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1.
E. M. Hokam S. E. El‐Hendawy U. Schmidhalter 《Journal of Agronomy and Crop Science》2011,197(3):186-201
Differences in soil moisture and wetting pattern under different irrigation frequencies mean that vegetative growth and nitrogen use efficiency in maize can differ even when the same total amount of irrigated water is applied under different frequency regimes. The goal of this study was to evaluate the effects of drip irrigation frequency and its interaction with nitrogen fertilization on vegetative growth and nitrogen use efficiency of a maize crop at different growth stages and on grain quality at maturity stage in a sandy soil. The experiment was conducted for 2 years (2005 and 2006) using a randomized complete block split–split plot design with four irrigation frequencies (once every 2, 3, 4 and 5 days), two nitrogen levels (190 and 380 kg N ha?1) and two maize hybrids (three‐way cross 310 and single cross 10) as the main‐plot, split‐plot and split–split plot variables, respectively. Irrigation water, totalling 524 mm ha?1, applied for each irrigation frequency was divided into 28, 21, 17 and 14 doses for the F2, F3, F4 and F5 treatments, respectively. Results indicated that vegetative growth, crop growth and nitrogen efficiency parameters at the 10‐leaf and tasseling growth stages increased with increasing drip irrigation frequency, whereas grain protein content decreased. Although the values of the vegetative growth and crop growth parameters increased with increasing nitrogen levels, significant decreases in nitrogen efficiency parameters were also observed indicating the need for further optimization with a reduced nitrogen application rate. Significant interaction effects between irrigation frequency and nitrogen levels were detected for all parameters measured. In most cases, the parameters were not significantly different between the two nitrogen levels at an irrigation frequency of once every 5 days, but did differ significantly at irrigation frequencies of once every 2, 3 or 4 days. The relationship between the nitrogen use efficiency parameters and retained available soil water content at the 10‐leaf and tasseling growth stages was best represented by a second order polynomial equation with an R2 ranging from 0.73 to 0.98. Based on our findings, an irrigation frequency of once every 2 and 3 days is recommended to enhance growth and nitrogen use efficiency of drip‐irrigated maize in sandy soil in Egypt. 相似文献
2.
氮肥后移对玉米间作豌豆耗水特性的调控效应 总被引:3,自引:0,他引:3
针对水资源不足严重制约干旱灌区间作发展,间作中以氮调水理论研究的薄弱,生产实践中缺乏氮肥运筹同步提高间作产量和水分利用效率的措施等问题。2012-2013年,以河西走廊规模化应用的玉米间作豌豆为研究对象,在总施氮量相同且基肥和孕穗肥分别占10%和50%条件下,设氮肥后移30% (N1,拔节肥0+花粒肥40%)、氮肥后移15% (N2,拔节肥15%+花粒肥25%)、传统制度(N3,拔节肥30%+花粒肥10%) 3个施氮处理,探讨氮肥后移对间作产量和水分利用效率(WUE)的影响,以期为禾豆间作优化施氮制度、提高产量和水分利用效率提供理论依据。结果表明,氮肥后移对玉米间作豌豆总耗水量(ET)影响不显著,但降低了棵间蒸发量(E)和棵间蒸发量占总耗水量的比例(E/ET);与传统施氮处理相比,氮肥后移15%使玉米间作豌豆的E和E/ET降低6%和4%,氮肥后移30%使玉米间作豌豆的E和E/ET均降低2%。在间作系统中,豌豆带、玉米带的棵间蒸发量分别为329 mm、232 mm,表明豌豆带的无效耗水显著高于玉米带。氮肥后移15%间作的混合籽粒产量、WUE较传统施氮间作分别高出6%、5%,氮肥后移30%间作混合籽粒产量、WUE较传统施氮间作分别提高3%、2%。因此,玉米间作豌豆结合氮肥后移15%,即豌豆开花结荚期(玉米拔节期)追施氮肥67.5 kg hm-2、玉米大喇叭口期追施氮肥225 kg hm-2、玉米花后15 d追施氮肥112.5 kg hm-2,可作为绿洲灌区玉米间作豌豆增产和提高WUE的农艺措施之一。 相似文献
3.
