草坪灌溉与排水课程设计的关键环节分析

为了提高草业科学本科生创造性和独立性,要求学生完成喷灌系统课程设计。该课程设计特点是公式多、难记忆、抽象和难掌握。在课程设计过程中,学生经常找不到切入点,不知道各环节计算公式和各环节之间的联系。通过对多年教学过程的总结和概括,分析设计灌水定额和灌水周期、喷头布置和选型、轮灌组划分等关键环节,进一步阐明各关键环节之间的联系,以期指导学生更好掌握草坪灌溉与排水课程,达到满足草坪草用水、节约用水、形成水动景观效果、解决我国水资源紧张等目的。     

劣质水灌溉对土壤盐碱化及作物产量的影响

长期的劣质水灌溉将导致土壤潜在的次生盐碱化。通过在以色列的大田试验,分析了劣质水灌溉对浅埋地下水位条件下土壤盐碱动态和作物产量的影响。试验在安装有暗管排水系统的试验田中进行。试验田土壤为粉砂粘土,种植有饲料玉米(Zea mays L.)。试验结果显示,高盐碱地下水的侧向运动和蒸发形成了试验田南半部和北半部土壤中盐碱度分布的巨大差异。在试验条件下,0～1.2 m土壤中的盐分在整个玉米生长期内平均增加了7.5%,碱度增大了19.6%。作物产量和植株高度与土壤含盐量成反比,籽粒产量受影响最为严重。利用冬季的降雨淋洗土壤盐分是维持本地区灌溉农业持续发展的关键。     

推迟灌拔节水条件下种植模式对冬小麦抗倒伏特性和产量的影响

华北平原冬小麦在粮食生产中占据重要地位,受到灌溉用水短缺影响以及生育后期易倒伏减产的制约,冬小麦供需矛盾日益突出。该研究探究了推迟灌拔节水条件下不同种植模式对冬小麦抗倒伏特性的影响,设置宽幅精播（W）与常规种植（C）2种种植模式,每种种植模式设置灌拔节水60 mm（I1）和推迟10 d灌拔节水60 mm（I2）2种灌溉处理,研究冬小麦关键生育期茎秆物理指标,倒数第2节间茎杆力学、抗倒伏指数、蠕变变形量、产量及其组成等指标,探究冬小麦抗倒伏特性综合调优的种植模式和灌溉制度。结果表明,宽幅精播模式下推迟灌拔节水对抽穗期倒数第2节间茎杆抗折力有显著提升的趋势,显著提高了抗弯刚度,显著降低了蜡熟期倒数第2节间茎杆抗折力和抗弯刚度,以及植株蜡熟期鲜质量;宽幅精播模式下推迟灌拔节水显著提高了抽穗期抗倒伏指数,并提升了灌浆期抗倒伏指数,该处理在抽穗期、灌浆期和蜡熟期的抗倒伏指数平均值分别为2.03、1.58和1.87 N/(m·g)。冬小麦倒数第2节间茎杆在施加小于其极限抗折力的不同比例荷载时具有蠕变特性,宽幅精播模式下推迟灌拔节水茎杆蠕变极值平均值在抽穗期最大,灌浆期表现仍然较好,均由减速蠕变过渡到稳定蠕变阶段,蠕变极值范围介于0.6%～3.7%,蠕变极值平均值介于0.7%～2.5%。综合考虑抗倒伏指数和蠕变试验结果,冬小麦在宽幅精播模式下结合推迟10 d灌拔节水处理的抗倒伏特性最优。研究结果可为华北平原冬小麦节水高产提供理论依据和技术支持。     

黄土坡地径流收集膜下自流出滴灌溉系统设计及其生态效益研究

黄土坡地径流收集及膜下自流出滴灌溉技术可有效地收集丰雨期地表径流,就地储存,旱季利用自然高差灌入集水袋,经自流管进行膜下自流灌溉,可有效地提高该区降水利用率,有效地解决黄土高原地形破碎、渠系难以浇灌的难题.造林试验表明,该技术可明显地提高20～70 cm土层含水量,可使刺槐、油松、枣树造林成活率分达到97.7%、91.4%、90.5%,比对照分别提高了57.0%、77.8%和69.4%;结合幼树根基覆膜技术,在栽植第2年即可使刺槐、油松、枣树之主径分别比对照提高26.9%、55.2%和49.6%,树冠投影面积分别比对照提高90.9%、74.2%和51.8%.同时可明显地降低坡地土壤侵蚀模数,在降雨387 mm的情况下,处理区径流发生量及土壤侵蚀模数分别较对照下降38.3%和102.7%.具有良好的生态效益和社会效益,在立地条件差、地形破碎的黄土丘陵沟壑区是一项投资少、效益高、简单易行的抗旱新技术,在我国西北同类型干旱地区有着较好的推广前景.     

