杨树幼苗非结构性碳水化合物对增加降水和氮添加的响应

设置3个水分梯度,即自然降水(W₁)、自然降水增加50%(W₂)和增加100%(W₃)以及4个施氮梯度,即模拟氮沉降添加0(N₁)、5(N₂)、10(N₃)和15(N₄) g N·m^-2·a^-1,研究增加降水和氮添加对杨树幼苗非结构性碳水化合物(NSC)的影响.结果表明: 增加降水和氮添加对杨树幼苗NSC含量具有显著的交互作用.随着降水的增加,N₁水平叶片和枝条可溶性糖含量不变,叶片、枝条、主干、粗根和细根淀粉含量下降;N₂和N₃水平各器官可溶性糖含量下降或保持不变,淀粉含量降低或先升高后降低;N₄水平各器官可溶性糖和淀粉含量升高或先降低后升高.随着氮沉降的增加,W₁处理叶片可溶性糖含量不变,淀粉含量增加,细根可溶性糖含量增加,淀粉含量不变;W₂处理各器官可溶性糖含量不变或先增加后减少,淀粉含量降低或先增加后降低;W₃处理各器官可溶性糖、淀粉和NSC含量均增加.各水分和施氮梯度处理下,杨树幼苗可溶性糖含量为39.1～88.3 mg·g^-1,叶片中最高,细根中最低,淀粉含量为23.3～46.8 mg·g^-1,粗根中最高,细根中最低.     

施氮水平对库尔勒香梨光合产物分配的影响

以6年生库尔勒香梨为材料,用¹³C脉冲标记技术研究了150、300、450 kg N·hm^-2(分别用N₁、N₂、N₃表示)3个施氮水平下树体各器官生物量、碳积累量以及¹³C同化物的吸收分配特性。结果表明: 库尔勒香梨树体整株的生物量、碳积累量、¹³C固定量以及叶片的同化能力均随着施氮水平的提高而增加;根冠比则随施氮水平的提高而降低。生殖器官果实的生物量、碳积累量在N₂处理下最高。树体各器官¹³C含量和分配率随施氮量的增加发生动态变化。新梢旺长期,叶片和根系对光合同化物的竞争能力较强,且¹³C分配率均为N₁处理下最高;果实膨大期和成熟期,叶片和果实的竞争能力较强,叶片¹³C含量和分配率在N₃处理下最高,而果实¹³C含量和分配率则在N₂处理下最大。综上,根据不同施氮水平各器官对碳同化物的吸收分配特征,以提高产量为目标,建议6年树龄的库尔勒香梨果园最佳施氮量为300 kg·hm^-2。     

硝酸盐供应水平对平邑甜茶幼苗生长、光合特性与15N吸收、利用的影响

以霍格兰营养液为培养基质,采用¹⁵N同位素示踪技术,研究不同浓度¹⁵NO₃^--N (0、2.5、5、10和20 mmol·L^-1,分别以N₀、N₁、N₂、N₃和N₄表示)对平邑甜茶幼苗生长、光合作用、¹⁵N吸收、利用及分配的影响.结果表明:与其他处理相比,N₂处理幼苗叶绿素含量、叶面积及各器官干质量最大.叶片净光合速率(P_n)随¹⁵NO₃^--N浓度的增加显著增大,但¹⁵NO₃^--N浓度超过N₂处理后P_n略有下降.处理20 d时,N₂处理幼苗根系活力最大,根系长度、根系总表面积和根尖数也显著高于其他处理.各处理间¹⁵N分配率差异显著,N₂处理幼苗各器官间¹⁵N分配率最均衡,¹⁵N利用率也较高;随¹⁵NO₃^--N浓度增加,各处理幼苗全氮量和¹⁵N吸收量呈先升高后降低的趋势,且在N₂处理时最大,分别为103.77和21.57 mg.处理12 d后,叶片硝酸还原酶(NR)活性以N₂处理最高,N₄处理最低,至第16天时,N₄处理较N₂处理降低了84.9%.因此,¹⁵NO₃^--N供应过低抑制幼苗光合作用及氮素吸收,¹⁵NO₃^--N供应过高则抑制幼苗体内硝态氮同化及根系生长,均不利于苹果幼苗生长及氮素营养吸收利用,适量供氮有利于苹果幼苗的生长、光合作用的提高,以及氮素的吸收、利用和分配.     

