共查询到19条相似文献,搜索用时 187 毫秒
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水稻灌溉效益试验成果分析吴端普(福建省泉州市灌溉试验站)开展农田灌溉效益试验,能够较可靠地解决灌溉效益的定量分析等实际问题。泉州市灌溉试验站1991年开始水稻灌溉效益试验研究,经过2年4季的试验成果表明,有灌溉的水稻都增产增收,经济效益显著。农业与水... 相似文献
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姚礼伦 《中国农村水利水电》1982,(4)
水稻灌溉用水量是水利化区划、水库调节计算以及灌区规划设计和管理的重要数据之一,因此如何正确、迅速拟定水稻灌溉用水量,是当前生产上急需解决的重要课题。过去我们经常采用水稻生育降雨量系列频率法(下称“降雨频率法”),选择典型年设计水稻灌溉制度。降雨频率法认为水稻灌溉用水量和生育期降雨量有密切的相关关系,用此法在计算某一保证率的用水量时,总是选取水稻生育期降雨频率接 相似文献
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不同水文年型下水稻节水灌溉技术方案模拟与评价 总被引:1,自引:0,他引:1
为探究适宜的水稻节水灌溉模式,于2016—2017年在蒸渗测坑内进行水稻栽培试验。基于2年试验数据对SWAP-WOFOST模型进行参数的率定与验证,基于1956—2015年60年的降雨资料完成丰、平、枯3种年型的分组,同时改进了SWAP的灌溉排水模块以适应本地化的灌排需求,并由率定后的模型模拟了丰、平、枯3种年型下4种节水灌溉模式的稻田水分运移及水稻生长过程,通过对比不同水文年型下田间水分管理及水稻产量的差异,分析了4种节水灌溉模式的节水、减排与高产效果。结果表明:经率定的SWAP-WOFOST模型可以较好地模拟干湿交替条件下稻田水分运移和水稻生长过程;节水灌溉技术可以减少灌排水量与灌排次数,减少水稻的生理需水和田间渗漏,并能够维持水稻高产,提高水分利用效率;60年模拟期内,控制灌排的灌溉水分生产率在丰、平、枯3种年型下分别为5.52、4.65、3.83kg/m3,各年型下均为最高,控制灌溉的作物水分生产率在丰、平、枯3种年型下分别为2.45、2.31、2.06kg/m3,各年型下均为最高。应用熵权TOPSIS模型对水稻节水灌溉技术方案进行评价优选,结果表明,在保证产量的前提下控制灌排模式具有稳健的节水省工效果。 相似文献
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掌握水稻灌溉需求规律是合理分配和高效利用水资源的科学依据.选取全国12个典型水稻种植区,构建田间水量平衡模型推求1960-2019年水稻逐年常规灌溉制度,采用Mann-Kendall检验分析水量平衡各要素趋势变化,同时利用Pearson相关系数和最大互信息系数(MIC)进行要素间相关性分析.结果表明:中国主要稻区水稻作物需水量ETc表现为中稻(556.39 mm)>晚稻(491.47 mm)>早稻(393.54 mm);灌溉需求表现为中稻(435.94 mm)>晚稻(346.87 mm)>早稻(147.52 mm);降雨利用率表现为晚稻(69.60%)>中稻(65.46%)>早稻(54.68%).近60年来,水稻ETc主要呈下降趋势,华中、华南和东北稻区水稻灌溉量呈现明显下降趋势,而西南和北方稻区主要呈上升趋势.降雨对灌溉需求的影响在北方稻区由生育期累计降雨量主导,而在南方稻区主要由降雨分布特征主导. 相似文献
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《中国农村水利水电》2016,(8)
以滇中嵩明和大理两地水稻为例,于2015年开展了嵩明水稻间歇灌溉与淹水灌溉、大理水稻淹水灌溉下的需水规律及水分生产率试验研究。结果表明,滇中有比较突出的春旱现象,水稻日均蒸发蒸腾量在分蘖期最大,分蘖期以后持续减少,这与内地蒸发蒸腾峰值出现在拔节孕穗或抽穗开花期存在差异。大理水稻作物系数比嵩明要大,主要是品种原因,两地气象因素影响也较大。温度、风速和相对湿度3种气象要素都对作物系数变化产生较大影响,温度是主导气象因素。与淹灌相比,嵩明水稻间歇灌溉节水23.4%。间歇灌溉的节水能力主要来自于提高降雨利用率,减少渗漏量,并在一定程度上降低蒸发蒸腾量。大理水稻亩产比嵩明高出较多,相应的水分生产率也比嵩明高。 相似文献
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在灌溉工程项目经济效益分析和评估中 ,通常应用灌溉效益分摊系数法 ,对粮食作物如冬小麦、夏玉米、水稻方面有一些研究成果 ,但对果树的灌溉效益分摊系数研究较少。山东省胶东地区是国内享有盛名的果树种植区 ,自然条件优越 ,果树种植面积大 ,效益高 ,产业化发展前景好 ,对果树生产效益方面的研究具有实际和很好的代表性。基于上述原因 ,龙口市北邢家水库所在其灌溉试验站对果树灌溉效益分摊系数进行 3年的试验研究 ,主要研究了长把梨、苹果、黄杏 3种主要果树的灌溉效益分摊系数 ,为灌溉水在果树生产中的作用作了定量分析 ,为灌溉工程的经济评价提供了科学依据。 相似文献
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基于作物-水模型的不同降雨年型苜蓿草田生长季地下滴灌灌溉制度研究 总被引:1,自引:0,他引:1
