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1.
稻麦轮作区保护性耕作条件下氮肥对水稻生长发育和产量的调控效应 总被引:2,自引:0,他引:2
20062~008年在四川省广汉市开展了保护性耕作措施下水稻氮肥调控试验,设置不同秸秆还田量(0、6000、12000 kg/hm2)、施氮量水平(0、1502、10 kg/hm2)以及氮素分配比例(6∶2∶2、6∶3∶1、8∶2)。结果表明,和施N 150 kg/hm2相比,N 210 kg/hm2处理水稻分蘖力、干物质积累量、开花期的植株个体和群体质量均有升高,花后茎鞘贮藏物质的输出及光合物质积累量增加,子粒产量提高7.3%。在施N 150 kg/hm2水平和基肥∶蘖肥∶穗肥=6∶2∶2分配比例下,与旋耕无麦秸还田处理相比,免耕秸秆还田与否对水稻茎蘖消长、干物质积累及子粒产量影响较小,但花后绿叶功能期延长,光合产物积累在产量形成中所占比例增加。在施N 210 kg/hm2水平和基肥∶蘖肥∶穗肥=6∶3∶1分配比例下,免耕还田麦秸量从6000 kg/hm2增加至12000 kg/hm2,水稻分蘖力明显增强,干物质积累量增大,开花期个体和群体质量提高,单位面积穗数和穗实粒数增多,产量增加4.1%;将氮肥分配比例由6∶3∶1变为8∶2,即增加基肥用量,减少中后期的氮素供应会导致分蘖高峰后分蘖大量死亡,有效穗数降低,穗粒数减少,产量下降。以上结果说明,氮素的充分供应是保护性耕作水稻获得高产的重要前提和基础,适当提高麦秸还田量、增加中后期氮素供应,能提高氮素利用率及分蘖成穗率和结实率,利于稳产高产。 相似文献
2.
减量施肥下小麦产量、肥料利用率和土壤养分平衡 总被引:28,自引:7,他引:21
3.
Field studies were conducted for three seasons (1978–1979, 1979–1980 and 1981–1982) on a Palouse silt loam near Pullman, Washington, to compare the effects of broadcast and deep banding of nitrogen (N) fertilizer beneath winter wheat (Triticum aestivum L.) seed on N uptake and dry matter production of downy brome (Bromus tectorum L.) and jointed goatgrass (Aegilops cylindrica Host.), and on N uptake, dry matter production and grain yields of winter wheat. Three tillage systems were used: conventional tillage; shallow roto-tilling, or no-tillage prior to planting. Rates of N were 0, 65, 130 and 190 kg N ha−1 as ammonium nitrate. Additional plots were maintained free of weeds at the 130 kg N ha−1 rate. In 1983–1984, deep banding of the fertilizer between rows in a paired-row configuration was compared to surface-broadcast N fertilizer using N rates of 0, 45, 90 and 135 kg N ha−1. There were no significant differences between broadcast and deep-band application of N on grass weed N uptake or dry matter production with mold-board plowed or no-tillage, but there was greater weed growth with surface-broadcast N with shallow roto-tilling. Wheat N uptake, growth and grain yields were consistently higher with band-applied N compared to broadcast N. The yield response to banding N was the same with or without the presence of grass weeds. 相似文献
4.
氮肥运筹对四川丘陵区机播套作小麦群体质量及产量的影响 总被引:2,自引:1,他引:1
以四川大面积推广应用的中筋小麦品种川麦42为材料,采用两因素裂区试验设计,研究了不同施氮量和施氮方式对带式机播套作小麦(播幅为净作的50%)群体质量和产量的影响。结果表明,套作小麦拔节后的叶面积指数(LAI)、干物质积累量均随施氮量的增加而提高,粒叶比则在中等偏高施氮量(N 180 kg /hm2)时最大;底肥:拔节肥=7:3的施氮方式有效地提高了花后LAI、干物质日积累速率及粒叶比。对产量影响方面,有效穗和穗粒数随施氮量的增加而提高,成穗率和千粒重则在N 180 kg /hm2时最高,底肥:拔节肥=7:3的施氮方式提高了成穗率。相关分析表明,孕穗后的LAI、孕穗期的干物质积累以及拔节至孕穗期的干物质日积累速率与产量呈显著或极显著正相关。本试验条件下,在施氮量为N 180 kg/hm2、施氮方式为底肥:拔节肥=7:3时,套作小麦产量构成因素协调好,产量最高,达4800.4 kg/hm2,与生产上大面积净作小麦产量相当。其群体质量指标为:基本苗184.5万株/hm2,成穗数225.3万穂/hm2,成穗率72.8%,孕穗期LAI 4.68,灌浆期LAI 2.11,花后干物质积累量1600.6 kg/hm2,结实粒数9652.5万粒/hm2,粒叶比11.501mg/cm2。 相似文献
5.