水氮耦合对固定道垄作栽培春小麦根长密度和产量的影响 总被引:2,自引:0,他引:2
固定道垄作(PRB)是在农田中设固定的机械行走道的一种垄作和沟灌栽培模式,是河西灌区春小麦取代传统平作和大水漫灌种植方式的一种新技术。为了明确PRB种植模式下合理的施氮水平和灌水量,2014—2015年连续2年采用二因素裂区设计,以3种灌溉定额(1200、2400和3600 m3 hm–2)为主区,以4种施氮水平(0、90、180和270kg hm–2)为副区,研究水氮耦合对小麦不同生育期的根长密度及最终产量的影响。随灌水量和施氮量的增加,根长密度呈现先增后降的变化趋势,且灌水量的效应大于施氮水平的效应;开花、灌浆和成熟期的根长密度与籽粒产量呈正相关。回归分析显示,根长密度最大值的水氮耦合条件是灌水量约2850 m3 hm–2、施氮量196~207 kg hm–2。中等灌水量(2400 m3 hm–2)条件下,小麦主要生育期根长密度显著增加,提高了根长密度在40~80 cm土层的分配比例,增加了水分利用效率和氮肥农学利用效率。综合评价小麦籽粒产量、水分利用率和氮肥农学利用效率,中等灌水量与中氮水平(180 kg hm–2)是所有处理中的最佳水氮耦合模式,可用于河西灌区春小麦PRB栽培模式。当加大灌水至3600m3 hm–2时,产量没有显著增加,水分利用效率和氮肥农学利用效率显著下降,其原因可能是高灌水量使小麦主要生育期的根长密度降低,且根长密度在0~40 cm土层的比例升高,在40~80 cm土层的比例下降。 相似文献
4.
西北绿洲灌区水氮耦合对燕麦品种陇燕3号耗水特性及产量的影响 总被引:4,自引:0,他引:4
灌水和施肥,尤其是施氮肥,是调控作物生长和增加产量的两大重要技术措施,其互作是燕麦高产高效栽培中重要因素。2014—2015年连续2个生长季,在甘肃河西绿洲灌区的田间试验设3个定额灌溉和3个施氮(纯氮)水平,研究水氮耦合对陇燕3号农田0~150 cm土层耗水量、棵间蒸发、产量及水分利用效率的影响。3个灌溉处理的灌水量分别为270 mm(I_1)、337.5 mm(I_2)和405 mm(I_3),3个施氮水平分别为90 kg hm~(–2)(N_1)、120 kg hm~(–2)(N_2)和150 kg hm~(–2)(N_3)。从播种到成熟,燕麦阶段耗水强度呈先增后减趋势,抽穗至灌浆是最大耗水期,且同一施氮水平下,阶段耗水强度随灌水量增大而显著增加。在全生育期内,棵间蒸发量(E)及土壤水分蒸发量占总蒸发量的比例(E/ET)表现先降后升趋势,且相同施氮量下,拔节至灌浆期随灌水量的增大而增大,而灌浆至成熟期则随灌水量的增大而减小。相同施氮量下,燕麦产量随灌水量增加而显著增加,水分利用效率却随灌水量增加而降低。产量N_3I_3最高(5466.0~5727.5 kg hm~(–2)),N_3I_2次之(5428.5~5678.5 kg hm~(–2)),N_1I_1最低(4504.5~4804.3 kg hm~(–2));水分利用效率N_3I_2最大(12.11~12.82 kg mm~(–1) hm~(–2)),N_3I_1次之(12.04~12.63 kg mm~(–1) hm~(–2)),N_1I_3最小(9.79~10.58 kg mm~(–1) hm~(–2))。由此表明,水氮耦合对燕麦水分利用及产量具有显著互作效应。施氮量150 kg hm~(–2)、灌溉定额337.5 mm是西北绿洲灌区燕麦种植较佳的节水、高产水氮管理模式。 相似文献
5.
水氮耦合对土壤紧实度、土壤盐分和烤烟经济性状的影响 总被引:1,自引:0,他引:1
为探讨豫西烟区适宜的灌溉模式和氮肥用量,采用裂区试验,研究不同灌溉次数和不同施氮水平对烤烟干物质、土壤紧实度、土壤盐分和烤烟经济性状的影响。结果表明,灌溉和施氮均能明显提高烤烟干物质积累,在N1水平下,与不灌溉处理相比,灌溉处理干物质增加44.41~65.34g/株。烟田土壤紧实度整体上呈现先增加后降低的趋势,移栽后80天,施氮处理土壤紧实度均高于不施氮处理。在移栽后60、80天,与不灌溉处理相比,灌溉处理提高了土壤盐分。从产量上分析,不同施氮水平间以N2水平产量最高,达1706.3kg/hm2,不同灌溉水平间以W1水平产量最高,达1683.1kg/hm2;从产值上分析,以W1N1处理产值最高,达30665元/hm2。综合分析,在豫西烟区,最优的水肥模式为:旺长期灌溉1次、施氮量60kg/hm2,建议在生产中示范应用和推广。 相似文献
6.
