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1.
Research we have conducted over the past several years relative to agricultural application of remote sensing is reviewed. In addition, new data are presented from recent experiments reported here for the first time.The subjects treated are soil moisture, evaporation, irrigation scheduling, and crop yield estimation. The analyses indicate that we have the technology at hand to successfully integrate remote sensing techniques into agricultural operations designed to enhance production via intelligent water management.Avenues for additional fruitful research are indicated. 相似文献
2.
无人机遥感技术在精量灌溉中应用的研究进展 总被引:4,自引:0,他引:4
以提高农业用水效率为目标的精量灌溉是未来农业灌溉的主要模式,精量灌溉的前提条件是对作物缺水的精准诊断和科学的灌溉决策。用于作物缺水诊断和灌溉决策定量指标的信息获取技术主要基于田间定点监测、地面车载移动监测及卫星遥感。无人机从根本上解决了卫星遥感由于时空分辨率低而导致的瞬时拓延、空间尺度转换、遥感参数与模型参数定量对应等技术难题,也克服了地面监测效率低、成本高、影响田间作业等问题。近几年的研究结果表明,无人机遥感系统可以高通量地获取多个地块的高时空分辨率图像,使精准分析农业气象条件、土壤条件、作物表型等参数的空间变异性及其相互关系成为可能,为大面积农田范围内快速感知作物缺水空间变异性提供了新手段,在精量灌溉技术应用中具有明显的优势和广阔的前景。无人机遥感系统已经应用在作物覆盖度、株高、倒伏面积、生物量、叶面积指数、冠层温度等农情信息的监测方面,但在作物缺水诊断和灌溉决策定量指标监测方面的研究才刚刚起步,目前主要集中在作物水分胁迫指数(CWSI)、作物系数、冠层结构相关指数、土壤含水率、叶黄素相关指数(PRI)等参数估算的研究,有些指标已经成功应用于监测多种作物的水分胁迫状况,但对于大多数作物和指标,模型的普适性还有待进一步研究。给出了无人机遥感在精准灌溉技术中应用的技术体系,并指出,为满足不同尺度的高效率监测和实现农业用水精准动态管理的需求,今后无人机遥感需要结合卫星遥感和地面监测系统,其中天空地一体化农业水信息监测网络优化布局方法与智能组网技术、多源信息时空融合与同化技术、作物缺水多指标综合诊断模型、农业灌溉大数据等将是未来重点研究内容。 相似文献
3.
Landsat Thematic Mapper (TM) measurements have been utilized to derive land-use patterns from a supervised multi-spectral classification. Independently, the water use of crops, perennial vegetation, surface water impoundments, and barren land has been assessed using a radiation and energy balance approach using the same Landsat images. The land-use classification had an overall accuracy of 85%, which is acceptable for a heterogeneous tropical watershed with abundant small-scale landscape features. Actual evaporation of the various land use types was verified on physical consistency by applying the inverse Penman-Monteith equation, taking the evaporation estimations from remote sensing as input. The surface resistance to evaporation was found to be similar to resistances experimentally obtained elsewhere, but in similar climatic conditions. A new calculation procedure for time integration of actual evaporation under conditions of very limited surface observations is outlined and applied to the 26,000-ha Kirindi Oya watershed in southern Sri Lanka. The annual watershed evaporation deviated 4% from evaporation derived as the residual water balance term. This new technique, based on Landsat measurements, helps in identifying the evaporative depletion of various land-use categories, which is an important input for water management evaluation procedures. The major finding is that a significant amount of irrigation water is used by the perennial vegetation in the vicinity of the irrigation systems. 相似文献
4.
Luis A. Mndez-Barroso Jaime Garatuza-Payn Enrique R. Vivoni 《Agricultural Water Management》2008,95(6):725-736
Remote sensing can allow a more efficient irrigation water management by applying the water when crops require it or when symptoms of water stress appear. In this study, the spatial and temporal distribution of the water deficit index (WDI) and crop evapotranspiration (ET) in wheat were determined through analysis of satellite-based remote sensing images in the Yaqui Valley, Sonora, México. We utilize an empirical model based on the canopy temperature–vegetation cover relationship methodology known as the Moran's trapezoid. We analyze and discuss the spatial and temporal distributions of WDI and ET at the regional and local scales. Results show a linear relationship (R2 = 0.96) between the values of WDI and the number of days elapsed since the last irrigation. The water deficit index could be utilized to estimate the quantity of available water in wheat and to know the degree of stress presented by the crop. Advantages offered by this methodology include obtaining WDI and evapotranspiration values in zones with partial or null vegetation cover and for large irrigation schemes lacking the necessary data for traditional water management. 相似文献
5.
