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节水灌溉新技术--根区导灌 总被引:2,自引:1,他引:1
根区导灌技术是福建亚通新材料科技股份有限公司的专利技术,它根据作物生长发育的需要。将水经过稳流器的稳流再通过导管将水一滴一滴地向有限的地下土壤空间供给,仅在作物根系范围内进行局部灌溉,也可同时根据需要将化肥和农药等随水滴入作物根系。作为一种新型的节水灌溉技术,与地表灌溉、喷灌等技术相比,有着无可比拟的优点。是目前最节水、节能的灌水方式。由于地下灌溉的配水设施埋设在地面以下,管材不易老化,灌水时土壤表面几乎没有蒸发,又避免了水的深层渗漏和地表径流。使作物对水、肥的利朋更直接有效,便于田间管理和精确控制灌水量,达到农业高效用水的目的。 相似文献
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水肥一体化是将灌溉与施肥融为一体的一种节水农业技术,借助管道灌溉系统,将由固体肥料或液体肥料配兑而成的肥液适时、适量地输入到农作物根部土壤,保证农作物对水分和养分的需求。水肥一体化技术的实现对提高水、肥利用效率、减少环境污染具有重要的意义。针对水肥灌溉一体化技术控制实施过程中具有的非线性和不确定性,结合PLC控制系统稳定、可靠的特点,将模糊控制技术应用到水肥一体化控制设备,提高水肥一体化灌溉施肥机的水肥利用效率,实现水肥一体化自动精准灌溉施肥。仿真结果表明精准灌溉施肥模糊控制技术的应用达到了水肥一体化设备对高效施肥的要求,实现水肥的同步管理和高效利用。 相似文献
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水肥一体化自动精准灌溉施肥设施技术的研究和实现 总被引:1,自引:0,他引:1
水肥一体化精准灌溉施肥技术是将施肥与灌溉结合在一起的一项精准农业新技术,它借助灌溉系统,将由固体肥料或液体肥料配兑而成的肥液一起均匀、准确输入到作物根部土壤,有效控制灌溉水量和施肥量,提高水肥利用效率。本文论述了水肥一体化精准灌溉施肥基本构成以及应用成效,自动精准滴灌施肥机的工作原理、技术性能。对施肥装置、混合装置、过滤装置、EC/PH检测监控反馈装置、精准灌溉施肥模糊控制技术进行探索研究,提出了实现水肥一体化自动精准灌溉施肥主要技术途径。 相似文献
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水肥一体化灌溉技术,肥效快且有很高的养分利用率,能够有效避免肥料在较干表层土中施入导致无法有效溶解、挥发失效、影响施肥效果的问题,特别是对于一些尿素态、铵态氮肥施入地表造成挥发损失的问题发挥着重要作用,能够有效减少肥料应用,提高肥料利用率。所以推广应用高效水肥一体化灌溉设备,对于提高水肥一体化灌溉技术应用具有重要的促进作用。本文结合实践,主要探讨分析了一种适宜于多工况条件下的高效水肥一体化灌溉设备,该设备不仅有着很高的工作效率,而且能够在多工况条件下应用,有效调节施肥量,动力比较轻便,尤其适于蔬菜种植以及果树种植灌溉方面的应用。 相似文献
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农田覆盖条件下的灌水施肥新技术 总被引:4,自引:1,他引:3
农田覆盖是减少作物棵间无效蒸发损耗的有效措施,但秸秆覆盖下灌水易造成雍塞阻水,地膜覆盖下灌水不易入渗,同时农田覆盖同分期施肥亦有矛盾。通过在河南省古固寨节水试区的探索、研究,使得覆盖条件下的灌水、施肥问题得到了较好的解决。 相似文献
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两种施肥水平下根区局部灌溉对甜玉米水分利用的效应 总被引:10,自引:0,他引:10
根区局部灌溉如分根区交替灌溉和部分根干燥灌溉是新的高效节水技术。研究了两种施肥水平条件下根区局部灌溉对甜玉米叶片光合、叶面积、干物质积累和水分利用的影响。结果发现,与常规均匀灌水相比,根区局部灌溉高、低肥处理的蒸腾速率分别降低19.01%和17.50%.光合速率分别提高8.88%和18.34%,叶片水分利用效率分别提高34.69%和43.45%。随着甜玉米生育期的推进.各灌溉处理间的叶面积差异逐渐缩小;单株干物重分别下降15.14%和24.38%,蒸散量(即作物耗水量)分别下降31.28%和29.58%;冠层水分利用效率分别提高23.48%和7.40%。这表明较高肥条件下根区局部灌溉的冠层水分利用效率提高较多,因而根区局部灌溉技术的节水效应要与合理施肥相结合才能发挥更好的作用。 相似文献
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中国节水灌溉装备与技术发展展望 总被引:1,自引:0,他引:1
分别从灌排设施、灌排管理体制和投资政策3个方面,回顾了中国灌溉排水70 a以来所取得的成就.随着灌溉面积增大,灌排设施极大提高了中国粮食产量和农业生产能力;灌排管理体制发生巨大变化,由农民集体管理为主转化为骨干工程国家事业单位管理为主,促进了灌排工程快速发展和良性运行;投资政策有效地服务了水利基本建设.但目前中国依旧存在灌溉用水利用率较低、水肥一体化灌溉农田占比较低和灌溉系统信息化程度较低等问题,与高质量的农业生产发展还有很大的距离.结合国家粮食与生态保障的战略需求,分别从大中型灌区节水改造、水肥一体化节水灌溉装备与技术和喷滴灌、管道输水灌溉和泵站改造方面,提出了中国节水灌溉装备与技术的未来机遇和挑战.为了促进中国节水灌溉行业发展,加强灌排装备的理论研究和自主创新,发展高效、节能和环保的技术和产品,提高产业信息化、智能化和网络化,是实现农业现代化生产建设的必然趋势. 相似文献
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我国微灌发展现状及“十三五”发展展望 总被引:1,自引:0,他引:1
近几年微灌在我国得到了大面积推广,形成了以西北地区为主、以大田优势作物为主的规模化发展布局,形成了与农艺、农机相结合的综合模式,取得了显著的节水、增产、增收效果,促进了农业现代化发展。总结了微灌发展现状、成效特点、存在的问题,分析了微灌发展面临的形势,并对"十三五"微灌发展进行了预测与展望。预测了"十三五"微灌发展的规模与布局,提出了"十三五"发展的6个重点发展方向,一是推广水肥一体化技术,充分发挥微灌节水节肥、增产增收效果;二是推广与农业现代化相适应的低压小流量滴灌技术,推进农业现代化进程;三是推广自动化、智能化技术,提高灌溉管理水平;四是加强作物灌溉制度、精准施肥研究推广,指导农民科学灌溉施肥;五是总结管理改革经验,完善高效节水灌溉管理机制;六是变革完善投入方式,优化微灌发展布局。 相似文献