Drought Tolerance and Water‐Use Efficiency of Biogas Crops: A Comparison of Cup Plant,Maize and Lucerne‐Grass 
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下载免费PDF全文 B. Schoo K. P. Wittich U. Böttcher H. Kage S. Schittenhelm 《Journal of Agronomy and Crop Science》2017,203(2):117-130
The cup plant (Silphium perfoliatum L.) is discussed as an alternative energy crop for biogas production in Germany due to its ecological benefits over continuously grown maize. Moreover, a certain drought tolerance is assumed because of its intensive root growth and the dew water collection by the leaf cups, formed by fused leaf pairs. Therefore, the aim of this study was to estimate evapotranspiration (ET ), water‐use efficiency (WUE ) and the relevance of the leaf cups for the cup plant's water balance in a 2‐year field experiment. Parallel investigations were conducted for the two reference crops maize (high WUE ) and lucerne‐grass (deep and intensive rooting) under rainfed and irrigated conditions. Root system performance was assessed by measuring water depletion at various soil depths. Transpiration‐use efficiency (TUE ) was estimated using a model approach. Averaged over the 2 years, drought‐related above‐ground dry matter reduction was higher for the cup plant (33 %) than for the maize (18 %) and lucerne‐grass (14 %). The WUE of the cup plant (33 kg ha?1 mm?1) was significantly lower than for maize (50 kg ha?1 mm?1). The cup plant had a lower water uptake capacity than lucerne‐grass. Cup plant dry matter yields as high as those of maize will only be attainable at sites that are well supplied with water, be it through a large soil water reserve, groundwater connection, high rainfall or supplemental irrigation. 相似文献
7.
K. G. Mandal K. M. Hati A. K. Misra K. K. Bandyopadhyay M. Mohanty 《Journal of Agronomy and Crop Science》2005,191(6):416-425
Increasing production of wheat from a limited water supply can result from efficient irrigation and nutrient management. A 3‐year field experiment was conducted at the Indian Institute of Soil Science, Bhopal, to study the growth, yield, seasonal evapotranspiration (ET) and water use efficiency (WUE), and the water–yield relationship of wheat in a soybean–wheat cropping system on vertisols. Three levels of irrigation, viz. I0, no post‐sowing irrigation; I1, two irrigations [crown root initiation (CRI) and flowering stage]; and I2, three irrigations (CRI, maximum tillering and flowering stage) and three nutrient management treatments, viz. F0, control (without fertilizer/manure); F1, 100 % NPK (100–21.5–24.9 kg ha?1); and F2, 100 % NPK + farmyard manure (FYM‐10 t ha?1) were tested in a split‐plot design with three replication. It has been established (through anova ) that the year effect was rather negligible and the interaction effects of irrigation and nutrient management on the growth parameters, ET, yield components, yield and WUE were significant. Plant height, progressive leaf area index, dry matter accumulation and crop growth rate were higher in I2F2, and I2F1 and I1F2 were statistically at par. The seasonal ET increased significantly with the increase in water supply in every nutrient treatment and it was highest in I2F2 and lowest in I0F0. The highest grain yield was obtained in I2F2; and a similar yield was recorded in I3F1 and I2F2. This shows a strong interaction effect between irrigation and nutrients. Yield components, viz. number of ears m?2, number of grains ear?1 and 1000‐grain weight were significant. The higher number of ears m?2 containing greater number of grains with relatively heavier weights appeared to have contributed to the higher yield in I1F2, I2F1 and I2F2. The highest WUE obtained in I0F2 did not correspond to the highest yield and maximum ET, but a WUE of 10.43 kg ha?1 mm?1 in the I2F2 combination corresponded with the highest yield and the seasonal ET requirement was 391.8, which was 137 % greater than the water use at maximum WUE. The ET–grain yield relationship was linear, with a lowest regression slope (i.e. marginal WUE) and elasticity of water production (Ewp) in F0 and a considerably higher slope and Ewp in F1 and F2. As the Ewp is positive and close to one in 100 % NPK treatment, the scope of improving WUE and yield with only inorganic fertilizer is very little, and relatively greater scope exists in the integrated management of organic manure and inorganic fertilizer. The results suggest that integrated nutrient management (100 % NPK + FYM) in conjunction with three irrigations maximized yield of wheat with concomitant improvement in ET and WUE under limited water availability. 相似文献
8.