硝酸盐供应水平对平邑甜茶幼苗生长、光合特性与15N吸收、利用的影响

以霍格兰营养液为培养基质,采用¹⁵N同位素示踪技术,研究不同浓度¹⁵NO₃^--N (0、2.5、5、10和20 mmol·L^-1,分别以N₀、N₁、N₂、N₃和N₄表示)对平邑甜茶幼苗生长、光合作用、¹⁵N吸收、利用及分配的影响.结果表明:与其他处理相比,N₂处理幼苗叶绿素含量、叶面积及各器官干质量最大.叶片净光合速率(P_n)随¹⁵NO₃^--N浓度的增加显著增大,但¹⁵NO₃^--N浓度超过N₂处理后P_n略有下降.处理20 d时,N₂处理幼苗根系活力最大,根系长度、根系总表面积和根尖数也显著高于其他处理.各处理间¹⁵N分配率差异显著,N₂处理幼苗各器官间¹⁵N分配率最均衡,¹⁵N利用率也较高;随¹⁵NO₃^--N浓度增加,各处理幼苗全氮量和¹⁵N吸收量呈先升高后降低的趋势,且在N₂处理时最大,分别为103.77和21.57 mg.处理12 d后,叶片硝酸还原酶(NR)活性以N₂处理最高,N₄处理最低,至第16天时,N₄处理较N₂处理降低了84.9%.因此,¹⁵NO₃^--N供应过低抑制幼苗光合作用及氮素吸收,¹⁵NO₃^--N供应过高则抑制幼苗体内硝态氮同化及根系生长,均不利于苹果幼苗生长及氮素营养吸收利用,适量供氮有利于苹果幼苗的生长、光合作用的提高,以及氮素的吸收、利用和分配.     

Oxygen inhibition of nitrogen fixation in cell-free preparations of blue-green algae

1. Factors inhibiting N₂ fixation in cell-free preparations of two blue-green algae, Anabaena cylindrica and Chlorogloea fritschii were investigated.

2. ¹⁵N uptake by particulate cell-free fractions of A. cylindrica was less in the light than in the dark, indicating some photo-inhibition of N₂ fixation.

3. Anaerobic conditions during preparation and incubation of particulate cell-free fractions of C. fritschii greatly increased their N₂-fixing ability.

4. Soluble cell-free material was found to have an inhibitory effect on N₂ fixation by particulate cell-free preparations obtained from A. cylindrica. This inhibition was approximately proportional to the amount of soluble fraction supplied to the particulate material. Dialysis of the soluble cell-free fraction did not remove the inhibition which has therefore been attributed to the presence of a soluble enzyme, possibly an oxidase.

5. Dialysis of the soluble cell-free fraction or of particulate material suspended with soluble cell-free fraction resulted in a slight decrease of ¹⁵N uptake, indicating the removal by dialysis of small-molecule factors required for N₂ fixation.

6. The presence of sulphydryl agents increased the rate of N₂ fixation in cell-free preparations of A. cylindrica.     

How does a legume nodule work?

Nitrogen fixation in legume root nodules requires biochemical cooperation between the plant and Rhizobium cells. Bacteroids contribute the N₂-fixing system and haem for leghaemoglobin, but apart from the production of the globin moiety of leghaemoglobin and the assimilation and export of the NH₃ produced, little is known about the contributions of the plant. It now appears that the plant cell may regulate the type and/or quantity of carbon compounds supplied to the Rhizobium bacteroids.     