M. Nyborg E. D. Solberg R. C. Izaurralde S. S. Malhi M. Molina-Ayala 《Soil & Tillage Research》1995,36(3-4):165-174
Long-term influence of N fertilizer, tillage and straw on crop production and soil properties are not well known in central Alberta. Field experiments were established in autumn 1979, on a Black Chernozemic soil and on a Gray Luvisolic soil in north-central Alberta to determine the long-term effect of tillage, straw and N fertilizer on yield and N uptake of barley (Hordeum vulgare L.). Fertilizer N was applied annually at 56 kg ha−1. The 11 year averages of barley yields and N uptake under zero tillage were lower than under conventional tillage. Retention rather than removal of straw tended to reduce barley yield for the initial 6 years and 2 year at Site 1 and Site 2, respectively. A simple mathematical model of average annual plant N uptake and grain yield could account for most of the variation in the data observed at both sites (R2 = 0.907; P < 0.01). Final values of soil N, calculated using a mass balance approach, agree closely with values measured at the end of the eleventh year. Conventional tillage and zero tillage, with addition of fertilizer N and retention of straw, were the only treatments with apparent but small net addition of N to soil at Site 1 (40 kg ha−1 and 117 kg ha−1, respectively). At Site 2, only the zero tillage treatment with addition of fertilizer and retention of straw gained soil N (29 kg ha−1). In conclusion, soil ecosystems functioning in subhumid environments with slight to moderate heat limitations such as those in central Alberta can adapt, within a few years, to zero tillage practices with full retention of straw. 相似文献
6.
不同耕作方式下缓释肥对夏玉米产量及氮素利用效率的影响 总被引:15,自引:2,他引:13
【目的】氮肥中氮素的合理释放是提高作物产量及氮素利用效率的重要措施之一,耕作方式也可显著影响氮肥施用效果。本文比较了浅旋、 免耕和深松三种耕作方式下缓释肥和常规施肥对夏玉米干物质积累、 叶面积指数及植株氮素积累的影响,为玉米缓/控释肥的合理应用和耕作方式的选择提供科学依据和技术支撑。【方法】试验于2013年至2014年在河南新乡进行。采用裂区设计,以耕作方式为主区,设浅旋(R)、 免耕(N)和条带深松(S)3种耕作方式; 肥料类型为副区,设不施氮(CK)、 缓释肥(SRF)和常规施肥(CCF)3个处理。【结果】相同耕作方式下,缓释肥处理的夏玉米产量及氮肥利用效率显著高于常规施肥; 相同肥料处理,其条带深松耕作的夏玉米产量及氮肥利用效率显著高于浅旋和免耕直播处理。各处理中,以条带深松下的缓释肥处理产量及氮肥利用效率最高,显著高于其他处理,其中两年产量平均增幅为13.4%~59.2%,氮肥农学利用效率(AEN)增幅为27.9%~72.7%,氮素表观利用率(REN)增长15.1~55.7个百分点。分析表明,干物质积累和氮素积累,尤其是花后干物质和氮素积累的增加是产量提高的主要原因。 在N、 R和S 三种耕作方式下,缓释肥处理的花后干物质积累量较常规施肥分别提高13.0%、 12.7%和18.7%; 花后氮素积累量分别提高14.4%、 16.8%和17.8%,其中条带深松耕作的增幅显著高于浅旋和免耕直播。条带深松下缓释肥处理花后干物质和氮素积累量显著高于其他处理。【结论】与传统耕作方式和施肥方式相比,条带深松耕作和缓释肥的施用均显著提高了夏玉米的产量及氮素利用效率,各处理中以条带深松耕作下缓释肥处理的夏玉米产量及氮素效率最高,因此,条带深松深施缓释肥可作为黄淮海区一项有效的合理耕作与施肥措施。 相似文献
7.
