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1.
The problem of runoff prediction taking into account the possible climate change is considered using the Bayesian approach. The proposed technique is applied to the probabilistic forecasting of minimum runoff variations on the rivers of the Volga River basin. 相似文献
2.
V. Yu. Georgievskii E. A. Grek E. N. Grek A. G. Lobanova T. G. Molchanova 《Russian Meteorology and Hydrology》2018,43(10):633-638
Long-term changes in peak spring runoff and daily minimum winter and summer-autumn runoff in the Volga River basin are analyzed based on observational data from 94 gaging stations. It is revealed that climate changes in the basin during the period from the late 1970s till the middle of the 1980s led to the significant increase in minimum discharge, but maximum runoff changed ambiguously. The regions with the disturbed uniformity of the series of extreme values of river runoff are identified. Changes in the values of high runoff, above the 10% probability, and low runoff, below the 90% probability, are analyzed for current climate conditions. Under nonstationary conditions, it is recommended to assess the probability characteristics of extreme runoff with compound distribution curves or based on the Bayesian approach. 相似文献
3.
The results of the analysis of spatiotemporal variability of frost depth in the Volga River basin are presented. It is demonstrated that in the geographic zones of the basin the mean frost depth decreased in wide limits: from 10-20 to 90-100 cm and more. It was revealed that the frost depth decrease in the Volga River basin leads to the average increase in winter runoff by 17% (the variation range is from 3 to 42%). 相似文献
4.
Considered are interannual variations of the river runoff in Transbaikalia during the freeze-up and their dependence on the climate change. The air temperature in winter has increased since the middle of the 20th century that results in the ice thickness decrease on the majority of rivers on the territory under study. The runoff volume in winter depends significantly on the preliminary moistening of catchments. Warming effect is manifested in the increase in the fraction of the winter runoff in the annual runoff volume during the long-term period. 相似文献
5.
O. A. Anisimov I. I. Borzenkova E. L. Zhil’tsova O. K. Zakharova V. A. Kokorev S. A. Reneva Yu. G. Strel’chenko 《Russian Meteorology and Hydrology》2011,36(5):307-314
The maps are presented of seasonal air temperature and precipitation amount anomalies averaged for the whole Volga region
and adjacent territory for two time periods, 1946–1977 and 1978–2008. It is demonstrated that the considerable differences
in the thermal and moistening regimes of the Volga region exist for these two periods. The relation is described between the
variations of temperature and precipitation amount and the circulation types according to Vangengeim-Girs classification as
well as the possibility to use these data for specifying the climatic scenarios obtained on the basis of physically complete
hydrodynamic models. 相似文献
6.
The regularities of changes in the parameters of the hydrological regime of the Lower Volga are considered using data of routine observations at gaging stations and data of field studies carried out by the specialists of Zubov State Oceanographic Institute in 2006–2017. The main modern trends are revealed for runoff and water level, water temperature, and ice phenomena as well as for the duration of flooding of the Volga-Akhtuba floodplain during the spring flood. The parameters are compared for natural and regulated Volga River runoff conditions. It is shown that considerable variation in the duration of flooding of floodplains, in water temperature, and heat flow during the spring flood under modern conditions is caused both by runoff operation and by increase in the anthropogenic load on the area of the Volga-Akhtuba floodplain in the recent decades. 相似文献
7.
E. V. Gurevich 《Russian Meteorology and Hydrology》2011,36(2):130-133
Results of investigations of the winter river runoff formation in the Northern Dvina River basin (without the Vychegda River basin) are under consideration. The peculiarities of the winter runoff formation are revealed from the analysis of the conditions of the runoff reduction in different parts of the river basin. A regulatory effect of the upper links of the river net on the lower links is established. 相似文献
8.
Soil wetness, in both its global distribution and the seasonal change, has been mainly estimated by the water balance approach
using the bucket model which regards the soil wetness as soil moisture. The soil moisture data of Mintz and Serafini is one
of the representatives examples, however, this method has problems since it does not incorporate the effects of flooding,
snow accumulation on the ground, and so on. In this study, we use the Amazon and Volga river basin to carry out a case study
to evaluate these problems. In the Amazon river basin, the annual range of the entire terrestrial water storage, about 400 mm,
can be mainly explained by the rising and falling of the water level, and flooding around river channels, although soil moisture
data of Mintz and Serafini is almost constant throughout the year. In the Volga river basin, snow accumulates on the ground
producing 80 mm of water equivalent during winter, however the soil moisture data of Mintz and Serafini is almost saturated
in winter.
Received: 30 October 1996 / Accepted: 4 June 1997 相似文献
9.