以不同降雨年型苜蓿草田生长季地下滴灌灌溉制度为研究目标,以地下滴灌不同土壤含水量下限控制试验为基础,通过对不同降雨年型苜蓿生长、水分利用及产量指标的系统分析,建立产量-耗水量-水分生产效率的作物-水模型,推求各茬苜蓿最优耗水量,结合典型年降雨在苜蓿生产各茬内的分布特点,提出宁夏引黄灌区苜蓿草田不同降雨年型地下滴灌灌溉制度。结果表明:不同降雨年型下,地下滴灌苜蓿土壤含水量≥50%田间持水率时,各茬株高呈现先升高再下降的2段式变化过程;分枝数随收获茬次的延续逐步下降,茎叶比在丰水年型随灌溉定额增加而升高,在平水年型随收获茬次延续逐步下降;各处理干草产量在不同降雨年型均随收获茬次的延续逐步下降,且土壤含水量下限高于60%田间持水率的各处理间产量差异达不到显著水平;苜蓿草田各茬灌水量通过影响耗水量而影响苜蓿茎叶比、株高和分枝数,进而影响干草产量,并据此建立了苜蓿草田产量-耗水量-水分生产效率间的作物水模型,计算苜蓿草田各茬兼顾产量和水分生产效率的最优耗水量,结合自然降雨分布特征,提出宁夏引黄灌区不同降雨年型苜蓿草田生长季地下滴灌灌溉制度:枯水年苜蓿地下滴灌灌溉定额为5 000 m~3/hm~2,灌水20次;平水年苜蓿地下滴灌灌溉定额为4 600 m~3/hm~2,灌水19次;丰水年苜蓿地下滴灌灌溉定额为4 132 m~3/hm~2,灌水17次。 相似文献
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在总结水稻传统淹水灌溉方式及现行节水灌溉方式的基础上,研究提出了水稻“淹灌-露田”灌溉模式,该模式具有减少灌水次数,减轻灌溉管理的劳动强度,减少斗农渠的输水时间从而提高输水效率,并可提高降雨利用率等优点,介绍了该灌溉模式的基本依据、技术要点及在湖北省宜昌市东风渠管理处灌溉试验站的试验情况,并根据2000-2001年的试验资料,对该灌溉模式的灌溉效果进行了分析。 相似文献
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传统的灌溉效益分摊系数的计算公式中没有考虑随机因素和交互效应的影响,针对这一问题提出了相应的数理统计分析方法,并利用一组历史数据,计算了某一地区的灌溉效益分摊系数。 相似文献
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通辽玉米滴灌灌溉制度 总被引:1,自引:0,他引:1
为更加合理制定玉米滴灌灌溉制度,以我国“节水增粮行动”为背景, 于2016年在内蒙古通辽开展玉米滴灌灌溉制度试验研究.根据试验区34 a的降雨资料进行降雨频率分析,选取不同水文年型的代表年,结合玉米滴灌试验得到实际耗水规律,对比6种灌溉处理在各生育阶段的变化情况,测定了株高、叶面积指数、玉米产量等指标.结果表明:中水处理作物性状及产量较高,且水分利用效率最高,为最佳灌水处理;以中水处理作为滴灌灌溉制度的参考依据,通过气象数据计算参考蒸发蒸腾量ET0.利用实际耗水量获取各生育阶段作物系数,结合代表年型的ET0计算需水量.根据降雨量,得到不同水文年型滴灌灌溉制度:枯水年覆膜滴灌灌溉定额1 575 m3/hm2,无膜滴灌灌溉定额1 785 m3/hm2;平水年覆膜滴灌灌溉定额1 125 m3/hm2,无膜滴灌灌溉定额1 425 m3/hm2;丰水年覆膜滴灌灌溉定额600 m3/hm2,无膜滴灌灌溉定额900 m3/hm2. 相似文献
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Castilla-La Mancha in Central Spain is a semi-arid area of extremely high interannual and seasonal rainfall variability. Average annual rainfall for the catchment of the Upper Guadiana using data from 60 rain gauges for October 1956–September 1991 varied from a minimum of 326 mm in October 1982–October 1983 to a maximum of 642 mm in October 1968–September 1969. The mean annual rainfall for the period was 495 mm with a coefficient of variation for annual rainfall of 26.4%. In addition to this the spatial variability of rainfall is particularly high. For example total annual rainfall varied from 200 to 1200 mm for the hydrological year October 1968–September 1969 over a distance of only 50 km. The mean annual rainfall for all 60 stations for the period 1956–1991 was 460 mm with a coefficient for spatial variation of 15%. Dryland farming which relies on these uncertain precipitation inputs is a high risk activity [Tarjuelo, J.M., de Juan, J.A., Valiente, M., Garcia, P., 1996. Agric. Water Manage. 