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1.
以河套灌区永联试验区的六队六八斗渠控制区域为研究区域,采用荷兰Wageningen农业大学开发的SWAP(Soil Water Atmosphere Plant)模型,模拟分析了引水减少条件下的田间水均衡要素变化规律。结果显示蒸散发量占总耗水量的比例在90%以上,验证了河套灌区的耗水类型是以垂向的蒸散发为主。随着引水量减少,模拟的相对产量也显著降低。可见,当灌区年平均引水量从52亿m3减少到40亿m3时,现有种植结构下的作物产量将会受影响。因此,引水减少后的种植结构和灌溉制度需适度调整。 相似文献
2.
在对参考作物蒸散量计算模型的参数(气压、辐射)进行地形(坡度、坡向和高度)校正的基础上,利用GIS的空间分析功能,建立了基于数字高程模型(DEM)的区域参考作物蒸散量的分布式模型.并以内蒙古半干旱鄂尔多斯高原沙地区(面积为114km2)的考考赖沟流域为例,计算了该区参考作物蒸散量的空间分布.参数校正前后的计算结果比较表明:参考作物蒸散量在受地形影响的情况下,具有较大的空间变异性,且这种变异程度随模型空间分辨率的降低而减小.模型的建立与实现提高了区域蒸散估算的精度,对于区域水分平衡研究和分布式地理模型以及沙质荒漠化防治模式研究具有重要意义. 相似文献
3.
针对多水源多作物灌区,研究有限供水条件下灌区优化配水问题。模型中既考虑水库优化调度,又考虑田间优化配水。模型思路:根据灌区水土资源分布状况,将全灌区划分为多个子区,每个子区种植有若干种作物。如果把每个子区每种作物所在的田块看作一个土壤水库,则可采用水库群调度的方法研究这类灌区优化配水问题,文中采用的是优化控制方法。为了证明模型的正确性,同时建立了3个模型。模型1:既不考虑水库优化调度又不考虑田间优化配水;模型2:只考虑水库优化调度;模型3:只考虑田间优化配水。实例计算表明,整合调度模型能产生较多的效益(特别在干旱年份),优化控制方法计算性能良好。 相似文献
4.
为评价农田灌溉水利用状况并揭示灌溉水利用效率的尺度变化规律,应用改进的分布式水文模型(SWAT)模拟了漳河灌区三干渠灌域的水循环过程和作物产量。以子流域嵌套方式将研究区划分为9个尺度来计算灌溉水利用效率指标,并分析其随尺度变化的特征及原因。结果表明,灌溉水分生产率受降雨、气候条件的时空分布特征影响较大,而且随尺度增大明显,其尺度关系可以近似应用幂函数描述,函数的形式和参数与分形思想接近。排水率在中等尺度上的数值最大,但随尺度变化不显著。因此,在一定精度条件下,灌溉水分生产率的尺度转换模式可以尝试应用幂函数形式。漳河灌区在中等尺度上的节水潜力最大。 相似文献
5.
以河北省石津灌区为研究对象,以2007-2009年两季冬小麦生育期为研究时段,基于Hydrus-1D和Modflow模型模拟分析了井渠结合灌溉模式下冬小麦的净入流量水分生产率和净灌溉水分生产率的尺度效应(作物、田间、分干、干渠和灌区尺度)。结果表明:①从作物尺度到灌区尺度,损失水量越来越多,使得净入流量水分生产率和净灌溉水分生产率分别减少了9.49%和16.59%;②由于研究区地下水埋深较大,冬小麦生育期内渗漏补给地下水库的重复利用水量很小,而净灌溉水分生产率因为考虑了这一小部分重复利用水量,比传统的灌溉水分生产率有了小幅提升;③在多年时间尺度上,由于渗漏水量能够全部进入地下水库被重复利用,净入流量水分生产率随尺度增大而增大,而不同空间尺度的净灌溉水分生产率也比冬小麦生育期时间尺度上提高37%~65%。 相似文献
6.
对山西省小灌区农田土壤水分在时空分布及其影响因素进行了分析.结果表明:大气降水、农田灌溉、作物蒸腾和田间土壤蒸发是影响土壤水分变化的主要因素.农田土壤水分分布随着作物的种类而变化. 相似文献
7.