Little is known about the effect of combined phosphorus and nitrogen (P‐N) fertilization on the N requirement of sunflower (Helianthus annus L.). This study was carried out to evaluate the effects of varying levels of P and N, as well as the interaction P × N, on the N uptake, yield and N apparent utilization efficiency under field conditions. Split‐plot design experiments were conducted in the mid‐western Pampas in Argentina. Four levels of N (0, 46, 92 and 138 kg N ha?1) and three levels of P (0, 12 and 40 kg P ha?1) were applied to two Typic Hapludolls over two growing seasons (1997–98 and 1998–99). N uptake and soil N‐NO3 contents were determined at the V7, R5 and R9 growth stages. The sunflower yield ranged from 2.5 to 5.0 Mg ha?1. The total N requirement was around 45 kg N Mg?1 grain, and this result suggests that it is not necessary to use different N requirements (parameter b) for fertilized crops when a yield response is expected. To achieve a 100 % yield maximum a N supply (soil plus fertilizer) of 181 kg N ha?1 at P40 was needed. However, at P0, the highest yield was about 80 % of the maximum yield with a N supply (soil plus fertilizer) of 164 kg N ha?1. P application increased the apparent use efficiency of the supplied N. 相似文献
9.
C. M. T. Soler G. Hoogenboom P. C. Sentelhas A. P. Duarte 《Journal of Agronomy and Crop Science》2007,193(4):247-261
During the last decade, the production of off‐season maize has increased in several regions of Brazil. Growing maize during this season, with sowing from January through April, imposes several climatic risks that can impact crop yield. This is mainly caused by the high variability of precipitation and the probability of frost during the reproduction phases. High production risks are also partially due to the use of cultivars that are not adapted to the local environmental conditions. The goal of this study was to evaluate crop growth and development and associated yield, yield components and water use efficiency (WUE) for maize hybrids with different maturity ratings grown off‐season in a subtropical environment under both rainfed and irrigated conditions. Three experiments were conducted in 2001 and 2002 in Piracicaba, state of São Paulo, Brazil with four hybrids of different maturity duration, AG9010 (very short season), DAS CO32 and Exceler (short season) and DKB 333B (normal season). Leaf area index (LAI), plant height and dry matter were measured approximately every 18 days. Under rainfed conditions, the soil water content in the deeper layers was reduced, suggesting that the extension of the roots into these layers was a response to soil water limitations. On average, WUE varied from 1.45 kg m−3 under rainfed conditions to 1.69 kg m−3 under irrigated conditions during 2001. The average yield varied from 4209 kg ha−1 for the hybrids grown under rainfed conditions to 5594 kg ha−1 under irrigated conditions during 2001. Yield reductions under rainfed conditions were affected by the genotype. For the hybrid DKB 333B with a normal maturity, yield was reduced by 25.6 % while the short maturity hybrid Exceler was the least impacted by soil water limitations with a yield reduction of only 8.4 %. To decrease the risk of yield loss, the application of supplemental irrigation should be considered by local farmers, provided that this practice is not restricted by either economic considerations or the availability of sufficient water resources. 相似文献
10.
