N-Dynamik des Bodens, Ertragsbildung und Stickstoffentzug von Winterweizen bei unterschiedlicher Höhe und Verteilung der mineralischen N-Düngung

NO₃ dynamics in the soil, yield formation and N uptake of winter wheat as influenced by dosage and distribution effects of N-fertilizer application
In a 4 year series of field trials carried out with 9 regimes of nitrogen fertilizer application at two trial sites with rather shallow top soil layers but large deviations in soil characteristics, grain yield varied between 50 dt/ ha and 120 dt/ha with nitrogen doses from 0–170 kg N/ha. Soil nitrogen supply for wheat grain formation on unfertilized plots reached 80 kg N/ha/year within the narrow range of 75–95 kg N/ha in different years at both sites which amounts to 1.5 % and 0.5 % of the highly different N-content of the trial sites.
The most successful nitrogen application regimes are characterized by modest fertilizer doses in early spring and the delay of supplemental fertilizer doses until growth stage EC 32. They resulted into modest NO) soil content from EC 29 to EC 32 and/or a noticable decrease of soil NO₃ content during growth stage EC 30–32, which seems to be responsible for the development of only modest stand densities and reduced straw yield, while the delayed supplementation with nitrogen fertilizer overcompensated these effects mainly by increased grain numbers/ear and a remarkable improvement of harvest index.
The contribution of soil borne nitrogen to kernel yield formation started to decrease with even low dosages of supplemental nitrogen fertilization with the exception of the highest yielding season 1987/88. Top levels of grain yield have been regularly obtained with supplemental nitrogen fertilizer dosages about 40 kg N/ha below grain yield nitrogen extraction if they were added within favorable application regimes.     

Das optimale N-Angebot im Frühjahr bei unterschiedlicher Keimdichte von Winterweizen

The optimal N-supply in spring for different plant densities of winter wheat
The influence of plant density (plt./m²) on the optimal N-supply in spring (N_min-content + N-fertilization) has been tested at three sites. The different plant density was produced by different seed rates in autumn of about 150, 250, 350, 450 and 550 grains/m². The N-supply in spring was - apart from a non-fertilized field (N_min-content) 80, 100, 120, 140 and 160 kg N/ha. Additionally, 80 kg N/ha were applicated as N-topdressing. Moreover the optimal N-supply in spring has been tested on a winter wheat field thinned out due to winterkilling. In detail we got the following results:
1. The reduction of the N_min-content due to the N-uptake by the plants slowed down in accordance with minor plant density.
2. The same N-supply in the soil produced a higher N-supply per individual plant in accordance with decreasing plant density and lead to a considerable increase of N-nutrition.
3. Thin crops showed a higher tillering. The differences in plant density between 150 and 550 plt./m² in spring diminished to about 90 ears/m² at harvest.
4. Independently of plant density the maximum yield was obtained by a N-supply (N_min+ N-fertilization) in spring of about 120 kg/ha N. Due to the abundant N-nutrition of the individual plants and the minor increase of yield a higher N-supply is not necessary with a minor plant density.
5. Essentially the yield level was only diminished with the lowest plant density (100-140 plt./m²).     

Stickstoffaufnahme und Stickstoffrückstände von Hauptfrucht-und Ausfallrapsbeständen

Nitrogen Uptake and Nitrogen Residuals of Winter Oil-Seed Rape and Fallout Rape
The objective of the investigation was a study of the relationship between seed dry-matter production and vegetative dry-matter production in oil-seed rape crops and their dependence on the production conditions. In addition to the relationship between the N-uptake during the vegetation period and the N-residue after harvest was of major interest. Furthermore the potential for N-uptake in fallout rape was measured. Over two vegetation periods factorial field experiments with winter oil-seed rape, cv. Lirabon, different drilling techniques and different nitrogen fertilization levels were tested. Measured traits were: the dry-matter accumulation including root mass and fall-off leaf-material mass, the N-uptake of both the oil-seed crops and the fallout rape stands, and, simultaneously, the soil NO₃-N content. Finally the harvest indices and the N-harvest indices were calculated.
Combined with a N-uptake of up to 330 kg N/ha, oil-seed rape crops produced up to 200 dt dry matter/ ha. At seed yield levels of 33dt/ha (d.m.), harvest indices varied from 0.14—0.23 and N-harvest indices varied from 0.30–0.50. As a result of the residue of vegetative plant material at harvest, leaf losses before harvest and the soil NO₃-N-contents at harvest up to 275 kg N/ha remained in the field. After the harvest of oil-seed rape, the soil NO₃-N-contents were quickly reduced by emerging and growing fallout rape stands. However, following soil-preparation measures in the autumn, a continuous rise in the soil NO₃-N-content was observed.     