M. Atikul Islam Md. Mostafizur Rahman Md. Bodrud-Doza Md. Iftakharul Muhib Mashura Shammi Anwar Zahid Yeasmin Akter Masaaki Kurasaki 《中国地球化学学报》2018,37(2):193-214
Southern Bangladesh’s irrigation and drinking water is threatened by saline intrusion. This study aimed to establish an irrigation water quality index (IWQI) using a geostatistical model and multivariate indices in Gopalganj district, south-central Bangladesh. Groundwater samples were taken randomly (different depths) in two seasons (wet-monsoon and dry-monsoon). Hydrochemical analysis revealed groundwater in this area was neutral to slightly alkaline and dominating cations were Na+, Mg2+, and Ca2+ along with major anions Cl? and HCO3 ?. Principal component analysis and Gibbs plot helped explain possible geochemical processes in the aquifer. The irrigation water evaluation indices showed: electrical conductivity (EC) >750 µS/cm, moderate to extreme saline; sodium adsorption ratio (SAR), excellent to doubtful; total hardness (TH), moderate to very hard; residual sodium bicarbonate, safe to marginal; Kelly’s ratio >1; soluble sodium percentage (SSP), fair to poor; magnesium adsorption ratio, harmful for soil; and IWQI, moderate to suitable. In addition, the best fitted semivariogram for IWQI, EC, SAR, SSP, and TH confirmed that most parameters had strong spatial dependence and others had moderate to weak spatial dependence. This variation might be due to the different origin/sources of major contributing ions along with the influence of variable river flow and small anthropogenic contributions. Furthermore, the spatial distribution maps for IWQI, EC, SSP, and TH during both seasons confirmed the influence of salinity from the sea; low-flow in the major river system was the driving factor of overall groundwater quality in the study area. These findings may contribute to management of irrigation and/or drinking water in regions with similar groundwater problems. 相似文献
8.
基于地表能量平衡与SCS模型的祁连山水源涵养能力研究 总被引:6,自引:0,他引:6
基于区域水量平衡,利用地表能量平衡的原理计算陆地实际蒸散发量,采用SCS模型计算地表径流量,提出了一种定量评估区域水源涵养量的实用方法。利用该方法和GIS软件平台,结合1982-2003年遥感数据和对祁连山水源涵养重要区水源涵养能力强弱的空间分布及其变化规律进行了计算和分析。结果表明:(1)祁连山山地水源涵养重要区内水源涵养能力最强的区域为中部和东南部地区,而西部地区涵养水源的能力相对较弱;(2)祁连山山地水源涵养重要区内中部和靠东南部的水源涵养能力减弱比较明显,特别是以门源回族自治县为中心,形成了水源涵养能力持续减弱带。 相似文献
9.
The temporal and spatial variations of electrical capacitance of the soil–plant continuum in a laboratory were investigated. Based on a potted ginkgo tree with six irrigations, the electrical capacitance of the soil, trunk, and soil–trunk electrode pairs was measured, corresponding soil water content was computed, and spatial imaging was conducted. The soil electrical capacitance increases to a local maximum value immediately after irrigation, and then decreases gradually with time. During the late period of each drying procedure, there is a decussation area of high water content at the middle part of the circular region in the spatial imaging, which indicates root distribution in soil to some degree. Upon irrigation under a dry soil condition, the trunk electrical capacitance gradually increases for a period, and then begins to fluctuate with time; whereas, under a wet soil condition, it always fluctuates with time. Under a stable condition of overall change, the trunk electrical capacitance changes saltatorially and daily periodically. The temporal variation of the soil–trunk electrical capacitance exhibits both the character of soil and trunk. 相似文献
10.
灌溉输配水是水联网链路的重要环节,其自动控制水平直接影响着水联网效率和风险控制能力,对实现水资源高效管理与利用有重要意义。通过变化输水渠道线性积分时滞控制模型,建立了多级联渠道离散时间状态空间方程,基于线性二次型理论设计最优状态反馈控制器,利用MATLAB求解和SOBEK模拟进行了验证。在甘肃省昌马南灌区多级联渠道运行过程优化控制的模拟结果显示,线性二次型算法能够使控制点水位较快恢复并稳定在设定值,控制过程动作与水位波动次数少、幅度小,效果远优于常规分布式PI反馈控制。线性二次型算法能够应对多级联渠道时滞、耦合特性和一般未知取水扰动,实现可靠供水服务和有效运行控制。目前算法仅采用反馈控制,尚无法应对过大未知取水扰动,还有进一步改进空间。 相似文献
11.
