The Relationship between Water Resources Use Efficiency and Scientific and Technological Innovation Level: Case Study of Yangtze River Basin in China

The Yangtze River Basin’s water resource utilization efficiency(WUE)and scientific and technological innovation level(STI)are closely connected,and the comprehension of these relationships will help to improve WUE and promote local economic growth and conservation of water.This study uses 19 provinces and regions along the Yangtze River’s mainstream from 2009 to 2019 as its research objects and uses a Vector Auto Regression(VAR)model to quantitatively evaluate the spatiotemporal evolution of the coupling coordination degree(CCD)between the two subsystems of WUE and STI.The findings show that:(1)Both the WUE and STI in the Yangtze River Basin showed an upward trend during the study period,but the STI effectively lagged behind the WUE;(2)The CCD of the two subsystems generally showed an upward trend,and the CCD of each province was improved to varying degrees,but the majority of regions did not develop a high-quality coordination stage;(3)The CCD of the two systems displayed apparent positive spatial autocorrelation in the spatial correlation pattern,and there were only two types:high-high(H-H)urbanization areas and low-low(L-L)urbanization areas;(4)The STI showed no obvious response to the impact of the WUE,while the WUE responded greatly to the STI,and both of them were highly dependent on themselves.Optimizing their interaction mechanisms should be the primary focus of high-quality development in the basin of the Yangtze River in the future.These results give the government an empirical basis to enhance the WUE and promote regional sustainable development.

Urban Water Resource Utilization Efficiency in China

The efficient use of water resources directly affects environmental, social, and economic development; therefore, it has a significant impact on urban populations. A slacks-based measure for data envelopment analysis （SBM-DEA） has been widely used in energy efficiency and environmental efficiency analyses in recent years. Based on this model, data from 316 cities were examined and a category method was employed involving three different sorting techniques to empirically evaluate the efficiency of urban water re- source utilization in China between 2000 and 2012. The overall efficiency （OE） of urban water resource utilization in China was initially low, but has improved over the past decade. The scale efficiency （SE） was higher than the pure technological efficiency （PTE）; PTE is a major determining factor of OE, and has had an increasingly significant effect. The efficiency of water resource utilization varied ac- cording to the region, urban scale, and economic function. The OE score for the eastern China was higher than for the rest of the region, and the OE score for the western China was higher than for the central China. The OE score for urban water resource utilization has improved with urban expansion, except in the case of small cities. The SE showed an inverted U-shaped＇ trend with increasing urban expansion. The OE of urban water utilization in comprehensive functional cities was greater than in economic specialization cities, and was greater in heavy industry specialization cities than in other specialization cities. This study contributes to the field of urban water resource management by examining variations in efficiency with urban ~ezle

Reducing water and nitrogen inputs combined with plastic mulched ridge-furrow irrigation improves soil water and salt status in arid saline areas,China

Plastic mulched ridge-furrow irrigation is a useful method to improve crop productivity and decrease salt accumulation in arid saline areas.However,inappropriate irrigation and fertilizer practices may result in ecological and environmental problems.In order to improve the resource use efficiency in these areas,we investigated the effects of different irrigation amounts(400(I1),300(I2)and 200(I3)mm)and nitrogen application rates(300(F1)and 150(F2)kg N/hm^(2))on water consumption,salt variation and resource use efficiency of spring maize(Zea mays L.)in the Hetao Irrigation District(HID)of Northwest China in 2017 and 2018.Result showed that soil water contents were 0.2%-8.9%and 13.9%-18.1%lower for I2 and I3 than for I1,respectively,but that was slightly higher for F2 than for F1.Soil salt contents were 7.8%-23.5%and 48.5%-48.9%lower for I2 than for I1 and I3,but that was 1.6%-5.5%higher for F1 than for F2.Less salt leaching at the early growth stage(from sowing to six-leaf stage)and higher salt accumulation at the peak growth stage(from six-leaf to tasseling stage and from grain-filling to maturity stage)resulted in a higher soil salt content for I3 than for I1 and I2.Grain yields for I1 and I2 were significantly higher than that for I3 and irrigation water use efficiency for I2 was 14.7%-34.0%higher than that for I1.Compared with F1,F2 increased the partial factor productivity(PFP)of nitrogen fertilizer by more than 80%.PFP was not significantly different between I1F2 and I2F2,but significantly higher than those of other treatments.Considering the goal of saving water and nitrogen resources,and ensuring food security,we recommended the combination of I2F2 to ensure the sustainable development of agriculture in the HID and other similar arid saline areas.