SODm缓释氮肥对半湿润偏旱区冬小麦性状、水分利用效率及经济效益的影响

在甘肃陇东旱塬区以田间试验的方式进行了SODm缓释氮肥施用方式对半湿润偏旱区冬小麦性状、水分利用效率及经济效益的影响研究,结果表明:施用SODm后,由于其缓慢的释放效应,氮肥的效应延长,在冬小麦返青后土壤中依然能有充足的养分,可以使作物营养生长获得有利影响。SODm一次性施用可以使冬小麦较常规氮肥和当地传统施肥方式水分利用效率提高0.76kg/mm.hm²,增产10.48%,产值增加805.88元/hm²,净产值增加1105.88元/hm²,提高21.98%,增产幅度明显高于其他处理,表明SODm一次性施入可以提高陇东旱塬冬小麦产量和经济效益。     

Analysis of Wheat Cultivar Differences in Grain Yield, Grain Nitrogen Yield and Nitrogen Utilization Efficiency.

More detailed information on the causes of yield variability among wheat cultivars is needed to further increase wheat yield. Field studies were conducted in Northern Greece over the two cropping seasons of 1985—1986 and 1986—1987 to assess the effects of nitrogen fertilizer and application timing of the various component traits that determine grain yield, grain nitrogen yield and nitrogen utilization efficiency of two bread ( Triticum aestivum L.) and two durum ( Triticum durum Desf.) wheat cultivars, using yield and yield component analysis. Nitrogen at a rate of 150 kg ha^-1 was applied before planting or 100 N kg ha^-1 before planting and then 50 N kg ha^-1 top dressed at early boot stage. Nitrogen and cultivars affected all traits examined, while split nitrogen application affected only some of the traits. Grain yields in the most cases were correlated with number of grains per unit area and grain weight and grain nitrogen yields in all cases with grain number per unit area. The contribution of the number of grains per spike to total variation in grain yield among cultivars was almost consistent (37 to 55 %), while the contribution of grain weight was more significant (up to 55 %) in high yields (>6.500kg ha^-1) and number of spikes per unit area (>500). The number of grains per spike contributed from 60 to 83 % to the total variation in grain nitrogen per spike. Increased grain nitrogen concentration resulted in a reduction of its contribution in grain nitrogen yield variation. Nitrogen utilization efficiency was higher during grain filling than during vegetative biomass accumulation. The contribution of nitrogen harvest index to the variation of utilization efficiency for grain yield was higher in plants receiving nitrogen application.     

Performance of Spelt (Triticum spelta L.) and Wheat (Triticum aestivum L.) at two Different Seeding Rates and Nitrogen Levels under Contrasting Environmental Conditions

The aim of this investigation was to obtain information about differences between spelt and wheat in relation to their performance under low-input conditions. Two spelt varieties ( Oberkulmer, Hercule ) and two wheat varieties ( Anna, Iend ) were grown at two different seeding rates (S1 = 200; S2 = 400 kernels/m²) and two nitrogen levels (Nl = 80 kg N/ha; N2 = 110 kg N/ha) at two contrasting locations (Muri; altitude 459 m asl; Oberwallestalden: altitude 1011 m asl). No growth regulators and fungicides were applied.
The overall mean for the "husked" yield (grains and glumes) of spelt was not significantly different from the grain yield of wheat. At the higher site Oberwallestalden however, the "husked" yield of spelt was 10.5 % higher than the grain yield of wheat. Although the number of ears per m² was higher at S2 than at S1, spelt and wheat produced a similar yield at both seeding rates (spelt: S1 = 96 % of S2; wheat: S1 = 95 % of S2) due to the higher single ear weight at S1.
The reaction of spelt and wheat to nitrogen was similar. The yield was 10 % higher at N2 than at Nl for both species. The performance of spelt under low-input conditions was better than for wheat in marginal areas for cereal production only.     