蒸散发是水循环过程中的重要环节,研究蒸散发时空变化影响因素,有利于认识区域水资源的时空分异规律。黄河流域地处干旱半干旱地区,水资源短缺且时空分布不均,水问题突出。在黄河流域分析蒸散发对变化环境的响应,揭示气候变化、植被季节性和物候变化的水文水资源效应,对地区水资源可持续发展和规划管理等具有重要的理论意义和现实意义。基于多元自适应回归样条(MARS)非参数模型,采用黄河流域内30个子流域的全球监测与模型研究组(GIMMS)制作的第三代归一化植被指数(NDVI3g)数据集、气象数据、土壤数据、土地利用/覆盖数据以及地形地貌数据,在Budyko框架下分析了水热耦合控制参数■与环境变量因子的关联性,探讨了变化环境对流域蒸散发的影响机制。结果表明:(1)流域水平衡关系的空间变异与流域水热耦合季节性、地形地貌空间变异性、降水的季节性特征(平均暴雨深度和降水变异系数)显著相关。(2)年际尺度上:流域水热的不同步性是影响流域水平衡年际分异最重要的气候季节性指数,水热的不同步性增大,流域的蒸散比减小,产流增加;降水越集中、年内变异程度越高、降水的季节性越明显,流域蒸散比越小;植被的... 相似文献
12.
Hydrochemistry of groundwater in a coastal region of Cuddalore district, Tamilnadu, India: implication for quality assessment 总被引:1,自引:1,他引:0
K. Srinivasamoorthy M. Vasanthavigar K. Vijayaraghavan R. Sarathidasan S. Gopinath 《Arabian Journal of Geosciences》2013,6(2):441-454
A hydrogeochemical investigation was conducted in a coastal region of Cuddalore district to identify the influence of saltwater intrusion and suitability of groundwater for domestic and agricultural purposes. The geology of the study area comprises of sandstone, clay, alluvium, and laterite soils of Tertiary and Quaternary age. A total of 18 groundwater samples were analyzed for 14 different water quality parameters and the result indicates higher concentrations of ions like Cl (3,509 mg/l), Na (3,123 mg/l), and HCO3 (998 mg/l) when compared with WHO, BIS, and ISI standards. A positive correlation (r 2?=?0.82) was observed between Na and Cl, indicating its sources from salt water intrusion. Three factors were extracted with a total variance of 64% which indicates the sources of salinization, cation exchange, and anthropogenic impact to the groundwater. The Piper trilinear diagram indicates both Na–Cl and mixed Na–HCO3–Cl-type, indicating that groundwater was strongly affected by anthropogenic activities. The plot of (Ca?+?Mg)/(K?+?Na) indicates evidences of cation exchange and salt water intrusion. The (Ca–0.33*HCO3)/ SO4 plot indicates salt water intrusion for elevated SO4 levels rather than gypsum dissolution. The spatial distribution of total dissolved solid indicates the saline water encroachment along the SW part of the study area. As per sodium adsorption ratio (SAR), 50% of the samples with <10 SAR are suitable for irrigation and >10 SAR indicates that water is unsuitable for irrigation purposes. The residual sodium carbonate classification indicates that 50% of the samples fall in safe and 50% of the samples fall in bad zones and prolonged usage of this water will affect the crop yield. The Chloro Alkaline Index of water indicates disequilibrium due to a higher ratio of Cl?>?Na–K, indicating the influence of salt water intrusion. The Permeability Index of the groundwater indicates that the groundwater from the study area is moderate to good for irrigation purposes. 相似文献
13.
