流域尺度根区蓄水能力估算及其对气象要素敏感性分析

根区蓄水能力(SR)在水文模拟、土壤水分运移以及植被生长发育等方面具有十分重要的作用。为对其进行流域尺度的估算,选取太子河上游南甸(峪)流域作为研究区,利用水量累积曲线法(mass curve technique,MCT)估算SR,基于流域出口水文站月径流深,对耦合了融雪模块的概念性水文模型FLEX进行参数率定,获取土壤蓄水能力Su Max,并与MCT的估算结果进行交叉验证。在此基础上设定不同气候情景,分析SR对降雨、融雪、蒸散发的敏感性。结果表明:1)改进的FLEX水文模型可用于模拟研究区径流,获得代表研究区土壤蓄水量多年平均水平的参数Su Max值为27 mm;2)水量累积曲线法得到的多年SR值服从耿贝尔(Gumbel)分布,且FLEX模型获得的根区蓄水能力检验了水量累积曲线法的估算结果;3)SR随蒸散发、降雨和融雪变化的曲线斜率分别为1.37、0.73和0.37,说明SR对蒸散发、降雨和融雪的敏感程度依次减弱,随着蒸散量增加、降雨量减少的幅度增大,敏感程度增强,融雪的增大或减少对SR的影响相近。研究结果为流域尺度根区缺水状况估算及维持植被系统生长发育提供一定依据。     

Modelling of snowmelt erosion and sediment yield in a small low-mountain catchment in Germany

Temporal variability and spatial heterogeneity of surface runoff generation triggers the dynamics of source areas of sediment and sediment-associated nutrient transport. Reliable modelling of hydrological special situations i.e. snowmelt is of high importance for the quality of erosion and sediment yield modelling. Data from the research catchment Schäfertal demonstrate the individuality of snowmelt events in terms of runoff coefficient and delivery ratio. This 1.44 km² low mountain catchment is characterised by a high portion of arable land with a winter grain/winter rape crop rotation. The integrated winter erosion and nutrient load model (IWAN) considers these dynamic aspects by coupling a hydrological model with a sediment load model. Cell size of this raster-based approach is 10 × 10 m². Additionally, snowmelt rill erosion is simulated with a newly developed physically based model that is firstly applied on a catchment scale. A sensitivity analysis of this model system component demonstrates the plausibility of the model approach and the overall robustness of the model system IWAN. The results of the long-term hydrological modelling from 1991 to 2003 are reliable and form the basis for the simulation of six snowmelt events which were observed in the Schäfertal catchment. The estimated total runoff volumes for these events match the observations well. The modelled overland runoff coefficients vary from 0.001 to 0.72. The mean values of cell erosion, which were modelled with one set of parameters for all six events range from 0.0006 to 0.96 t ha^− 1. The total modelled erosion for the events with unfrozen soil and low amount of surface runoff is of a factor 50 below those with partly frozen soil. In addition to these distinctions, the major differences are caused by flow accumulation in shallow depressions in variable parts of the catchment. However, the validation of these results on the single event scale is restricted due to limited spatial data. Total simulated sediment yield at the catchment outlet was as high as 13.84 t which underestimates the observed values, with the exception of one event. Oversimplification of the modelled channel processes may be a reason. The temporal variability and spatial heterogeneity of the surface roughness parameter, which was identified to be sensitive, also causes uncertainty in the parameter estimation. Despite these findings, the model system IWAN was applied successfully on the catchment scale and the simulated results are reliable.     

Modelling of snowmelt erosion and sediment yield in a small low-mountain catchment in Germany