基于DP-PSO算法的灌区农业水资源优化配置 总被引:2,自引:0,他引:2
针对引水灌区,考虑灌溉用水总量约束和时段可供水量约束,以单一作物非充分灌溉下灌溉制度优化为第一层,区域多种作物种植结构及水量分配为第二层,分别采用动态规划和粒子群算法求解,建立了基于DP-PSO算法的灌区农业水资源优化配置模型。针对多重约束问题,提出了一种初始化粒子群的方法,并通过粒子速度的动态变化来保证每代粒子都满足约束,提高了算法的收敛速度和收敛精度。以赣抚平原灌区为对象,考虑降雨和水源可供水量不同步的特点,计算了3种降雨频率、多年可供水条件下的农业水资源优化配置方案。结果表明,基于DPPSO算法的农业水资源优化配置模型合理可靠,为引水灌区农业水资源优化提供了一种新的方法。 相似文献
6.
T. A. Pa?o M. I. Ferreira R. D. Rosa P. Paredes G. C. Rodrigues N. Concei??o C. A. Pacheco L. S. Pereira 《Irrigation Science》2012,30(2):115-126
The dual crop coefficient approach accounts separately for plant transpiration and soil evaporation by using the basal crop
coefficient and the evaporation coefficient, respectively. The SIMDualKc model, which performs the soil water balance simulation
with estimation of the actual crop evapotranspiration (ET) with the dual crop coefficient approach, was applied to a drip-irrigated
peach orchard under Mediterranean conditions. Orchard ET was obtained with the eddy covariance technique, which was subsequently
correlated with tree transpiration estimated from sap flow measurements and soil evaporation determined with microlysimeters,
thus providing ET for the whole irrigation season. Two years of field observations were used for model calibration and validation
using those ET measurements and taking into account the fraction of ground covered by trees through a density factor which
adjusts the basal crop coefficient. Model fitting relative to ET observations during calibration and validation provided indices
of agreement averaging 0.90, coefficients of regression close to 1.0, root mean square errors around 0.41 mm and average absolute
errors of 0.32 mm. Model fitting relative to transpiration and to soil evaporation produced similar results, so showing the
adequateness of modelling. 相似文献
7.
The aim of this research was to assess the irrigation performance of the Salihli Right Bank, Salihli Left Bank, Ahmetli, Gokkaya, Turgutlu, Mesir, Sarikiz, Gediz, Menemen Right Bank and Menemen Left Bank Water User Associations (WUAs) in the Lower Gediz Basin in western Turkey, using remote sensing techniques. To reach this aim the performance of the irrigation system for the 2004 irrigation season was determined according to five indicators, namely overall consumed ratio (ep), relative water supply (RWS), depleted fraction (DF), crop water deficit (CWD) and relative evapotranspiration (RET). Potential and actual evapotranspiration parameters used in determining these indicators were estimated according to the Surface Energy Balance Algorithm for Land (SEBAL) method using NOAA-16 satellite images.Seasonal averages of these indicators ranged from 0.59 to 2.26 for ep, 0.47-1.66 for RWS, 0.43-1.31 for DF, 180.5-269.5 mm month−1 for CWD, and 0.61-0.74 for RET. According to the seasonal average values of all the performance indicators, the irrigation performance of all WUAs was usually poor. The performance indicators showed that less irrigation water was supplied to WUAs than was needed. It was concluded that proximity to the source could be an advantage in obtaining water, and that when water was insufficient, groundwater in the crop root area could be used. 相似文献
8.
