A Simplified Basin Model For Simulating Runoff: The Struma River GIS

A GIS‐based distributed‐parameter runoff simulation model for the Struma River Basin in southwestern Bulgaria calculates the monthly snow/rain proportion, direct or surface runoff, snow cover and snowmelt, soil moisture, evapotranspiration, and total runoff. Simulation during the Bulgarian hydrologic year from November to October was compared with observed runoff data. The model closely replicates mean monthly runoff from climate conditions during the years 1961 –1990 as well as specific years. The simplified GIS model simulates hydrologic processes under limited data availability.     

SWIM模型在东北黑土区流域的适用性评价——以乌裕尔河中上游流域为例

以典型东北黑土区乌裕尔河中上游流域为研究区,引入SWIM水文模型,利用偏相关系数评价模型参数的敏感性,基于流域出水口依安水文站1961-1997年实测日径流数据和部分气象站小型蒸发皿数据,进行了多站点、多变量的模型率定和验证,并通过模拟结果与实测资料对比,探讨了SWIM模型在东北黑土区流域的适用性、存在的误差及其原因。结果表明：① 在率定期和验证期,月径流和日径流的纳希效率系数分别大于0.71和0.55,径流相对误差在6.0%以内,月径流的模拟效果好于对日径流的模拟效果;月潜在蒸散发的纳希效率系数达0.81以上;② 在月尺度上经过校准的SWIM模型可以应用于东北黑土区与径流相关的各种模拟分析;③ 但模型在模拟融雪和冻土产流方面存在一定的限制;对同时具有春汛和夏汛的年份模拟效果也较差;对年降水量出现骤增的年份年径流量的模拟结果会几倍于实测值,但基本能够重现汛期的流量变化过程。模型不仅可以为管理者对该流域水环境综合管理提供水文基础支持,对黑土区其他流域也具有一定的推广和应用价值。     

Estimation of Direct Runoff in the Thornthwaite Water Balance*

Inclusion of direct runoff in water balance analysis makes the analysis more accurate and allows it to reflect important hydrologic effects of land use change such as urbanization. Water balance analysis is conveniently performed on a monthly basis. This paper reports the development of a model of monthly direct runoff consistent with the monthly bookkeeping format. The model was evaluated by comparison with direct runoff estimated by daily calculation using the Soil Conservation Service (SCS) method. The comparison employed six stations representing different climatic regions of the contiguous United States and eight values of SCS curve number. The results are statistically significant and produce little error.     

黄河河源区变化环境下分布式水文模拟

将黄河河源区划分为38个自然子流域,利用分布式水文模型模拟径流量,采用唐乃亥水文站逐年、月实测径流资料进行验证,得到了较好的模拟效果。文章建立了5种土地覆被情景模型及24组不同气温和降水的情景组合,分别模拟不同情景下的年径流量。模拟结果表明,随着植被覆盖度的增加,流域年径流量减小,蒸发量增加。当气温降低2_oC且降水增加20%时,流域径流量增加得最大,增加39.69%。     

东北地区融雪期径流及产沙特征分析

严重的水土流失已威胁到东北地区的土地资源,融雪径流及其造成的侵蚀作为该地区水土流失的重要组成部分,但相关研究较少。本文利用全区93个气象站降水资料,分析了东北地区降雪与积雪的基本特征。利用27个典型流域水文站径流泥沙资料,分析了融雪期内径流与产沙特征。结果表明:东北各地雪期长度为5~8个月,自南向北逐渐延长。年降雪量占年降水总量的比例多在7~25％,由此形成的融雪期径流深占全年径流深比例达13.3~24.9％,融雪期输沙模数占全年输沙模数比例达5.8~27.7％。融雪期流域输沙模数受地貌影响十分显著:丘陵漫岗区降雪量和径流深均低于山区,但输沙模数平均为山区的2.9倍。融雪输沙模数与流域面积有十分显著的幂函数递减关系。为揭示融雪侵蚀影响因素及其作用机理,今后应加强融雪期内流域侵蚀及产沙监测。     

