2014年夏季长江流域降水季节内振荡的环流分析

基于台站降水观测数据和MERRA-2再分析资料,分析了2014年夏季我国长江流域降水的季节内振荡特征,并从位涡角度重点研究了与之相关的环流演变。结果表明:2014年夏季长江流域降水季节内变率以10~20d的准双周振荡为主。在降水准双周振荡的极端湿位相,受对流层高层随中纬度波列东传的正异常位涡和南亚高压东侧西南向传播的正异常位涡的共同影响,南亚高压呈“马鞍型”分布,在长江流域形成高空辐散环流;在对流层中低层,当中纬度波列的异常气旋向东南传播至长江流域以北时,西太平洋异常反气旋延伸至中国东南沿海,二者共同导致长江流域低空水汽辐合加强;在高、低层环流的共同作用下,长江流域持续性降水显著偏多,形成准双周振荡的极端湿位相;同时,长江以北高空位涡正异常导致其下方冷空气下沉,触发长江流域异常上升运动和南海地区异常下沉运动,该经向垂直环流圈的形成有利于长江流域正异常降水的维持。反之则形成极端干相位。      

Climate Change in China from 1880 to 1998 and its Impact on the Environmental Condition

The global mean surface air temperature (SAT) or the Northern Hemisphere mean SAT has increased since the late nineteenth century, but the mean precipitation around the world has not formed a definite tendency to increase. A lot of studies showed that different climate and environmental changes during the past 100 years over various regions in the world were experienced. The climate change in China over the past 100 years and its impact on China's environmental conditions needs to be investigated in more detail.Data sets of surface air temperature and atmospheric precipitation over China since 1880 up to the present are now available. In this paper, a drought index has been formulated corresponding to both the temperature and precipitation. Based on three series of temperature, precipitation, and drought index, interdecadal changes in all 7 regions of China and temperature differences among individual regions are analyzed. Some interesting facts are revealed using the wavelet transform method. In Northeast China, the aridification trend has become more serious since 1970s. Drought index in North China has also reached a high value during 1990s, which seems similar to that period 1920s–1940s. In NorthwestChina, the highest temperature appeared over the period 1930s–1940s. Along the Yangtze River valley in central eastern China and Southwest China, interdecadal high temperature occurred from 1920s to 1940s and in 1990s, but the drought climate mainly appeared from 1920s to early 1940s. In South China, temperature remained at a high value over the period 1910s–1940s,but the smaller-scale variation of drought index was remarkable from 1880 to 1998. Consequently, the quasi-20-year oscillation (smaller-scale variation) and the quasi-70-year oscillation (secular variation) obviously exist in temperature and precipitation series in different regions over China.Climate change and intensified human activity in China have induced certain environmental evolutions, such as the frequency change of dust-storm event in northern China, no-flow in the lower reaches of the Yellow River and the runoff variation in Northwest China. On the other hand, frequent floods along the Yangtze River and high frequency of drought disaster have resulted in tremendous economic losses in the last decade in China. The primary reason for these happenings may be attributed to the evolution of the monsoon system in East Asian.     

Drought reconstruction in the Qilian Mountains over the last two centuries and its implications for large-scale moisture patterns

We present a composite tree-ring chronology from two sites of Qilian Juniper(Sabina przewalskii)in the northwestern Qilian Mountains(QM),Northwestern China.Precipitation in June was found to be the main limiting factor for tree-growth.The tree rings are also significantly and positively correlated with June precipitation over large areas of the northern Tibetan Plateau(TP).The authors thus consider that the tree- ring based drought reconstruction from 1803–2006 is representative of a large area drought hist...     

索马里急流和澳洲越赤道气流年际变异不同配置及其影响

使用NCEP/NCAR大气再分析资料、Hadley中心海表温度分析资料和中国160站降水观测资料,分析了夏季索马里急流与澳洲越赤道气流年际变异之间的关系及相关联的海表温度、大气环流和中国降水异常分布特征。结果表明:夏季索马里急流和澳洲越赤道气流的年际变异存在两类关系,即多数的反位相和少数的同位相关系。当夏季索马里急流和澳洲越赤道气流呈前者减弱、而后者增强的反位相变化时,热带印度洋—太平洋海气异常表现为处于发展阶段的经典的东部El Nio型,造成东亚夏季风显著减弱,中国降水呈南方偏多、北方偏少的偶极型分布;当夏季索马里急流和澳洲越赤道气流同位相增强时,海气异常表现为处于成熟阶段的中太平洋El Nio型,东亚夏季风增强,中国降水呈长江流域降水偏少、而华北和华南沿海降水显著偏多的三极型分布。     

