施氮对不同种植密度下夏玉米产量及子粒灌浆的影响

以夏玉米杂交种郑单958为材料,在不同种植密度(52500、67500、82500株/hm2)及不同供氮水平(0、120、240、360kg/hm2)下对玉米子粒产量、产量构成、植株地上部干物质积累、子粒灌浆动态及灌浆过程中的物质代谢状况进行了研究。结果表明,不同施氮水平及种植密度下子粒产量的差异主要是由穗粒数所决定。产量及穗粒数的形成与植株地上部干物质积累密切相关,施氮可明显促进植株地上部干物质积累量的增加。穗顶部与中下部子粒的灌浆动态及物质代谢具有明显的不同,授粉后5～20d,顶部子粒灌浆体积、干重、灌浆速率、总可溶性糖、蔗糖、淀粉含量均明显低于中下部子粒;同化物供应的差异是导致顶部与中下部子粒发育差异的一个重要原因。顶部子粒灌浆体积、干重、总糖、淀粉含量施氮处理高于不施氮处理;施氮可明显促进同化物的积累及向顶部子粒的供应,促进顶部子粒灌浆,减少败育,增加有效粒数,提高产量。     

Physical characteristics of corn kernels as influenced by nitrogen fertilization

Abstract

Physical characteristics of corn (Zea mays L.) kernels influence end‐use. Agronomic practices including nitrogen (N) fertilization may influence kernel hardness. The objective of this study was to determine if com endosperm characteristics influence the effect of N fertilization on kernel hardness and breakage susceptibility. In 1988, six corn hybrids differing for endosperm were grown at two locations in Ohio and with two N rates (34 and 200 kg/ha). Kernels of the waxy hybrid were denser less susceptible to breakage than its near‐isogeneic normal counterpart. Soft kernels weighted less and were less dense than hard kernels, but these two hybrid classifications did not differ for breakage susceptibility. Hard kernels possessed a greater resistance to grinding than soft kernels. Increasing N fertilizer rate increased resistance to grinding and reduced susceptibility to breakage of both soft and hard endosperm types. Fertilization with N not only affects corn grain yield, but also affects physical characteristics that are important to end‐users.     

Response of corn to NPK fertilization grown in a Latosol in South Sulawesi,Indonesia

Abstract

Corn (Zea mays L.) is next to rice as an important food crop grown in South Sulawesi, Indonesia. However, yields obtained by farmers are rather low, around 0.6 to 1.0 ton/ha. Efforts to increase yield have been tried through the application of NPK fertilizers. A study was conducted to determine the effects of N, P and K application on corn yield and what soil constrains, in terms of nutrient elements in the corn plants, exist in the latsols found at Desa Tokka, Sinjai, and South Sulawesi. It was found that application of K significantly increased the growth and corn grain yields on the latosols at Sinjai. Without K, grain yield and the K content in the ear leaf were low. The correlation between grain yield and rate of K shows that an application of 72 kg K₂O/ha together with 90 kg N and 80 kg P₂O₅ per ha produce the best yield of 3.6 tons/ha. The K content in the ear leaf of 1.8% was related to this maximum yield.     

Critical nutrient concentrations and DRIS analysis of leaf and grain from high‐yielding corn

Abstract

A field experiment was conducted to optimize fertilizer inputs for maximizing the yield of irrigated com (Zea mays L.). This report is a summary of the nutrient composition of leaf and grain samples from the highest yielding treatment in the experiment. The experiment had 15 treatments replicated three times in a randomized complete block design. The N rate treatments were 45,100, 200, 300, and 400 kg N/ha with and without 50 kg P/ha, 67 kg K/ha, and 22 kg S/ha. The plant populations were 74,000 plants/ha (30,000 plants/A) and 100,000 plants/ha. The highest corn yield was 15.6 Mg/ha (250 bu/A with 15.5% moisture) which was produced with 300 kg N/ha combined with complete N, P, K, and S fertilization. It is assumed that samples of corn leaf and grain from a plot yielding that high would have nutrient concentrations in the sufficiency range. Many of the nutrient concentrations from these arbitrarily designated sufficiency ranges are close to the critical ranges and concentrations reported in the literature. It can be concluded that established critical concentrations and ranges could be useful for diagnosing high‐yielding corn. Furthermore, the negative DRIS indices for N, P, K, S, and Cu indicate that these nutrients are most likely to be limiting based on the published norms.     