Temporal variability and spatial heterogeneity of surface runoff generation triggers the dynamics of source areas of sediment and sediment-associated nutrient transport. Reliable modelling of hydrological special situations i.e. snowmelt is of high importance for the quality of erosion and sediment yield modelling. Data from the research catchment Schäfertal demonstrate the individuality of snowmelt events in terms of runoff coefficient and delivery ratio. This 1.44 km² low mountain catchment is characterised by a high portion of arable land with a winter grain/winter rape crop rotation. The integrated winter erosion and nutrient load model (IWAN) considers these dynamic aspects by coupling a hydrological model with a sediment load model. Cell size of this raster-based approach is 10 × 10 m². Additionally, snowmelt rill erosion is simulated with a newly developed physically based model that is firstly applied on a catchment scale. A sensitivity analysis of this model system component demonstrates the plausibility of the model approach and the overall robustness of the model system IWAN. The results of the long-term hydrological modelling from 1991 to 2003 are reliable and form the basis for the simulation of six snowmelt events which were observed in the Schäfertal catchment. The estimated total runoff volumes for these events match the observations well. The modelled overland runoff coefficients vary from 0.001 to 0.72. The mean values of cell erosion, which were modelled with one set of parameters for all six events range from 0.0006 to 0.96 t ha^− 1. The total modelled erosion for the events with unfrozen soil and low amount of surface runoff is of a factor 50 below those with partly frozen soil. In addition to these distinctions, the major differences are caused by flow accumulation in shallow depressions in variable parts of the catchment. However, the validation of these results on the single event scale is restricted due to limited spatial data. Total simulated sediment yield at the catchment outlet was as high as 13.84 t which underestimates the observed values, with the exception of one event. Oversimplification of the modelled channel processes may be a reason. The temporal variability and spatial heterogeneity of the surface roughness parameter, which was identified to be sensitive, also causes uncertainty in the parameter estimation. Despite these findings, the model system IWAN was applied successfully on the catchment scale and the simulated results are reliable.     

Changes in soil and stream hydrochemistry during periods of spring snowmelt at a pristine site in mid-Norway

A detailed study of hydrochemical changes during spring snowmelt was undertaken at a pristine site in mid-Norway. The composition of catchment outflow water reflects hydrological pathways through different soil horizons and the contribution of pre-event or long-residence time water. There was evidence of secondary snowpack elution and ionic enrichment of water collected below the organic horizons. The observed time lag in commencement of BC soil horizon flow indicated that during the initial stages of the melt, water did not penetrate the deeper mineral horizons, or that initially the soil was not at field capacity. Increased soil and surface thawing is proposed as an important mechanism affecting the routing and subsequent chemical alteration of soil water leachate. The relative importance of elution, pathways, and dilution processes within the study catchment is discussed and a scenario for the effects of winter anthropogenic inputs at this pristine site is presented.     

Variability of water quality in a riparian wetland with interacting shallow groundwater and surface water

Lowland catchment hydrology is dominated by shallow groundwater with complex interactions between groundwater and surface water. In lowland catchments of N Germany, a high fraction of agricultural land is drained and therefore influenced by fast water transport to discharge systems with resulting alterations to water quality. The investigated catchment area “Kielstau” (approx. 50 km²) in the N of Schleswig‐Holstein serves as an example. Detailed investigations on the interactions between groundwater, river, and ditch‐water quality were evaluated at a drained riparian wetland area (0.15 km²) used as grassland in the central part of this catchment. The water quality in the drainage ditches showed variability dependent on their hydrological integration. At the far‐from‐river end, groundwater and ditch‐water quality were in most parameters much more alike than at the close‐to‐river end. The composition of ditch water at the close‐to‐river end of the ditch was determined by transformation processes and dilution which took place along the ditch much more than exfiltration processes like those that were dominant at the far‐from‐river end. In most cases, the mean NH concentrations were higher in the groundwater than in the ditches, but the highest concentrations were found all along the time in the close‐to‐river sampling points and in the river. The highest NO concentration was observed in a ditch influenced by an adjacent arable field as well as in the river. The concentrations of phosphate and total P were lower in groundwater than in the ditch water.     

基于SWAT模型的平原河网区水文过程分布式模拟

目前普遍使用的基于SWAT(soil and water assessment tool)模型的分布式建模方法仅适用于山地、丘陵等高差较大的地区,对于具有复杂水文结构特点的平原河网区尚无有效的解决方案。该文选择太湖流域湖西区作为研究区,基于SWAT模型探索出一套完整的针对平原河网区的分布式建模方案。该方案采用概化、打断的方式将交叉、环状河网处理成单一的枝状河网,采用按河道分流比例跨子流域调水的方式来还原原始河道的传输过程,采用添加"虚拟水库"的方式来模拟人工圩区内外的水量交换。通过对太湖湖西区2008-2010年的月均径流量进行模拟验证,根据模拟值和观测值计算的荣登桥、胡家圩及宜兴3个水文站的相关系数r和纳什(Nash-Sutcliffe)系数Ens分别为0.94、0.95、0.93和0.84、0.80、0.67,说明了这种建模方法在平原河网区具有较好的适用性。     