Demarcating the worldwide monsoon

Summary The monsoon is a global climate phenomenon. This paper addresses the seasonal reversal of atmospheric circulation and the transition of dry/wet spells in the monsoon regions worldwide. The NCEP/NCAR 850 hPa wind reanalysis data for 1950–1999 and the upper-tropospheric water vapour (UTWV) band brightness temperature (BT) data observed by NOAA polar orbiting satellites for 1980–1995 are used. In the tropics, there are three large wet-UTWV centres. The summer monsoon in the subtropics can be defined as the expansion of these centres associated with the influence of cross-equatorial flows. Specifically, the dry/wet spell transition is determined by the BT values that are smaller than 244 K. The regions of the South and North African monsoons, the Asian-northwest Pacific and Australian-Southwest Pacific monsoons, and the North and South American monsoons are examined with a focus on the dry/wet spell transition and stream field features. Findings suggest that the summer monsoons over many subtropical regions can be defined by both cross-equatorial flows and dry/wet spell transitions. In the mid- and low-latitudes, there exist six major dry/wet spell transition regions with a dry or wet period lasting more than one month. The region of most significant change is located over the subtropical North Africa–Asia–northwest Pacific. The others appear over subtropical South Africa, Indonesia–Australia, southwest Pacific, the Mexico-Caribbean Sea, and subtropical South America. In addition, three regions exist where only one of the two indicators (cross-equatorial flow and dry/wet transition) is satisfied. The first is near the Equator where the directions of cross-equatorial flows alternate but a dry/wet spell transition is never experienced. The second is over North Africa where only the dry/wet spell transition can be found but not the cross-equatorial flows. The third is over the mid-latitude regions in North China, South Africa, and northern North America. These regions are influenced by cross-equatorial flows but the upper-tropospheric water vapour content is not as high as that in tropical regions. Received June 29, 2000 Revised May 15, 2001     

太平洋年代际振荡与中国气候变率的联系

利用 195 1～ 1998年的太平洋年代际振荡 (PDO)指数、全球海洋和大气分析资料及中国降水和气温站点观测资料 ,分析了太平洋年代际振荡在海洋中的特征及其与东亚大气环流和中国气候变率的联系。结果表明 ,PDO与东亚大气环流及中国气候年代际变化关系密切。对应于PDO暖位相期 (即中纬度北太平洋异常冷、热带中东太平洋异常暖 ) ,冬季 ,阿留申低压增强 ,蒙古高压也增强 (但东西伯利亚高压减弱 ) ,中国东北、华北、江淮以及长江流域大部分地区降水偏少 ,东北、华北和西北地区气温异常显著偏高 ,而西南和华南地区气温偏低 ;夏季 ,海平面气压在北太平洋的负异常较弱 ,而在东亚大陆的正异常较强 ,东亚夏季风偏弱 ,西太平洋副热带高压偏南 ,热带太平洋信风减弱 ,赤道西风增强 ,此时华北地区降水异常偏少而长江中下游、华南南部、东北和西北地区降水异常偏多 ,东北、华北及华南地区气温异常偏高 ,而西北、西南和长江中下游地区气温异常偏低。对应于PDO冷位相期 ,上述形势相反。结果还表明 ,处于不同阶段的ENSO事件对中国夏季气候异常的影响明显受到PDO的调制。在PDO冷位相期 ,当ENSO事件处于发展阶段 ,华南地区夏季降水偏少 ,东北地区夏季多低温 ,在其衰减阶段 ,华北地区和长江流域降水偏多 ,淮河地区降水偏少 ;     

论1982—1983年冬季东亚气候距平的分布及其形成原因

1982—1983年冬季东亚气候距平的主要特征是有三个距平带和热干、冷湿两种距平状态。作者发现，在厄尼诺现象盛行时，副高明显加强，这是15°N 以南出现热干气候的直接原因。我国新疆地区偏暖，华南、西南地区偏冷也同厄尼诺有一定的遥相关关系。15°—30°N 的强大降水正距平则同东亚南支急流加强和南移有密切关系，南支急流加强则是其南侧的副高加强和其北侧青藏高原气温的强大负距平与雪盖扩大的结果。从降水带与高空急流的关系看，该冬季15°—30°N 地带的降水增多是一种季风雨的加强，同夏季梅雨加强的环流特点是相同的。     

