Solid-stemmed spring wheat cultivars give better androgenic response than hollow-stemmed cultivars in anther culture

Solid-stemmed spring wheat cultivars (Triticum aestivum L.) are resistant to the stem sawfly (Cephus cinctus Nort.) and lodging. Anthers of 24 spring wheat cultivars with varying content of pith in the stem were used in the experiment. All were classified into three groups: solid, medium–solid and hollow stems. There was considerable influence of the cultivar on callus formation and green plant regeneration. The highest efficiency of green plant regeneration (24%) was observed for the solid-stemmed AC Abbey cultivar. There was no regeneration from the explants of four cultivars: CLTR 7027, Alentejano, Marquis and Bombona. Principal component analysis showed no differences between the cases under observation (callus induction and green plant regeneration) in their response to pre-treatment temperatures (4 and 8°C). The examination of the effects of various auxin types in the induction medium on callus formation and green plant regeneration revealed that the strongest stimulation of these processes was observed in the C17 medium with 2,4-D and dicamba. The efficiency of callus formation and green plant regeneration was greater in solid-stemmed cultivars than in hollow-stemmed cultivars.     

Developmental instability in a stem-mining sawfly: can fluctuating asymmetry detect plant host stress in a model system?

Fluctuating asymmetry (FA) may be a sensitive indicator of the stress experienced by organisms during their development. Its use in this manner is an intuitively appealing, frequently proposed, and potentially powerful tool but remains controversial partially because its underlying premise rarely has been critically tested. Such tests should include direct comparisons among individuals for which levels of FA, stress and fitness have been unambiguously quantified. We assessed the use of FA as a bioindicator of the stress experienced during egg-to-adult development by the stem-mining sawfly, Cephus cinctus Norton. Sawflies were reared in a common garden from seven different wheat cultivars, which were selected to represent a gradient of stem solidness, a key factor imposing stress on sawflies during development. In this model system, stress was quantified by the weight of emergent adults. Fitness was quantified by counting the number of eggs in dissected females, which emerge with their full lifetime complement. FA was measured for wing length, three wing cells, and three wing veins using image analyses. The greatest amount of stress was induced by solid-stemmed cultivars from which the adults were significantly smaller than those developing in hollow-stemmed hosts. In turn, adult weight was positively correlated with fitness. The net effect was a 25-fold variation in sawfly fitness, which gave a reasonable expectation that FA levels would differ across cultivars. However, FA levels of all the traits were similar among cultivars and there was no negative relationship between FA and fitness. These results: (1) document the failure of FA as an indicator of stress in this model system, (2) identify adult weight as a satisfactory indicator of plant-induced stress and sawfly fitness, and (3) add to the growing body of literature questioning the value of FA as a biomonitor tool of developmental stress.     

Isolation and characterization of microsatellite loci in wheat stem sawfly Cephus cinctus and cross‐species amplification in related species

The wheat stem sawfly is an important insect pest of wheat that can cause significant damage to yield and grain quality. Five microsatellite loci were isolated and characterized in wheat stem sawfly, Cephus cinctus, to facilitate future population genetic studies and help delineate their geographical origin. These loci were found to be polymorphic with an expected heterozygosity ranging from 0.304 to 0.937 and an observed heterozygosity ranging from 0.05 to 0.65. Successful cross‐species amplification demonstrates the potential for these markers to provide a valuable tool for future population studies among related Cephus species.     

灰翅麦茎蜂的生物学及其防治对策

针对近年来在青海省和甘肃省春小麦生产中灰翅麦茎蜂CephusfumpennisEversmann的危害造成春小麦千粒重下降 8～ 1 0g,严重减产 ,籽粒品质变差 ,麦秆失去使用价值等问题 ,介绍了麦茎蜂的分布、主要生物学特征 (形态特征和生活习性等 )和目前的主要防治对策 ,包括耕作措施 (深翻、轮作倒茬 )、药剂、生物防治及选育抗虫小麦新品种     

Nutrient deficiencies do not contribute to yield loss after waterlogging events in winter wheat (Triticum aestivum)