HEC-HMS水文模型系统在汉江褒河流域的应用研究

基于地理信息系统和遥感技术的水文模型集成系统将成为未来水文循环过程研究的发展趋势。基于HEC-HMS水文模型系统,采用多种方案对位于汉江上游的褒河流域进行了降雨径流模拟。研究结果表明:基于DEM、遥感影像和土壤资料,并结合GIS技术推求反映流域下垫面特征的关键水文参数的方法可以与HEC-HMS水文模型系统很好地耦合。该模型对于我国湿润、半湿润山区的次洪模拟具有较好的适用性。     

汾河上游流域分布式水文模型的构建

根据汾河上游流域的水文特性,采用以坡度、坡向为主要因素,按照集水区自然分水线划分子流域的流域离散方法,将SCS产、汇流模型与马斯京根法结合用于计算该地区的径流过程,建立了适于该地区,基于流域尺度的次降雨-径流分布式水文模型.选用该地区的典型流域--岚河流域与分布式模型耦合,进行模拟.经实测资料与模拟结果的分析比较,结果表明,该模型具有一定的精度,径流量合格率及汇流合格率分别达到70%和80%,且计算流量过程与实测流量过程吻合较好,所建模型基本适用于该地区的降雨一径流计算.     

从幼儿到成年的流域水文模型及典型模型比较

本文将流域水文模型的发展过程分为幼儿期、少年期、成长期和成年期,并对各时期水文模型的特点、功能等进行了系统讨论.为便于突出不同发展阶段模型的特点、模块组成和计算方法,按集总式、半分布式、全分布式和模型集成系统将模型分类,对不同类型的典型模型进行了比较,其中集总式水文模型包括斯坦福(Standford)、流域水文模型IV(SWM.IV)、萨克拉门托(Sacramento)模型、水箱(Tank)模型、新安江模型、HEC-1模型、SWMM模型,半分布式模型包括HSPF模型、PRMS模型、HEC-HMS模型、TOPMODEL模型、SWAT模型,全分布式和模型集成系统包括MIKESHE、SHETRAN、IHDM、TOPKAPI、BASINS、HMS、WMS、SMS、MMS模型.鉴于水文模型在国际、国内正在成为流域水资源管理的重要工具,对模型发展及分类对比的分析,将有助干水文模型的进一步广泛应用.     

Modeling the sedimentary response of a large Pyrenean basin to global change

Purpose

Erosion processes at the catchment scale control a basin’s morphology and sediment patterns in the river network. Eroded sediments are transported and deposited downstream and may cause environmental problems and relevant effects on water storage and hydropower infrastructures. Quantification of water and sediment yield is complex due to the physical processes involved and their temporal and spatial variability, especially at the light of current global change.

Materials and methods

Numerical models that use spatially distributed information constitute a useful tool for these estimates, when sufficient input data are available. In this study, we applied the hydrological and sedimentological TETIS model to determine the patterns of water and sediment yield in a large mountain catchment. Flow discharge data obtained from two gauged stations were used for calibration and validation of the hydrological sub-model. Data from two reservoir bathymetries at the outlet of the study area were used for calibration of the sedimentological sub-model. After model calibration, several scenarios of climate and land use change were simulated.

Results and discussion

Climate scenarios show a general decrease in average annual precipitation and an increase in temperature, associated with an increase in extreme rainfall events. Global change scenarios lead to a counteracting effect between the increase in sediment transport during extreme events and the decrease in sediment erosion associated with afforestation following the abandonment of agricultural land. In the case of the most extreme climate scenario combined with total catchment deforestation, the model indicates a complete siltation of the reservoir by 2050.

Conclusions

Model performance emphasizes its potential as a tool for evaluating water and sediment yield for large catchments, as well as of its usefulness for water and sediment management in light of future climate and land use change scenarios.