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Effect of improved cultural practices on crop yield and soil salinity under relatively saline groundwater applications 总被引:2,自引:0,他引:2
The salinity in the root zone increases with the application of relatively saline groundwater. Therefore, a limited water
supply coupled with high pumping cost and salinity hazards, makes it more important than ever that irrigation water be used
efficiently and judiciously. In the present study, farmer's practices of irrigation application methods (Field 1) were compared
with the water saving techniques (Field 2) for crop yield and salinization for two years with maize–wheat–dhanicha cropping
pattern. For maize crop, regular furrow method of irrigation was used in Field 1 and alternate furrow method of irrigation
was used in Field 2. For wheat experiments, basin irrigation method of water application was compared with bed and furrow
method. For dhanicha, basin irrigation was applied in both the fields. The results showed that about 36% water was saved by
applying irrigation water in alternate furrows in each season without compromising the maize crop yield. The salt accumulation
in root zone in alternate furrow field was less than that in regular furrow field. The salinity level near the surface increased
substantially in both the fields. The water saving in wheat crop under bed and furrow was 9–12% in both seasons. The salinization
process in both fields during wheat crop was almost same except redistribution of salts throughout the root zone in basin
field of wheat. The salinity developed in root zone during two major growing seasons was leached in monsoon. 相似文献
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根灌高效节水农业新技术及其应用效果 总被引:9,自引:1,他引:9
根灌是一种能将水直接灌到植物根部的高效节水农业新技术,具有抗旱、保水、施肥、改良土壤和防治地下病虫害五种功能。通过与滴灌技术的比较,根灌的优越性在于:治理戈壁沙漠效果显著;种植瓜菜节水高产;用于经济果林速生丰产;种植花卉节水省工。根灌适合于经济林、瓜菜和玉米等,在我国有着广阔的推广应用前景。 相似文献
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An improved water use efficiency of cereals under temporal and spatial deficit irrigation in north China 总被引:6,自引:0,他引:6
Taisheng Du Shaozhong Kang Jingsheng Sun Xiying Zhang Jianhua Zhang 《Agricultural Water Management》2010,97(1):66-74