31, 145–163] and over recent decades intensive irrigation has increased dramatically in order that precipitation inputs can be supplemented as required thereby allowing more stable agricultural productivity. The paper uses a coupled hydrology and vegetation growth model – PATTERN [Mulligan, M., 1996. Modelling hydrology and vegetation change in a degraded semi-arid environment. PhD. Thesis, University of London] to explore the relationship between irrigation and productivity for different soils typical of the Upper Guadiana catchment. Analysis of the model results shows that irrigation efficiency is highly sensitive to both soil texture and irrigation volume. Optimally efficient irrigation in terms of water losses occurs at the lowest volumes of applications. Fine grained soils are better suited to irrigation than coarse grained soils as losses to recharge are minimised. Coarse grained soils have large recharge losses and irrigation is also more sensitive to small changes in texture for coarser soils. Irrigation losses through recharge are also very sensitive to the interannual and spatial variability of rainfall. 相似文献
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通过分析南湾灌区灌溉用水资料,推求出灌溉定额与降雨频率的关系式,绘制不同降雨情况下不同灌溉面积的灌水量图及逐旬分配比例,可供灌区制定用水计划及水库调度运用参考。 相似文献
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《Agricultural Water Management》2006,82(3):343-353
Treated wastewater has been applied to agronomic crops, rangelands, forests and recreation areas including parks and golf courses, and to disturbed lands such as mine spoil sites. While land application systems are conventional technology for many communities, there is limited information to guide land managers in arid and semiarid environments where wastewater may be the only source of supplemental irrigation. In order to develop a creosote climate-based water balance irrigation scheduling model to irrigate a desert ecosystem using wastewater, a crop coefficient (Kc) for the creosote bush (Larrea tridentata) must be determined. The objective of this study is to determine the Kc and evapotranspiration rate of L. tridentata in non-water limiting conditions and to use the data for wastewater irrigation scheduling in the Chihuahuan desert. The study site, located in Las Cruces, New Mexico is semiarid with an average annual rainfall of 220 mm. Thirty L. tridentata shrubs were purchased from a commercial greenhouse in 19 l pots. The pots were weighed before an irrigation and 24 h after irrigation. The weight change was converted to depth of Et based on the area of the plots. Reference Et was determined from climate data and a crop coefficient calculated. A third order polynomial described