Faisal Nadeem Aman Ullah Abdul Rehman Ahmad Nawaz Muhammad Naveed 《Archives of Agronomy and Soil Science》2020,66(8):1042-1057
ABSTRACT This study was conducted to evaluate influence of zinc (Zn) application on productivity, grain biofortification and grain quality of wheat planted under plough tillage (PT) and zero tillage (ZT) systems. Zn was delivered as soil application (10 kg ha?1), foliage spray (0.025 M) and seed priming (0.5 M) in wheat planted under PT and ZT systems. ZT had higher total soil porosity, total soil organic matter, soil organic carbon and soil microbial biomass carbon than PT. Zn application, by either method, improved grain yield, grain Zn and grain quality in both tillage systems. The grain Zn concentration was 72% and 59% higher with soil-applied Zn in ZT wheat during 2016–2017 and 2017–2018, respectively, compared with no Zn. However, Zn seed priming was the most effective in improving wheat grain yield in both tillage systems. Foliage and Zn soil application were better in improving the indices of Zn use efficiency of Zn. In conclusion, Zn seed priming was the most effective method in improving the wheat grain yield, whereas soil Zn application in ZT and foliar applications in PT were the most effective for grain Zn biofortification. However, Zn soil application was the most cost-effective method of Zn application. 相似文献
8.
《Soil & Tillage Research》1988,12(1):65-79
The effects of zero, minimum and conventional tillage on soil physical properties and on the growth and yield of mungbean (Vigna radiata L.) grown after lowland rice (Oryza sativa L.) were studied in field experiments conducted during the 1984 and 1985 dry seasons (DS) at two Philippine sites (clay loam, Vertic Tropaquept, with shallow water table and sandy loam, Aeric Tropaquept, with deep water table). Effects on maize (Zea mays L.) were studied only in 1984 on clay loam soil.All parameter measurements were not significantly different with minimum and conventional tillage. Tillage, averaged over minimum and conventional and in both seasons, significantly lowered bulk density (10%) and increased aeration porosity (120%) of the 0–0.10 m clay loam soil layer. In sandy loam soil in 1985, it decreased bulk density by 7% and increased aeration porosity by 61%. Tillage only slightly affected the matric suction, strength and temperature of both soils.Maize seedling emergence was 15% higher with zero tillage than with minimum and conventional tillage. Tillage, however, did not affect mungbean emergence. It significantly increased maize plant height (42%) and root length (61%) as compared with no tillage. In mungbean, tillage increased plant height (18%) and root length (60%), as averaged over both sites and seasons. In clay loam soil, tillage increased grain yield of maize by 242%. On the same field, tillage increased mungbean grain yield by 78% in 1984 and 20% in 1985. In sandy loam, tillage produced 38% more mungbean grains than without tillage. 相似文献
9.
旱地不同小麦品种产量与干物质及氮磷钾养分需求的关系 总被引:6,自引:2,他引:4
10.
Wheel traffic and tillage effects on runoff and crop yield 总被引:1,自引:0,他引:1
Traffic and tillage effects on runoff, soil water and crop production under rainfall were investigated over a period of 6 years on a heavy clay vertosols (vertisols) in Queensland, Australia. A split plot design was used to isolate traffic effects, while the cropping program and treatments were broadly representative of extensive grain production practice in the northern grain region of Australia. Treatments subject to zero tillage and stubble mulch tillage each comprised pairs of 90 m2 plots, from which runoff was recorded. A 3 m wide controlled traffic system allowed one of each pair to be maintained as a non-wheeled plot, while the complete surface area of the other received a single annual wheeling treatment from a working 100 kW tractor.
Mean annual runoff from controlled traffic plots was 81 mm (36.3%) smaller than that from wheeled plots, while runoff from zero tillage was reduced by 31 mm (15.7%). Traffic and tillage effects appeared to be cumulative, so the mean annual runoff from controlled traffic and zero tillage plots, representing best practice, was 112 mm (47.2%) less than that from wheeled stubble mulch plots, representing conventional cropping practice. Rainfall infiltration into controlled traffic zero tillage soil was thus 12.0% greater than into wheeled stubble mulched soil. Rainfall/runoff hydrographs show that wheeling produced a large and consistent increase in runoff, whereas tillage produced a smaller increase. Treatment effects were greater on dry soil, but were still present in large and intense rainfall events on wet soil.