我国季平均气温和降水局地同时相关的时空特征

将1955—1998年我国160站冬、夏季平均气温和总降水量序列分解为年代际和年际变化两个部分，用方差分析、相关分析和奇异值分解方法，分析了两种要素序列的方差构成及要素间局地相关关系的性质、季节变化和地理分布。结果表明:我国冬夏季气温、降水异常序列中，总方差年际变化大于年代际变化，但按自由度均分的方差，年代际变化较年际变化大，尤以气温为甚；单站气温、降水同时相关图上，夏季表现为显著的负相关，显著区主要分布在35°N以南、105°E以东的地区；夏季局地温度、降水也呈显著负相关关系，进一步分析表明，干热、湿凉型异常夏季多发生在江淮和华南两区，但同一年中两区夏季异常型常相反，它由年代际和年际变化中的负相关共同构成。     

20–50-day oscillation of summer Yangtze rainfall in response to intraseasonal variations in the subtropical high over the western North Pacific and South China Sea

The spatio-temporal variability in summer rainfall within eastern China is identified based on empirical orthogonal function (EOF) analysis of daily rain-gauge precipitation data for the period 1979–2003. Spatial coherence of rainfall is found in the Yangtze Basin, and a wavelet transform is applied to the corresponding principal component to capture the intraseasonal oscillation (ISO) of Yangtze rainfall. The ensemble mean wavelet spectrum, representing statistically significant intraseasonal variability, shows a predominant oscillation in summer Yangtze rainfall with a period of 20–50 days; a 10–20-day oscillation is pronounced during June and July. This finding suggests that the 20–50-day oscillation is a major agent in regulating summer Yangtze rainfall. Composite analyses reveal that the 20–50-day oscillation of summer Yangtze rainfall arises in response to intraseasonal variations in the western North Pacific subtropical high (WNPSH), which in turn is modulated by a Rossby wave-like coupled circulation–convection system that propagates northward and northwestward from the equatorial western Pacific. When an anomalous cyclone associated with this Rossby wave-like system reaches the South China Sea (SCS) and Philippine Sea, the WNPSH retreats northeastward due to a reduction in local pressure. Under these conditions, strong monsoonal southwesterlies blow mainly toward the SCS–Philippine Sea, while dry conditions form in the Yangtze Basin, with a pronounced divergent flow pattern. In contrast, the movement of an anomalous anticyclone over the SCS–Philippine Sea results in the southwestward extension of the WNPSH; consequently, the tropical monsoonal southwesterlies veer to the northeast over the SCS and then converge toward the Yangtze Basin, producing wet conditions. Therefore, the 20–50-day oscillation of Yangtze rainfall is also manifest as a seesaw pattern in convective anomalies between the Yangtze Basin and the SCS–Philippine Sea. A considerable zonal shift in the WNPSH is associated with extreme dry (wet) episodes in the Yangtze Basin, with an abrupt eastward (westward) shift in the WNPSH generally leading the extreme negative (positive) Yangtze rainfall anomaly by a 3/8-period of the 20–50-day oscillation. This finding may have implications for improving extended-range weather forecasting in the Yangtze Basin.     

近百年气候变化与变率的诊断研究

总结了近百年来气候变化与变率的诊断研究结果，包括全球平均气温及降水量、中国平均气温及降水量，以及ＥＮＳＯ及ＱＢＯ。指出全球有变暖趋势，１９８０年代是最暖的１０年。但中国的情况有所不同，１９２０年代及１９４０年代最暖，而１９８０年代接近常年。全球降水量有增加趋势，但气温与降水的１０年尺度变化并不完全一致。１９５０年代及１９７０年代为多雨期，１９８０年代降水反而减少。中国夏季降水变化的主要特征是冷湿、暖干。１９２０年代及１９４０年代是近百年最干的时期。１８７１—１９９３年共发生厄尼诺事件２８次，拉尼娜２１次。气候变暖时厄尼诺强，气候较冷时拉尼娜频率高。１９５１—１９９３年赤道平流层纬向风准两年振荡的平均长度为２８．７个月，比１９５０年代末的估计（２６．３个月）要长。１９５１年以前的周期长度可能在２９个月左右。未发现ＱＢＯ与气候变化有明显关系。     

Interdecadal Variability of East Asian Summer Monsoon Precipitation over 220 Years （1777-1997）

In this study, long-term (1777–1997) precipitation data for Seoul, Korea, wetness indices from eastern China, and modern observations are used to identify the interdecadal variability in East Asian summer monsoon precipitation over the last 220 years. In the East Asian monsoon region, two long-term timescales of dry–wet transitions for the interdecadal variability and quasi-40-and quasi-60-year timescales are dominant in the 220-year precipitation data of Seoul, as well as in the wetness indices over China....     