the change in the crop coefficient with both day of year and growing degree days using a base and minimum cutoff temperature of 0 °C, no upper cutoff temperature and only data when the day length was greater than 11 h. The coefficient of determination was 0.76 using day of year and 0.77 using GDD. The crop coefficient was used in a water balance irrigation scheduling model to predict creosote water use under rainfall condition in the Chihuahuan desert. 相似文献
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为合理进行稻田灌溉效益取值,对广东省不同地区32个样点46年的早稻、晚稻和双季稻的灌溉效益进行时空变化分析。结果发现:稻田灌溉效益在省内不同地区间大小差异悬殊,其变化与降雨量呈负相关关系,其中晚稻灌溉效益大于早稻,双季稻则介于两者之间;灌溉效益在多年时程中变化很大,其变异系数明显大于多年降雨量的变异系数,从多年灌溉效益的离散程度看,晚稻比早稻大,双季稻则比早稻和晚稻小;另外,灌溉效益在多年时程中的离散程度与平均相对减产量呈高度正相关关系,即平均相对减产量愈大,灌溉效益数值的离散度愈大。 相似文献
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《Agricultural Water Management》1988,13(1):83-91
In a vegetative crop like sugar cane, soil water stress will invariably result in reduced growth and yield. Under inadequate rainfall conditions such a crop needs supplemental irrigation to maximize the yield.The present article discusses the relationship between sugar cane yield and rainfall/irrigation requirements. Special attention is given to the potential sugar cane yields and benefit/cost ratios in the Malaiman area in Thailand, under four water conveyance systems (from low- to high-density irrigation and drainage network) and under optimized rainfed cultivation.A linear relationship between cane yield and water use is applied for the prediction of potential crop yields for the various water conveyance systems. These yields are compared with the actual cane production in pilot areas with different irrigation infrastructure, which has been monitored over a period of years. Actual yields fall short of predicted in all cases. This is mainly be attributed to the low cane prices, resulting in sub-optimal cultivation practices by the farmers.Prediction of potential sugar cane yields for local circumstances is quite possible. At present sugar cane price levels, development of a low-density irrigation infrastructure seems to be the most economical solution. 相似文献
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水田灌排一体化系统的开发与应用 总被引:1,自引:0,他引:1
分析国内外农业灌溉和排水领域发展的研究现状和目前常见的灌排装置的特点,针对中国灌溉排水研究领域对节水灌溉、控制排水设施的迫切需求,提出了水田灌排一体化系统的设计方案.该系统能根据农作物不同时期对水位的需求,充分利用灌溉和降雨的水量,较为精确地控制水田的灌溉和排水水位,解决了原有灌排设备无法同时实现灌溉和排水自动控制的难题.实际应用结果表明,水田灌排一体化系统试验区和对照区相比,降雨量增加利用150 mm,降雨利用率提高21%,减少灌水量21%;水稻亩产量增加4.3%;提高肥料的利用效率,减少农业面源污染.该系统结构简单、操作方便,具有可观的经济、生态效益和广阔的应用前景. 相似文献