1956～2004年长江源区河川径流量的变化特征

利用1956~2004年长江源区水文和气象台站观测的流量、气温、降水资料,用气候诊断方法分析了该地区径流量的季节和年代际变化特征以及突变特点。结果表明:近50 a来长江源区月平均最大、最小和雨季、年及年较差流量均呈减小的趋势,月平均最小和最大流量分别出现在2月和7~8月,20世纪60和80年代的单峰峰值出现在7月,1970年代、1990年代的单峰峰值出现在8月,近14 a直门达水文站年径流共减少了96×108m3。雨季平均流量的距平基本经历了一个"正-负-正-负"的历史变化过程,雨季和过渡季节降水量、季节积雪融水量和高山冰雪融水量所形成的总流量呈下降趋势。枯季和雨季平均流量均经历了3次明显的转折,并具有10~12 a、6~8 a和3 a的共同变化周期。     

TIMBER HARVESTING AND THE HYDROLOGIC RESPONSE OF REDWOOD CREEK,CALIFORNIA

Timber removal on publicand private land surrounding Redwood National Park exacerbates naturally high rates of erosion that are common to this region and alters hydrologic processes within the park boundaries. These alterations of the natural environment complicate the efforts of the National Park Service to preserve a remnant of the once extensive coastal redwood ecosystem in the park. A watershed model for Redwood Creek calibrated to pre-logging conditions is employed to define and quantify changes in the hydrologic response of the basin during the years when timber harvesting reduced significantly the acreage of redwoods. Analysis of modeled and observed runoff indicates that timber removal is related to increased runoff during wet months and wet years, but runoff is reduced during dry months and dry years. These alterations in the hydrologic system occur at the least beneficial time because they augment high flows, whereas low flows are depleted. Such changes in runoff contribute to magnified erosion and deposition problems and increased stress for the flora and fauna that reside in and along Redwood Creek. [Key words: Redwood National Park, hydrology, watershed model, timber harvesting.]     

沱江流域水文对全球气候变化的响应

本文研究了全球气候变化对沱江流域水文的影响。根据流域水量平衡模型和未来气候情景对水量平衡各分量的可能变化进行了计算。结果表明;径流对气温变化不敏感,但对降水变化十分敏感;降水变化±１０％将引起径流量±３５％左右的变化;此外,径流年内分配亦发生了明显的变化。这将对沱江流域未来水资源计划与管理带来一定程度的影响。     

内陆河流域分布式水文模型——以黑河干流山区建模为例

应用常规的气象水文数据并结合GIS, 建立了一个适合西北内陆河山区流域分布式水文模型, 并对黑河干流山区出山径流进行了模拟计算和讨论。模型以子流域作为最小的产流、汇流单元, 将各子流域分为裸地区、乔木区、牧草区和冰川区, 并根据实测剖面资料将土壤分为3层, 各分区单独进行水量平衡计算。产流过程基于蓄满产流理论, 以月和日为步长, 月模型在黑河干流山区流域应用效果较好, 日模型受降水的随机性和观测站点少的限制效果不佳。模型参数敏感性分析发现, 降水资料的代表性是模型模拟成败的关键。月模拟结果表明, 植被覆盖可以调节径流过程, 增加流域土壤储水量, 尤其是乔木森林, 即植被具有涵养水源的功能。在全球变暖背景下, 黑河未来出山径流会有一定程度的增加, 冰雪融水和实际蒸散发也会增加, 永久积雪与冰川面积缩小, 雪线上升, 但近期内不会造成冰雪储量大量减少。     

