Economic feasibility of growing capsicum crop under drip irrigation in West Bengal, India

Drip irrigation system has been one of the technical means to improve water use efficiency. In India, this system is gaining popularity among fruit growers and in water scarced area but a substantial area is being covered annually under vegetables crops. One of the major concerns raised by farmers about this system is its economic viability. In present study, the economic viability of drip irrigation system for growing capsicum crop based on discounted cash flow technique (Net present worth and Benefit cost ratio) was explored. Eight irrigation treatments were laid under drip with and without plastic mulch. The irrigation levels were taken as 1, 0.8 and 0.6 of the crop evapotranspiration. The pan evaporation method was used for estimation of reference evapotranspiration and Water Balance Approach was used for irrigation scheduling. The average amount of water supplied under treatment VD (100% irrigation requirement supplied with drip) was found to be 415 mm for whole growing season of the crop. Similarly the amount of water was found to be 332 mm and 249 mm for the treatment 0.8VD (80% irrigation requirement supplied with drip) and 0.6VD (60% irrigation requirement supplied with drip) respectively. Highest yield was recorded in case of treatment VD + PM (100% irrigation requirement supplied with drip plus plastic mulch) followed by VD. Yield under treatments 0.8VD, 0.6VD, 0.8VD + PM and 0.6VD + PM were significant while treatments VD, VF and VF + PM were at par with the treatment VD + PM. Net Present Worth (NPW) was found to be positive for all the treatments. The highest NPW was obtained under treatment VD as Rs. 309,734.90 and lowest was in case of 0.6VD + PM as Rs. 144,172.24. The yield per mm of water used was reported to be at higher side as 35 in both the treatments VD and VD + PM. But the yield per mm of water used was found to be lowest as 18.07 and 19 in case of VF and VF + PM respectively.     

CO2加富及亏缺灌溉对菜豆中期与后期生长的影响

为了探明菜豆中期与后期生长对CO₂加富与亏缺灌溉的生理响应,试验设两个CO₂水平:正常大气浓度和倍增CO₂浓度,两个灌溉水平:自然灌溉12次和亏缺灌溉6次,研究CO₂加富及亏缺灌溉对菜豆生长的影响。结果表明,CO₂加富显著提高菜豆生长中期株高与干质量,净光合速率(Pn)与胞间CO₂浓度(Ci)分别显著降低15.48%、37.67%,气孔导度(Gs)显著提高95.83%,菜豆生长后期的叶绿素a/b(Chla/b)显著提高12.29%,水分利用效率(WUE)显著提高46.51%,Ci显著降低12.87%。CO₂加富显著提高亏缺灌溉下生长中期菜豆的株高与干质量,但显著降低根冠比,显著提高叶绿素含量以及Gs;CO₂加富下生长后期的核酮糖-1,5-二磷酸羧化酶(Rubisco)及果糖-1,6-二磷酸酶(FBPase)活性分别显著提高78.05%与88.69%,CO₂加富使亏缺灌溉下碳酸酐酶(CA)与FBPase活性分别显著提高83.73%与64.84%。综上所述,CO₂加富提高菜豆生长中期对亏缺灌溉的适应性,对生长后期影响作用减小。     

节水灌溉对水稻钾素营养的影响

研究了节水灌溉条件下、不同施肥制度水稻植树对钾的吸收状况。结果表明：灌溉方式和施肥制度对水稻钾的吸收状况均不会造成极显著的影响。节水灌溉能显著提高水稻植株含钾量。     

宁夏灌区丰产桑园施肥技术研究

宁夏灌区丰产桑园施肥试验表明 6 6 7m2桑园施纯 N 5～ 2 5kg之间 ,产叶量随纯 N施入量的增加相应增加 ,同时 ,施入适量 K肥是非常必要的。另外 ,7月下旬到 8月中旬 ,分三次进行桑园叶面喷肥 ,不仅增加桑叶产量 ,而且能防止桑树秋后旺长而枝条不充实     

苹果滴灌应用研究进展与述评

滴灌在国外各主要苹果生产国相当普遍 ,在我国目前还处于事实上的尝试阶段 ,但这一灌溉技术已经展示出多方面的优势和应用前景。随着经济实力的增强、科技装备水平的提高 ,滴灌技术必将在我国的苹果产业中发挥作用。文中 ,作者以近 2 0年间国内外的科技文献为据 ,综述了滴灌技术在苹果生产中的应用及相关研究 ,并对今后在这一领域的科研方向提出了见解。     