The Effect of Nitrogen Fertilization and Population Density of the Field Bean (Vicia faba L. minor) of Indeterminate and Determinate Growth Habit on the Symbiosis with Root Nodule Bacteria and on the Seed Yield

Field beans of indeterminate (cv. Nadwiślański) and determinate (cv. Tibo) growth habits were grown on field plots with a density of 20, 40 and 80 plants m⁻² at two levels of nitrogen fertilization: low (20 kg N ha⁻¹) and very high (150 kg N ha⁻¹). At the phase of intense pod growth the number and the dry matter weight of root nodules as well as their nitrogenase activity and some features of the plants growth were determined, and in the period of ripeness the components of seed yield were established.
It was found that increased density of sowing as well as the high level of nitrogen fertilization inhibited the growth and development of root nodules and limited their nitrogenase activity in both cultivars. Plants of both varieties were characterized by a similar potential of forming the root nodules, however, in plants of the cv. Tibo the nitrogenase activity of nodules was much lower than in the cv. Nadwiślański.
Increased population density of the plants has in both varieties given increased seed yield when calculated per m² of the soil, compensating in excess the depression of the seed yield from one plant. Such compensation did not occur in the case of the depression of nitrogen fixation under intense nitrogen fertilization.     

Crop yields and N losses tradeoffs in a garlic–wheat rotation in southern Spain

The CropSyst model was parameterized and verified for garlic with data from six field experiments carried out in southern Spain from 2008 to 2011. The model simulated well crop dry matter production, N uptake, and yield from field plots with different N fertilization treatments. A garlic–wheat rotation was then simulated for a 30-year period to evaluate the role of wheat after garlic as a catch crop that utilizes and reduces the loss of residual soil N left at the time of garlic harvest. The scenarios studied were the combination of seven rates of mineral N fertilization in garlic (0, 50, 100, 150, 200, 250 and 300 kgN/ha) and three rates in wheat (30, 70 and 110 kgN/ha). Fertilization rates of 150 kgN/ha in garlic and 70 kgN/ha in wheat were found to provide the best tradeoff between N loss reductions (N leaching and N gas emissions) while attaining near-maximum yields. Increasing fertilization to 200 and 110 kgN/ha for garlic and wheat, respectively, rates not atypical in the region, had a minimum effect on yields but increased average N losses over the rotation by 19 kgN/ha/2-year (29%). Further reductions of N losses by decreasing N fertilization below the best tradeoff point are possible at the expense of crop yield.     

Die Ertragsentwicklung von Wintergetreide und Zuckerrüben bei dauerhafter Senkung des N-Düngungsniveaus

Effects of Long-term Fertilizer N Reduction on Winter Grain and Sugar Beet Yields
The results of recent field experiments concerning the effect of long-term N-reduction on the yield and quality of sugar beet, winter wheat and winter barley on plots which had previously had received ample amounts of N are studied in this paper.
The yield and quality of crops harvested on plots where N-dressings had been reduced for 6–8 years were similar to those of crops grown on plots where N-application had been reduced for only 1 year. Grain yield of winter wheat and winter barley grown without any N-application decreased to about 60 % of amounts normally harvested under local conditions with recommended N dressings, whereas the white sugar yield still remained at 90 %. The yields decreased slightly with an increase in the duration of the experiments. Yields of both cereals and beets remained constant within each level of fertilization, even 6 years after inition of trials with 50, 75 and 125 % of locally recommended N dressings.
On plots that did not receive nitrogen fertilization, N-contents of grain were between 1.5 and 1.7 % for winter wheat and 1.0 and 1.6 % N for winter barley. These contents remained constant over a trial period of 6 years. The amount of annual export of 55–91 kg N/ha also remained constant. Limited N availability causes a decrease in grain protein content rather than in grain yield.
Compared to winter grain species, sugar beet (with 74–117 kg N/ha in the beet body) could realize the highest annual export of nitrogen from the plot. Differences in annual N export existing between the various locations of the plots cannot be explained by differences in soil quality. Continuous high yields that were found even without any N-dressings may be explained by asymbiotic N-fixation, deposition of atmospheric N and a progressive decrease in soil N with 17–56 kg N/ha removed from soil resources annually.     