1972-2019年萨雷兹堰塞湖遥感时序监测与水文特征过程分析

堰塞湖的水文特征过程对于库区洪水宏观调控、预报预警、安全防治等具有重要意义。为了及时掌握萨雷兹堰塞湖水文特征和历史演化过程,本文基于密集时间序列遥感数据,综合调查全面系统地分析了1972—2019年帕米尔高原萨雷兹堰塞湖的水文特征以及时空变化过程;并通过“面积-水位”关系模型重建了1972—2019年萨雷兹堰塞湖的历史水位面积演变时序过程;在此基础上采取M-K趋势和突变检验分析了水文变化特征。研究结果表明：① 萨雷兹堰塞湖水位总体上呈现波动性显著上升趋势,这种波动趋势主要表现为年内波动和高位震荡,但振幅在逐年减小。② 萨雷兹堰塞湖水文时序演化过程在2013年前后出现了一个突变拐点,面积水位变化特征表现为由原来的缓慢增加转变到加速上升。③ 1972—2019萨雷兹堰塞湖面积和水位关系模型为：y=-0.1003x²+18.181x+2440,（R²=0.63,P<0.05,双尾）。结合流域气象、径流以及相关文献数据分析得出萨雷兹堰塞湖的水文特征年内/际波动直接受穆尔加布河径流补给量的影响;区域冰川积雪加速消融带来的河道径流补给量增加是近年来面积水位加速上升的主要原因。     

基于遥感驱动分布式时变增益水文模型

提出了一个完全采用遥感数据驱动的分布式时变增益水文模型,该模型通过融雪、产汇流等水文过程计算,给出流量的雪盖、蒸散发、径流等水文要素。在拉萨河流域,该模型采用遥感USGS-SRTM的3秒DEM、遥感TRMM(The Tropical RainfallMeasuring Mission)降水、Modis-LST(Land Surface Temperature)数据,建立分布式水文模型,模拟了2001-2008年日水文过程。模拟结果效率系数接近0.7,相关系数接近0.8,水量平衡误差5%以内。说明完全依靠遥感驱动水文模型进行水文水资源模拟可行。该模型为解决高寒山区无资料或缺资料地区水文水资源问题提供了一个新方法。     

The trend on runoff variations in the Lhasa River Basin

Taking the Lhasa River Basin above Lhasa hydrological station in Tibetan Plateau as a study area, the characteristics of the annual and monthly mean runoff during 1956?2003 were analyzed, based on the hydro-data of the two hydrological stations (Lhasa and Tanggya) and the meteorological data of the three meteorological stations (Damxung, Lhasa and Tanggya). The trends and the change points of runoff and climate from 1956 to 2003 were detected using the nonparametric Mann-Kendall test and Pettitt-Mann-Whitney change-point statistics. The correlations between runoff and climate change were analyzed using multiple linear regression. The major results could be summarized as follows: (1) The annual mean runoff during the last 50 years is characterized by a great fluctuation and a positive trend with two change points (around 1970 and the early 1980s), after which the runoff tended to in-crease and was increasing intensively in the last 20 years. Besides, the monthly mean runoff with a positive trend is centralized in winter half-year (November to April) and some other months (May, July and September). (2) The trends of the climate change in the study area are generally consistent with the trend of the runoff, but the leading climate factors which aroused the runoff variation are distinct. Precipitation is the dominant factor influencing the annual and monthly mean runoff in summer half year, while temperature is the primary factor in winter season.     

基于DEM的分布式水文模型在大尺度流域应用研究

本文选取空间大尺度黄河河源区流域为研究对象,利用分布式水文模型进行径流量模拟,采用1976～1985年唐乃亥水文站逐年、月实测径流资料进行参数率定,确定模型的基本参数,得到了较好的模拟效果。模拟结果表明气候变化是引起黄河河源区径流变化的主要原因。在80～90年代的20年间,黄河河源区由气候变化引起径流减少62.11亿m3,占径流变化总量的108.72%,由土地覆被变化引起径流增加5.73亿m3,增加量占径流变化总量的10.03%。     