特旱年旱地玉米限额补灌水肥效应分析

采用田间试验方法研究了旱地玉米限额补灌的水肥效应。结果表明，玉米小喇叭口期灌水675mm／hm2，平均增产玉米2171.5kg／hm2，增产率89．27％，灌水生产效率为3.217kg／mm;3种肥料的增产效果为N＞M＞P。未灌水条件下，3种肥料的增产效果为M＞P＞N。配合施用的增产效果为NPM＞NP。     

滴灌马铃薯生长及产量的影响

通过对不同灌水量及不同灌水间隔时间的马铃薯生长状况进行大田滴灌试验,研究马铃薯适宜的灌水定额及灌水周期,以求达到节水、增产的目的。试验结果表明:马铃薯滴灌时,灌水量越大,灌水周期越短,株高越高;茎粗开始衰减的时间比株高要早十几天,且衰减幅度比株高要大。灌水周期最短的处理茎粗却并不是最大,在180 m3/hm2的灌水定额下,灌水周期为5天的处理茎粗值最大。在相同的灌水量下,灌水间隔时间越短的处理马铃薯淀粉含量越高。灌水定额越小,灌水周期对产量的影响就越大;而当灌水定额一定时,灌水周期越短,产量越高;灌水定额为90 m3/hm2,灌水周期为3天的处理产量最高,为28 260 kg/hm2,比7天1灌的处理每公顷产量高出达10 350 kg。     

膜孔灌溉技术要素试验研究

根据膜孔灌溉大田灌水试验资料 ,分析了膜孔灌溉特点和灌水技术要素对膜孔灌灌水定额的影响 ,研究了单宽流量与开孔率与膜孔灌灌水定额的关系。研究成果为膜孔灌溉理论与技术的进一步研究奠定了基础     

分叉角与回转半径对双向流道灌水器水力性能影响模拟研究

为研究双向流道灌水器水力性能，将其结构单元作为研究对象，以分叉角和回转半径两个结构参数为影响因素，采用正交试验设计16种结构参数组合方案，利用计算流体动力学软件Ansysfluent对流道内部流体的流动状态进行数值模拟，通过量纲分析建立流道结构参数与流道单元局部水头损失的回归模型。结果表明：双向流道单元局部水头损失与分叉角、回转半径和流道流速有关，分叉角与局部水头损失呈负相关关系，回转半径和速度与局部水头损失呈正相关关系；当入口流速为固定值时，分叉角为32.4°、回转半径为1.72 mm，流道单元局部水头损失最大；当设置10个流道单元时，交叉排列方式组合的灌水器流态指数较优。     

灌溉量和氮肥增效剂对夏玉米产量及水肥利用的影响

为探究水分和氮肥增效剂对夏玉米生长及水肥利用的综合影响，通过设置40 mm（W1）和60 mm（W2）两个灌水水平下不施氮肥（N0）、施用氮肥（U）、氮肥+硝化抑制剂（U+DCD）、氮肥+脲酶抑制剂（U+NBPT）、氮肥+双效抑制剂（U+N+D）5种氮肥施用措施，开展夏玉米田间试验。结果表明：相较于施用氮肥处理，氮肥配施增效剂可以显著提高夏玉米产量、成熟期地上生物量、净收益、水分利用效率和氮肥偏生产力，增幅分别为5.92%~13.82%、5.85%~18.07%、11.12%~24.30%、12.35%~41.83%和5.93%~13.80%，其中氮肥配施双效抑制剂效果较优；氮肥配施脲酶抑制剂和双效抑制剂可以降低夏玉米农田土壤氨挥发累积量和成熟期土壤硝态氮残留量，前者效果最优。相比于W1，W2水平下氮肥配施双效抑制剂处理玉米产量、成熟期地上生物量、净收益、水分利用效率和氮肥偏生产力分别提高10.54%、15.51%、19.40%、20.31%和27.36%；氮肥配施脲酶抑制剂处理农田土壤氨挥发累积量和硝态氮残留量分别降低11.33%和48.46%。综合考虑夏玉米施肥灌水方案的经济效益、环境效益、水肥利用效率和玉米植株生长，构建模糊综合评价体系，得到最优处理为灌水量60 mm下氮肥配施双效抑制剂。