Long-term variations of the Caspian Sea level occur mainly due to river runoff variations (the variations of the Volga River runoff is of primary importance here). In this case, the observed and reconstructed variations of the Caspian Sea level can serve as a standard for assessing the quality of the model runoff simulated by climate models. To solve this problem, a number of detailed maps of the Caspian Sea are prepared for the series of regression and transgression stages. These data are used for verifying the results of some numerical experiments carried out within the framework of CMIP5/PMIP3. It is demonstrated that the model data can be verified depending on how well the models simulate the present-day (instrumentally observed) variations of the decadal scale reconstructed in recent 1000 years of variations: the transition from the Derbent regression to the New Caspian transgression (the 5th phase) with the insignificant sea level drop in the late 19th century and under conditions of large regression during the period of the late Pleistocene glaciation maximum. 相似文献
10.
A term ofclimate-related risk ofcrop losses due to adverse hydrometeorological conditions is introduced. The level of territory vulnerability in terms ofcrop production is defined by the relationship between the yield of a given crop and the bioclimatic potential of a territory. The estimates of vulnerability and crop failure risks for some grain crops are presented for the period of 1994–2013. Average for Russia crop failure risk for spring and winter wheat computed taking into account the cultivated areas is 12.5 and 10.6%, respectively. It is revealed that the most parts of the Southern and Volga federal districts are located in the high-risk zone. Areas ofrelatively low risks in terms ofcrop failure for spring and winter wheat are the Siberian and Central federal districts. 相似文献
11.
为研究澜沧江源区水文气候变化特征,采用线性回归拟合分析方法、M-K非参数检验法对1960—2010年间澜沧江源区的水文气候变化趋势进行分析,计算了各季节气温变化对年气温变化的贡献量,并基于Pearson相关分析法和贡献率的计算讨论了降水量和气温对径流量变化的影响。结果表明:澜沧江源区年平均气温和各季节平均气温均呈显著上升趋势,其中,冬季的增温对年平均气温增加贡献最大(38%)。澜沧江流域源区年降水量无明显增减趋势,但春季降水量显著增加。澜沧江流域源区年径流量未呈现显著变化趋势,冬季和春季径流量呈现出显著的增加趋势。年际尺度上,径流量的主控因素是降水量,降水量对径流量年内变化的影响主要发生在降水相对丰沛的6—10月份;冬季和初春季节气温上升对径流量的改变存在一定的影响,且气温的贡献率要比降水的贡献率大,原因是气温升高加剧研究区内冰雪的消融,进而导致澜沧江源区的径流增加。 相似文献
12.
13.
The high sensitivity of the Arctic implies that impact of climate change and related environmental changes on river discharge can be considerable. Sensitivity of discharge to changes in precipitation, temperature, permafrost and vegetation, was studied in the Usa basin, Northeast-European Russia. For this purpose, a distributed hydrological model (RHINEFLOW) was adapted. Furthermore, the effect of climate change simulated by a GCM (HADCM2S750 integration) on runoff was assessed, including indirect effects of permafrost thawing and changes in vegetation distribution. The study shows that discharge in the Usa basin is highly sensitive to changes in precipitation and temperature. The effect of precipitation change is present throughout the year, while temperature changes affect discharge only in seasons when temperature fluctuates around the freezing point (April and October). Discharge is rather sensitive to changes in vegetation. Sensitivity to permafrost occurrence is high in winter, because infiltration and consequently base flow increases if permafrost melts. The effect of climate change simulated by the scenario on discharge was significant. Peak flow can both decrease (by 22%) and increase (by 19%) comparedwith present-day, depending on the amount of winter precipitation. Also, runoff peaks earlier in the season. These results can have implications for the magnitude and timing of the runoff peak, break-up and water-levels. 相似文献
14.
The variations in average annual surface air temperature, precipitation, and runoff in the Selenga River basin (within Russia) are analyzed. It is demonstrated that the considerable increase in average annual temperature of surface air layers occurred in the 1980s-1990s. The decrease in peak water discharge in the rivers and the increase in the frequency of low-water periods were revealed in the forest-steppe and steppe zones of the Selenga River basin in 2001-2010. In the southwestern mountain regions (the Dzhida River basin) the river runoff increased during that period. 相似文献
15.
Hydro-Climatic Trends of the Yellow River Basin for the Last 50 Years 总被引:10,自引:0,他引:10
Kendall's test was used to analyze the hydro-climatic trends of the Yellow River over the last half century. The results show that: (1) the runoff of the basin has decreased even after allowing for human uses, (2) the watershed has become warmer with a more significant increase in minimum temperature than in mean and maximum temperatures, and (3) no significant change in precipitation trend was observed. The major reasons for these results include human activities, global warming, land use/land cover change, and others, such as accuracy of natural runoff estimation, precipitation characteristics, groundwater exploitation, water transfer, and snowmelt. Homogeneity analysis indicated that precipitation, temperature, maximum temperature, and minimum temperature were all heterogeneous and the trends varied from region to region and from month to month. If the Intergovernmental Panel on Climate Change (IPCC) projections of continued warming in the region during the 21st century are correct, the present results then suggest that the trend towards reduced runoff is likely to lead to exacerbated problems for agriculture, industry, urban communities, and the overall regional environment. 相似文献
16.