氮钾配施对弱筋小麦氮、钾养分吸收利用及产量和品质的影响

在低钾和中钾土壤上,采用田间试验研究了氮钾配施对弱筋小麦氮、钾养分吸收及产量和品质的影响。结果表明,氮钾肥配合施用促进了弱筋小麦植株氮、钾含量的提高,氮、钾养分吸收表现出一定的正交互作用;合理配施氮钾肥能够显著地提高弱筋小麦产量。在低钾土壤上,N180K150处理产量最高(5023.kg/hm2);中钾土壤上,最高产量(5145.kg/hm2)为N180K90处理。两种土壤上,氮肥的产量效应均大于钾肥。低钾土壤上,氮钾对小麦产量表现出极显著的正交互作用。提高氮肥用量显著降低了弱筋小麦的专用品质,钾肥对小麦品质的独立效应不显著,但是钾对氮的品质效应存在着交互作用。弱筋小麦抽穗期或灌浆期植株氮、钾含量与子粒品质的相关系数较大,与产量的相关系数则是以拔节期或抽穗期较大。适当减少氮肥用量和增加氮、钾肥基施比例有利于改善弱筋小麦的品质。     

减氮控磷稳钾施肥对水稻产量及养分积累的影响

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。     

Corn Hybrid Response to Starter Fertilizer Combinations

ABSTRACT

Research has shown that some corn (Zea mays L.) hybrids grown under reduced tillage conditions respond to starter fertilizer containing nitrogen (N) and phosphorus (P), while others do not. This research studied variability of responsiveness among corn hybrids to starter fertilizer containing a more complete complement of nutrients. The experiment was conducted from 1996 to 1998 on a producer's field near Scandia, KS, on a Carr sandy-loam soil (coarse-loamy, mixed, superactive calcareous, mesic Typic Udifluvents). The response of four corn hybrids (Pioneer 3563, Pioneer 3346, DeKalb 591, and DeKalb 646) to starter fertilizer combinations containing N, P, potassium (K), sulfur (S), and zinc (Zn) was evaluated. In all three years of the experiment, starter fertilizer containing N and P consistently increased grain yield, reduced the number of thermal units needed from emergence to maturity, decreased grain-moisture content at harvest, and increased total P uptake (grain plus stover at maturity) of Pioneer 3346 and DeKalb 591, but had no effect on Pioneer 3563 and DeKalb 646. Addition of S to the starter mix produced additional yield increases for Pioneer 3346 and DeKalb 591, whereas addition of K and Zn to the starter did not show any additional yield benefit for these two hybrids. Grain yield of Pioneer 3563 and DeKalb 646 was not improved by starter fertilizer, regardless of the elemental composition. When no starter fertilizer was applied, early-season root development was greater in Pioneer 3563 and DeKalb 646 than in the other two hybrids. However, the addition of starter fertilizer increased numbers of roots and depth of rooting in Pioneer 3346 and DeKalb 591 but had no effect on Pioneer 3563 and DeKalb 636. Results showed starter fertilizer benefited grain yield for two hybrids. Grain yield of the other two hybrids, however, was not influenced by starter, regardless of which nutrients were supplied. This response may be attributed to differences in root-growth characteristics of the hybrids. The two responsive hybrids did, however, yield an average of 0.75 mg ha^?1 greater than the two non-responsive hybrids. This result indicates it is unlikely that all of the yield loss from not using a starter can be avoided by hybrid selection.     