Plant available water capacity (PAWC) in the 0–500 mm zone increased by 10 mm (11.5%) and mean grain yields increased by 337 kg/ha (9.4%) in controlled traffic plots, compared with wheeled plots. Mean grain yield of zero tillage was 2–8% greater than that of stubble mulch plots for all crops except for winter wheat in 1994 and 1998. Increased infiltration and plant available water were probably responsible for increased mean grain yields of 497 kg/ha (14.5%) in controlled traffic zero tillage, compared with wheeled stubble mulch treatments. Dissipation of tractive and tillage energy in the soil is the apparent mechanism of deleterious effects on the soils ability to support productive cropping in this environment. Controlled traffic and conservation tillage farming systems appear to be a practicable solution. 相似文献
11.
Acid subsoils and tillage pans limit crop yields on sandy soils of the Southern Coastal Plain of the United States. Studies were conducted for 3 years on two soils with acid subsoils and tillage pans to determine the effect of starter fertilizer (22 kg N, 10 kg P ha−1 and fluid lime (1350 kg ha−1) placement with in-row tillage methods on growth and yield of grain sorghum (Sorghum bicolor (L.) Moench) grown in a conservation-tillage system. Fertilizer and lime were applied in factorial combinations in the in-row subsoil channel, in a narrow (4-mm) slit 18 cm below the tillage pan (slit-tillage), or 7 cm to the side of the row incorporated 7 cm deep. Slit-tillage was as effective as subsoiling in two of the four tests where plant growth and grain yield responded to deep tillage. Of the other two tests where there was a response to deep tillage, slit-tillage resulted in a 6% decrease in grain yield compared to subsoiling in one test, and an 8% yield increase in the other. Starter fertilizer placement was not critical, but response to starter fertilizer occurred only when deep tillage, either in-row subsoiling or slit-tillage, was used in conjunction with the fertilizer. Starter fertilizer consistently increased early-season plant growth; however, yield response to starter fertilizer was highly dependent on rainfall. Starter fertilizer application increased yield in only one of five tests. There was no benefit from injecting lime. 相似文献
12.
《Communications in Soil Science and Plant Analysis》2012,43(22):2905-2917
ABSTRACT Low, erratic rainfall amounts and restricted accessibility of chemical fertilizer for rural farmers in developing countries may have negative effects on crop production. Agricultural methods like biochar applications, fertilizer microdosing and tied ridging can help to mitigate these constraints, but have rarely been studied in combination and under varying water availability. A field trial was conducted in split-plot design over two contrasting cropping seasons in 2016 and 2017 in Tanzania to study the effect of these agricultural methods on maize grain yield, biomass, leaf area index, plant height and soil moisture content. In both seasons each with contrasting irrigation frequencies, fertilizer microdosing increased the grain yield of maize. Biochar alone affected the yield only at high application rates (10 t/ha) and low irrigation frequency. However, when combined with fertilizer microdosing the yield effect of biochar was more pronounced. For example, combining 5 t/ha biochar with fertilizer microdosing under flat tillage increased yield by 170% compared to the control without biochar and fertilizers. Tied ridges increased soil moisture content and tended to increase maize yield compared to flat tillage, whereas biochar application resulted in significantly higher soil moisture contents. Fertilizer microdosing with biochar application can be recommended to improve maize yields mainly under flat tillage. 相似文献
13.
Soil compaction has been recognized as a problem limiting crop production, especially in the Southern Coastal Plain of the USA. Development of tillage and residue management systems is needed to alleviate soil compaction problems in these soils. Fertilizer nitrogen (N) management is also an important factor in these management systems. In 1988, a study was initiated with a wide-frame (6.3 m) vehicle to determine the interactive effects of traffic, deep tillage, and surface residue management on the fate of fertilizer N applied to corn (Zea mays L.) grown on a Norfork loamy sand (fine-loamy, siliceous, Thermic, Typic Kandiudults). Corn was planted into a winter cover crop of ‘Tibbee’ crimson clover (Trifolium incarnatum L.). Treatments included: traffic (conventional equipment or no traffic); deep tillage (no deep tillage, annual in-row subsoiling, or one-time only complete disruption); residue management (no surface tillage or disk and field cultivation). The one-time only complete disruption was accomplished by subsoiling at a depth of 43 cm on 25 cm centers in spring 1988. In 1990–1991, fertilizer applications were made as 15N-depleted NH4NO3 to microplots inside each treatment plot. The 1990 and 1991 data are reported here. In 1990 an extreme drought resulted in an average grain yield of 1.8 Mg grain ha−1, whereas abundant rainfall in 1991 resulted in 9.4 Mg grain ha−1. Deep tillage increased corn dry matter production in both years. In 1991, grain yields indicated that corn was susceptible to recompaction of soil owing to traffic when residues were incorporated with surface tillage. In the dry year, plant N uptake was increased 27% with deep tillage and decreased 10% with traffic. In the wet year, a surface tillage × deep tillage × traffic interaction was observed for total N uptake, fertilizer N uptake, and total fertilizer N recovery in the plant-soil system. When combined with traffic, plant N uptake was reduced with the highest intensity tillage treatment (135 kg N ha−1) because of rootrestricting soil compaction, and with the lowest intensity tillage treatment (129 kg N ha−1) because of increased N losses. In these soils, leaving residues on the soil surface can reduce the detrimental effect of traffic on corn production, but if no surface tillage is performed, deep tillage is needed. 相似文献
14.