Yan-Fang Sang Zhonggen Wang Changming Liu Jingjie Yu 《Theoretical and Applied Climatology》2014,115(1-2):187-195
This study analyzed the inter- and inner-annual variations of discharge regimes in the upper and mid reaches of the Heihe River basin. These variations then correlated with temperature and precipitation variations in the area. The differences between the runoff regimes at the upper and mid reaches were compared, and the human impacts on discharge variations in the Heihe River were discussed. The results indicate that in the upper reaches, the long-term trends and periods of discharge and precipitation correlate well. In the mid reaches, the discharge and temperature trends correlate well, and the short discharge and precipitation periods correlate well. Precipitation increases would generate more runoff in both the upper and mid reaches, but the effects of temperature increases on discharge are different in the upper and mid reaches. Temperature increases would enhance the glacial ablation processes and increase runoff in the upper reaches. However, temperature increases would increase the evaporation and decrease runoff in the mid reaches. After the 1980s, higher temperature enhanced snow and glacial melt, and increasing precipitation increased the discharge in the upper reaches. Although increasing precipitation increased some discharge, great human activities caused a notable discharge decrease in the 1990s in the mid reaches, especially during the spring to autumn when large amounts of water resources were used for irrigation. In summary, both precipitation and temperature impact the availability of water resources in the study area, and active and effective adaptation strategies should be developed to improve the efficiency of water resource exploration and to prevent the desertification processes in the arid Heihe River basin. 相似文献
17.
V. A. Bel’chikov A. Ya. Polunin Yu. A. Simonov A. V. Khristoforov 《Russian Meteorology and Hydrology》2013,38(2):119-125
Presented is a method of studying possible climate-driven changes of river runoff characteristics, according to which the atmosphere-ocean general circulation models are used for computing the climate system impact, whereas the response of a watershed to given disturbance is estimated using the model of runoff formation in a river basin. The study is carried out for the Northern Dvina River basin. Estimates of possible changes (relative to the reference period) by the middle and late 21st century of such water regime characteristics as mean annual and maximum water discharge, as well as mean discharge values for the spring, summer-fall and winter seasons, are presented. 相似文献
18.
运用EOF分解、线性趋势分析、方差分析、小波分析、相关分析等方法,从均值、长期变化、年际和年代际变化特征等方面对NCEP/NCAR(N1T)、NCEP/DOE(N2T)、ERA-Interim(ET)、JRA-25(JT)4种再分析资料集和194站观测资料集中1979—2012年我国冬季最低气温(WTMIN)进行比较。结果表明:(1)ET在再现观测冬季最低气温多年平均时最优;(2)除新疆北部和西南部以及东北北部有降低趋势外,我国大部分地区WTMIN有升高的趋势,N1T对观测温度长期变化趋势再现能力优于其他3种资料;(3)观测WTMIN在中国北方和高原地区年际和年代际变化大于南方地区,四种再分析WTMIN对我国冬季最低气温的年际和年代际变化的再现在不同区域各有所长,总体上以ET为优。(4)再分析资料在再现观测WTMIN年代际时间尺度上的能力相当,以ET最优,尤其是在我国中东部地区和新疆北部地区。N1T和N2T对东北地区观测冬季最低气温年际变化的再现能力较好,ET再现观测WTMIN在1990s之前,2005年之后的3~4 a变化周期特征时能力略优于其他3种资料。 相似文献
19.
以永定河流域为研究对象,在对永定河流域1957-2010年降水、实际蒸发和气温实测资料进行趋势分析的基础上,建立SWAT模型,验证了还原径流的必要性,对气候变化和人类活动对永定河流域径流的影响进行了定量研究。结果表明:20世纪60、70年代为永定河流域的丰水期,80年代至今为枯水期。永定河流域80年代后的实测径流资料受气候变化和人类活动影响显著,需进行径流还原后才能保证径流资料的一致性。气候变化是80年代后期径流减少的主要原因,其贡献量约占总减少量的65.4%,人类活动的贡献量占34.6%,也是不容忽视的因素。 相似文献
20.
E. V. Gurevich 《Russian Meteorology and Hydrology》2011,36(5):348-353
Investigations carried out in the Northern Dvina River basin revealed that the decrease in the ice thickness on small rivers is of significant importance in the increase in the water content of rivers in winter in recent decades. This process resulted in the improvement of the channel capacity as a result of the decrease in the ice formation intensity on the rivers and of the increase in the fraction of ground waters participating in the winter river runoff formation. It is proposed to consider the initial winter ice conditions as a separate important factor of this process as they define the types of river freezing influencing on the winter river runoff formation as well. 相似文献