Improving the estimation of soil water evaporation based on days after wetting

Soil evaporation constitutes a major pathway of water loss in agriculture. Understanding its dynamics in the face of drying and soil cover is fundamental to improve both simulation models and the sustainability of production systems. Thus, the objective of this study was to estimate soil evaporation as a function of drying and percentage of soil cover. Three experiments were carried out in three different periods. In each of the periods, in parallel and in an adjacent area, an experiment was carried out to evaluate the influence of weighing micro-lysimeter (ML) height on the estimation of direct soil evaporation. The experiments were installed with a completely randomized design. For the experiments that measured evaporation as a function of cover, the treatments consisted of six different percentages of cover of the internal area of the ML (0%, 10%, 25%, 50%, 75% and 100%), with four replicates, using artificial plants to cover the soil. The experiments that estimated evaporation as a function of ML height were conducted with eight repetitions and three different ML heights (100, 200 and 300 mm). It was observed that the accumulated evaporation up to 25 days after wetting was 52% and 53% lower in micro-lysimeters with 100 mm height, compared to those with 200 and 300 mm height, respectively, for all experiments. The new model developed to calculate soil evaporation as a function of the days after wetting and percentage of soil cover showed excellent performance (NSE > 0.95).     

温室增温和灌溉量变化对棉花产量、 生物量及水分利用效率的影响

为了解气候变化对棉花生长的影响,在2011—2012 年,通过2 个温室进行增温和灌溉量变化的试验（一个温室用红外灯管增温,另一个不增温）,每个温室设田间灌溉量的0.7 倍、0.85 倍、1 倍、1.15 倍、1.3 倍5 个灌溉水平,研究增温和灌溉量对产量、生物量及水分利用效率的影响。结果表明,棉花生长季平均温度增加1~3.5℃有利于产量的增加,生长季、花期和铃期温度升高1℃,产量分别增加200.694、225.732、109.838 kg/hm2,而蕾期温度升高1℃却会降低产量162.814 kg/hm2。生长季和蕾期增温1℃会分别降低生物量1079.2、1179.8 kg/hm2,降低产量和干物质的水分利用效率3.4215、2.8098 kg/(hm2·mm)。灌溉倍数每增加1 倍,产量和生物量分别增加734.51、2242.3 kg/hm2。但增温会增加水分的消耗量,这对于处于干旱区的新疆来说是不利的。随着气候变暖,棉花耗水增大,产量增加。     

The quality of service provided by the irrigation department to the users associations, Tunuyan System, Mendoza, Argentina

The quality of service provided by the provincial Irrigation Department (DGI) to the Water Users Associations (UA), and subsequently by the UA's to the related water users, is based on the provincial water law. The intended volume of water being delivered per considered period further depends on the water availability and on the (crop irrigation) water requirements. The Service Level (SL) compares the intended water supply with the water supply that would be required to supply the entire irrigable area with sufficient water. As soon as the intended water delivery pattern is set, the measured actual delivery can be assessed against the intention. Several performance indicators are used in this context. Based on the assessment of the Water Delivery Performance Ratio and the Overall Consumed Ratio recommendations are made on changes which can be made to improve water use and reduce problems of waterlogging.     

滴灌频次对化学脱叶棉花产量和品质影响机制的研究

为了明确脱叶效果较好且产量较高的滴灌频次,研究了不同滴灌频次对化学脱叶棉花土壤含水率、叶绿素荧光参数、脱叶效果及产量品质的影响。试验结果表明,滴灌频次7次（D7）处理为棉花生育后期提供较适宜的土壤含水量且有效调节20~40cm土层的土壤水分,调节化学脱叶棉花叶片荧光参数和产量,适当降低光合活性,促进棉花脱叶率与吐絮率增长,且降低挂枝率16.12%~24.95%,从而使产量增加7.61%~15.99%,同时纤维长度和纺织一致性分别增加了1.91%~3.87%、4.58%~14.72%。因此,滴灌频次为7次（D7）更适宜南疆化学脱叶的等行距机采棉种植。     

绿洲春小麦调亏灌溉对土壤磷素养分的影响研究

对甘肃省河西绿洲灌区春小麦调亏灌溉两年后土壤速效磷和全P变化进行了研究,并采用配对样本t检验(双尾检验)对小麦收获时土壤P素养分指标年际间的差异及其与全生育期调亏供水量、速效磷与全P的关系进行了回归分析。结果发现,春小麦调亏灌溉对土壤P素养分有显著影响,0~20cm和0~40cm土层土壤全P量和速效磷均与小麦全生育期供水量呈线性正相关;土壤速效磷随着全P量的增加呈线性增加趋势。且小麦全生育期供水量与土壤全P量和速效磷及速效磷与全P量的关系0~20cm和0~40cm土层极为一致。     

灌水量对不同类型晚稻生育及产量影响的初步研究

采取盆栽遮雨人工定量灌水的方法,探讨了常规晚稻和杂交晚稻前后两大生育时期不同灌水量对生育和产量的影响.结果表明:两类型晚稻品种前后两个生育时期节水灌溉都能达到高产之目的,但不同类型和不同生育时期的最佳灌水量和节水效果不同.