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61.
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In the present study, water and nitrogen interaction on soil profile water extraction and evapo-transpiration (ET) was investigated taking a field experiment on a clay loam soil (Typic Haplustept) at the Indian Agricultural Research Institute, New Delhi with four consecutive crops (maize-wheat-maize-wheat) taken from July 2002 to April 2004. Three levels of water regime, namely W1, W2 and W3 referring to limited, medium and maximum irrigation were applied to each crop depending on the seasonal rainfall and the critical crop growth stage. The three water regimes were used with five nitrogen levels from T1 to T5, (T1, 0% N; T2, 75% N; T3, 100% N; T4, 150% N; T5, 100% N from organic source) in a split plot design for the four crops grown in sequence.Significant water and nitrogen interaction was observed for ET and soil profile water extraction pattern. Averaged across nitrogen treatments, ET in W2 and W3 were higher by 17 and 26%, respectively than W1 in maize 2002 and by 12 and 19% in maize 2003. In case of wheat, ET in W2 and W3 were higher by 27 and 58% than W1 in 1st crop and by 37 and 70% in 2nd crop. The effect of nitrogen regime, however, was prominent in both crops of maize and wheat, with significantly higher profile soil moisture depletion in T4 of each water regime. In all cases, lowest water depletion was observed in control plots receiving 0% N.In both crops, water extraction from surface 60 cm was highest in W3 followed by W2 and W1. In maize, the % extraction from 0 to 60 cm layer varied from 71 to 76% (W1), 70-79% (W2) and 75-82% (W3), whereas the values for wheat were 70-77, 72-79 and 75-83% for W1, W2 and W3, respectively. The 90-120 cm layer contributed only 3-14% to total water extraction in both the crops. From 90 to 120 cm layer, higher extraction was observed in W1 as compared to W3. The extraction values in W1, W2 and W3 in maize were 9-13, 7-14 and 3-9, respectively, whereas the corresponding values in wheat were 8-14, 5-12 and 3-7% for the three water regimes. Effect of nitrogen treatments on water extraction from deeper layer was observed with higher extraction in highest fertilized treatment (T4) as compared to other treatments. 相似文献
64.
Yield and water-production functions of two durum wheat cultivars grown under different irrigation and nitrogen regimes 总被引:2,自引:0,他引:2
Wheat (Triticum durum L.) yields in the semi-arid regions are limited by inadequate water supply late in the cropping season. Planning suitable irrigation strategy and nitrogen fertilization with the appropriate crop phenology will produce optimum grain yields. A 3-year experiment was conducted on deep, fairly drained clay soil, at Tal Amara Research Station in the central Bekaa Valley of Lebanon to investigate the response of durum wheat to supplemental irrigation (IRR) and nitrogen rate (NR). Three water supply levels (rainfed and two treatments irrigated at half and full soil water deficit) were coupled with three N fertilization rates (100, 150 and 200 kg N ha−1) and two cultivars (Waha and Haurani) under the same cropping practices (sowing date, seeding rate, row space and seeding depth). Averaged across N treatments and years, rainfed treatment yielded 3.49 Mg ha−1 and it was 25% and 28% less than half and full irrigation treatments, respectively, for Waha, while for Haurani the rainfed treatment yielded 3.21 Mg ha−1, and it was 18% and 22% less than half and full irrigation, respectively. On the other hand, N fertilization of 150 and 200 kg N ha−1 increased grain yield in Waha by 12% and 16%, respectively, in comparison with N fertilization of 100 kg N ha−1, while for cultivar Haurani the increases were 24% and 38%, respectively. Regardless of cultivar, results showed that supplemental irrigation significantly increased grain number per square meter and grain weight with respect to the rainfed treatment, while nitrogen fertilization was observed to have significant effects only on grain number per square meter. Moreover, results showed that grain yield for cultivar Haurani was less affected by supplemental irrigation and more affected by nitrogen fertilization than cultivar Waha in all years. However, cultivar effects were of lower magnitude compared with those of irrigation and nitrogen. We conclude that optimum yield was produced for both cultivars at 50% of soil water deficit as supplemental irrigation and N rate of 150 kg N ha−1. However, Harvest index (HI) and water use efficiency (WUE) in both cultivars were not significantly affected neither by supplemental irrigation nor by nitrogen rate. Evapotranspiration (ET) of rainfed wheat ranged from 300 to 400 mm, while irrigated wheat had seasonal ET ranging from 450 to 650 mm. On the other hand, irrigation treatments significantly affected ET after normalizing for vapor pressure deficit (ET/VPD) during the growing season. Supplemental irrigation at 50% and 100% of soil water deficit had approximately 26 and 52 mm mbar−1 more ET/VPD, respectively, than those grown under rainfed conditions. 相似文献
65.
66.
《Plant Production Science》2013,16(3):293-306
AbstractA two-band digital imaging system —one band for the visible red band (RED, 630?670 nm) and the other for the near infrared band (NIR, 820?900 nm)— was devised and positioned at a height of 12 m above a rice field of 300 m2 in area during the 2007 growing season. The imaging system automatically logged bird’seye view images at 10-min intervals from 0800?1600 every day. Radiometric corrections for the pairs of two-band images were done using solar irradiance sensors and preceding calibrations to calculate daily band-reflectance and the normalized difference vegetation index (NDVI) values for 9 plots of rice plants, with 3 levels of planting density and basal fertilization. The daily- averaged reflectance values in the RED and the NIR bands showed different but smooth seasonal changing patterns according to the growth of plants. At the maximum tiller number and the panicle formation stages, the RED and NIR reflectance values had correlation coefficients (r) of 0.79 and 0.81 with above-ground nitrogen absorption per unit land area (NA, g m-2), respectively, whereas the NDVI using the two band reflectance values showed r-value of -0.13. An empirically derived equation for the NA using two band reflectance values showed r-value of 0.96 and a root mean square of error (RMSE) 0.5 g m–2 (10% of the mean observed NA) in the estimation for the original (not validated) data set acquired at the maximum tiller number and the panicle formation stages. The results indicated that reflectance observation in the RED and NIR bands using the digital imaging system was potentially effective for assessing rice growth. 相似文献
67.