J. A. González M. Bruno M. Valoy F. E. Prado 《Journal of Agronomy and Crop Science》2011,197(2):81-93
Genotypic variations in leaf gas exchange and grain yield were analysed in 10 highland‐adapted quinoa cultivars grown in the field under drought conditions. Trials took place in an arid mountain region of the Northwest of Argentina (Encalilla, Amaicha del Valle, 22°31′S, 65°59′W). Significant changes in leaf gas exchange and grain yield among cultivars were observed. Our data demonstrate that leaf stomatal conductance to water vapour (gs) is a major determinant of net CO2 assimilation (An) because quinoa cultivars with inherently higher gs were capable of keeping higher photosynthesis rate. Aboveground dry mass and grain yield significantly varied among cultivars. Significant variations also occurred in chlorophyll, N and P content, photosynthetic nitrogen‐use efficiency (PNUE), specific leaf area (SLA), intrinsic water‐use efficiency (iWUE) and carboxylation capacity (An/Ci). Many cultivars gave promissory grain yields with values higher than 2000 kg ha?1, reaching for Sayaña cultivar 3855 kg ha?1. Overall, these data indicate that cultivars, which showed higher photosynthesis and conductances, were also generally more productive. Carbon isotope discrimination (Δ) was positively correlated with the grain yield and negatively with iWUE, but δ15N did not show significant correlations. This study provides a reliable measure of specific responses of quinoa cultivars to drought and it may be valuable in breeding programmes. 相似文献
11.
乙烯利和氮肥对夏玉米氮素吸收与利用及产量的调控效应 总被引:3,自引:0,他引:3
以玉米品种"郑单958"为材料,在大田条件下,研究了乙烯利(0和180 g hm–2)和氮肥水平(0、75、150和225kg N hm–2)对夏玉米产量、氮素吸收和利用以及SPAD值的影响。结果表明,乙烯利处理显著降低了氮吸收量和吸收效率,但显著提高氮利用效率,其中乙烯利处理氮农学效率比对照提高了32.7%~34.6%,而且乙烯利处理对玉米产量及其产量构成因素没有显著影响;随着施氮量增加,夏玉米产量、产量构成因素和氮吸收量显著增加,而氮吸收效率、氮利用效率、氮偏生产力和氮农学效率随之降低,其中225 kg N hm–2处理氮吸收量比0 kg N hm–2处理提高了68.4%~91.8%,但225 kg N hm–2和150 kg N hm–2处理之间的氮吸收量差异不显著。乙烯利和氮肥对氮吸收量、氮吸收效率和氮农学效率具有互作效应。喷施乙烯利和增施氮肥均能提高灌浆期穗位叶SPAD值,但两者之间没有互作效应。通过相关性分析表明,夏玉米产量与吐丝期氮吸收量、收获期氮吸收量、灌浆期穗位叶SPAD值显著正相关。 相似文献
12.
Effects of tillage on the appropriate fertilizer N applications needed to achieve maximal grain yield are poorly denned. The study objective was determination of relative corn grain yield response to N application rate for four tillage practices: no-tillage (NT), ridge tillage (RT), fall chisel plowing (CP) and fall moldboard plowing (MP). Maize (Zea mays L.) grain yield and N accumulation were monitored over a 6 year period with the same tillage treatment and the same fertilizer N rate applied each year to each plot. Two hybrids, differing in relative maturity rating, were planted each year. Fertilizer N rates ranged from 10 to 190 kg ha?1 and consisted of 10 kg ha?1 of liquid starter N applied at planting with varying amounts of fall applied anhydrous ammonia. With only starter fertilizer, grain yields increased with tillage intensity in the order NT ≤ RT ≤ CP ≤ MP. With ≥ 55 kg total applied Nha?1, 6 year average grain yields were unaffected by tillage. Total N removed in grain annually with only starter fertilizer ranged from 25–85 kg ha?1 Maximal amounts of N removed, about 145 kg N ha?1, occurred with 100–145 kg applied N ha?1 for all tillage treatments under the more favorable climatic conditions. Several interactions affecting grain yield appear climatically sensitive with exception of tillage by fertilizer N interactions. Because of variability in climate, planting dates varied by almost 4 weeks. Relative yield loss due to planting delay were Fertilizer N (mean change ??124 –?275 kg ha?1 day?1) > Starter N only and MP (mean ?? 259 kg ha?1 day?1) > other tillages in general. Yield loss due to delayed planting ranged from 0.0–275 kg ha?1 day?1. Grain yield gains due to early spring soil temperatures were 16.0–21.8 kg ha?1 index-degree?1 with MP tillage and averaged 2.7– 16.7 kg ha?1 index-degree?1 more than those of other tillage-hybrid combinations. 相似文献
13.