《Agricultural Water Management》2001,48(2):117-132
In this paper, the proposed optimisation model is applied to optimise water management in the Bembézar system, a small hydrological basin belonging to the Guadalquivir River basin in southern Spain that supplies water to the Bembézar River Irrigation District.In order to apply the model, the irrigation methods and performance in the irrigation district have been analysed through a set of field irrigation evaluations. Cropping patterns, crop productivity and other relevant agronomic and economic data have been collected.The influence of irrigation uniformity and the type of distribution of irrigation water on the crop yields, as well as the relationship between crop yields and irrigation scheduling have been analysed using the proposed model.A deterministic analysis has been carried out in the irrigation district in order to compare optimum water and cropping patterns management with actual ones.In order to account for the randomness of both climatic and water availability variables, a stochastic data generation has been carried out which considers the correlation between these hydrological series. The system is then analysed in a stochastic environment. Several simulations of the optimisation process have been carried out using generated data on climatic and water availability variables.The result of this analysis demonstrates that when only the satisfaction of the internal demands is considered, high quantities of water are allocated to the irrigation districts resulting in low economic benefits per unit of water used and lower irrigation efficiency. This situation has been compared with the solution provided by the hypothesis of a proposed water market in which it is possible to transfer part of the water of the system to other alternative uses at a fixed price. In this second hypothesis, water consumption in the irrigation districts was reduced. 相似文献
9.
甘肃地区水资源短缺,合理利用农业水资源对地区发展非常重要。根据甘肃瓜州1983-2012年30年的气象资料,计算出瓜州地区棉花作物的参考作物蒸发蒸腾量以及作物的实际蒸发蒸腾量,进而计算甘肃瓜州棉花作物多年灌溉需水量。通过调节灌水次数来调节灌溉供水量,以得出不同供水条件下的灌溉设计保证率,根据不同灌水次数对作物经济效益的影响,得到最大效益时的灌水量和灌溉设计保证率。分析结果表明,灌溉设计保证率在53%时经济效益最高,从而确定甘肃瓜州地区的最优灌水量为440mm,达到既保证效益又能做到节水灌溉的目的。 相似文献
10.
无人机多光谱遥感技术可以快速、无损地监测农作物叶面积指数(LAI)。为研究水分胁迫条件下,利用无人机多光谱植被指数估算夏玉米LAI的可行性,本研究基于无人机多光谱遥感系统,结合同时期实地采集的夏玉米LAI,选择5种植被指数,包括归一化差值植被指数(NDVI)、土壤调节植被指数(SAVI)、增强型植被指数(EVI)、绿度归一化植被指数(GNDVI)和抗大气指数(VARI),作为模型输入参数,使用随机森林回归算法建立全生育期不同灌溉条件下大田玉米冠层植被指数与LAI之间的关系模型,并与一元线性回归和多元线性回归算法建立的模型进行对比分析。结果表明,在充分灌溉条件下,植被指数的多元线性回归模型可以较好地估算LAI(R2 = 0.83);在水分胁迫条件下,植被指数的随机森林回归模型可以较好地估算LAI(R2 = 0.74~0.87),水分胁迫因素对该模型影响较小,且NDVI和VARI对估算LAI的贡献最大。上述结果表明基于无人机多光谱遥感技术,使用随机森林回归算法估算多种灌溉条件下的夏玉米LAI是可行的。该研究为实现快速、准确地监测全生育期不同灌溉条件下的大田夏玉米LAI提供了技术和方法支持。 相似文献
11.
西北干旱区滴灌棉田膜间土壤蒸发试验研究 总被引:2,自引:0,他引:2
膜间土壤蒸发是覆膜棉田水分消耗的主要组成部分,在干旱少雨的新疆石河子利用微型蒸渗仪观测了地下滴灌和膜下滴灌条件下,覆膜棉田膜间土壤水分蒸发,并对膜间不同位置处的土壤蒸发规律进行了试验研究,研究结果表明,滴灌条件下膜间土壤水分蒸发分别与气温、辐射、饱和水汽差以及相对湿度呈指数相关关系,与参考作物需水量呈线型相关关系,与表层土壤含水率呈指数关系;膜间土壤累积蒸发量在苗期最高、其次是花铃期、吐絮期最小;膜下滴灌条件下膜边土壤的蒸发量高于膜间(两条膜正中间的裸地)蒸发量;地下滴灌条件下,错位种植会导致灌溉水的无效蒸发,不利于灌溉水的高效利用。 相似文献
12.