Two trials to compare the effect of coventional, minimum and zero tillage on maize growth on a lowland tropical clay soil with impeded drainage were carried out during the rainy season of 1980 in Trinidad. During the first trial where low levels of nitrogen (50 kg/ha) and grass mulch (2 t/ha) were used, the mean fresh weight yield of ears from conventional tillage was 5.64 t/ha. Zero and minimum tillage treatments yielded about 40% less. Conventional tillage also produced significantly taller plants and more stem and leave dry matter (P = 0.05) than the other two tillage methods. The growth and yield of maize resulting from minimum and zero tillage were not significantly different.During the second trial where rainfall was heavy and higher levels of nitrogen (85 kg/ha) and grass mulch (6 t/ha) were used, seedling emergence was reduced but yields were at least 100% higher than those from the first trial and the fresh weight yield of ears from zero tillage was only 19% less than conventional tillage. Yields from zero tillage plots which had been tilled conventionally for the previous trial were only 1% higher than yields from continuous zero tillage. This improved performance of the zero tillage treatment indicates its potential for maize production on this fine textured soil and suggests the need for further studies with accompanying economic analysis. 相似文献
15.
Jashanjot Kaur Harinderjit Kaur Pritpal Singh 《Communications in Soil Science and Plant Analysis》2020,51(11):1483-1498
ABSTRACT The present studies were conducted to evaluate the effect of different nutrient management practices under two tillage options in wheat. The experiments were laid out in split-plot design with a combination of two varieties (WH 1105 and HD 2967) and two tillage options (Conventional and No tillage) in the main plot and six precision nutrient management practices [absolute control, site-specific nutrient management with Nutrient Expert for wheat (SSNM-NE)(170 kg nitrogen (N)/ha), SSNM NE+GreenSeeker (GS)(153/158 N kg/ha), N120 (120 kg N/ha) before irrigation, N120 after irrigation and N Rich (180 kg N/ha)] in subplot replicated thrice. The grain yield and quality characters in no tillage (NT) and conventional tillage (CT) were similar but agronomic efficiency was higher in NT. Both the varieties (WH 1105 and HD 2967) gave similar grain yield and quality. Wheat variety WH 1105 recorded significantly higher sodium dodecyl sulfate sedimentation (SDS) and gluten index. The treatment SSNM NE+GS had resulted in 107.1% higher grain yield than no nitrogen control but similar to enriched N plot (180 kg N/ha). The grain protein, SDS and gluten index in need-based nutrient management (SSNM+GS) treatment were found to be similar as recorded in SSNM-NE (170 kgN/ha) and N enriched plot (180 kg N ha?1). The agronomic efficiency and recovery efficiency in SSNM+GS were also better than SSNM NE. 相似文献
16.
不同耕作方式对旱作区冬小麦生产和产量的影响 总被引:19,自引:10,他引:19
为了筛选出适宜旱作区推广的耕作技术,在旱作大田条件下,设置一次深翻、免耕覆盖、深松覆盖、传统耕作四种耕作方式,研究了不同耕作方式下花后土壤水分和养分状况、小麦旗叶叶绿素含量、小麦旗叶净光合速率和小麦籽粒灌浆速率及产量。结果表明,免耕覆盖、深松覆盖开花期和灌浆期0~40 cm土层土壤水分含量分别比传统耕作提高了4.13%、6.23%和5.50%、9.27%,0~40 cm土层土壤碱解氮、速效磷和速效钾含量均显著高于传统耕作,为小麦开花后生长发育提供了良好的环境,从而提高了小麦灌浆中后期旗叶叶绿素含量和净光合速率,促进花后干物质积累及干物质向籽粒转运,进而提高了籽粒灌浆速率,使得籽粒产量显著提高。 相似文献
17.