盐碱地肥沃耕层构建水肥盐综合调控机理与技术研究进展

盐碱地是我国重要的后备耕地资源,我国历来高度重视盐碱地的改良和利用工作,但目前盐碱区淡水资源短缺严重制约了盐碱地的改良利用。如何在水资源约束下,优化调控土壤水肥盐动态是当前盐碱地可持续利用中亟待解决的关键科学问题。近年来,大量研究利用有机培肥、耕作、节水灌溉、田间覆盖、咸水利用等农艺措施,在盐碱地建立“控盐、保肥、保水”的肥沃耕作层,显著改变了水肥盐在土壤-植物-大气连续体中的运移过程,实现了盐碱地质量和产能快速提升,上述内容也日益成为盐碱地改良利用中的重要研究方向。本文系统总结了盐碱地改良和肥沃耕层构建等方面的研究进展,并针对盐碱地肥沃耕层构建下土壤水肥盐综合调控及其与植物生长的协同关系等进行了展望,以期为盐碱地可持续改良利用提供参考。

水-土资源有效利用视角下我国粮食生产区域布局优化研究

多年来,我国粮食生产取得巨大成就,然而随着粮食生产格局的演变,我国水-土资源配置效率低下,威胁到长期粮食安全与生态安全。从我国资源条件来看,粮食生产面临着耕地数量不足、质量不高,水-土资源在“非农化”“非粮化”趋势中不断被挤占,水-土资源分布不均存在时空错配等资源刚性约束,而粮食生产布局演变又进一步激化了粮食生产水-土资源供给与需求之间的矛盾。为此,发挥资源利用的比较优势,合理布局粮食生产,提高水-土资源有效利用水平,是保障粮食生产可持续发展的关键。

智慧时代园林植物水肥资源利用效率的提升路径研究

随着智慧时代的到来,云计算、大数据技术为园林植物生长信息的分析和利用提供了新方法,为园林植物种植和管理提供了强大助力。水肥管理是园林植物种植过程中的关键环节,如何利用前沿技术提升园林植物水肥资源效率,是园林产业升级面临的现实问题之一。首先分析智慧时代的技术特征,其次分析园林植物种类和水肥需求特性,最后根据传统园林植物水肥利用效率提升模式存在的不足,提出水肥利用效率的提升路径,以期为先进技术更好地赋能园林植物水肥管理提供参考。

川渝地区农业绿色高效用水科技攻关方向与对策建议

川渝地区农业种植面积大、从业人员多、产业份额大、战略意义强,但该地区长期面临严重的季节性干旱和工程性缺水,且农业绿色高效用水发展水平与经济发展、区域地位并不匹配,需提高农业节水抗旱减灾保产能力和水资源利用效率,推动川渝现代节水农业高质量发展。总结了川渝地区农业用水现状和高水效农业发展面临的问题,分析了该地区农业绿色高效用水的实际需求,在此基础上提出开展川渝农业绿色高效用水关键科技项目攻关、构建农业绿色高效用水专家智库、构建西南季节性干旱区农业绿色高效用水技术体系、建设特色水果产业节水科技创新中心、建立川渝农业绿色高效用水产业联盟等一系列对策建议。

面向新时期新需求的三峡水库运行方案研究

本文回顾三峡水库设计洪水、特征水位、运行方案变化调整过程,综述三峡水库运行调度关键技术研究进展和分析来水来沙变化情况。分别采用最可能洪水地区组成法和非一致性洪水频率分析两种途径,推求考虑上游水库群调蓄影响的三峡水库运行期设计洪水及特征水位。结果表明:近10年三峡入库泥沙量比初设成果减少了84.4%,宜昌站水文情势IHA-RVA综合指标为74%、发生了重度改变,三峡水库运行期1000年一遇7~15 d洪量减少了约81.5亿~142.8亿m^(3),初设确定汛限水位的主要制约因素(防洪、泥沙)发生了很大的变化。原单站设计洪水及确定的三峡水库175-155-145 m运行方案,已无法满足新时期水资源高效利用和生态环境保护的新需求。建议把三峡水库运行方案调整为175-160-155 m,主汛期水位在155~160 m区间动态控制运行,长江中下游梅雨结束后应考虑提前蓄水,8月底蓄至163 m左右,9月底蓄至165 m,10月底蓄满。该方案在保证大坝和下游防洪安全的前提下,汛期减少弃水并增加枯水期补水量,预计可增发10%左右的发电量;抬高运行水位也有利于库区航运和减少消落带;9月份尽量不蓄水或少蓄水,可减少蓄水期对下游河道及两湖生态环境的不利影响,具有巨大的经济、社会和生态环境等综合利用效益。当预测预报长江流域可能发生流域性大洪水时,尽快将库水位消落至汛限水位145 m,确保大坝和下游防洪安全。