Frequent waterlogging increases the risk of possible harvest losses in winter wheat. The aim of this study was to analyse which developmental stage of wheat was impaired by waterlogging and whether yield losses can be explained by nutrient deficiences. A large‐scale container experiment was designed to evaluate growth, yield and nutrient status of two wheat cultivars after 14 days of waterlogging at two different developmental stages: DC 31 (first node visible) and DC 51 (beginning of ear emergence). Early waterlogging treatment impaired vegetative growth stages of winter wheat and nutrient uptake, leading to transient nutrient deficiencies, but yield was not significantly reduced. Late waterlogging at the beginning of ear emergence mainly affected generative growth stages and caused yield reductions ranging up to 61%. The main reason for yield loss was the significantly decreased thousand kernel weight in combination with a decreased number of grains per spike. Yield depressions in winter wheat depend on the timing of waterlogging. Early waterlogging transiently reduces vegetative growth through nutrient deficiencies, whereas late waterlogging results in an impaired grain development and associated therewith, yield losses.     

Microsatellite markers flanking a stem solidness gene on chromosome 3BL in durum wheat

Sawfly (Cephus cinctus Norton) is a major insect pest of wheat (Triticum spp.). The development of durum wheat (Triticum turgidum L. var durum) with stem solidness for resistance to sawfly is a strategy to minimize loss from this insect. This study was undertaken to identify a DNA marker linked to stem solidness and sawfly cutting in durum wheat for use in marker-assisted selection. A set of 151 doubled haploid lines developed from the cross of Kyle*2/Biodur sel. (solid stemmed) and Kofa (hollow stemmed) were evaluated for stem solidness and sawfly cutting. Microsatelite primers that generated polymorphisms between the parental genotypes were tested on the whole population, and primers that followed a 1:1 ratio of parental bands were used in linkage analysis with least squares mean stem solidness scores. Three microsatellite markers, Xgwm247, Xgwm181 and Xgwm114 located on chromosome 3BL, were shown to be associated with the stem solidness locus and with sawfly cutting. The Xgwm114 marker was located on one side of the stem solidness locus with Xgwm247 and Xgwm181 on the opposing side. Recombinant inbred line populations G9580B-FE1C/AC Navigator and Golden Ball/DT379//STD65 segregating for the stem solidness trait confirmed the association between the markers and the stem solidness gene. The Golden Ball/DT379//STD65 population was also tested with the Xwmc632 microsatellite marker, which showed a polymorphism associated with stem solidness. The results also indicated the stem solidness trait was controlled by a single locus in both doubled haploid and recombinant inbred line populations. The markers should be useful in breeding programs for the identification and selection of stem solidness.     

基于生理指标与籽粒产量关系的小麦品种抗冻性分析

以20个冬小麦品种为材料进行盆栽试验,对其在低温胁迫条件下功能叶超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）活性,丙二醛（MDA）、可溶性蛋白、可溶性糖含量以及籽粒产量、千粒重和籽粒形态性状进行测定.结果表明：拔节初期麦苗经-4 ℃低温胁迫后,不同品种冬小麦籽粒形态性状和产量性状均发生变化,绝大多数小麦品种籽粒长宽比、圆度和不育小穗数均增加,籽粒等效直径和面积及千粒重和籽粒产量均下降.通径分析表明,拔节初期低温处理后,功能叶SOD活性和可溶性糖含量是影响籽粒产量的主导因素,其中SOD活性对籽粒产量的直接影响较大,直接通径系数为-0.578.以籽粒产量下降的百分数作为小麦抗冻性评价的标准,可将20个小麦品种划分为3类：强抗冻类型的济麦19、济麦20、良星99、山农1135、山农8355、泰山23、泰山9818、汶农6号和烟农21,弱抗冻类型的临麦2号、潍麦8号、烟农19和淄麦12号,而其余7个品种属中度抗冻类型.苗期综合评价值（D值）与籽粒产量下降的百分数之间呈显著负相关(r=-0.512*),说明小麦苗期抗冻性强有利于获得较高的籽粒产量.苗期是小麦抗冻性鉴别选择的重要时期.     