Invertase activity limits grain yield of maize under salt stress

Salt stress reduces grain yield of maize (Zea mays L.) due to poor kernel setting but not due to decreased grain filling. In the present study, it was tested whether acid invertase activity is decreased in developing kernels of maize under salt stress, and if assimilate supply is limited. The relatively salt‐sensitive maize hybrid Pioneer 3906 was compared with the more salt‐resistant hybrid SR 12. Salt stress caused a significant decrease in grain yield which was due to a 50% decrease in kernel number. No source limitation was observed, as the sucrose concentrations in kernels were significantly increased under salt stress for both genotypes. In contrast, glucose and fructose concentrations in kernels were significantly decreased. Salt stress caused a significant inhibition of soluble acid invertase activity to 19% in hydroponics 5 d after pollination (5 DAP) and to 50% in the soil culture experiment (2 DAP). The decrease in enzyme activity was the same for both genotypes. In the soil experiment, the highest soluble acid invertase activity was found 2 DAP with a steep decline until 8 DAP in Pioneer 3906. It is concluded that a decrease in acid invertase activity is a key factor associated with limited kernel setting under salt stress but additional factors may be responsible for genotypic differences.     

Yield response of corn to lime and urea application on an acidic tropical soil

Abstract

The effects of liming (7 500 kg CaCO₃/ha) and rate of urea application (0,50,100, and 200 kg N/ha) and its placement at the surface or at 5 cm depth on grain yield and nutrient uptake by corn grown on an acidic tropical soil (Fluventic Eutropept) were studied. Liming significantly increased grain yield, N uptake, and P and K uptake although Ca and Mg uptake, generally, were unaffected. Sub‐surface application of urea increased N uptake only. Yield response to applied N was observed up to 50 kg N/ha when limed but at all rates in the absence of liming. It therefore, reduced the fertilizer N requirement for optimum grain yield. Liming the acidic soil also reduced exchangeable Al but increased nitrification rate and available P in the soil profile (at least up to 0.6 m depth).     

Starter fertilizer effects on grain sorghum hybrids grown on a soil high in residual phosphorus in a no‐tillage environment

Conservation tillage crop production systems have become common in the central Great Plains because they reduce soil erosion and increase water‐use efficiency. The high residue levels associated with no‐tillage systems can cause soils to be cool and wet which can reduce nutrient uptake and growth of crops. Starter fertilizer applications have been effective in improving nutrient uptake even on soils high in available nutrient elements. Resent research indicates that corn (Zea mays L.) hybrids differ in their responses to starter fertilizer. No information is currently available concerning grain sorghum [Sorghum bicolor (L.) Moench] hybrid response to starter fertilizer. The objective of this study was to evaluate grain sorghum hybrid responses to starter fertilizer in a no‐tillage environment on a soil high in available phosphorus (P). This field experiment was conducted from 1995 to 1997 at the North Central Kansas Experiment Field, located near Belleville, on a Crete silt loam soil (fine, montmorillonitic, mesic, Pachic Arguistoll). Treatments consisted of 12 grain sorghum hybrids and two starter fertilizer treatments. Fertilizer treatments were starter fertilizer [34 kg nitrogen (N) and 34 kg P₂O₅ ha^‐1] or no starter fertilizer. Starter fertilizer was applied 5 cm to the side and 5 cm below the seed at planting. Immediately after planting, N was balanced on all plots to give a total of 168 kg N ha^‐1. In all three years of the experiment, grain yield, total P uptake (grain plus stover), grain moisture content at harvest, and days to mid‐bloom were affected by a hybrid x starter fertilizer interaction. Starter fertilizer consistently increased yields, reduced harvest grain moisture, improved total P uptake, and reduced the number of days needed from emergence to mid‐bloom of Pioneer 8505, Pioneer 8522Y, Pioneer 8310, Dekalb 40Y, Dekalb 48, Dekalb 51, Dekalb 55, and Northrup King 524, buthadno effect on Pioneer 8699, Dekalb 39Y, Northrup King 383Y, and Northrup King 735. When averaged over the three years, starter fertilizer increased grain yield of responding hybrids (hybrids in which the 3‐year average grain yield was significantly increased by the application of starter fertilizer) by 920 kg ha^‐1. In responding hybrids, starter fertilizer reduced grain moisture at harvest by 54 g kg¹ and also shortened the period from emergence to mid‐bloom by five days. Starter fertilizer increased V6 stage aboveground dry matter production and N and P uptake of all hybrids tested. Results of this work show that in high residue production systems even on soils high in available P, starter fertilizer can consistently increase yield of some hybrids, whereas other hybrids are not affected.     