Water shortage is the major bottleneck that limits sustainable development of agriculture in north China. Crop physiological water-saving irrigation methods such as temporal (regulated deficit irrigation) and spatial (partial root zone irrigation) deficit irrigation have been tested with much improved crop water use efficiency (WUE) without significant yield reduction. Field experiments were conducted to investigate the effect of (1) spatial deficit irrigation on spring maize in arid Inland River Basin of northwest China during 1997–2000; (2) temporal deficit irrigation on winter wheat in semi-arid Haihe River Basin during 2003–2007 and (3) temporal deficit irrigation on winter wheat and summer maize in Yellow River Basin during 2006–2007. Results showed that alternate furrow irrigation (AFI) maintained similar photosynthetic rate (Pn) but reduced transpiration rate (Tr), and thus increased leaf WUE of maize. It also showed that the improved WUE might only be gained for AFI under less water amount per irrigation. The feasible irrigation cycle is 7d in the extremely arid condition in Inner River Basin of northwest China and less water amount with more irrigation frequency is better for both grain yield and WUE in semi-arid Haihe River Basin of north China. Field experiment in Yellow River Basin of north China also suggests that mild water deficit at early seedling stage is beneficial for grain yield and WUE of summer maize, and the deficit timing and severity should be modulated according to the drought tolerance of different crop varieties. The economical evapotranspiration for winter wheat in Haihe River Basin, summer maize in Yellow River Basin of north China and spring maize in Inland River Basin of northwest China are 420.0 mm, 432.5 mm and 450.0 mm respectively. Our study in the three regions in recent decade also showed that AFI should be a useful water-saving irrigation method for wide-spaced cereals in arid region, but mild water deficit in earlier stage might be a practical irrigation strategy for close-planting cereals. Application of such temporal and spatial deficit irrigation in field-grown crops has greater potential in saving water, maintaining economic yield and improving WUE. 相似文献
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针对极端干旱区水资源匮乏的现状,以大田葡萄为研究对象,采取根系分区交替滴灌方式研究葡萄生理指标和根区土壤水分分布的变化影响.结果表明:葡萄新枝生长量和叶面积指数随时间的变化过程均可用Logistic模型进行描述,且通过单因素方差分析得出,交替滴灌和常规滴灌的叶面积指数差异不具有统计学意义,说明交替滴灌对植物光合作用主要器官--叶片的生长无明显影响;在棵间蒸发、植物根系吸收以及重力势和水势梯度的共同作用下,交替滴灌条件下沟、垄土壤含水率交替上升,且土壤含水率变化范围主要集中在0~60 cm土层,交替滴灌的耗水量和棵间蒸发量均小于常规滴灌,从而可以提高作物的水分利用效率.该研究为极度干旱区作物节水灌溉提供了一定的科学依据. 相似文献
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研究不同滴灌灌水方式下不同灌水量对南疆沙区漫灌改滴灌成龄红枣株高、产量、水分利用效率和品质的影响,为南疆沙区成龄红枣漫灌改滴灌高效节水技术提供理论依据。以新疆第一师的沙区骏枣为试验材料,考虑滴灌方式和灌水量两个因素,设置6个不同的灌水处理和一个漫灌对照处理进行大田试验。改滴灌后根部点源灌水、均匀面源灌水红枣全观测期耗水量均呈单峰曲线趋势变化,耗水量均随着灌水量的增加而增加,相同灌水量条件下均匀面源灌水比根部点源灌水的耗水量低。根部点源灌水方式下随着灌水量的增加产量和水分利用效率呈现先增大后减小的趋势;均匀面源灌水方式下产量随着灌水量的增加逐渐增加,而水分利用效率随着灌水量的增加逐渐小幅度减小。在合理灌水量范围内,根区点源灌溉方式相比均匀面源灌溉方式在产量、水分利用效率、品质方面表现更优。 相似文献
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新疆内陆河灌区节水农业技术体系集成与示范 总被引:2,自引:0,他引:2