强筋与弱筋小麦籽粒蛋白质组分与加工品质对灌浆期弱光的响应

选用强筋小麦品种济麦20和弱筋小麦品种山农1391,在大田试验条件下,分别于籽粒灌浆前期(花后6—9 d)、中期(花后16—19 d)和后期(花后26—29 d)对小麦进行弱光照处理,研究了籽粒产量、蛋白质组分及加工品质的变化。灌浆期弱光显著降低小麦籽粒产量,灌浆中期对济麦20和灌浆后期对山农1391的产量降幅最大。弱光处理后,籽粒氮素积累量及氮素收获指数减少。但弱光使籽粒蛋白质含量显著升高,其中灌浆中期弱光升幅最大,原因可能是由于其粒重降低造成的。弱光对可溶性谷蛋白无显著影响,但增加不溶性谷蛋白含量,使谷蛋白聚合指数显著升高,面团形成时间和稳定时间亦升高,籽粒灌浆中、后期弱光对上述指标的影响较前期大。灌浆期短暂的弱光照对改善强筋小麦粉质仪参数有利,但使弱筋小麦变劣;并均伴随籽粒产量的显著降低这一不利影响。     

土壤水分对返青期断根冬小麦补偿效应的影响

通过盆栽试验研究了不同土壤水分条件下返青期断根冬小麦的补偿效应.结果表明,断根小麦的早期生长受到抑制,叶面积在返青 拔节期间显著下降,到开花期能恢复至对照水平.高水分条件下断根小麦拔节期的叶绿素荧光参数包括表观光合电子传递速率、实际光化量子产量、光化学淬灭系数、非光化学淬灭值均显著大于对照,开花后单茎干物质积累为0.81 g,显著大于对照（0.56 g）,花后干物质积累系数比对照提高了38.79%,断根小麦根量虽有所下降但差异不显著;低水分条件下断根小麦的叶绿素荧光参数和花后干物质积累与对照之间没有显著差异,但断根小麦的根系生物量（7.83 g·pot^-1）显著小于对照（9.77 g·pot^-1）.土壤水分对断根小麦的地上生物量和籽粒产量的补偿效应没有显著影响.断根处理的冬小麦在两种土壤水分条件下均显著降低了耗水量,在整个生育期,高水分条件下冬小麦断根处理可节水2 000 ml左右,水分利用效率为1.97 g·kg ^-1,显著大于对照的1.70 g·kg ^-1;低水分条件下也可节水1 500 ml左右,水分利用效率虽有所提高,但未达到显著性差异.     

Quality losses in wheat caused by the orange wheat blossom midge Sitodiplosis mosellana

In three sets of data pooled over spring wheat varieties and lines a number of grain quality measurements were related to the levels of infestation by Sitodiplosis mosellana larvae. The Hagberg falling number value was negatively correlated with the proportion of damaged grains. The 1000-grain weight, protein content and gluten content were not affected. Differences between cultivars in infestation and damage level were found to depend on the development phenology (timing of ear emergence) and on the percentage of damaged grains remaining in the yield after harvest. The falling number values were reduced most when the attainable values remained low in cultivars prone to sprouting damage, and in seasons with unfavourable weather conditions for quality maintenance. The proportion of damaged grains in relation to the number of larvae was well described by a logit-transformed regression. Sampling for infestation level and preventive measures against quality loss are discussed.     

Economic impact of Hessian fly (Diptera: Cecidomyiidae) on spring wheat in Oregon and additive yield losses with Fusarium crown rot and lesion nematode

Damage caused by Hessian fly, Mayetiola destructor (Say), was quantified in spring wheat, Triticum aestivum L., trials near Pendleton and Moro, OR, during 2001 and 2002. Five field experiments were established to examine genetic resistance to Fusarium crown rot, Fusarium pseudograminearum (O'Donnell & Aoki), and economic damage by lesion nematode, Pratylenchus neglectus (Rensch, 1924) (Filipjev Schuurmanns & Stekhoven, 1941) and Pratylenchus thornei (Sher & Allen, 1941). Hessian fly became the dominant factor affecting grain yield in four experiments. Genotypes carrying the H3-resistance gene had grain yields 66 and 68% higher than susceptible genotypes in cultivar trials during 2001 and 2002, respectively. Yield reductions were detected when Hessian fly infestation rates exceeded 50% plants during 2001 and 15% plants (8% tillers) during 2002. In two trials during 2001, in-furrow application of aldicarb (Temik) at planting improved yields of four Hessian fly-susceptible cultivars by 72 and 144% (up to 1,959 kg/ha) and yields of one Hessian fly-resistant cultivar by 2 and 3%. Resistant cultivars and aldicarb improved grain quality as much as two market grades during 2001. The value of increased grain production with Hessian fly-resistant cultivars in four field experiments ranged from dollar 112 to dollar 252/ha, excluding price incentives for improved market quality. Yield reduction due to combined damage from Hessian fly and either Fusarium crown rot or lesion nematode was additive. This report seems to be the first quantitative yield loss estimate for Hessian fly in spring wheat in the semiarid environment of the inland Pacific Northwest.     