     

网格大小选择对大尺度分布式水文模型水文过程模拟的影响

以都阳湖信江流域为研究区,分析了网格大小选择对大尺度分布式水文模型水文过程模拟的影响.研究结果显示,在同样参数条件下,1,2和4 km这3种不同尺寸网格对模拟的总径流量影响较小,但网格大小显著地改变着模拟水流在地表径流和地下径流间的分配;不同网格的模型计算的实际蒸发量的差别不显著;大网格的模型计算的地下水补给量大.经过率定后的3种不同网格的模型均能较好地模拟流域的径流过程,但2 km网格模型模拟的总体效果要好于1 km网格模型和4 km网格模型.研究表明,对于分布式水文模型,网格的精细并不一定提高模型的模拟效果,一定精度空间数据的翰人条件下,分布式水文模型存在一个合适的网格大小使得模型的模拟效果最佳.在流域水文模型的具体应用中,应考虑流域本身的尺度以及模拟的目的和精度要求,选择合适的网格大小,同时应结合模型机理,解释模拟结果.     

Sediment and Phosphorus Export from a Lowland Catchment: Quantification of Sources

Storm event and annual export of suspended sediment (SS) and particulate phosphorus (PP) was measured during three hydrological years (June 1993 to May 1996) in Gelbæk stream, a Danish lowland stream draining a 11.6 km² arable catchment area. The contribution of subsurface drainage water, surface runoff and stream bank and bed erosion to catchment SS and PP losses was estimated using three different strategies: 1) Simultaneous and comparative monitoring of subsurface water. 2) A mass-balance and budget approach dividing the Gelbæk catchment into two subcatchments. 3) Application of the fingerprinting technique to single storm events. Subsurface drainage water proved to be a significant SS and PP source. Subsurface drainage water from half of the catchment area accounted for 9.8–15% of the total annual SS loss from the Gelbæ catchment and 9.6–18.2%, of the annual PP loss. The mass-balance and budget approach showed stream bank and bed erosion to be the major source of SS and PP in this channelized and highly managed lowland stream. These findings were consistent with the fact that the annual loss of SS and PP from an upper culverted stream sub-catchment was significantly lower than that estimated from a mass-balance for a lower sub-catchment with an open stream channel. Comparison of the tracer content (e.g.¹¹⁷Cs) of SS collected during four storm events with that of topsoil and subsoil using a simple mixing model revealed subsoil to be a major source of SS.     

Hydrogeochemistry of a stream draining sulfide-bearing postglacial sediments in Finland

The influence of hydrological conditions and overburden type on the stream-water quality in a catchment effected by fine-grained sulfide-bearing sediments was studied. Water samples for measurement of pH and electric conductivity were collected at 16 sites along the main course of the stream during autumn and spring high water flow and during low and intermediate water flow. On one occasion (spring high-water flow) samples for analysis of total organic carbon were collected at these sites. Seventeen water samples for analyses of chemical elements (ICP-MS and ICP-AES) were taken within the catchment basin during autumn high water flow. The pH and conductivity of snow, and the geochemistry of the sulfide sediments were also studied. The occurrence of fine-grained sediments within the catchment was estimated from topographic and geologic maps and by visit to areas were the overburden type could not be determined from the maps. The hydrological conditions had a strong influence on the water quality. During high water flow in spring and autumn the concentrations of ionic components (conductivity) and hydrogen ions in the stream water were high, while the concentrations were much lower during low and intermediate water flow and when the ground was frozen. Extensive leaching of the sulfide-bearing sediments, which had higher contents of S and metals than the fine fraction of till in the study area, resulted in elevated contents of Li, Ni, Zn, Co, B, Al, Mg, U, Sr, Ca, K and Na in the stream water during autumn high water flow. The contents of Cr, Ba, Pb, Si and Fe in stream water were not much influenced by the type of overburden, while V was depleted in drainage waters from the sulfide sediments. Humic substances flocculated in the water in the middle section of the stream, which may have been caused by di- and trivalent metal cations leached in large quantities from the oxidizing sulfide sediments.     

Pipes and pipe flow process in an upland catchment,Wales

The results of observations on the spatial localisation, origin and function of soil pipes in an upland catchment are discussed. The pipes occur in distinct zones in the brown earth soils of the lower slopes, and form a hydrological link conducting water between an upslope zone of highly permeable skeletal soils and the stream channel. It is proposed that in this catchment, pipes develop from an initial network of mole burrows, modified by hydraulic activity to produce an efficient downslope transmission network. A conceptual model for the pipe slope segment is proposed which recognises the importance of this transmission role. Slope discharge controls switching between saturated throughflow, pipe flow and overland flow, each of which has a specific threshold value for operation. Attempts to investigate the significance of pipe flow at the catchment scale met with limited success, but it appears to be important in increasing both contributing area and duration of storm flow.     