The effects of land-surface characteristics on the East Asian summer monsoon

 The Community Climate Model version 2 (CCM2) of the National Center for Atmospheric Research (NCAR) was used to investigate the effects of the land-surface characteristics on the East Asian summer monsoon. Four numerical experiments were performed in this study. They include the control run, the biosphere–atmosphere transfer scheme (BATS) run, the heavy snow run, and the light snow run. The results show that CCM2 can reasonably simulate many characteristics of the East Asian summer monsoon, such as the 850-hPa southwesterlies, 200-hPa easterlies, high precipitation rate, two monsoon subsystems, the low-level subtropical high, and the upper level South Asian anticyclone. Nevertheless, the model still exhibits some systematic errors, including oversimulation of the temperature over the Eurasian continent, which in turn intensifies the monsoon circulations. In the BATS run, the model can significantly relieve the temperature bias over the continent in spring and early summer. However, the effect of BATS decreases in the summer due to excessive incoming solar radiation. The Eurasian continent is still occupied by an oversimulated thermal low in summer. In the heavy snow case, the high albedo of snow and larger soil moisture suppress the warming rate of the surface and atmosphere in the early summer and hence the cooler troposphere results in a weaker monsoon circulation. Moreover, anomalous cyclonic flows are found in the leeside of Tibetan Plateau (i.e. the southwest vortex in China) in the heavy snow case. This may shed a light on the precipitation anomalies (floods) over Yangtze River Valley (Central China) and eastern Asia due to intensified baroclinic disturbances. Received: 8 September 1999 / Accepted: 5 June 2000     

东亚海陆热力差指数及其与环流和降水的年际变化关系

利用 196 1～ 1999年海温和地温月平均资料 ,定义了一个海陆热力差指数 ,来表示东亚季风环流的纬向和经向海陆热力差异的变化强度 ,研究了夏季指数与东亚夏季风环流场和中国东部夏季降水的年际变化关系。结果表明 :(1)海陆热力差指数可用来表示东亚夏季风的强弱变化。强指数年东亚季风区低空西南夏季风气流和高层的东风气流明显偏强 ,表明这一年夏季风偏强 ,弱指数年反之。 (2 )海陆热力差指数能较好地反映东部季风区夏季降水的异常状况。强指数年 ,雨带偏北 ,江淮流域和长江中下游明显干旱 ,华南、华北降水偏多 ,弱指数年反之。这一降水异常特征可以从强弱海陆热力差指数年的环流场得到解释。 (3)海陆热力差指数所反映的东亚夏季风具有明显的准 2a和 3～ 6a周期的年际振荡 ,但其振幅和周期具有显著的年代际异常     

超强厄尔尼诺事件对中国东部春夏季极端降水频率的影响

利用中国国家气象信息中心提供的中国地面逐日降水0.5°×0.5°格点数据集,研究了超强厄尔尼诺事件衰减年春、夏季中国东部极端降水发生概率的变化,并通过诊断超强厄尔尼诺自身及其衍生模态各自的水汽输送和垂直运动特征,探讨了超强厄尔尼诺事件对中国东部极端降水的影响机制。结果表明,超强厄尔尼诺事件衰减年春季,整个中国东部尤其是江淮以北地区,极端降水事件发生概率显著增大。同年夏季,长江流域极端降水发生概率比常规年份高出近1倍,而在华南和华北地区则相对减小。诊断分析显示,春季超强厄尔尼诺自身及其与热带太平洋地区年循环相互作用衍生出的组合模态（C-mode）均对降水的环流背景影响显著,热带太平洋西北部低空存在强盛的反气旋性异常环流,导致大量水汽在中国东部汇聚并上升,有利于该地区极端降水事件的发生。夏季,厄尔尼诺事件已经消亡,但与C-mode影响相关联的西北太平洋异常反气旋环流仍然存在,长江流域维持极端降水事件发生的有利条件。此外,研究也显示,超强厄尔尼诺事件衰减年春、夏季中国东部对流层中上层持续有异常经向风活动,频繁的南北冷暖气流交汇可能导致强对流事件发生次数增多,这也为该区域极端降水的频发提供了支持。      