利用主成分分析法(Principal Component Analysis,PCA)和偏最小二乘法判别分析(Partial Least Squares Discriminant Analysis,PLS-DA)对晒青毛茶进行级别分类,并通过统计分析找出重要理化成分。结果表明:PCA和PLS-DA均可以直观地对晒青毛茶级别进行分类,其中能够稳定地分类出3级毛茶,而难以将6级和9级毛茶明显地分类。通过PCA载荷图(Loadings plot)和PLS-DA变量重要性因子(Variable important for the projection,VIP)分布图可得出氨基酸含量为级别分类的重要理化成分,其中赖氨酸(Lys)、脯氨酸(Pro)和苯丙氨酸(Phe)是对级别分类最重要的3种氨基酸组分。 相似文献
68.
氮肥运筹模式对冬小麦氮素吸收利用的影响 总被引:9,自引:0,他引:9
为给小麦高产、高效、无污染及可持续生产提供合理的氮肥运筹技术和理论依据, 以烟农19为材料,在大田条件下,研究了不同施氮量和基追比例对土壤小麦系统氮素积累及分配的影响。结果表明,施氮可提高0~100 cm土体内的全氮含量。在小麦越冬前, 0~40 cm土层中NO3-N含量随氮肥用量和基肥比例的增加显著增加;起身期到拔节期,施氮量为180和240 kg·hm-2且基肥∶拔节肥∶孕穗肥为3∶5∶2处理的0~40 cm土层内NO3-N含量下降,而施氮量为240 kg·hm-2且基肥∶拔节肥为7∶3和5∶5的处理及施氮量为300 kg·hm-2且基肥∶拔节肥为7∶3的处理则显著增加;拔节期到成熟期,随施氮量的增加,0~60 cm土层速效氮增加幅度有所提高。孕穗肥可明显提高灌浆期的植株全氮含量。因此,在240 kg·hm-2 施氮水平、基肥∶拔节肥∶孕穗肥为3∶5∶2条件下,施氮既能减少土壤硝态氮累积量,又能有效降低土壤硝态氮污染地下水的可能性。 相似文献
69.
不同产量类型小麦品种的干物质和氮素积累转运特征 总被引:5,自引:0,他引:5
为筛选氮高效且高产的小麦品种,于2016-2017年综合运用籽粒产量和氮素收获指数2项指标将河南省38个主推小麦品种划分为4种类型(高产高效型、高产低效型、低产高效型和低产低效型),分析比较不同类型小麦品种的产量构成因子、干物质积累和氮素的吸收转运特征。结果表明,高产水平下,氮高效品种的单位面积穗数显著高于氮低效品种,穗粒数都显著低于氮低效品种;低产水平下,氮高效品种的单位面积穗数和穗粒数与氮低效品种的差异均未达到显著水平。高产小麦品种花前干物质积累速率较低产(效)小麦高24.8%,花后干物质的转移量和转运效率最大,分别是低产低效型小麦的2.1倍和1.6倍。高产水平下,氮高效品种的干物质转移量较氮低效品种增加16.2%,但在干物质转移效率上与不同氮效率品种差异不显著;低产水平下,氮高效品种的氮素转移效率是氮低效品种的1.1倍。高产型小麦品种的氮素积累量显著高于低产型小麦品种,小麦花后氮素积累速率最高,在该时期,同等产量水平下,HYHE型小麦氮素积累量速率较HYLE型高28.8%,LYHE型小麦的氮素积累速率较LYLE型高66.0%,且花后氮素积累速率与氮素收获指数呈显著正相关。较高的花前干物质转移量和氮素积累量是小麦高产的基础,相同产量水平下,氮高效小麦品种的干物质转移量和氮素积累速率显著高于氮低效品种。 相似文献
70.
不同品质类型冬小麦籽粒产量和品质性状对氮肥的响应 总被引:16,自引:6,他引:16
为了研究不同品质类型冬小麦籽粒产量和品质性状对氮肥水平和追氮时期的响应,以两个强筋品种济南17和PH82-2-2以及两个筋力弱的品种PH97-4和PH97-5为材料进行了品种、施氮量、施氮时期三因素试验。结果表明,增施氮肥能显著提高小麦产量和氮收获量。起身期追肥比抽稳期追肥产量和氮收获量显著提高;不同品质类型的小麦蛋白质含量对施氮量和追氮时期反应不尽一致,蛋白质含量相对较低的两个品种济南17和PH97-4施氮处理间差异不显著,而蛋白质含量相对较高的品种PH82-2-2和PH97-5在高施氮量下抽穗期追肥蛋白质含量比起身期追肥提高0.6个百分点,差异达显著水平。不同品种的湿面筋含量、籽粒容重和硬度在不同施氮量下差异不显著。沉淀值、降落值对施氮处理不敏感;吸水率和面团稳定时间不同施氮量间差异不显著,抽穗期追肥吸水率提高0.7个百分点,但面团形成时间和稳定时间分别降低1.39min和0.61min;不同品种的粉质特性差异显著。运筹氮肥能改善小麦加工品质,但效果不明显。 相似文献