南水北调中线受水区水资源利用效率及影响因素

为提升南水北调中线工程受水区水资源利用效率,以工程沿线北京、天津2个直辖市和河南、河北18个省辖市共计20个地域单元为研究区域,基于2015—2021年面板数据,采用Super-SBM模型、GML模型及sys-GMM估计法对受水区水资源利用效率进行测度,对影响因素进行识别。结果表明:全区水资源静态利用效率总体偏低但呈波动上升态势,区域差异较大,呈京津板块>河南板块>河北板块格局,空间上呈现以京津冀、郑州2个都市圈为核心向外围逐渐递减的“核心-外围”结构;全区水资源动态利用效率整体呈波动上升趋势,主要源于技术进步,而技术效率作用有限;经济发展水平、水资源禀赋、科技水平、城镇化进程、人口密度与水资源利用效率显著正相关,水污染程度、产业结构、环境规制与水资源利用效率显著负相关。

黄河流域城市水土资源利用效率的耦合协调时空特征研究

论文利用2009—2020年黄河流域69个城市的面板数据,采用Windows-DEA模型测度城市土地资源利用效率与水资源利用效率,采用耦合协调度模型分析水土资源利用效率之间的协同与冲突,利用莫兰指数模型与空间杜宾模型分析水土资源利用效率协调度的时空演变特征与空间溢出效应,结论如下:(1)黄河流域城市土地资源与水资源利用效率呈现缓慢上升态势,但土地资源利用效率为下游>上游>中游,水资源利用效率为中游>上游/下游。(2)不同城市的水资源利用综合效率出现两极分化现象,但土地资源利用效率则逐步趋于稳态,而且,城市土地资源利用效率始终存在空间邻接的正相关特性。(3)研究时期内大部分城市处于高水平耦合阶段与协调过渡阶段,协调度水平相对较低,2018年前土地资源利用效率与水资源利用效率之间协调度也存在空间邻接的正相关特性。(4)经济增长对本地水土资源利用效率协调度具有促进作用,但对其他城市水土资源利用效率具有抑制作用;三产比重对本地与其他城市的水土资源利用效率协调度也具有相反作用。建议流域内各城市从严从细规划和集约利用水土资源,注重提升整个流域的三产比重与产业升级,保证流域内水土资源利用效率的协同发展。

Study on consumption efficiency of soil water resources in the Yellow River Basin based on regional ET structure

Based on the regional water resources character, the concept of soil water resources is first redefined, and then associated with their transfer relationship in the hydrological cycle, Evapotranspiration (ET)-based consumption structure and consumption efficiency of soil water resources are analyzed. According to ET 's function in productivity, the consumption efficiency of soil water resources is di- vided into three classes: high efficient consumption from vegetation transpiration, low efficient con- sumption from soil evaporation among plants with high vegetation coverage and inefficient consump- tion from soil evaporation among plants with low vegetation coverage and bare soil evaporation. The high efficient and low efficient consumption were further classified as productive consumption. The ineffi- cient consumption is considered non-productive consumption because it is significant in the whole hydrological cycle process. Finally, according to these categories, and employing a WEP-L dis- tributed hydrological model, this paper analyzes the consumption efficiency of soil water resources in the Yel- low River Basin. The results show that there are 2078.89×108 m3 soil water resources in the whole basin. From the viewpoint of consumption structure, the soil water resources are comprised of 381.89×108 m3 transpiration consumption from vegetation and 1697.09×108 m3 evaporation consumption from soil among plants and bare soil. From the viewpoint of consumption efficiency, soil water re- sources are composed of 920.11×108 m3 efficient consumption and 1158.86×108 m3 of inefficient con- sumption. High efficient consumption accounts for 41.5 percent of the total efficient consumption of the whole basin, low efficient for 58.5 percent. Furthermore, consumption efficiency varies by region. Compared with ET from different land use conditions, the whole basin appears to follow the trend of having the greatest proportion of consumption as inefficient consumption, followed by low efficient consumption, and then the least proportion as high efficient consumption. The amount of inefficient consumption in some regions with vegetation is less than in other regions without vegetation. The amount of inefficient consumption in grasslands is much greater than in forestlands. However, the proportion of low efficient consumption is the greatest in crop fields. The amount of high efficient con- sumption in grasslands and forelands is similar to the corresponding low efficient consumption. However, the low efficient consumption in grasslands is larger than in the forelands. Therefore, when adjusting the utilization efficiency of soil water resources, vegetation coverage and plant structure should be modulated in terms of the principle of decreasing inefficient consumption, improving low efficiency ET and increasing high efficiency ET according to area character.