种植密度、氮肥和水分胁迫对玉米产量形成的影响 总被引:21,自引:1,他引:20
为阐明种植密度、氮肥和水分胁迫对不同玉米品种产量形成的影响,选用6个玉米品种,在两种密度(45 000株 hm-2和75 000株 hm-2)、两种施氮水平(纯氮112.5 kg hm-2和337.5 kg hm-2)和两种水分(前期干旱控水和正常灌水)处理下进行大田试验,调查玉米源库性状的主要生理参数和籽粒产量。结果表明,在环境压力较小时(低密度、高氮和正常灌水),玉米品种间籽粒产量、源性状(叶面积指数、穗位叶净光合速率和群体源供应能力)、库性状(群体库容量)、源库协调性状(群体库源比值、籽粒灌浆速率和收获指数)以及成熟期干物质积累量和吐丝期至成熟期干物质积累量差异较小,而逆境胁迫下(高密度、低氮和干旱),差异较大。环境压力较大时(高密度、低氮和干旱),叶面积指数、群体源供应能力、成熟期干物质积累量、吐丝期至成熟期干物质积累量、群体库容量和收获指数与籽粒产量呈显著或极显著正相关。由此说明,在玉米品种产量改良中要强化逆境人工选择,以适应自然选择,改善玉米品种逆境下的群体源库性状,增强吐丝期至成熟期叶片的光合生产效率,强源促库,提高逆境下的生产能力和适应性。 相似文献
14.
V. S. Bhatia P. Singh A. V. R. Kesava Rao K. Srinivas & S. P. Wani 《Journal of Agronomy and Crop Science》2009,195(6):455-463
To assess the scope for enhancing productivity of groundnut (Arachis hypogaea L.) in India, well‐calibrated and validated CROPGRO‐Peanut model was used to assess potential yields (water non‐limiting and water limiting) and yield gaps of groundnut for 18 locations representing major groundnut growing regions of India. The average simulated water non‐limiting pod yield of groundnut for the locations was 5440 kg ha?1, whereas the water limiting yield was 2750 kg ha?1 indicating a 49 % reduction in yield because of deficit soil moisture conditions. As against this, the actual pod yields of the locations averaged 1020 kg ha?1, which was 4420 and 1730 kg ha?1 less than the simulated water non‐limiting and water limiting yields, respectively. Across locations, the simulated water non‐limiting yields were less variable than water limited and actual yields, and strongly correlated with solar radiation during the crop season (R2 = 0.62, P ≤ 0.01). Simulated water limiting yield showed a significant positive, but curvilinear relationship (R2 = 0.73, P ≤ 0.01) with mean crop season rainfall across locations. The relationship between actual yield and the mean crop season rainfall across locations was not significant, whereas across seasons for some of the locations, the association was found to be significant. Total yield gap (water non‐limiting minus actual yields) ranged from 3100 to 5570 kg ha?1, and remained more or less unaffected by the quantity of rainfall received across locations. The gap between simulated water non‐limiting and water limiting yields, which ranged from 710 to 5430 kg ha?1, was large at locations with low crop season rainfall, and narrowed down at locations with increasing quantum of crop season rainfall. On the other hand, the gap between simulated water limiting yield and actual farmers yield ranged from 0 to 3150 kg ha?1. It was narrow at locations with low crop season rainfall and increased considerably at locations with increasing amounts of rainfall indicating that type of interventions to abridge the yield gap will vary with the rainfall regimes. It is suggested that improved agronomic management (such as high yielding cultivars, balance crop nutrition and control of pest and diseases) in high rainfall regimes and rainfall conservation and supplemental irrigations in low rainfall regimes will be essential components of the improved technologies aimed at abridging the yield gaps of groundnut. 相似文献
15.
