 相似文献