开展农业高效用水科技产业化示范研究,探索干旱地区规模化灌溉农业类型区农业高效用水技术及发展模式。提出流域水资源合理配置与优化调度方案,研究了抗冻胀防渗渠道的结构设计、田间节水灌溉技术。农业综合配套技术及相应的灌区管理技术,形成干旱地区规模化灌溉农业类型区农业高效用水综合技术体系。 相似文献
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【目的】探究夏玉米根系分布、水分利用效率及产量对沟灌种植下不同秸秆覆盖方式的动态响应。【方法】在河套灌区开展不同耕作模式的小区试验,试验设常规垄覆膜沟灌(FM)、垄覆秸秆沟灌(FLJ)、沟覆秸秆沟灌(FGJ)、垄沟覆秸秆沟灌(FLGJ)4个处理。研究了夏玉米各土层的根长密度、作物耗水量、产量及其相关指标,【结果】沟灌种植模式下不同秸秆覆盖方式显著(P<0.05)影响夏玉米根系分布、产量和水分利用效率,通过沟覆秸秆沟灌可改善夏玉米根系分布,提高水分利用效率,达到高产。沟覆秸秆促进了垄上大于40 cm土层根系发育,根长密度较FM处理增加128.1%,显著提高沟里大于20 cm土层根长密度,促进对深层土壤水分养分吸收利用,提高产量。与FM处理相比,FGJ和FLGJ处理的水分利用效率显著提高了51.9%和54.3%,增产9.3%和9.0%,但FGJ处理的收获指数显著高于其他处理(P<0.05),为0.48。【结论】沟灌种植模式下沟覆秸秆FGJ处理改善深层根系分布效果较好,显著提高夏玉米水分利用效率及产量。 相似文献
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滴灌紫花苜蓿根层水分稳定同位素特征分析 总被引:1,自引:0,他引:1
为了明确滴灌紫花苜蓿根层水分运移,进一步阐明滴灌节水机理,采用液态水稳定氢氧同位素技术,分析了滴灌紫花苜蓿根层水分稳定氢氧同位素分布特征。结果表明,紫花苜蓿根层水分稳定氢氧同位素在下层富集,且随土壤剖面深度的增加同位素富集量有增加的趋势。滴灌条件下,紫花苜蓿根层发育有较多细根,可迅速而高效地利用灌溉水,灌溉后紫花苜蓿对灌溉水的利用不明确偏向于某一深度土层,根层内各土层土壤水均有利用。灌溉前土壤干旱时,滴灌紫花苜蓿以30 cm上下土层土壤水作为主要水分来源的概率较高。 相似文献
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Mahmoud M. Moustafa 《Irrigation and Drainage Systems》1998,12(2):141-159
Drainage water from the lower boundary of the root zone is an important factor in the irrigated agricultural lands for prediction of the water table behavior and understanding and modeling of water and chemical movement in the soil profile. The drainage coefficient is an important parameter for the design of subsurface drainage. On a 33,138 ha of the Nile Delta in Egypt, this study is conducted using 90 irrigation periods over a 3-year crop rotation to estimate the time-dependent drainage from the root zone and the design subsurface drainage coefficient with different cropping seasons and irrigation management levels.The results showed that the cropping seasons and the irrigation management levels as indicated by different irrigation efficiency are significantly affected the drainage rate from the root zone and the design value of subsurface drainage coefficient. Drainage rates from the root zone of 1.72 mm/d and 0.82 mm/d were estimated for summer and winter seasons, respectively. These rates significantly decreased in a range of 46% to 92% during summer season and 60% to 98% during winter season when the irrigation efficiency is increased in a range of 5% to 15%. The subsurface drainage coefficient was estimated to be 1.09 mm/d whereas the design drain pipe capacity was estimated to be 2.2 mm/d, based on the peak discharge of the most critical crop (maize), rather than 4.0 mm/d which is currently used. A significant decrease of the drainage coefficient and the drain pipe capacity ranges from 18% to 45% was found with the increase of irrigation efficiency in a range of 5% to 15%. The leaching requirement for each crop was also estimated. 相似文献