氮素营养对黄土高原旱地玉米产量、品质及水分利用效率的影响

20022003年在陇东旱塬的甘肃省农科院镇原旱农试验基地秋覆膜玉米地上进行了不同施氮量对旱地玉米产量、品质及水分利用效率影响试验。结果表明,不同年份氮肥用量对不同类型玉米品种产量均有极显著差异,但同一年份不同类型玉米品种或不同年份同一类型玉米品种产量无显著性差异。玉米产量随着施氮量的增加而提高,且每公斤氮肥增产量、水分利用效率(WUE)、光合速率(Pn)等均以中氮(N.180.kg/hm2)时最大。在中等氮肥水平以下,玉米子粒粗脂肪、粗蛋白和淀粉含量随施氮量的增加而提高,同时,歉水年份有利于容重、粗蛋白和淀粉的累积。     

施氮量对甜玉米产量、品质和蔗糖代谢酶活性的影响

以甜玉米扬甜2号和超甜135为材料,设置纯氮N 0、75、225、375 kg/hm2 4个处理,研究不同施氮量对甜玉米产量、品质和蔗糖代谢酶活性的影响.结果表明,施氮显著提高甜玉米扬甜2号和超甜135鲜穗产量,两品种均以施N 225 kg/hm2产量最高,比不施氮分别增产65.15％、99.61％.甜玉米籽粒发育过程中可溶性糖和蔗糖的含量随吐丝时间呈单峰曲线变化,施氮明显提高籽粒可溶性糖和蔗糖含量,施氮量为N 225 kg/hm2时最高.氮肥对甜玉米质构特性有较大影响,施氮量增多,籽粒的硬度显著增加;脆性随着施氮量的增加表现出先升高后降低的趋势,其中以氮肥用量在N 225 kg/hm2最大.籽粒中蔗糖磷酸合成酶(SPS)和蔗糖合成酶(SS)合成方向活性的变化趋势与蔗糖含量变化一致,SS分解方向活性随籽粒灌浆进程逐渐变大.合理施氮可提高甜玉米籽粒中SPS和SS合成方向活性,增加糖分,改善品质.     

Effect of fertilization and irrigation upon NPK composition of corn leaves,on corn yields,and available k in soil

Abstract

Corn (Zea mays L.) was grown for three consecutive years on Congaree loam to measure the effects of rates of N, P, and K fertilization and irrigation on the nutrient concentration of leaves, the level of available K in the soil, and on the yield of corn. Plant nutrients consisting of 0, 56, 140, 224, and 280 kg N/ha; 0, 15, 37.5, 60, and 75 kg P/ha, and 0, 28, 70, 112, and 140 kg K/ha were applied in a central composite rotatable design in each of the three years. All plant residue was removed each year when the corn was harvested, and the plots remained fallow during the winter months. One half of the experiment was irrigated when there was a 50% depletion of available soil moisture in the 0‐ to 46‐cm soil depth.

Leaf composition was affected by fertilization and irrigation. A rapid decrease in available soil K in the 0‐ to 15‐cm depth was evident the first year with all rates of added K. The decline in available soil K was unaffected by irrigation and levels of applied N and P.

There were consistent yield responses each year to added N, no response to added P, and a response to added K only during the second year.     