不同施肥处理对海南风吹楠幼苗生长及生理特性影响

以海南风吹楠(Horsfieldia hainanensis Merr.)为材料,采用正交实验方法,研究不同施肥处理对海南风吹楠幼苗生长及生理特性的影响。结果显示,不同施肥处理下海南风吹楠幼苗的生长指标有所差异,不施肥组的株高、地径、干重和根系等指标均低于施肥处理组;而各施肥处理组间幼苗叶片可溶性糖、可溶性蛋白、叶绿素含量等指标均存在极显著差异;净光合速率、气孔导度、蒸腾速率、胞间CO_2浓度等指标均大于不施肥组,光合性能得到一定的提升和改善。将各项生理指标进行隶属函数分析,综合评价后得出最佳氮磷钾处理组为T6组N_2P_2K_2(即:N 3.80 g/株,P 0.48 g/株,K 1.46 g/株)。     

施氮量对不同藜麦品种幼苗生长的影响

通过盆栽试验,研究5个水平的施氮量(N₀,0 g·kg^-1;N₁,0.05 g·kg^-1;N₂,0.1 g·kg^-1;N₃,0.15 g·kg^-1;N₄,0.2 g·kg^-1)对8个不同藜麦品种幼苗生长的影响。结果表明: 1)不同施氮量处理下,藜麦品种GB22和OY的生物量最大,而品种B2的生物量最小。品种B2的花质量比最大,品种GB22的茎质量比最大,品种R1的根质量比最大,品种W23的叶质量比最大。2)施氮显著影响藜麦幼苗的生长。在较低施氮量(N₁、N₂)下,叶片最大净光合速率、植株生物量积累都比对照(N₀)明显增加;在较高施氮量(N₃、N₄)下,藜麦叶片光合速率出现降低趋势,生物量积累减少。品种和施氮量对植株生物量有显著的交互作用,表明不同藜麦品种对施氮量的响应不同。品种R1、MY11、GB22、OY的最佳施氮量为0.05 g·kg^-1,品种GB11、DB、B2的最佳施氮量为0.1 g·kg^-1,品种W23的最佳施氮量小于0.05 g·kg^-1。3)品种和施氮量之间的交互作用显著影响藜麦幼苗的生物量分配。在达到0.2 g·kg^-1施氮量前,随着施氮量增加,藜麦将更多的生物量分配到花和叶。4)不同品种和施氮量下,幼苗生物量与最大净光合速率、苗高、地径、比叶面积呈显著正相关。本研究可为不同藜麦品种的养分管理提供参考。     

NP配施对平茬后云南松苗木N、P、K化学计量比的影响

为了解NP配施对平茬后云南松(Pinus yunnanensis)苗木各器官N、P、K化学计量比的影响,分析云南松苗木不同器官(根、茎、叶、萌条)的ω(N)∶ω(P)、ω(N)∶ω(K)、ω(P)∶ω(K)化学计量比的季节变化特征,探讨各器官间N、P、K化学计量比的相关性及其变异来源。采用N、P二因素三水平的3×3回归设计开展不同施肥试验,并对苗木采样测定,研究NP配施对平茬后云南松根、叶、茎及其萌条N、P、K化学计量特征的影响。结果表明：平茬后云南松苗木不同器官的营养元素分配没有统一的规律,展现出丰富的变异。随着施肥季节的变化,ω(N)∶ω(P)在根、茎和萌条中逐渐下降,在叶中先下降后上升,但总体差异不大。单施N肥、P肥和NP配施均对云南松苗木生长的影响产生一定差异,总体来看NP配施更有利于促进苗木的生长,且以处理5(N₁P₁)表现为极显著(P<0.01)。云南松苗木各器官N、P、K化学计量比主要受N×P交互作用的影响,其次是N,影响最小的是P。除在根和叶中ω(N)∶ω(P)与ω(N)∶ω(K)之间相关性发生改变之外,其余两两间的正负...     