从合理调控生态用水角度出发,探讨典型岩溶断陷盆地区农作物生态需水问题。根据蒙自断陷盆地的岩溶地貌特征,分别选取位于盆地、坡面和高原面的大洼子、朵古、牛耳坡3个观测点,利用Penman-Monteith公式、作物系数(FAO推荐)及同期有效降雨量,估算3个观测点2018年的参考蒸散量、生态需水量以及不同作物生长所需的人工灌溉水量。结果表明:(1)大洼子、朵古及牛耳坡的参考蒸散量分别为1 346.10 mm、1 200.00 mm、1 064.30 mm,远大于同期降水量,均呈现出蒸发旺盛的特点,加大了作物对于水分的需求;同时三者的参考蒸散量表现出较为明显的时空差异,使得3个观测点的农业种植条件存在差异;(2)大洼子种植的水稻、小麦、花生、油菜、大豆、马铃薯、葡萄等作物的生态需水定额均远大于大洼子同期的有效降水,在大洼子种植的作物均需要大量人工浇灌才能正常生长,而农作物的种植与其种植条件匹配度不高;(3)朵古及牛耳坡种植的玉米、万寿菊的生态需水定额与同期有效降水之间的差值较小甚至完全满足,表明玉米、万寿菊在高原山区的种植是与当地种植条件相匹配的;而种植在朵古及牛耳坡的苹果、烤烟的生态需水定额与同期有效降水之间的差值较大,表明在高原山区大量种植苹果及烤烟对于人工浇灌要求较高;(4)研究区大部分农作物在生长发育阶段内所需的水分主要依靠人工灌溉,与本地降水分布规律匹配度不高,区内农业结构与种植模式有待调整。在岩溶断陷盆地内要种植耗水较少,对热量要求较高的作物,山区则需要发展具有生态保护和经济效益的作物,但种植的重点区域仍是盆地区。 相似文献
14.
由于灌区下垫面性质的空间变异性和人类活动对水分循环的影响,灌区呈现出与自然流域不同的水文特征。在不同尺度水文特征的研究中,人们注意到灌溉排水与水文学的联系,并提出了灌溉水文学的概念。近年来,灌溉对灌区水文的影响及节水灌溉的尺度效应等研究,逐渐丰富了灌溉水文学的研究内容,灌溉水文学研究的重要性日渐突出。本文在分析灌区水文现象、水分循环及灌溉对灌区水分循环影响的基础上,阐述了不同学者对灌溉水文学概念的理解,在总结国内外灌溉水文学及相关领域研究进展的基础上,提出了灌溉水文的研究重点及其发展趋势。并提出,灌区水文观测和灌区信息的准确获取是灌溉水文学的研究基础,针对灌区特点而开发的数值模拟和灌区分布式水文模型是主要研究手段,尺度效应和尺度转换是研究的难点。 相似文献
15.
Xianglian Li Xiusheng Yang Qiong Gao Yu Li Suocheng Dong 《Frontiers of Earth Science》2009,3(2):198-207
This study presents a basin-scale integrative hydrological, ecological, and economic (HEE) modeling system, aimed at evaluating
the impact of resources management, especially agricultural water resources management, on the sustainability of regional
water resources. The hydrological model in the modeling system was adapted from SWAT, the Soil and Water Assessment Tool,
to simulate the water balance in terms of soil moisture, evapotranspiration, and streamflow. An ecological model was integrated
into the hydrological model to compute the ecosystem production of biomass production and yield for different land use types.
The economic model estimated the monetary values of crop production and water productivity over irrigated areas. The modeling
system was primarily integrated and run on a Windows platform and was able to produce simulation results at daily time steps
with a spatial resolution of hydrological response unit (HRU). The modeling system was then calibrated over the period from
1983 to 1991 for the upper and middle parts of the Yellow River basin, China. Calibration results showed that the efficiencies
of the modeling system in simulating monthly streamflow over 5 hydrological stations were from 0.54 to 0.68 with an average
of 0.64, indicating an acceptable calibration. Preliminary simulation results from 1986 to 1995 revealed that water use in
the study region has largely reduced the streamflow in many parts of the area except for that in the riverhead. Spatial distribution
of biomass production, and crop yield showed a strong impact of irrigation on agricultural production. Water productivity
over irrigated cropland ranged from 1 to 1640 USD/(ha·mm−1), indicating a wide variation of the production conditions within the study region and a great potential in promoting water
use efficiency in low water productivity areas. Generally, simulation results from this study indicated that the modeling
system was capable of tracking the temporal and spatial variability of pertinent water balance variables, ecosystem dynamics,
and regional economy, and provided a useful simulation tool in evaluating long-term water resources management strategies
in a basin scale. 相似文献
16.
探索变化环境下新疆平原区地下水资源量的变化趋势,是识别地下水环境问题、加强地下水资源管理的基础工作。基于水利部门历次水资源调查评价成果、水利统计资料汇编等数据,对1956—2016年新疆平原区地下水资源量变化及其影响因素进行分析,对变化原因进行探讨。结果表明:1956—2016年新疆平原区地下水资源量呈减少趋势,其中地下水天然补给量基本稳定,地表水体转化补给量持续减少;从地下水补给结构分析,渠系渗漏补给量大幅减少,导致地下水资源量减少;河道渗漏补给量增加,抵消了地下水资源量的减幅。平原区灌溉面积扩大导致的农田灌溉耗水量增大是地下水资源量减少的根本原因,人类活动对地下水资源量的影响大于气候变化。 相似文献
17.