天山巩乃斯河谷融雪期积雪物质平衡初步研究

本文利用１９９４年３月中，下旬在中间科学院天山积雪雪崩研究站（以下简称积雪站）野外观测到的部分资料，对融雪期季节性积雪的物质平衡进行初步分析，同时利用物质平衡方程对积雪日融出量进行计算。     

IMPACTS OF URBANIZATION ON SURFACE HYDROLOGY,LITTLE EAGLE CREEK,INDIANA, AND ANALYSIS OF LTHIA MODEL SENSITIVITY TO DATA RESOLUTION

Land-use change in urbanizing areas can significantly alter the hydrology of a watershed and can have serious impacts on wetland water balances, downstream flooding, and groundwater recharge. Most currently available models used in determining the hydrologic impacts of urbanization are not well suited to long-term hydrologic analysis or are too complex and data intensive for widespread practical application. The Long-Term Hydrologic Impact Assessment (LTHIA) model run on a Geographic Information System (GIS) is a relatively simple, user-friendly model that uses the Curve Number method to estimate changes in surface runoff between different stages of development. Application of the model to a large, rapidly urbanizing watershed near Indianapolis, Indiana, suggests that average annual runoff depths increased by more than 60% from 1973 to 1991, with even greater increases for some individual sub-basins. These results are consistent with runoff changes estimated from historical stream flow data in the watershed. A sensitivity analysis to determine minimum data requirements shows that a precipitation record length of 15 years or more is required to produce consistent results with LTHIA and that the highest possible resolution land-use and soils data should be used. The LTHIA model is now available on the Internet at http://www.ecn.purdue.edu/runoff. [Key words: hydrology, urbanization, modeling, GIS.]     

嫩江流域近45年来径流演变规律研究

采用随机水文学方法对嫩江流域1956~2000年的年径流量序列演变特征进行分析。结果表明,嫩江流域径流的水文周期是32a,整体而言,45a径流序列不存在明显的趋势性。此外,对嫩江流域用水性消耗程度进行分析。结果表明,人类用水性消耗量对流域水循环整体影响程度为5%,但是在流域内部影响程度存在较大差异。洮儿河子流域影响因子达到16%,反映该地区人类取用水消耗量较大。从年际分析,整个流域在70年代的影响因子要高于其它年段,呈现出越是枯水年段人类用水影响程度越大的现象。     

CFSR气象数据在流域水文模拟中的适用性评价——以灞河流域为例

近年来,全球再分析气象数据已经越来越多地被运用到世界各地的水文建模中,但是其模拟的效果有很大差异。为探讨CFSR再分析数据在流域水文模拟中的适用性问题,本文以灞河流域为研究区,使用两种气象数据（传统气象数据和CFSR气象数据）构建SWAT水文模型,并从年和月尺度分别进行灞河流域2001-2012年的径流模拟,利用回归分析、纳什效率系数NSE和百分比偏差PBIAS等评价方法对两种数据的模拟效果进行对比。最后,提出了CFSR气象数据订正的方法。结果表明：① CFSR气象数据在灞河流域水文模拟中有一定的适用性,模拟结果的拟合优度R²>0.50,NSE>0.33,|PBIAS|<14.8,纳什效率系数NSE偏低。尽管CFSR气象数据质量存在一定问题,但是经过降雨数据订正后能够取得比较满意的模拟效果。② CFSR气象数据模拟流量比实测流量偏高,这主要是由于CFSR逐日降水数据估算的降雨天数较多、雨强较大,一般会导致该数据在水量平衡方面能够模拟出较高的基流和洪峰流量（个别年份除外）。③ 灞河流域CFSR降水数据（x）与实测降水数据（y）之间的关系大致可用幂指数方程表达：y = 1.4789x^0.8875（R² = 0.98,P<0.001）,每个CFSR站点的拟合方程略微不同,此方程为CFSR降水数据的订正提供了理论基础。     