控释尿素水氮耦合对夏玉米产量和光合特性的影响 总被引:11,自引:0,他引:11
采用旱棚盆栽试验,以郑单958为材料设置3个水分水平(正常水分W3、轻度水分胁迫W2、重度水分胁迫W1)和高氮N3(施纯氮315 kg hm–2)、中氮N2(施纯氮210 kg hm–2)、低氮N1(施纯氮105 kg hm–2)、不施氮N0四个控释尿素施氮水平,探讨控释尿素水氮耦合对夏玉米产量和光合特性的影响。结果表明,控释尿素水氮耦合对夏玉米产量和光合特性具有显著影响。相同水分条件下,夏玉米产量随施氮量增加而增加,W1条件下增产13.17%~20.96%,W2条件下增产13.93%~32.48%,W3条件下增产14.37%~21.83%。相同施氮水平下,产量也随水分增加而增加,W2N3、W3N2和W3N3的产量在所有处理中较高。水氮耦合对夏玉米穗位叶净光合速率的影响显著,W1条件下N3、N2和N1处理间差异不显著,均显著高于N0,W2、W3各施氮处理的净光合速率随施氮量增加而增加,W3各处理的平均净光合速率高于其他2个水分处理,W2N3比W3N3和W3N2前期略低,后期无显著差异。水氮耦合效应能有效减缓穗位叶的实际光化学效率ΦPSII、叶片光化学猝灭系数qP以及PSII反应中心的最大光能转换效率的下降速率,提高光能利用率。控释尿素水氮耦合能有效提高夏玉米花后穗位叶净光合速率,保证籽粒对营养物质的需求,提高穗位叶实际和最大光化学效率,从而提高夏玉米的产量,产量构成因素中增加千粒重和穗粒数的优势较大。综合产量与光合特性、荧光特性的表现,在田间持水量为75%±5%的土壤条件下,控释尿素施氮量以纯氮210 kg hm–2为最佳;在田间持水量为55%±5%的土壤条件下,控释尿素施氮量以纯氮315 kg hm–2为宜。 相似文献
16.
两种灌溉方式下保水剂用量对裸燕麦产量和品质的影响 总被引:8,自引:0,他引:8
保水剂和滴灌是两种节水措施,在小麦、玉米和番茄上广泛应用。燕麦是一种对水分敏感的作物,籽粒产量和品质受水分影响较大,目前这方面研究较少。本文在大田条件下,采用裂区设计,研究了传统灌溉和滴灌两种灌溉方式下4个保水剂用量(0、30、60和90 kg hm-2)对裸燕麦白燕8号籽粒产量、籽粒品质、籽粒矿质元素含量和饲草品质的影响。结果表明,传统灌溉处理的籽粒产量比滴灌处理高14.78 %,粗蛋白、粗脂肪和β-葡聚糖含量比滴灌处理分别降低1.22%、2.73%和3.36%,差异显著(P < 0.05)。滴灌处理下籽粒中钙、镁、钾、锌、铁含量均显著高于传统灌溉,锰含量差异不显著。滴灌处理的相对饲用价值为122.38%~135.67%,显著高于传统灌溉(118.75%~134.44%)。保水剂用量对裸燕麦籽粒产量有显著影响,滴灌条件下施用保水剂比不施保水剂增产2.95%~12.14%,传统灌溉条件下施用保水剂比不施保水剂增产1.1%~5.0%。60 kg hm-2保水剂有利于裸燕麦大多数品质性状的提高,以及矿质元素的吸收利用。 相似文献
17.
光、氮及其互作对玉米氮素吸收利用和物质生产的影响 总被引:4,自引:0,他引:4
以玉米单交种豫玉22为材料,设置2个光照处理和3个氮肥水平,研究光、氮及其互作下玉米酶活性、干物质生产和产量变化特征及其对玉米氮素吸收利用和物质生产的影响。结果表明,弱光胁迫下玉米叶片硝酸还原酶和谷氨酰胺合成酶活性降低,植株和籽粒氮积累量下降;干物质积累量显著降低;果穗穗长、行粒数和穗粒数减少,导致产量显著降低。但弱光胁迫下增施氮肥可以提高叶片硝酸还原酶和谷氨酰胺合成酶活性,增加干物质积累量,穗长、行粒数和穗粒数增加,产量显著提高,并且随施氮量的增多,产量增加效果也越显著。可见,光、氮及其互作对玉米氮素吸收利用及物质生产具有显著影响,弱光胁迫条件下增施氮肥可以部分缓解其致害效应,减少玉米产量损失。 相似文献
18.