Effect of herbivory on growth and biomass allocation of Brazilian peppertree (Sapindales: Anacardiaceae) seedlings in the laboratory

Brazilian peppertree (Schinus terebinthifolius Raddi), native to South America, is invading many ecosystems in south and central Florida. The defoliating tortricid moth Episimus unguiculus Clarke was selected as a potential biocontrol agent of Brazilian peppertree in Florida. The objective of this study was to examine the effect of different levels of herbivore damage on growth and biomass allocation of Brazilian peppertree seedlings in the laboratory. Three treatments were established: (1) no herbivory (control), (2) low herbivory (~4 larvae/plant), and (3) high herbivory (~12 larvae/plant). High levels of herbivory significantly reduced the number of leaflets, plant height, foliar biomass, foliar relative growth rate (RGR) and shoot: root ratio of Brazilian peppertree seedlings. Moreover, plants were not able to recover from herbivory after 2 months. The performance of Brazilian peppertree subjected to low herbivory levels did not differ from the control plants (no herbivory). The potential effectiveness of the biocontrol agent E. unguiculus to suppress this noxious weed is examined.     

人工油松林中不同植物叶片非结构性碳水化合物含量对氮添加的响应

全球氮沉降通过影响树木叶片的生理过程影响森林生态系统的结构与组成,但目前关于氮沉降对森林生态系统中不同植物叶片非结构性碳水化合物(NSC)含量的影响还不十分清楚.本研究选取黄土丘陵区人工油松林中油松、辽东栎、忍冬、绣线菊、黄刺玫、茜草、披针苔草7种主要高等植物,比较了3年氮添加(0、3、6、9 g N·m^-2·a^-1,分别用N₀、N₃、N₆、N₉表示)对7种植物叶片中NSC的影响.结果表明: 不同植物叶片可溶性糖、淀粉含量变异很大,二者变异最高的均为黄刺玫,最低的分别为绣线菊和披针苔草;不同植物可溶性糖、淀粉对氮添加的响应存在明显差异.N₆处理下茜草的可溶性糖和淀粉的变异高于其他物种,N₃和N₉处理下绣线菊的变异高于其他物种,可溶性糖和淀粉含量变异最小的物种在不同氮添加水平下不同.随着氮添加水平的增加,油松和披针苔草的可溶性糖含量持续升高,绣线菊持续降低,辽东栎、忍冬和黄刺玫的可溶性糖含量先降低后增加,在N₆处理达到最小,而茜草的可溶性糖含量呈现较复杂的变化趋势.氮添加对植物叶片中淀粉含量的影响表现为油松、忍冬和披针苔草的淀粉含量持续增加,绣线菊先降低后增加,在N₃处理达到最小,而黄刺玫和茜草则呈现较复杂的变化趋势,辽东栎淀粉含量变化趋势平缓.在氮添加后,土壤pH、有机碳、全氮、全磷与植物叶片NSC含量无相关关系,仅N₀和N₃水平下上述土壤理化指标会显著影响可溶性糖/淀粉.表明林地不同植物叶片中NSC含量对氮添加的响应明显不同,研究全球氮沉降或氮添加对林地生态系统的影响需要考虑不同植物,尤其不同生活型植物的不同响应.     

供氮水平对矮化苹果15N-尿素吸收、利用、损失及产量和品质的影响

以7年生烟富3/M26/平邑甜茶为试材,采用¹⁵N同位素示踪技术,研究不同供氮水平[低氮(100 kg N·hm^-2,N₁₀₀)、中氮(200 kg N·hm^-2,N₂₀₀)和高氮(300 kg N·hm^-2,N₃₀₀)]对烟富3/M26/平邑甜茶¹⁵N-尿素吸收、利用、损失及产量和品质的影响.结果表明: 不同供氮水平植株的生长状况及氮素吸收、利用和损失特性差异显著.N₂₀₀处理植株叶绿素含量(SPAD)、光合速率(P_n)、叶片全氮含量和生物量显著高于N₁₀₀和N₃₀₀处理,植株根冠比也显著增加.不同供氮水平下植株各器官对氮的吸收能力(Ndff值)存在显著差异,各测定时期果实(花)、叶片、一年生枝、多年生枝和中心干的Ndff值均为N₁₀₀>N₂₀₀＞N₃₀₀;而根的Ndff值在盛花期和春梢缓长期为N₁₀₀ >N₂₀₀＞N₃₀₀,在秋梢生长期、果实膨大期和果实成熟期为N₂₀₀ >N₁₀₀＞N₃₀₀.在果实成熟期,N₂₀₀处理¹⁵N肥料利用率为23.6%,显著高于N₁₀₀(16.3%)和N₃₀₀处理(14.4%),而¹⁵N损失率为56.4%,显著低于N₁₀₀(60.6%)和N₃₀₀处理(66.1%).不同供氮水平植株的平均单果质量、单株产量、可溶性固形物、硬度、可溶性糖、可滴定酸、糖酸比均存在显著差异,且均以N₂₀₀处理最高,其次是N₃₀₀处理,N₁₀₀处理最低.     