针对西北干旱区灌区生态环境脆弱、水资源短缺、复杂不确定性等问题,以石羊河流域红崖山灌区为例,耦合2型模糊集、模糊可信度约束规划和多目标规划等理论方法,构建了基于2型模糊集的多目标农业-生态水土资源优化配置模型。模型以灌溉水损失最小、生态植被灌溉水满意度最大、生态植被灌溉水费用最小和主要粮食作物经济效益最大为目标,对红崖山灌区10个决策单元的地表水、地下水和粮食作物种植面积进行优化配置。求解模型得到不同可信度水平和不确定性程度下的水土资源优化配置方案。结果表明:耦合2型模糊集的模型能够提供丰富的配置方案,水量对可信度水平的敏感性高于不确定性程度,作物种植结构对可信度水平不敏感。以不确定性程度参数为0.5、可信度水平为0.7时为例,生态植被均通过地表水灌溉,作物通过地表水、地下水联合灌溉,玉米的产量和经济效益均大于小麦。相比前人研究,本研究考虑生态植被灌溉需求,优化结果更加真实合理。本研究可为决策者提供较为符合灌区实际的配置方案,为西北干旱区灌区现代化建设提供科学指导。 相似文献
13.
W.R. Norman W.H. Shayya A.S. Al-Ghafri I.R. McCANN 《Irrigation and Drainage Systems》1997,12(1):35-48
This paper reports on results from a case study on water management within a traditional, falaj irrigation system in northern Oman. In the planning and design of regional irrigation development programs, generalized assumptions are frequently made as to the efficiency of traditional surface irrigation systems. Although qualitative accounts abound, very little quantitative research has been conducted on on-farm water management within falaj systems. Daily irrigation applications and crop water use was monitored during an 11-month period among 6 farm holdings at Falaj Hageer in Wilayat Al-Awabi. Contrary to the frequent assumptions that all surface irrigation systems incur unnecessarily high water losses, on-farm ratios of crop water demand to irrigation supply were found to be relatively high. Based on actual crop water use, irrigation demand/supply ratios among monitored farms varied from 0.60 to 0.98, with a mean of 0.79. Examination of the soil moisture budget indicates that during most irrigations of wheat (cultivated in the low evapotranspiration months of October–March) sufficient water is applied for the shallow root zone to attain field capacity. With the exception of temporary periods of high falaj delivery flows or periods of rainfall, field capacity is usually not attained during irrigations within the more extensive root zones of date palm farms. The data presented in this paper should provide a better understanding of water use performance by farmers within traditional falaj systems. Moreover, these data should also serve to facilitate more effective development planning for irrigation water conservation programs in the region. 相似文献
14.
Integrating remote sensing and a process-based hydrological model to evaluate water use and productivity in a south Indian catchment 总被引:4,自引:0,他引:4
The combined use of remote sensing and a distributed hydrological model have demonstrated the improved understanding of the entire water balance in an area where data are scarcely available. Water use and crop water productivity were assessed in the Upper Bhima catchment in southern India using an innovative integration of remotely sensed evapotranspiration and a process-based hydrological model. The remote sensing based Surface Energy Balance Algorithm for Land (SEBAL) was used to derive an 8 month time series of observed actual evapotranspiration from October 2004 to May 2005. This dataset was then used in the calibration of the Soil and Water Assessment Tool (SWAT). This hydrological model was calibrated by changing 34 parameters to minimize the difference between simulated and observed actual evapotranspiration. The calibration efficiency was assessed with four different performance indicators. The calibrated model was used to derive a monthly basin water balance and to assess crop water productivity and crop water use for the irrigation year 2004-2005. It was found that evapotranspiration is the largest water loss in the catchment and total evaporative depletion was 38,172 Mm3 (835 mm). Of the total evaporative depletion 42% can be considered as non-beneficial and could be diverted to other beneficial utilization. Simulated crop water productivities for sugarcane, sorghum and winter wheat are relatively high at 2.9 kg/m3, 1.3 kg/m3 and 1.3 kg/m3, respectively. The frequency distributions of crop water productivity are characterised by low coefficient of variation, yielding limited scope for improvement in the agricultural areas under the current cropping systems. Further improvements in water productivity may however be achieved by shifting the crop base from sugarcane to a dual crop and introducing a fallow period from March to May or by converting non-productive rangelands to bio fuel production or other agricultural land uses. 相似文献
15.