减量施肥下小麦产量、肥料利用率和土壤养分平衡

【目的】我国化肥过量施用现象普遍,不利于生态环境保护和农业可持续生产。研究化肥减量施用对小麦产量、籽粒灌浆和肥料利用率的影响,可以为我国化肥高效施用和零增长目标提供理论依据。【方法】在四川盆地进行了两个大田试验,以习惯施肥 (N、P₂O₅、K₂O 分别为 180、120、45 kg/hm2) 为对照,设置减量施肥 (N、P₂O₅、K₂O 分别为 96、60、45 kg/hm2) 处理,测定了小麦产量及构成、籽粒灌浆、花后干物质转运、旗叶叶绿素含量、养分平衡和肥料利用率。【结果】与习惯施肥相比,减量施肥下小麦产量、穗数、穗粒数没有显著变化,小麦–玉米轮作田块小麦千粒重显著提高 5.8%。根据 Logistics 方程拟合结果,减量施肥显著提高了小麦–玉米轮作田块小麦理论最大千粒重,渐增期、缓增期籽粒净增重,对其他灌浆参数影响不显著。减量施肥下小麦干物质转运量、转运率及其对籽粒灌浆的贡献率增加 28.5%、17.5% 和 20.7%,但花后旗叶叶绿素含量下降速度加快。习惯施肥和减量施肥土壤氮素盈余分别为 22.6 和 –30.2 kg/hm2,土壤磷盈余分别为 80.4 和 22.8 kg/hm2。减量施肥后氮肥偏生产力、农学效率和表观回收率比习惯施肥提高 79.2%、69.1% 和 27.9%,磷肥偏生产力、农学效率和表观回收率提高 91.1%、72.7% 和 68.5%。【结论】本试验的两年时间内,减量施肥可以维持小麦产量,促进小麦干物质转运及其对籽粒灌浆的贡献,但花后功能叶衰退加速。减量施肥下肥料利用率提高,土壤磷素盈余降低,土壤氮素亏缺,需要在确保维持小麦产量、土壤肥力和养分平衡的基础上,继续优化减氮量。     

NITROGEN,PHOSPHORUS, AND POTASSIUM NUTRIENT EFFECTS ON GRAIN FILLING AND YIELD OF HIGH-YIELDING SUMMER CORN

A three-site-year field experiment was conducted to determine nitrogen (N), phosphorus (P), and potassium (K) fertilizer effects on grain filling dynamics and yield formation of high-yielding summer corn (Zea mays L.) in a wheat (Triticum aestivum L.)-corn double crop cropping system. Application of combined NPK fertilizers resulted in the greatest grain yield, largest grain number and grain weight when compared with the treatments receiving N, NP, or NK. Grain filling rate and duration, grain volume, and grain yield increased with NPK rates; however, doubling the rate of 180 kg N ha^?1, 40 kg P ha^?1, and 75 kg K ha^?1 fertilizer only led to minimal increases in grain filling rate (0.8%), grain filling duration (1.6%), grain volume (1.3%) and grain yield (0.4%). Our results suggested that for the high-yielding summer corn, a combined NPK fertilization is required to enhance grain filling and yield, and that under well-fertilized circumstances, limited increases in both grain filling and sink capacity might be the main factor restricting further yield improvement.     

Protein quality of corn hybrids differing for endosperm characteristics and the effect of nitrogen fertilization 1

Corn (Zea mays L.) is an important source of protein for humans and animals. Because dent corn is highly responsive to nitrogen (N) fertilization, substantial amounts of N are used for corn production. Application of N fertilizer may reduce protein quality of corn kernels through an increase in zein content. The objective of this study was to determine if corn endosperm characteristics influence the effect of N fertilization on protein quality. In 1988, six corn hybrids differing for endosperm characteristics were grown at two locations in Ohio and with two N rates, 34 and 200 kg/ha. The waxy hybrid had a greater concentration of fraction I protein than the non‐wary hybrid. These two hybrids did not differ for other fractions except fraction III at Columbus. The soft endosperm hybrid had a higher concentration of fraction I protein than the hard endosperms hybrids. Soft and hard endosperm hybrids differed for fraction II protein for the 34 kg N/ha fertilizer rate but not the 200 kg N/ha fertilizer rate. These two classes of hybrids did not differ for fraction III protein. Increasing N fertilizer increased fraction II concentration for all hybrids. Concentrations of the other two protein fractions did not respond to fertilizer rate. The increase in fraction II concentration with N fertilization may result in a decrease of protem quality and feed value. Although all hybrids responded to N fertilizer, some hybrids had bigger increases in fraction II proteins than other hybrids.     

Single vs. double cropping under two levels of fertilization with and without irrigation

Abstract

A corn‐small grain cropping sequence resulted in a greater total grain yield than corn or small grain alone or grain sorghum double cropped with small grain. Drought restricted yield responses to N, P and K in non‐irrigated plots but under irrigation grain yield for each cropping sequence was directly related to fertilizer applied. All fertilizer treatments increased soil acidity. Phosphorus and K applied at 26 and 50 kg/ha, respectively for each crop in the sequence maintained P and K levels in the soil. After three years, the high rate of fertilizer (87 and 166 kg/ha of P and K, respectively) resulted in greater soil P and K values than the low rate of fertilizer.     