The Effect of Different Preceding Crops on the Development, Growth and Yield of Winter Barley

Reliable estimations of the yield response of winter barley to different preceding crops are necessary for the design of crop rotations.
The grain yield and yield components of winter barley (cv. Tapir ) following either rapeseed, oats, wheat or barley were determined in five years of field experiments on a sandy loam (Luvisol) at the Hohenschulen experimental station near Kiel, Germany, F.R. The growth, development and incidence of take-all ( Gaeumannomyces graminis var. tritici ) was measured in a total of three years. On average over the five years barley grown after oats yielded 0.8 t per ha (11 %) more than barley following wheat which was mainly due to a higher number of ears per m². Barley following either oats or rapeseed produced a higher dry weight and a larger number of tillers per m² compared with barley grown after wheat or barley. This effect was already-present at the sampling date before winter. Take-all ratings were constantly higher in barley following a susceptible crop, but only reached a severe level late in the season and therefore could not explain the observed differences in growth, development and subsequently grain yield. Since no other pathogens affected the development other non-pathogenic causes must be considered as main causes for the described observations and yield differences.     

长期定位施肥对土壤有机质、不同形态氮含量及作物产量的影响

通过长期定位试验,研究不同施肥处理对河北省低平原区土壤有机质、不同氮形态含量及作物产量的影响,旨在为该区冬小麦–夏玉米轮作系统秸秆全量还田下土壤肥力和作物产量的提高提供理论依据。结果表明,经过36个小麦玉米轮作周期的不同施肥处理后,与不施肥处理（CK）相比,施肥可以提高土壤有机质和全氮含量,且随化肥施用量的增加而逐渐增加。在化肥施用量≤N 360kg/hm²+P₂O₅ 240kg/hm²时,秸秆还田较不还田可显著提高土壤有机质和全氮含量,在化肥施用量为N 540kg/hm²+P₂O₅ 360kg/hm²时,增加速度减缓。与CK相比,长期施肥提高了土壤碱解氮和硝态氮含量,而对土壤铵态氮含量没有显著影响。单施化肥时,表层土壤碱解氮和硝态氮含量随氮肥施用量的增加而增加;在秸秆还田下,N360+P240+S9000处理表层土壤碱解氮和硝态氮含量最高。施肥显著提高了作物产量,单施化肥处理,小麦、玉米产量均随施肥量的增加而逐渐增加;秸秆还田条件下,小麦产量在化肥施用量≤N 360kg/hm²+P₂O₅ 240kg/hm²时较单独施用化肥的处理增产。由以上结果可知,长期施肥可提高土壤肥力,增加土壤有机质和全氮含量,适宜的氮肥施用量配合秸秆还田可固持土壤有机碳和全氮,过量氮肥不利于土壤有机质的累积。长期单施化肥或化肥配合秸秆还田均可提高土壤碱解氮和硝态氮含量,对土壤铵态氮含量无显著影响。长期施肥可提高作物产量,在秸秆还田条件下,化肥施用量为N 360kg/hm²+P₂O₅ 240kg/hm²时,增产效果较好。     

N2-Fixierung und Ertragsstruktur der Weißen Lupine (Lupinus albus L.) im Vergleich zu Vicia faba L. und Glycine max (L.) Merr. auf verschiedenen Standorten