Dynamics of storm-driven suspended sediments in a headwater catchment described by multivariable modeling

Purpose  

Previous research has shown that the rate at which suspended sediment is transported in watercourses depends primarily on discharge (Q) as the first-order control, but additional factors are thought to affect suspended sediment concentrations (SSC) as well. Among these, antecedent hydrological and meteorological conditions (e.g., rainfall depth and intensity, discharge prior to a runoff event and the duration of runoff events) may represent significant transport controlling mechanisms. Univariate models using Q–SSC rating curves often produce large scatter and nonlinearity, because many of the hydrological and biotic processes affecting the dynamics of sediment are non-linear and exhibit threshold behavior. The simulation of such highly non-linear processes is therefore an elusive task requiring consideration of several interrelated controlling variables. The aim of this study was to identify the major hydrological and meteorological controls determining the dynamics of SSC during storm-runoff events and the magnitude of SSC in a headwater catchment in Luxembourg.     

采矿业对环境影响效应研究

定西市水土保持监测工作由综合典型监测站、国家重点工程项目临时监测点和区域内水文站点3部分组成。综合典型监测站设在安定区安家沟流域,由21个径流小区、1个卡口站和1个气象站组成;水文站点由安定区的东河、西河水文站、通渭县景屏水文站、渭源县清源水文站、临洮县红旗水文站和李家村水文站及岷县水文站组成,观测任务由定西水文水资源局负责实施;临时监测点由安定区的道回沟、渭源县的唐家河、陇西县的揭皮沟3条坝系和安定区、通渭县的生态修复项目两大部分5个点组成。     

SWAT径流模拟及其对流域内地形参数变化的响应研究

SWAT(soil and water assessment tool)模型是一个集成遥感(RS)、地理信息系统(GIS)和数字高程模型(DEM)技术的基于水文过程的、具有较强物理机制的先进的分布式流域水文模型。为了进一步研究流域尺度内水文过程的时空变化规律,深入了解流域水文时空过程与气象、地—气界面条件及流域地貌特征间的关系,选取汉江上游马道流域,运用AVSWAT2000版模型进行1981—1985年间的年、月径流模拟,以月径流模拟的N—S模型效率系数为主要指标,率定出月模拟效果最佳时的各参数值。在此基础上从马道出水站点沿主河道往上游再选取6个控制点,运用River Tools软件提取出各个控制点控制流域和地形参数,分析参数变化情况,并在此基础上用前面率定好的参数来模拟各个控制点处的出口流量,分析径流对地形参数变化的响应关系,并提出了归一化径流—河道总长比指数。该指数受到河源密度的影响,在流域内的变化趋于常数1。     

不同土壤物理属性空间分布对水文过程模拟的影响

基于不同空间分辨率的土壤物理属性数据(土壤田间持水量、孔隙度和饱和水力传导度),运用WATLAC分布式水文模型模拟了西苕溪流域2005-2010年的水文过程。对比评价了土壤物理属性空间分布对地下水补给、土壤蒸发、径流量及其组分的影响。结果显示,利用不同空间分辨率土壤物理属性数据模拟的流量过程与实测值都匹配的很好,模拟精度相当,更详尽的土壤属性空间分布信息未能明显提高模型模拟的精度;而对于地下水补给量,高分辨率的土壤属性空间分布会使其模拟结果大幅减小,但对土壤蒸发量则影响较小,两种数据模拟的结果及其空间分布都很接近;同时,虽然土壤物理属性空间分布的分辨率对模拟的径流总量影响甚微,但对基流与地表径流的分割却产生了较大影响。     

基于参数移植法的SWAT模型模拟嘉陵江无资料地区径流

该文选用嘉陵江中游9个中小流域,基于参数移植方法(距离相近法、属性相似法、综合相似法)探求分布式水文模型SWAT在嘉陵江中游无资料地区径流模拟的适用性。3个有资料试验流域模拟结果显示,参数移植法的模拟精度NS、R2平均值大于0.8,径流模拟精度较好,表明基于参数移植法的SWAT模型在研究区域具有一定的适用性,同时综合相似法(0.66NS0.93)的径流模拟结果优于距离相近法(0.65NS0.93)和属性相似法(0.65NS0.92),另研究表明参证流域个数对参数移植的结果有较大影响,多个参证流域参数移植效果消除单个参证流域参数移植结果的不确定性。