Some effects of barley yellow dwarf virus on spring and winter cereals in field trials

The tolerance of spring and winter cultivars of wheat, barley and oats to infection by barley yellow dwarf virus (BYDV) was examined in field tests. Sererely affected plants were stunted and grain yields were considerably reduced. These changes in infected spring barley cultivars were associated with decreases in both ear length and number and sizes of grain. Most barley and oat cultivars were more susceptible than wheat cultivars. Yield losses decreased with successively later dates of inocultaiton, the yield response being characteristic of the tolerance of individual cultivars. Differences between tolerant and susceptible cultivars were insignificant in most cases where infection occurred after growth stage 7. Individual seedling symptoms assessed in April and May were more closely related to each other and to yield losses than those recorded in March and June. The incorporation of seedling symptoms into indices of infection permits estimates of decrease in yield to be made by applying the formulae, DY = (LC+LA+SH)/3 to barley cultivars and DY = 1.7 × (LC+LA+SH)/3 - 7 to oat cultivars. Thus decreases in grain yield (DY) can be related to decreases in seedling height (SH) and increases in percentage of leaf area discoloured (LA) and intensity of discoloration (LC). Plot symptoms of infection, scored on a 0–7 scale, offered a more convenient method of assessment than individual seedling symptoms. Plot scores (PA) were closely correlated with other seedling symptoms and with decreases in grain yield (DY), and can thus be used to estimate yield losses by substituting into the formula, DY = 14PA (April)-8. This formula was found to be applicable to all cereal cultivars examined in N.I.A.B. trials, there being no distinction between wheat, barley and oats.     

Identification of markers linked to the race Ug99 effective stem rust resistance gene Sr28 in wheat (Triticum aestivum L.)

Wheat stem rust caused by Puccinia graminis f. sp. tritici can cause devastating yield losses in wheat. Over the past several decades, stem rust has been controlled worldwide through the use of genetic resistance. Stem rust race TTKSK (Ug99), first detected in Uganda in 1998, threatens global wheat production because of its unique virulence combination. As the majority of the currently grown cultivars and advanced breeding lines are susceptible to race TTKSK, sources of resistance need to be identified and characterized to facilitate their use in agriculture. South Dakota breeding line SD 1691 displayed resistance to race TTKSK in the international wheat stem rust nursery in Njoro, Kenya. Seedling screening of progeny derived from SD 1691 crossed to susceptible LMPG-6 indicated that a single resistance gene was present. Allelism and race-specificity tests indicated the stem rust resistance gene in SD 1691 was Sr28. The chromosome arm location of Sr28 was previously demonstrated to be 2BL. We identified molecular markers linked to Sr28 and validated this linkage in two additional populations. Common spring wheat cultivars in the central United States displayed allelic diversity for markers flanking Sr28. These markers could be used to select for Sr28 in breeding populations and for combining Sr28 with other stem rust resistance genes.     

Host selection by the wheat stem sawfly in winter wheat and the role of semiochemicals mediating oviposition preference

The wheat stem sawfly (WSS), Cephus cinctus Norton (Hymenoptera: Cephidae), causes significant damage in cereal crops in the northern Great Plains of North America. This study assessed oviposition preference in winter wheat, Triticum aestivum L. (Poaceae), and investigated how it is affected by the emission of semiochemicals, with the overall goal of enhancing trap crop efficacy. We studied five winter wheat cultivars that could be recommended as trap crops for WSS and compared them with regards to agronomic characteristics influencing oviposition behavior and their emission of behaviorally active volatiles. Subsequently, we evaluated oviposition preference on three selected cultivars, ‘Norstar’, ‘Neeley’, and ‘Rampart’, using choice tests at two plant growth stages. Most eggs were found in Norstar at both stages tested when females were exposed to the three cultivars simultaneously making it the preferred choice for a trap crop. Norstar also emitted more behaviorally active volatiles, primarily (E)‐ and (Z)‐β‐ocimene. The results for the effect of main stem height or diameter on oviposition was inconsistent between infested vs. uninfested stems within cultivars, although there was a correlation between infestation and height for younger plants. These results show that these agronomic characteristics, typically viewed as explanatory, did not clearly explain oviposition preference and suggest a role of β‐ocimene in determining suitability for oviposition among these cultivars. This study supports previous findings suggesting oviposition preference in winter wheat involves several cues, including stem height and volatile attractants that may be important in determining suitability.     