N₂-Fixation and Yield Structure of White Lupin ( Lupinus albus L.) in Comparison to Vicia faba L. and Glycine max (L.) Merr. on Different Sites
In field studies white lupin ( Lupinus albus L., Eldo ) was compared with faba bean ( Vicia faba L., Herz Freya ) in 1986 and soybean ( Glycine max [L.] Merr., Gambit ) in 1988 on five sites respectively. Total N₂-fixation, which was determined by the extended difference method, and yield components were correlated to weather and soil conditions:
1. While faba bean responded to low pH with delayed nodulation, white lupin showed no decrease in N₂-fixation at pH less than 5.5 as far as soil was not calcareous.
2. The white lupin developed its root system most quickly into further soil depths and produced a root dry weight six times as large as that of faba bean in the soil layer 60-90 cm until the end of July (Bayreuth).
3. Despite on the calcareous sites the white lupin showed the highest total-N₂-fixation (max. 36 g N/m²) throughout, the N-gain for the succeeding crop was up to 8 g N/m² for white lupin and faba bean as well. In contrast the N-balance of soybean was mostly negative.
4. Seed yields of white lupin (48-450 g/m²) ranged between those of faba bean (145-549 g/m²) and of soybean (89-290 g/m²); its raw protein yields were the highest found (max. 158 g/m²) though.     

Effect of Incorporation and Unincorporation of Azolla Biofertilizer on the Grain Yield of Rice

Azolla pinnata R. Brown was used as a biofertilizer for rice crop in early and late wet seasons of 1985–86. Azolla as dual crop with rice increased the grain yield significantly over uninoculated control. Incorporation of Azolla increased the yield components and grain yield higher than leaving Azolla on water surface without incorporation. Azolla incorporation with 90 kg nitrogen/ha recorded the highest plant height, tiller numbers/ hill, panicles/m² and 1000 grain weight and grain yield of rice.     

Einfluß von Monoethanolamin auf den Ertrag von Kulturpflanzen

Effect of monoethanolamine on yield of crops
I. Studies on the effect of monoethanolamine on the grain yield and the nitrogen household in cereal plants (pot experiments)
The effect of monoethanolamine (EA, applied as foliar spray, 10 mg per pot) on grain yield and yield components was investigated in pot experiments with spring barley, winter wheat, and winter rye. Under conditions of a moderate drought stress the applied EA increased the grain yield of spring barley from 5 % to 7 % (significance only at α= 0.05). A stimulating effect of EA on the grain yield of winter wheat and winter rye was also obtained.
The positive influence of EA on the grain yield of spring barley was reproducible under the conditions of a limited water supply in small-scale plot experiments (increase of yield about 9 %).
In case of spring barley and winter rye the increase of the grain yield by EA, applied at growth stage 31 (= DC 31) was connected with a greater number of ear-bearing tillers. The increase of the winter wheat yield resulted from more grains per ear of the tillers.
The enhanced formation of tiller grain mass and total tiller biomass by EA was in correlation with a higher nitrogen import into tillers (r = 0.8⁺). Since an export of N from the main shoots into the tillers was not observed a higher N uptake (≥ 6 %) was calculated from N balances. After a fertilization with ¹⁵N-labelled fertilizers the additional ¹⁵N uptake was 13 % to 20 %.
Possible stress reducing activities caused by EA are discussed.     

Yield Stability of Winter Oil-Seed Rape (Brassica napus L.) as Affected by Stand Establishment and Nitrogen Fertilization