气候变化情景下青海湟水流域径流变化的HIMS模拟分析

基于国产HIMS(Hydro-Informatic Modeling System)模型,以青海湟水流域为研究区域,利用1986-2000年33个雨量站和8个气象站的逐日降水和气温数据,对其径流变化进行模拟;选取流域内6个水文站同期的实测径流数据,进行参数率定及验证。结果表明:HIMS模型日、月率定及验证结果良好,在湟水流域具有良好的适用性。在此基础之上,分析了湟水流域1961-2010年降水及气温的变化趋势,并对不同气候变化情景下的水文响应(径流量)进行模拟分析。结果显示气候变化对湟水流域径流量变化趋势影响显著,随气温升高和降水量的减少,径流量呈明显的减少趋势,反之,呈增加趋势。     

中国西北干旱内陆河流域分布式出山径流模型

In order to predict the futuristic runoff under global warming, and to approach to the effects of vegetation on the ecological environment of the inland river mountainous watershed of Northwest China, the authors use the routine hydrometric data to create a distributed monthly model with some conceptual parameters, coupled with GIS and RS tools and data. The model takes sub-basin as the minimal confluent unit, divides the main soils of the basin into 3 layers, and identifies the vegetation types as forest and pasture. The data used in the model are precipitation, air temperature, runoff, soil weight water content, soil depth, soil bulk density, soil porosity, land cover,etc. The model holds that if the water amount is greater than the water content capacity, there will be surface runoff. The actual evaporation is proportional to the product of the potential evaporation and soil volume water content. The studied basin is Heihe mainstream mountainous basin, with a drainage area of 10,009 km^2. The data used in this simulation are from Jan. 1980 to Dec. 1995, and the first 10 years‘ data are used to simulate, while the last 5 years‘ data are used to calibrate. For the simulation process, the Nash-Sutcliffe Equation, Balance Error and Explained Variance is 0.8681,5.4008 and 0.8718 respectively, while for the calibration process, 0.8799, -0.5974 and 0.8800 respectively. The model results show that the futuristic runoff of Heihe river basin will increase a little. The snowmelt, glacier meltwater and the evaportranspiration will increase. The air temperature increment will make the permanent snow and glacier area diminish, and the snowline will rise. The vegetation, especially the forest in Heihe mountainous watershed, could lead to the evapoWanspimtion decrease of the watershed, adjust the runoff orocess, and increase the soil water content.     

A distributed runoff model for inland mountainous river basin of Northwest China

In order to predict the futuristic runoff under global warming, and to approach to the effects of vegetation on the ecological environment of the inland river mountainous watershed of Northwest China, the authors use the routine hydrometric data to create a distributed monthly model with some conceptual parameters, coupled with GIS and RS tools and data. The model takes sub-basin as the minimal confluent unit, divides the main soils of the basin into 3 layers, and identifies the vegetation types as forest and pasture. The data used in the model are precipitation, air temperature, runoff, soil weight water content, soil depth, soil bulk density, soil porosity, land cover, etc. The model holds that if the water amount is greater than the water content capacity, there will be surface runoff. The actual evaporation is proportional to the product of the potential evaporation and soil volume water content. The studied basin is Heihe mainstream mountainous basin, with a drainage area of 10,009 km2. The data used in this simulation are from Jan. 1980 to Dec. 1995, and the first 10 years' data are used to simulate, while the last 5 years' data are used to calibrate. For the simulation process, the Nash-Sutcliffe Equation, Balance Error and Explained Variance is 0.8681, 5.4008 and 0.8718 respectively, while for the calibration process, 0.8799, -0.5974 and 0.8800 respectively. The model results show that the futuristic runoff of Heihe river basin will increase a little. The snowmelt, glacier meltwater and the evaportranspiration will increase. The air temperature increment will make the permanent snow and glacier area diminish, and the snowline will rise. The vegetation, especially the forest in Heihe mountainous watershed, could lead to the evapotranspiration decrease of the watershed, adjust the runoff process, and increase the soil water content.