The expansion of biogas production from anaerobic digestion in the Po Valley (Northern Italy) has stimulated the cultivation of dedicated biomass crops, and maize in particular. A mid-term experiment was carried out from 2006 to 2010 on a silt loamy soil in Northern Italy to compare water use and energy efficiency of maize and sorghum cultivation under rain fed and well-watered treatments and at two rates of nitrogen fertilization. The present work hypothesis were: (i) biomass sorghum, for its efficient use of water and nitrogen, could be a valuable alternative to maize for biogas production; (ii) reduction of irrigation level and (iii) application of low nitrogen fertilizer rate increase the efficiency of bioenergy production. Water treatments, a rain fed control (I0) and two irrigation levels (I1 and I2; only one in 2006 and 2009), were compared in a split–split plot design with four replicates. Two fertilizer rates were also tested: low (N1, 60 kg ha−1 of nitrogen; 0 kg ha−1 of nitrogen in 2010) and high (N2, 120 kg ha−1 of nitrogen; 100 kg ha−1 of nitrogen in 2010). Across treatments, sorghum produced more aboveground biomass than maize, respectively 21.6 Mg ha−1 and 16.8 Mg ha−1 (p < 0.01). In both species, biomass yield was lower in I0 than in I1 and I2 (p < 0.01), while I1 and I2 did differ significantly. Nitrogen level never affected biomass yield. Water use efficiency was generally higher in sorghum (52 kg ha−1 mm−1) than in maize (38 kg ha−1 mm−1); the significant interaction between crop and irrigation revealed that water use efficiency did not differ across water levels in sorghum, whereas it significantly increased from I0 and I1 to I2 in maize (p < 0.01). The potential methane production was similar in maize and sorghum, while it was significantly lower in I0 (16505 MJ ha−1) than in I1 and I2 (21700 MJ ha−1). The only significant effect of nitrogen fertilization was found in the calculation of energy efficiency (ratio of energy output and input) that was higher in N1 than in N2 (p < 0.01). These results support the hypothesis that (i) sorghum should be cultivated rather than maize to increase energy efficiency, (ii) irrigation level should replace up to 36% of ETr and (iii) nitrogen fertilizer rate should be minimized to maximize the efficiency in biomass production for anaerobic digestion in the Po Valley. 相似文献
19.
黑龙港流域不同滴灌制度下的冬小麦产量和水分利用效率 总被引:3,自引:0,他引:3
针对华北黑龙港流域冬小麦–夏玉米种植制度中冬小麦灌溉水用量过大的问题,以节水和稳产为目标设计了冬小麦滴灌制度定位试验,比较了滴灌与漫灌及不同滴灌模式下的小麦产量和水分利用效率。结果表明,在实验年份的降水条件下,传统灌溉定额和次数(总量225 mm,分1~3次灌溉)的滴灌与漫灌处理的小麦产量和水分利用效率差异均不显著;在两年降水特点不同的情况下,滴灌量比对照减少45~105 mm的处理产量下降不显著,水分利用效率显著提高。相关分析结果表明,对产量的贡献表现为穗粒数>千粒重>穗数。研究结果初步表明,冬小麦滴灌技术在黑龙港流域具有节水稳产的潜力。 相似文献
20.
2009-2011年在山东临沂冬小麦-夏玉米生产田,探讨了麦季施氮水平和施氮时期对两季作物干物质积累与分配、籽粒产量、氮肥农学利用率和氮肥偏生产力的影响。施氮量设4个处理,分别是0 (N0)、168.75 (N1)、225 (N2)和281.25 kg hm-2 (N3);氮肥追施时期设2个处理,分别为拔节期(S1)和拔节期+开花期(S2)。在S1条件下,冬小麦和夏玉米的籽粒干物质积累量及夏玉米和周年生物产量均表现为N3>N2>N1,冬小麦和夏玉米的籽粒产量N2和N3处理间无显著差异;氮肥农学利用率和氮肥偏生产力在麦季随施氮量增加显著降低,而在玉米季则逐渐升高,但玉米季氮肥偏生产力N3与N2处理间无显著差异。S2条件下麦季施氮量由N2处理增加25% (N3),冬小麦和夏玉米籽粒干物质积累量、生物产量和籽粒产量无显著变化,氮肥农学利用率和氮肥偏生产力在麦季显著降低、在玉米季无显著变化。与S1相比,S2有利于提高N1和N2条件下冬小麦籽粒与营养器官的干物质积累量、生物产量、籽粒产量和氮肥农学利用率及氮肥偏生产力,但对N3条件下的这些指标无显著影响;而在玉米季,3个施氮量水平下夏玉米的各项指标均显著升高。综合周年生物产量、籽粒产量和氮肥农学利用率及氮肥偏生产力结果,麦季总施氮量225 kg hm-2及拔节期+开花期追氮是本试验条件和种植模式下的最佳麦季氮肥运筹模式。 相似文献