不同沟灌方式下夏玉米棵间蒸发试验 总被引:5,自引:0,他引:5
采用常规沟灌和交替隔沟灌技术,研究了不同水分处理(水分控制下限为田间持水率的80%、70%、60%)夏玉米的棵间蒸发。结果表明:常规沟灌的灌后蒸发和全生育期棵间蒸发量均大于交替隔沟灌,灌水后短期内由于表层土壤含水率较高,土壤蒸发较大;在满足作物蒸腾耗水的基础上,交替隔沟灌减小了灌溉湿润面积而减小无效蒸发耗水;不同沟灌方式下土壤蒸发与表层土壤含水率呈明显的脉冲波动变化,而深层土壤含水率波动较弱;表层土壤含水率和叶面积指数对棵间蒸发影响明显,二者与相对土面蒸发强度均有良好的指数函数关系。水分下限控制合适,交替隔沟灌棵间蒸发与蒸腾耗水明显降低,是夏玉米适宜的灌水方式。 相似文献
16.
In the Gezira irrigation scheme in central Sudan, serious symptoms of water waste have been identified in the last two decades, especially in sorghum and groundnut fields. To quantify losses, water-use efficiencies and related parameters were obtained for these two food crops under the traditional attended daytime water application and the newly evolved unattended continuous watering method. In this on-farm research, the neutron scattering method was used to determine the actual soil water deficits of the two crops. A simple Penman equation was used for approximating reference crop evapotranspiration and evaporation losses from standing water and wet soil surface. An updated approach using the Penman-Monteith equation was additionally applied. The study revealed wastage of irrigation water in both irrigation methods but at different rates and also differently for each crop. In the attended field, the average seasonal over-irrigation, which is the difference between average application depth Q and average soil moisture deficit SWD, was observed to range between 0.4 and 1.5 of SWD (0.3 and 0.6 of Q) and the corresponding values in the unattended field were 0.6 and 3.2 of SWD (0.4 and 0.8 of Q). Higher values are shown by the groundnut subplots, which crop also suffers from excess water, and by the drier year as well as in the unattended fields. A first approximation is given, still including readily available water at harvest, of minimum water requirements in attended watering for maximum yields. In the drier year, when more irrigation water was applied, an amount equal to 30-50% of these minimum water requirements was lost in evaporation from standing water/wet surface, which is the main unproductive water. More frequent land levelling aiming at minimum standing water in better attended irrigation and farm management (e.g. weeding) are priority measures proposed. The quantitative on-farm water waste determinations represent the innovative content of this paper. Knowing precisely how large the problem is and being able to quantify its components will contribute much to the arguments of those who wish to take the proposed measures. 相似文献
17.
Salinity, drainage and non-uniformity of irrigation water are important components in determining optimal water application and related profitability. A crop-water production function assuming steady state conditions is incorporated in a long-run economic model to investigate the combined effects of salinity, irrigation uniformity and different drainage requirements at the field scale for the specific crop.The analysis was conducted for corn and cotton as sensitive and tolerant crops to salinity, respectively. Optimum applied water and associated profits, yield and drainage volumes were computed for each crop. The computations were done for the condition that no drainage system was required and also where a drainage system was required and the drainage water was disposed of to either a free off-farm facility or to an on-farm evaporation pond constructed on productive or non-productive land.The main findings are that type of drainage disposal system affects the optimal values of applied water, profits, yield and drainage volumes, except for uniform water applications and non-saline irrigation water. Another finding is that in the long run, under saline conditions and/or different drainage disposal systems, a sensitive crop such as corn is not profitable and goes out of production. In general the profit levels associated with the various drainage options are in the order of no drainage requirement ? free off-farm facility > on-farm evaporation pond on non-productive land > on-farm evaporation pond on productive land. Uniformity of irrigation water affects values of the analyzed variables and the effects are greatest for the cases of on-farm evaporation ponds. Pumping cost effects are quite small, but water price effects are more significant. Breeding the crops for increased salinity tolerance has little effect when irrigating with water of low salinity and/or low irrigation uniformity. 相似文献
18.