黄河流域山东—河南段水资源利用效率研究

提高水资源利用效率是实现黄河流域山东—河南段生态保护和高质量发展的关键。以黄河流域山东—河南段2011—2020年间34个地级市为研究对象,使用SBM模型测度综合用水、生产用水、生活用水和生态用水效率,运用GML指数法对四方面用水效率进行动态测度和分解,并使用FGLS法对上述效率的影响因素进行实证分析。研究发现,河段整体水资源用水效率水平不高、用水效率差异较大,排序为生活用水效率>综合用水效率>生产用水效率>生态用水效率;各流段四方面的用水效率排序为山东段>山东—河南段>河南段;生产用水的GML变化主要由GTC决定,而综合用水、生活用水和生态用水的GML变化主要由GTC和GEC共同决定;经济发展水平、污水处理能力、城镇化进程、科技成果数量和科技投入力度与水资源利用效率呈显著正相关,而产业结构、用水结构和水资源丰裕程度与水资源利用效率显著负相关。

坚持“五水并举” 不断提升湖南省水资源节约集约高效利用水平

近年来,湖南省深入贯彻习近平总书记“节水优先、空间均衡、系统治理、两手发力”治水思路,以实施最严格水资源管理制度为统领,坚持合理分水、管住用水、全面节水、系统治水、改革活水,不断提升水资源节约集约利用水平,为推动湖南经济社会高质量发展提供坚实水资源保障。

乡村数字经济对农业灌溉用水效率的影响

文章基于2012-2021年省级面板数据,在测度乡村数字经济发展指数和结合灌溉水有效利用系数的基础上,构建Tobit模型分析乡村数字经济对农业灌溉用水效率的影响及其作用机制。

中国农业水土资源时空匹配特征及影响因素研究

分析农业水土资源的时空匹配特征与影响因素,可为农业水土资源优化配置提供科学依据。以中国除港澳台的31个省(自治区、直辖市)为研究对象,运用基尼系数法和农业水土资源匹配系数法对2009~2019年的农业水土资源时空匹配特征进行评价分析,并利用Sen+Mann-Kendall法分析农业水土资源匹配系数的变化趋势,最后运用面板回归模型探究变化的主要影响因素。研究结果表明:①2019年与2009年相比,中国水资源总量增加4860.90亿m^(3),耕地面积总量减少75295 km^(2),农业水土资源匹配系数由0.6018升高到0.6652,整体仍高度不匹配且呈不显著变差的趋势。②中国各省(自治区、直辖市)农业水土资源匹配整体呈现“西南优于东北,边缘优于腹地,林区优于农区,山丘优于平原”的空间格局。③北京农业水土资源匹配系数显著下降,上海、广西、重庆、贵州、云南以及宁夏显著上升。④农业用水量和人均水资源量是影响农业水土资源匹配的主要因子。中国农业水土资源匹配协调度仍处于高度不平衡状态,依据匹配系数划分不同等级的调控区并制定差异化的调控措施是缓解农业水土资源匹配不协调的有效途径。

南水北调中线工程水源区环境规制对经济高质量发展的影响

为研究南水北调中线工程水源区环境规制通过水资源利用对区域发展质效的影响,基于2005—2022年南水北调中线工程水源区12个城市的面板数据,构建基准回归模型、中介效应模型和门槛效应模型,实证分析了环境规制、水资源利用效率和经济高质量发展之间的关系。结果表明:环境规制对经济高质量发展具有正向促进效应,该促进效应在不同区域间存在异质性,环境规制的促进作用在用水量小的地区更加显著,而在用水量大的地区,丰富的水资源限制了环境规制对经济高质量发展的促进作用;在环境规制影响区域,水资源利用效率在经济高质量发展过程中发挥出显著的中介作用,水资源利用效率中介效应占环境规制总促进效应的比例为13.5%;水资源利用效率在环境规制对经济高质量发展影响中具有门槛效应,当水资源利用效率超过4.3后,环境规制对经济高质量发展的促进效应显著增强。