Geochemical and isotopic characterization of groundwater and lake-water samples were combined with water and total dissolved solids balances to evaluate sources of groundwater quality deterioration in eastern Hetao Basin, Inner Mongolia, China. Groundwater quality is poor; 11 of 13 wells exceed drinking-water guidelines for at least one health-based parameter and all wells exceed aesthetic guidelines. The well water is largely derived from Yellow River irrigation water. Notably high uranium concentrations in the Yellow River, relative to world rivers, suggest groundwater uranium and other trace elements may originate in the river-derived irrigation water. Complex hydrostratigraphy and spatial variation in groundwater recharge result in spatially complex groundwater flow and geochemistry. Evapotranspiration of irrigation water causes chloride concentration increases of up to two orders of magnitude in the basin, notably in shallow groundwater around Wuliangsuhai Lake. In addition to evapotranspiration, groundwater quality is affected by mineral precipitation and dissolution, silicate weathering, and redox processes. The lake-water and TDS balances suggest that a small amount of discharge to groundwater (but associated with very high solute concentrations) contributes to groundwater salinization in this region. Increasing salinity in the groundwater and Wuliangsuhai Lake will continue to deteriorate water quality unless irrigation management practices improve. 相似文献
18.
真实节水基本概念分析 总被引:4,自引:0,他引:4
利用世行贷款发展节水灌溉项目以来,项目区通过工程、农业和管理节水措施,取得显著的节水效果:一是不仅项目区,而且全县渠系水、田间水和灌溉水的有效利用系数大大提高,灌溉提取水量大幅度浅少,与此同时,农作物ET值不断下降,预计2010年ET值降到当地平均降雨量。二是灌区各部分耗水量发生显著变化,有项目以后,不仅灌溉提取水量,作物ET大幅度下降,而且深层渗漏也显著减少。三是真实节水效果显著:(1)净开采量大幅度浅少;(2)真实(资源)节水量不断增加;(3)作物ET值不断减少,尤其重要的是田间水的有效利用系数不断提高,无效蒸发相应减少。四是地下水超采状况显著好转,到2010年项目区可实现地下水的零超采,全县地下水下降幅度大大减小。 相似文献
19.
皖江经济区基本农田地球化学特征及成因 总被引:3,自引:0,他引:3
皖江经济区的基本农田分布区是我国国家商品粮生产基地,该区基本农田的土地地球化学特征与粮食质量安全密切相关。本文以皖江经济区的南陵—泾县国家商品粮基地为重点研究区,以野外实地调查资料和采集的0~20cm深度土壤样的化学组分检测分析数据作为研究基础,应用地学数理统计学方法和GIS空间特征分析技术,通过该农田区土壤元素组成、含量、空间分布和异常变化特征及其成因研究,发现:南陵—泾县基本农田的土壤中重金属Fe、Mn和Hg等含量存在异常,Fe、Mn变异系数呈现区域性异常,Hg含量表现为局部异常;Ca、Mg和Na元素呈现显著空间分布相关性,与成土母质影响相关。在区域分布上,南陵—泾县基本农田区土壤中重金属元素和盐分含量呈现南高、北低的趋势性分布特征,这与当地水文地质条件、地下水水位埋藏状况和矿化度之间存在一定的相关性。从南陵—泾县基本农田区土地地球化学分布特征来看,南部地区不利于高品质稻谷、小麦等粮食生产。 相似文献
20.
About 40% of the water supply of Cairo, Egypt, is drawn from a groundwater reservoir located southeast of the Nile Delta. Several thousand shallow wells supply drinking water to the farmers from the same groundwater reservoir, which is recharged by seepage from Ismailia canal, the irrigation canal network, and other wastewater lagoons in the same areas. Sewage water lagoons were located at the high ground of the area, recharging contaminated water into the aquifer. Since the groundwater in this area is used for drinking purposes, it was decided to treat the sewage water recharging the aquifer for health reasons. In this paper a solution to the problem is presented using an injection well recharging good quality water into the aquifer. A pumping well located at a distance downstream is used to pump the contaminated water out of the aquifer. A three-dimensional solute transport model was developed to study the concentration distribution with remediation time in the contaminated zone. 相似文献