Impact of tillage practices on Hessian fly-susceptible and resistant spring wheat cultivars

Hessian fly, Mayetiola destructor (Say), is a residue-borne pest of spring wheat that can become important in reduced tillage production systems. The relative abundance of Hessian fly was examined on spring wheat cultivars grown under conventional tillage (CT) and no-tillage (NT) practices in northern Idaho from 2000 to 2002. Six cultivars were tested: Hessian fly-susceptible 'Penawawa' and'Westbred 936' and -resistant (H3 gene) 'Wawawai', 'Jefferson', 'Hank', and 'Westbred 926.' Hessian fly egg densities were not significantly different among treatments, indicating ovipositing females showed no preference for tillage treatment or cultivar. Mean number of Hessian fly puparia per plant was significantly greater in CT plots during the last sampling in 2000; however, in 2001, NT plots had significantly more puparia than CT plots. Tillage had no significant effect on mean Hessian fly per plant in 2002. Significantly more puparia were observed on susceptible compared with resistant cultivars in 2000 and 2002. In 2001, susceptible Penawawa had significantly more puparia than resistant cultivars, whereas puparial densities on susceptible Westbred 936 were higher than on resistant cultivars other than Wawawai. Yield and 100-seed weight were not affected by tillage treatment. Significant variation in yield among cultivars was observed only in 2000, when fly-resistant Hank yielded the highest. Hank had the highest 100-seed weight in 2000 and 2001, whereas Penawawa and Jefferson had the lowest 100-seed weights each year. Reduced tillage had no consistent effect on spring wheat yield or abundance of Hessian fly under the conditions of our trials, which evaluated small plots.     

Comparison of fructan dynamics in two wheat cultivars with different capacities of accumulation and remobilization under drought stress

Remobilization of stored carbohydrates in the stem of wheat plants is an important contributor to grain filling under drought stress (DS) conditions. A massive screening on Iranian wheat cultivars was performed based on stem dry weight changes under well-watered and DS conditions. Two cultivars, Shole and Crossed Falat Hamun (CFH), with different fructan accumulation and remobilization behavior were selected for further studies. Water-soluble carbohydrates (WSCs) and fructan metabolizing enzymes were studied both in the stem penultimate and in sucrose (Suc) treated, excised leaves. Under drought, CFH produced higher grain yields than Shole (412 vs 220 g m(-2)). Also, grain yield loss under drought was more limited in CFH than in Shole (17 vs 54%). Under drought, CFH accumulated more graminan-type fructo-oligosaccharides than Shole. After anthesis, fructan 6-exohydrolase (6-FEH; EC 3.2.1.154) activities increased more prominently than fructan 1-exohydrolase (EC 3.2.1.153) activities during carbon remobilization. Interestingly, CFH showed higher 6-FEH activities in the penultimate than Shole. The field experiment results suggest that the combined higher remobilization efficiency and high 6-FEH activities in stems of wheat could contribute to grain yield under terminal drought. Similar to the penultimate, fructan metabolism differed strongly in Suc-treated detached leaves of selected cultivars. This suggests that variation in the stem fructan among wheat cultivars grown in the field could be traced by leaf blade induction experiments.     

栽培模式、施氮和品种对冬小麦冠层结构和产量的影响

在黄土高原南部半湿润易早区土垫旱耕人为土上进行大田试验,研究氮肥、品种和栽培模式对冬小麦叶面积指数（IAI）和透光率（DIFN）及产量的影响。结果表明,小麦生长过程中IAI先增大后减小．在开花期最大。成熟期最小。施氮能够显著增加IAI;DIFN的变化规律与LAI相反。不同品种间IAI和DIFN差异显著。全程覆膜和覆膜150d的LAI极显著大于常规栽培、集雨面栽培和三密一稀栽培模式,DIFN与此相反;施氮后籽粒产量极显著增加。在不同栽培模式下,以全程覆膜、覆膜150d和集雨面栽培模式的产量较高,但从维持土壤质量角度考虑,则覆膜150d和集雨面2种栽培模式优于其它几种栽培模式;从冠层结构特征分析,这2种栽培模式更有利于增加群体光合能力。     