中国近80年来气候变化特征及其形成机制

自 2 0世纪 2 0年代以来 ,中国地区 4 0和 90年代出现了 2个暖期及 5 0～ 6 0年代相对冷期。最近的 90年代的最暖年 (1998年 )或 5a滑动平均气温几乎已达或略高于 4 0年代的最暖年 (194 6年 )或 5a滑动平均气温。变暖最明显是北方地区 (黑龙江和新疆北部 ) ,而 35°N以南和 10 0°E以东地区自 5 0年代以来存在一个以四川盆地为中心的变冷带 ,虽然 90年代有变暖趋势 ,但基本达到 4 0年代暖期气温。中国降水则以 2 0年代为最少 (192 9年最少 ) ,5 0年代为多水年代 ,以后缓慢减少 ,70年代以后变化不大 ,但多雨带在 80年代及以后由华北南移到长江中下游。195 1～ 1990年 ,大部分地区气温和降水呈负相关 ,在东北和长江—黄河间存在 2个负相关中心 ,表明北方是变暖变旱 ,江淮间是变冷变湿。这些气候变化特征和全球气候变化相比较 ,除北方外 ,变暖期明显的滞后于全球变暖 ,并且出现变冷带等明显差异。文中还综述了用诊断和数值模拟方法对影响中国变化的气候自然变化和人类活动影响 (热岛效应和气溶胶影响 )的研究结果。我们认为 ,以上提出的 3种人类活动对中国气候变化有明显影响 ,特别是工农业发展造成的气溶胶增加是四川盆地气温变冷的主要原因。     

ENSO与中国夏季降水的联系:冬季QBO的调制作用

使用NCEP/NCAR再分析资料、中国气象局台站降水资料和GPCC降水资料,系统研究了在冬季平流层准两年振荡(Quasi-Biennial Oscillation, QBO)调制下,厄尔尼诺-南方涛动(El Ni?o-Southern Oscillation, ENSO)不同阶段与中国夏季降水的可能联系。根据两者的位相和强度,可将它们的配置分为QBO西风/El Ni?o、QBO西风/La Ni?a、QBO东风/El Ni?o、QBO东风/La Ni?a。研究结果表明,在年际时间尺度上,ENSO和QBO无显著相关关系。冬季QBO西风位相时,El Ni?o发展年夏季,我国整体偏旱,而华南偏涝;衰减年夏季,华南、华东北部偏旱,东北、长江流域偏涝。La Ni?a发展年夏季,我国东部降水异常呈负-正-负的三极分布;衰减年夏季,东南沿海偏涝。冬季QBO东风位相时,El Ni?o发展年夏季,长江以北偏旱;衰减年夏季,我国东部降水异常呈负-正-负的三极分布。La Ni?a发展年夏季,江淮和华南南部偏旱;衰减年夏季,我国东部沿海偏涝。ENSO是影响我国夏季降水异常的重要因子,而QBO的调制作用在ENSO衰减年夏季更为显著。相比冬季QBO东(西)风位相,QBO西(东)风位相时El Ni?o (La Ni?a)期间赤道西太平洋负(正)海温异常更强,衰减年夏季位于西太平洋的异常下沉(上升)运动和印度洋的异常上升(下沉)运动更强更深厚,西太平洋副热带高压范围更大(小),南亚高压更偏东(西)。      

Dry/Wet Changes and Their Standing Characteristics in China During the Past 531 Years

Time series of the dryness-wetness(DW) index of 531 yr(AD 1470-2000) at 42 stations in regions A(most of North China and the east of Northwest China) and B(the Yangtze-Huaihe River valley) in China are applied to investigating the historical DW characteristics over various periods of the series with a relatively stationary average value using Bernaola-Galvan(BG) algorithm.The results indicate that region A/B underwent three drought-intensive periods(DIP;1471-1560,1571-1640,and 1920-2000/1501-1540,1631-1690,and 1911-1960) in the last 531 years.In the DIP of the last 130 years,the frequency of DW transition has increased in region A,but not obviously changed in region B in comparison with the other two historical DIPs.The dry period started in about 1920 in region A with severe drought events occurring from the late 1970s to the early 1980s.It lasted for about 50-70 yr in this century,and then a DW shift took place.The wet period in region B might maintain for the coming several decades.The variations of DW in region A are positively correlated with changes in temperature,but in region B,the correlation with temperature is weaker.It is found that the number of DW indices of various categories within a running window is an exponential function of the running window length.The dryness scale factor(DSF) is defined as the reciprocal of the characteristic value of the exponential distribution,and it has a band-like fluctuation distribution that is good for the detection of extreme drought(flood) clustering events.The results show that frequencies of the severe large-scale drought events that concurrently occurred in regions A and B were high in the late 12th century,the early 13th century,the early 17th century,and the late 20th century.This provides evidence for the existence of the time-clustering phenomena of droughts(floods).     