《Agricultural Water Management》2004,64(2):169-181
Irrigation is necessary in order to produce sugarcane in semiarid south Texas, but water supplies are becoming increasing limited. Drip and sprinkler irrigation systems offer more precise water control than conventional furrow irrigation, but are more expensive. This study was conducted to evaluate four different methods (pan evaporation (Epan), evapotranspiration (ET), auto-tensiometers, manual tensiometers) for determining the amount of irrigation water to apply, and three different frequencies of water application on sugarcane, in order to make the most efficient use of available water using subsurface drip irrigation. The study was conducted over three sugarcane seasons: the plant crop and two ratoon crops. The amount of water applied based on the different methods varied from year to year, with the ET method prescribing the most water in the first ratoon crop but the least amount in the second ratoon. This was probably caused mostly by differences in annual weather conditions. The more frequently water was applied, the larger amount any method tended to prescribe, since more frequent applications resulted in keeping the soil profile fuller, therefore providing less capacity to store rainfall when it occurred. Number of stress days as determined by calculating a stress coefficient based on ET and soil water balance indicated a large amount of stress in the first ratoon but almost none in the second ratoon crop. Direct soil water monitoring indicated much less stress than the calculated levels. Growth measurements and sugarcane yields showed that the highest water applications resulted in the best responses, regardless of the scheduling method used. All irrigation scheduling methods were effective, prescribing similar amounts of water for a given season. Direct measurement using tensiometers gives the most accurate assessment of field conditions, but is expensive and labor intensive. Automated tensiometers were not very reliable. Pan evaporation and ET are effective once they are properly calibrated by developing appropriate coefficients for a particular region. Pan evaporation has been used for a long time, but it is more difficult to obtain reliable data compared to ET data from automated weather stations. 相似文献
19.
自动补水蒸发皿装置的原理及应用 总被引:1,自引:0,他引:1
为了更好地利用蒸发皿的蒸发量指导农田灌溉,根据马氏瓶工作原理设计了一种简单、实用,价格低廉而且操控性强的恒水位蒸发皿装置,此装置在20 cm标准蒸发皿的基础上附加了一个自动补水装置.以20 cm标准蒸发皿的蒸发量为标准,对可进行自动补水的恒水位蒸发皿的水面蒸发过程进行了验证.通过大田冬小麦试验建立了水面蒸发过程与冬小麦同阶段耗水过程的关系.结果表明,设计开发的蒸发皿装置,具有较好的稳定性,组间测量值相对平均误差小于5%,超过5 d相对平均误差小于2%;其水面蒸发过程与20 cm标准蒸发皿的蒸发量具有显著的相关关系,相关系数高达0.99;华北地区优质高产冬小麦在拔节期、抽穗扬花期和灌浆成熟期的田间耗水量,与自动补水蒸发皿同阶段累计水面蒸发量的比值分别为1.09,1.31和1.16.因此,可以用该装置的水面蒸发量来指导农田灌溉,达到农作物优质、高效、高产的目的. 相似文献
20.
A mathematical model for simulating water balances in cropped sandy soil with conventional flood irrigation applied 总被引:1,自引:0,他引:1
Xi-Bin Ji Er-Si Kang Ren-Sheng Chen Wen-Zhi Zhao Zhi-Hui Zhang Bo-Wen Jin 《Agricultural Water Management》2007
In this paper, a model that integrates various complex model components for the purposes of water balance modeling throughout crop development in arid inland region under the conventional flood irrigation practiced is presented. These components are modules for calculating dynamic soil water content based Richard's equation, potential and actual evapotranspiration, and crop root water uptake. Soil water content in the active root zone and soil evaporation simulation obtained from the model were test using field data in 2003. The low values of MARE and high values of R2 and PE in the active root zone of soil profile as well as daily soil evaporation indicated that the soil water balance simulation model presented in the paper can be used with reliable accuracy to simulate the components of water balance in cropped sandy soil under the conventional flood irrigation condition in arid inland regions. The model simulation on components of water balance using observed field data in 2004 indicated that large quantities – about 43% of irrigation water (amounting to 840 mm) – were consumed by deep percolation, only small (less than 41%) proportions of irrigation water used by the plants for transpiration. The current irrigation scheme is characterized by the unreasonable agricultural water management with the waste of water in the irrigational system in this region. The impact of irrigation scheduling on water balance presented in this paper showed that the reasonable irrigation scheme with more frequent irrigation and less amounts is more suitable for the irrigation of spring wheat in Heihe River basin, northwest China. Therefore, to establish a decision-making system for agricultural irrigation scheme and to utilize the limited water resources in this region have become an urgent problem that needs to be solved. 相似文献