氮肥施用对冬小麦产量、品质和氮素表观损失的影响研究

通过田间小区试验,对施用氮肥造成的冬小麦产量、品质和环境效应进行了研究.结果表明,4个试验点最高产量施N量分别为0、0、79和118 kg·hm^-2,最高籽粒粗蛋白质含量施N量分别为122、100、127和174 kg·hm^-2,小麦收获后0～90 cm土壤剖面硝态氮残留量随施N量的增加呈极显著线性增加,而N表观损失则呈指数增加.在最高产量施N量条件下,小麦收获后0～90 cm土层硝态氮残留保持86～115 kg·hm-2,N表观损失为2～32 kg·hm^-2,低于最高籽粒粗蛋白含量施N量时的土壤剖面硝态氮残留量(106～168 kg·hm^-2)和N表观损失量(14～56 kg·hm^-2).综合考虑冬小麦产量、品质和环境安全,最高产量施N和氮肥施用的环境效应可以通过优化施N进行协调.     

不同产量水平旱地冬小麦品种干物质累积和转移的差异分析

旱地小麦高产栽培中品种起着重要作用,研究不同产量水平旱地冬小麦品种干物质累积和转移的差异,对黄土高原旱区作物高产稳产有重要意义。以9个旱地冬小麦品种为材料,通过田间试验研究了不同产量水平旱地冬小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率、叶面积、SPAD值以及光合速率的差异。结果表明,不同小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率均存在明显差异。与不施肥相比,高、中、低3个产量水平小麦品种在低养分投入时,成熟期生物量分别提高29%,22%和6%,高水平时分别提高46%,39%和23%,高产品种的生物量及其对养分投入的敏感程度明显高于低产品种。不同品种的花后干物质累积量随养分投入水平提高而增加,但花前营养器官中储存物质的转移量、转移率和对籽粒的贡献率却明显随之下降。功能叶(旗叶)在灌浆期高、中、低3个产量水平品种的SPAD值在低养分投入条件下分别为20.7、17.5和13.7;高养分投入时,分别为35、26.1和16.8。高产品种西农88的光合速率为6.0μmolCO.2m-.2s-1),中产和低产品种的平均光合速率分别为4.3μmolCO.2m-.2s-1和4.0μmolCO.2m-.2s-1,高产品种功能叶(旗叶)在灌浆期能保持较高的SPAD值和光合速率,因而花后能生产较多的干物质,但其花前干物质转移量、转移率及转移干物质对籽粒的贡献率均没有明显优势。可见,花后较高的叶绿素水平、光合速率和干物质累积是旱地小麦品种高产的重要原因。选择优良品种,采取合理的栽培措施,特别是通过养分调控保持花后具较高的干物质累积量是西北旱地进一步提高冬小麦产量的重要途径。     

冬小麦根系时空分布动态及产量对不同氮源配施的响应

为了解不同氮(N)源(有机/无机肥)配施对冬小麦(Triticum aestivum)根系时空分布特征和产量的影响, 采用微根管(minirhizotron)动态监测技术, 以强筋小麦品种‘豫麦34’为试验材料, 在等养分条件下, 设置不施肥(T₀)、100%尿素N (T₁)、75%尿素N + 25%鸡粪N (T₂)、50%尿素N + 50%鸡粪N (T₃)、25%尿素N + 75%鸡粪N (T₄)和100%鸡粪N (T₅)等6个有机N与化肥N配施处理, 研究分析了‘豫麦34’在不同生育时期及0-100 cm土层中根系直径、根长密度、根长生长量和死亡量等根系特征参数的变化及其产量表现。结果表明, 施肥不仅有利于各生育时期及不同土层中根系直径、根长密度和根长生长量的增加, 而且增加了根长死亡量, 促进了根系的周转。对不同配施处理进行比较, 发现T₃处理(尿素和鸡粪等氮配施)的效果最为显著, 全生育期平均根长密度、周期生长量与周期死亡量分别较对照T₀增加了55.52%、57.79%和61.61%, 有效分蘖数、穗粒重、经济产量和经济系数也以T₃处理增加最多, 分别较T₀增加了52.63%、43.90%、40.16%和12.02%; 穗粒数在T₄处理下最大, 较T₀增加了45.79%; 生物产量在T₅处理下最高, 比T₀增加了26.95%。因此, 不同氮源合理配施有利于促进冬小麦根系的生长及在不同土层中的扩展, 提高冬小麦产量。尿素和鸡粪为N源时等氮配施(50 : 50)的效果最佳。