浮球覆盖下水面能量平衡再建与蒸发模型研究

针对干旱区平原水库蒸发强烈导致水资源利用率低的问题,选用黑色高密度聚乙烯(HDPE)浮球作为干旱区平原水库节水材料。通过理论分析、建模与室外试验三者结合,对完整非冰冻期内浮球覆盖下水面蒸发、水体能量平衡组分变化分布的响应机理进行研究,并在此基础上建立相应的水面蒸发量计算模型。结果显示:相较于自由水面,73%的浮球覆盖率下的整体水面净辐射吸收率减小约12.6%,其月均蒸发所需潜热通量减少了61.8%,约为148.73 W/m^(2),水体的感热通量和蓄热通量也有较大的变化。通过对彭曼模型的能量项和空气动力项进行修正,建立的覆盖条件下的水面蒸发量计算模型具有较高的精度。

长江流域水资源利用效率及影响因素研究--基于Shephard水资源距离函数

分析长江流域水资源利用效率、时空分布特征及影响因素,对于解决长江流域水资源问题和促进长江经济带发展至关重要。为科学评价长江流域水资源利用效率及空间分布差异,以2012—2020年长江流域11个省(市、自治区)为研究对象,构建Shephard水资源距离函数的随机前沿模型,对长江流域水资源利用效率及影响因素进行实证分析并探究长江流域水资源利用效率时空分异特征。研究表明:1)通过计算水足迹发现,长江流域各省水足迹消费总量趋于稳定,上游省份用水量较少,中下游省份水资源消费量较大,省际水足迹总量差异显著,农业生产是水足迹主要的来源,其次是工业用水;2)运用Shephard水资源距离函数的随机前沿模型计算长江流域水资源利用效率发现,省与省之间差异显著,空间上呈现“中游低,上下游高”的特征,并有逐年降低的趋势;2012—2020年上游省份水资源利用效率自西向东递减,中下游省份水资源利用效率在低水平上保持稳定并有降低趋势;3)选取的影响因素指标系数均通过了显著性检验,水资源禀赋的系数显著为负,表明人均水资源拥有量提高对长江流域水资源利用效率有正向促进作用;经济发展水平的系数显著为负,表明经济发展对水资源效率提升有推动作用;城镇化率的系数显著为负,表明城镇化水平越高,水资源的利用效率高,但影响程度较低;而第三产业占GDP的比重的系数显著为正,表明产业结构调整对水资源利用效率起抑制性作用。最后针对研究结果,提出以下对策建议:建立跨部门协调机制,加强水资源管理和监测;推动区域合作,加强信息共享;优化产业结构,促进可持续发展。

不同测墒补灌模式对黄淮海区域夏玉米生长及水分利用率的影响

为探索黄淮海区域夏玉米最优测墒补灌模式,采用田间试验方法在夏玉米大喇叭口期、抽雄开花期和籽粒灌浆期均分别设0~40 cm土层控制目标土壤相对含水量70%和75%补灌模式2个,以常规灌溉模式(目标土壤相对含水量100%)为对照,研究不同模式对夏玉米成熟期土壤养分、玉米长势、产量及其构成因素、水分利用等的影响。研究结果表明:1)与常规灌溉和70%补灌模式相比,75%补灌模式显著提高了夏玉米成熟期土壤全氮、有效磷、速效钾含量和玉米株高、生物量鲜重、含水量、穗粒数、千粒重和产量,最大增幅分别为8.38%、29.82%、26.74%和12.71%、16.73%、37.76%、18.38%、9.98%、2.56%、12.80%;2)75%补灌模式比常规灌溉模式显著降低了玉米植株耗水总量,节水10.32%,提高了水分利用率25.78%和灌溉水利用率69.71%,75%补灌模式比70%补灌模式水分利用率和灌溉水利用率分别提高了25.81%和14.22%。因此,本试验条件下,夏玉米大喇叭口期、抽雄开花期和籽粒灌浆期75%补灌模式是黄淮海区域夏玉米节水保肥、增产高效的最优测墒补灌模式。

新质生产力视角下的节水产业发展路径探讨

节水产业是水利新兴产业链条中的重要环节,促进其健康快速发展是发展水利新质生产力的重要途径。为打造节水产业新业态,推动节水产业高质量发展,在梳理农业、工业、公共服务业等领域节水产业发展情况的基础上,总结节水产业发展在产业政策、内生动力、产业集聚等方面面临的主要困境,以查基础、强谋划、重发展为主线,结合新质生产力的特征内涵,从实施节水产业家底基础调查、做好节水产业系统谋划、建好节水产业发展支撑链条、促进节水产业市场规范管理等方面提出节水产业发展的路径建议。