热带太平洋次表层海温异常年代际变率及其对中国气候异常的影响

利用近50年月平均的SODA海洋同化资料和NCEP大气再分析资料,研究了热带太平洋次表层海温异常(SOTA)年代际变率主要分布型以及与之相关的亚洲-北太平洋-北美地区上空异常大气环流场,并揭示了类ENSO模态与中国气候异常之间的联系.得到主要结果:(1)热带太平洋SOTA年代际变率有两种类ENSO模态.第一模为类ENSO事件成熟期热带太平洋年代际SOTA状态；第二模为类ENSO过渡期热带太平洋年代际SOTA状态.二者组合构成类ENSO事件40年左右及其背景下13年左右的周期振荡.(2)类ENSO事件对亚洲-北太平洋-北美上空中高纬和副热带大气系统年代际变化具有重要影响.类El Ni(n)o成熟期间冬季,中高纬地区大气环流经向型发展,贝加尔湖高压脊加强,西太平洋副高偏强、位置偏西,蒙古高原为较强的异常反气旋环流.类El Ni(n)o衰退期(类La Ni(n)a发展期)夏季,贝加尔湖低压槽加深,乌拉尔山高压脊加强,西太平洋副高偏弱,新疆-河套地区为较强的异常反气旋环流距平.类La Ni(n)a事件时相反.(3)热带太平洋类ENSO事件通过影响中高纬和副热带大气系统,造成中国北部地区上空南风距平的年代际变化,进而导致东亚季风和中国气候异常.类El Ni(n)o事件成熟期,中国北部地区上空多异常偏北风,东亚季风弱,华北少雨,长江中、下游多雨；类El Ni(n)o衰退(类La Ni(n)a发展)期,中国北部地区上空亦为异常偏北气流,东亚季风较弱,华北少雨.中国气候异常型主要取决于类ENSO第一模态,而第二模态主要视位相异同来加强或减弱第一模态.两个类ENSO模态的共同作用导致1978年前后中国气候跃变和华北地区持续20余年的干旱.近期类ENSO模的振荡从1998年左右开始转为类La Ni(n)a模态,大致在2018年左右结束.在此期间,华北降水有望增加,长江中、下游降水可能减少.     

20世纪上半叶塔里木河流域夏季干湿的演变特征

利用CRU(Climatic Research Unit)的月Palmer干湿指数资料，研究了1901～1950年塔里木河流域夏季干湿的时空演变特征，结果表明：流域干湿的空间分布为正常或轻微干旱，从西南至东北呈“-+”分布；流域干湿变化的线性趋势从西至东呈“+-+-”分布，整个流域50年变干旱趋势显著，但大部分地区的趋势不显著；变率空间分布为东部正变率和西部负变率；干湿指数在1910之前为正，年际变化较为小，之后，则相反；年代干湿指数值呈年代周期性变化，但干湿等级都为正常。在20世纪0年代后期、10年代中期、30年代初期和40年代初期，流域干湿的年代值与50年均值差异显著。年代线性趋势在20世纪10年代中期至30年代初期，正趋势较多，其余两段时期都为负趋势，年代线性趋势在10年代末期正趋势显著，0年代后期至10年代中期、30年代末期和40年代初负趋势显著。流域变率值在20世纪0年代后期至20年代中期，30年代初期和后期与40年代初期达到显著水平。流域干湿的突变点分别出现在1910年、1919年、1927年和1938年。3.5年和7年是此序列显著周期。本文与之前研究得出的流域干湿总体变化特征相似，而由于数据来源、研究区和研究方法存在不同，两者在具体结果方面存在差异；流域干湿变化与海温变化和大气涛动在不同时期存在显著相关关系。