不同供氮水平对夏玉米养分累积、转运及产量的影响

通过田间小区试验,研究了高肥力土壤上施N.125、250、375.kg/hm2对夏玉米生物量、子粒产量、N、P、K养分累积动态、及氮肥表观利用率、养分转运的影响。结果表明,不同施氮量只影响夏玉米不同生育时期养分的阶段累积量,而对累积趋势基本无影响。植株生物量及N、P、K养分累积量随生育期的延长而增加,且它们的累积趋势相似,都呈S型曲线。各处理的子粒产量在7000～7700.kg/hm2之间,只有N250处理增产达显著水平;氮肥表观利用率在10%～18%之间,随施氮量的增加略有降低。施氮可提高子粒中的氮素累积量,而对磷的累积量影响不大。随着施氮量的增加,氮素的转运量、转运效率及其在子粒中的比例都降低,磷的转运与氮表现出类似的趋势。综合考虑产量、氮肥利用率、养分转运及环境污染等因素,该地区夏玉米的推荐施氮量应控制在125.kg/hm2以内。     

Grain yield and mineral composition of corn as influenced by endosperm type and nitrogen

Abstract

Corn (Zea mays L.) is a major source of nutrition for humans and animals. Chemical and physical properties of corn endosperm vary among hybrids, are influenced by genotype and environment, and may affect the crop's response to nitrogen (N) fertilization. The objective of the study was to measure the responses of grain yield and grain N, phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), manganese (Mn), iron (Fe), boron (B), zinc (Zn,) and copper (Cu) concentration of different endosperm types to N fertilization. The study was conducted at two Ohio locations in 1988, where six endosperm types and two N rates (34 and 200 kg N/ha) were combined in a split plot arrangement. Nitrogen rate (main plots) had little effect on yield at either location, and the soft endosperm hybrid was the only hybrid to respond to N fertilizer. Within fertilizer level, hybrids differed in grain yield with the waxy hybrid out yielding the normal endosperm hybrid, and the hard endosperm hybrid out yielding the soft one at the 200 kg N/ha rate. Application of N fertilizer increased the grain N concentration of all hybrids. Grain of the waxy hybrid contained an equal or greater N concentration than the normal hybrid. In contrast, no difference in N level was found between hard and soft endosperm hybrids at either fertilizer level. Climatic conditions and soil fertility differences might have been partly responsible for location effects. Genetic make‐up could have been a factor in differing hybrid response since grain concentration of nutrients Varied by location, endosperm type, and N treatment.     

超高产夏玉米干物质与氮、磷、钾养分积累与分配特点

探讨超高产夏玉米品种整株干物质与氮、磷、钾养分积累分配特点,为制定高产栽培管理措施提供依据.本文在大田条件下,以登海661(DH661)和郑单958(ZD958)为试验材料,比较研究了超高产夏玉米干物质与氮、磷、钾养分积累分配特点.结果表明,超高产夏玉米DH661在成熟期内整株干物质及氮、磷、钾积累量分别为33475.53 kg/hm2、369.76 kg/hm2、117.85 kg/hm2、285.78 kg/hm2,均显著高于ZD958,较ZD958分别高15.82％、23.72％、32.17％、21.89％.超高产夏玉米DH661的干物质和氮、磷、钾养分在叶片和茎秆中的分配比例均低于ZD958,而籽粒和根系中的分配比例高于ZD958,因而具有较高的养分收获指数与偏生产力.整个生育期内,DH661各器官的养分吸收速率均显著高于ZD958,具有较高的养分吸收效率;茎、叶及根系的氮、磷、钾养分吸收速率在灌浆期前保持较高水平,之后下降较快,而籽粒的氮、磷、钾养分吸收速率于灌浆期后增加较快.吐丝期后,DH661仍能吸收积累较多的养分,因此吐丝后适当追肥对于超高产夏玉米灌浆期养分充足供应至关重要.