The effects of stand establishment and nitrogen fertilizer on yield and yield stability of winter oil-seed rape ( Brassica napus L.) were investigated in two field experiments in north eastern Germany (Mecklenburg-Vorpommern). During six years of testing from 1984/85 to 1989/90 three sowing dates (10 Aug, 20 Aug, 5 Sept) as combined with three plant densities (60, 100, 140 plants/m² in autumn) were compared. Although seed yield did not respond to the main effects of these treatments, the two-way classification resulted in significant differences from the average yield. August sowing combined with lower plant densities caused comparably high yields, while delayed sowing was somewhat effective only with higher plant density. Highest yield stability was achieved at early sowing when combined with lower plant densities. From 1986/87 to 1988/89 nitrogen top-dressings were applied during early March, at start of stem extension and shortly before start of flowering at five locations. 200 kg N/ha in one dose resulted in lowest yield performance and enhanced instability. Contrastingly, the 240 kg N/ha treatment advanced yield stability regardless of split regimes. Nevertheless, split application to 100 kg N/ha + 50 kg N/ha + 50 kg N/ha also guaranteed that high yield performance and optimum yield stability were reached simultaneously and, that the total nitrogen input could be limited to 200 kg N/ha.     

Yield, Quality and Nitrogen Efficiency in Winter Wheat Fertilized with Increasing N Levels at Different Times

Particular problems in N fertilization of winter wheat are found in areas characterized by excessive drainage and rainy springs. A two yearly experiment was carried out in such an environment (Udine, northern Italy) with the objective of testing the effect of increasing levels of total N supply (0, 70, 140 and 210 kg ha⁻¹) and of different times of late N side-dressing (at stem elongation, booting or flowering) on yield, quality traits and on N use efficiency of the wheat cv. Saliente.
The results obtained indicated that yields of about 5 t ha¹ can be obtained if the N supply permits a crop recovery of 130-140 kg ha⁻¹. Supplying the last N fraction at booting increased the fertility of the spike, the overall quality of the product and the efficiency of the fertilization. N supply can be delayed to flowering time in case of high total N, with further positive effects on the quality of the product. The nitrogen use efficiency was inversely and linearly related to total N supply.     

Einfluß langjähriger Winterweizen-Monokultur auf Ertragsbildung, Krankheitsbefall und Nematodenbesatz im Vergleich zum Winterweizenanbau in der Fruchtfolge

Influence of winter wheat grown continuously on grain yield, foot rot infection and nematodes compared with winter wheat in rotation
The field trial, started in 1968 at the experimental-station in Rauischholzhausen, was intended to give informations about winter wheat in continuous cultivation. The question was if intensification of growing culture enables monoculture wheat to yield as high as winter wheat in rotation (sugar-beet, winter wheat, spring barley). Influence of green manuring with additional nitrogen, straw manuring with additional nitrogen, straw burning and fungicid treatment against eyespot was investigated.
The following results have been obtained in the years 1969 to 1985:
1. In the 17 years average winter wheat in rotation yielded with 50.1 dt/ha a higher amount of grain dry weight than wheat in monoculture (43.6 dt/ha). Only in 3 years wheat in monoculture reaches the grain yield level of wheat in rotation.
2. The incidence of Pseudocercosporella herpotrichoides was in wheat after wheat about 10% higher than in wheat after sugar-beets.
3. The use of fungicides against culm base diseases caused in monoculture an increase in yield of about 2.7 dt/ha which was not higher than in rotation (+2.5 dt/ha).
4. The first 12 years indicated a decline-effect with continuously decreasing differences in the yield of wheat in monoculture compared with rotation. But until the 17th year of the trial grain yield differences were as high as in the beginning.
It is not possible either by means of intensification of fertilizing or chemical plant protection treatment to reach the grain yield level of winter wheat in rotation with winter wheat in monoculture. Even the use of modern agronomical methodes remains crop rotation as a central part of an effective plant culture.     