L. López‐Bellido V. Muñoz‐Romero P. Fernández‐García R. J. López‐Bellido 《Soil Use and Management》2014,30(4):471-479
Plant nutrition requires organic nitrogen to be mineralized before roots can absorb it. A 13‐year field study was conducted on typical rain‐fed Mediterranean Vertisol to determine the effects of tillage system, crop rotation and N fertilizer rate on the long‐term NH4+–N content in the soil profile (0–90 cm). The experiment was designed as a randomized complete block with a split–split plot arrangement and three replications. The main plots tested the effects from the tillage system (no‐tillage and conventional tillage); the subplots tested crop rotation with 2‐year rotations (wheat–wheat, wheat–fallow, wheat–chickpea, wheat–faba bean and wheat–sunflower) and the sub‐subplots examined the N fertilizer rate (0, 50, 100 and 150 kg N/ha). Soil NH4+–N content was greatest in the rainiest years and greater under the no‐tillage (NT) system than the conventional tillage (CT) system (57 and 48 kg/ha, respectively). The deepest soil (30–60 and 60–90 cm) contained a greater NH4+–N content (21.0 and 21.4 kg/ha, respectively) than the shallowest soil (19.5 kg/ha in 0–30 cm). This observation may be related to Vertisol characteristics, especially crack formation that allows greater mineralization in the deepest layers by displacing organic matter. 相似文献
18.
减氮控磷稳钾施肥对水稻产量及养分积累的影响 总被引:26,自引:8,他引:18
氮、 磷用量偏大,钾肥用量不足不仅影响水稻的正常生长发育,而且导致养分利用率偏低。本文通过田间试验,研究减量施用氮、 磷肥,稳定钾肥投入对水稻产量、 养分积累量和肥料利用率的影响。试验设14个处理,每个处理重复2次。结果表明,氮钾、 磷钾、 氮磷钾配施处理的水稻秸秆生物量和籽粒产量均显著高于不施肥处理(P0.05); 减氮控磷稳钾处理(N 225 kg/hm2、 P2O5 60 kg/hm2、 K2O 90 kg/hm2)与常规施肥处理相比(N 300 kg/hm2、 P2O5 150 kg/hm2、 K2O 60 kg/hm2)能显著增加水稻秸秆生物量(P0.05),明显提高千粒重和籽粒产量; 试验还得出,减氮控磷稳钾处理分蘖期地上部氮、 钾含量和秸秆氮、 钾含量显著高于常规施肥处理(P0.05); 收获期地上部氮、 钾的积累量和氮、 磷的表观利用率显著大于常规施肥处理(P0.05)。适当减少氮、 磷用量, 增加钾肥用量能改善氮、 钾营养状况,促进地上部干物质的积累,提高籽粒产量和氮、 磷表观利用率。N 196.2 kg/hm2、 P2O5 46.5 kg/hm2、 K2O 90 kg/hm2的配施方案具有实际推广应用价值。 相似文献
19.
《Communications in Soil Science and Plant Analysis》2012,43(1-2):137-151
Abstract Crop response to fertilizer nitrogen (N) is dependent upon tillage management. This study was conducted to determine how tillage rotation influences non‐irrigated crop growth, N uptake and yield. The effects of tillage rotation, N rate and N timing schedule on early season dry matter production and N uptake, ear leaf N concentration at silking, and yield of corn [Zea mays (L.) Pioneer 3378] were investigated at Painter, VA, on an Altavista loam (fine‐loamy, mixed, thermic Aquic Hapludult). In 1986, maximum yields achieved in the 6‐year continuous no till (NT) [5.82 Mg/ha] and first year no till (AT) [5.64 Mg/ha] were significantly greater than that of the 6‐year continuous conventional till (CT) [3.67 Mg/ha], but no yield differences were obtained in the drier 1987 season. A higher rate of N fertilizer was required to obtain maximum yield in the first year no till (168 kg N/ha) than in the NT (112 kg N/ha) during 1986. Early 1986 N uptake and growth response with and without N at planting increased in the order CT < AT = NT and AT < CT < NT, respectively, indicating greatest immobilization of soil N occurred in the newly established no till soil. Lack of differences in critical ear leaf N values developed for NT and CT in each year imply that plant norms developed for one tillage system may accurately assess N status of corn grown under different tillage practices. 相似文献
20.
小麦根蘖发育和产量对耕作和追氮方式以及施氮量的响应 总被引:3,自引:2,他引:1