大田长期水氮处理对土壤氮素及小麦籽粒淀粉糊化特性的影响

土壤氮素和水分含量对小麦产量和品质有重要影响。为优化水肥管理实现优质高效栽培, 2014—2015和2015—2016小麦生长季在河南省温县大田水氮长期定位试验地块, 以中筋品种豫麦49-198为材料进行灌水与施氮两因子裂区试验。主区为灌水处理, 设全生育期不灌水(W0)、拔节期750 m ³ hm ^-2 (W1)和拔节期750 m ³ hm ^-2 +开花期750 m ³ hm ^-2 (W2) 3个水平, 副区为氮素处理, 设不施氮(N0)及总氮量180 (N1)、240 (N2)和300 kg hm ^-2 (N3) 4个水平。与W0处理相比, 2个灌水处理均显著降低耕层土壤(0~20 cm)中的硝态氮含量, 灌水处理的籽粒支链淀粉含量、总淀粉含量、淀粉峰值黏度、谷值黏度和最终黏度均显著高于不灌水处理。灌水还增加了籽粒中小淀粉粒(粒径<5.0 μm)的体积百分比, 2014—2015年度增幅显著, W1、W2处理分别较W0处理增加3.4%和4.8%。施氮提高耕层土壤硝态氮含量, 但籽粒直链淀粉含量和小淀粉粒体积百分比低于不施氮处理。在0~240 kg hm ^-2施氮量范围内, 籽粒支链淀粉含量、总淀粉含量及峰值黏度、谷值黏度、最终黏度均随施氮量增加而增加。相关分析表明, 耕层土壤硝态氮含量与总淀粉含量、峰值黏度、谷值黏度和最终黏度间呈极显著正相关。拔节期灌1水、施氮量240 kg hm ^-2条件下, 耕层土壤硝态氮含量为19.64~20.55 mg kg ^-1, 小麦籽粒黏度值较高, 同时改善了淀粉品质。     

Effect of Irrigation and N-Fertilization (Fertigation) Scheduling on Tomato in the Jordan Valley

Tomato ( Lycopersicon esculentum mill. cv. Petopride ) is the most important vegetable crop in Jordan; its production is characterized by inadequate irrigation and fertilization practices, especially under open field conditions. A field study was carried out to determine the effect of different irrigation intervals and different N-fertilizer doses on water use, tomato yields and residual soil nitrogen.
Results indicated significant differences in water use and tomato yields between irrigation treatments. Highest yield (51.4 ton ha⁻¹) was obtained under three irrigations per week with 504 mm total water supply, whereas under irrigation once a week 35.3 ton ha⁻¹were produced with 353 mm total water supply. There were no significant differences in yield between fertigation with ten equal time intervals and fertigations with intervals as per crop requirements, the yields were 47.1 ton ha⁻¹ and 44.5 ton ha⁻¹, respectively. However, yield was significantly lower with three fertigations at equal intervals and equal doses (35.8 ton ha⁻¹) throughout the season. There were no significant differences between mineral nitrogen forms in terms of yield effects. Significant irrigation effects were observed on total soil nitrogen. Residual soil N was 0.052% in the surface layer (0–30 cm), and 0.030% in the subsurface layer (30–60 cm).     

旱地冬小麦产量、氮肥利用率及土壤氮素平衡对降水年型与施氮量的响应

研究不同降水年型施氮量对旱地冬小麦产量、氮素利用及土壤氮素表观平衡的影响,探讨渭北旱塬旱作麦田稳产增效的最佳氮素投入量,为高效施氮提供理论依据。田间定位施氮试验于2017—2020年连续3年在陕西合阳县开展,以长6359为试验材料,设置5个施氮量处理包括0、60、120、180和240 kg hm^-2 (分别以N0、N60、N120、N180和N240表示),研究旱地冬小麦产量、氮肥利用率及土壤氮素平衡对降水年型与施氮量的响应。连续3年定位试验表明:(1)降水年型对冬小麦产量和经济收益影响显著,丰水年较平水年和欠水年分别增产33.6%和113.3%,经济收益提高2～3倍以上。冬小麦氮肥回收利用率和农学效率与产量有相似的变化规律,丰水年氮肥回收利用率和农学效率较平水年和欠水年分别提高4.7个百分点、0.6 kg kg–1 (平水年)和11.9个百分点、2.5 kg kg–1 (欠水年)。(2)无论何种降水年型,冬小麦产量、氮肥回收利用率和农学效率均随施氮量增加呈现先增加后下降的趋势。在丰水年和平水年,均以N180处理下最高,收获期0～100 cm土层土壤硝态氮积累分...