供氮水平对矮化苹果15N-尿素吸收、利用、损失及产量和品质的影响

以7年生烟富3/M26/平邑甜茶为试材,采用¹⁵N同位素示踪技术,研究不同供氮水平[低氮(100 kg N·hm^-2,N₁₀₀)、中氮(200 kg N·hm^-2,N₂₀₀)和高氮(300 kg N·hm^-2,N₃₀₀)]对烟富3/M26/平邑甜茶¹⁵N-尿素吸收、利用、损失及产量和品质的影响.结果表明: 不同供氮水平植株的生长状况及氮素吸收、利用和损失特性差异显著.N₂₀₀处理植株叶绿素含量(SPAD)、光合速率(P_n)、叶片全氮含量和生物量显著高于N₁₀₀和N₃₀₀处理,植株根冠比也显著增加.不同供氮水平下植株各器官对氮的吸收能力(Ndff值)存在显著差异,各测定时期果实(花)、叶片、一年生枝、多年生枝和中心干的Ndff值均为N₁₀₀>N₂₀₀＞N₃₀₀;而根的Ndff值在盛花期和春梢缓长期为N₁₀₀ >N₂₀₀＞N₃₀₀,在秋梢生长期、果实膨大期和果实成熟期为N₂₀₀ >N₁₀₀＞N₃₀₀.在果实成熟期,N₂₀₀处理¹⁵N肥料利用率为23.6%,显著高于N₁₀₀(16.3%)和N₃₀₀处理(14.4%),而¹⁵N损失率为56.4%,显著低于N₁₀₀(60.6%)和N₃₀₀处理(66.1%).不同供氮水平植株的平均单果质量、单株产量、可溶性固形物、硬度、可溶性糖、可滴定酸、糖酸比均存在显著差异,且均以N₂₀₀处理最高,其次是N₃₀₀处理,N₁₀₀处理最低.     

Effects of nitrogen enrichment on root exudative carbon inputs in Sibiraea angustata shrubbery at the eastern fringe of Qinghai-Xizang Plateau

Aims Understanding the responses of root exudative carbon (C) to increasing nitrogen deposition is important for predicting carbon cycling in terrestrial ecosystems. However, fewer studies have investigated the dynamics of root exudation in shrubbery ecosystems compared to forests and grassland ecosystems. This objective of this study was to determine the effects of nitrogen fertilization on the rate and C flux of root exudates.Methods Three levels of nitrogen addition treatments were applied to a Sibiraea angustata shrubbery ecosystem situated at the eastern fringe of Qinghai-Xizang Plateau, including N₀ (without nitrogen application), N₅ (nitrogen addition rate of 5 g·m^-2·a^-1), and N₁₀ (nitrogen addition rate of 10 g·m^-2·a^-1), respectively, in 5 m ´ 5 m plots. Root exudates were collected in June, August and October of 2015, using a modified culture-based cuvette system. Root biomass in each plot was measured with root core method.Important findings The rates of root exudates on biomass, length, and surface area basis all displayed apparent seasonal variations during the experimental period, with the magnitude ranked in the order of: August > June > October, consistent with changes in soil temperature at 5 cm depth. With increases in the nitrogen addition rate, the rate of root exudates on biomass, length, and area basis all trended lower. Compared with the control (N₀), the N₅ and N₁₀ treatments significantly reduced fine root biomass in the Sibiraea angustata shrubbery, by 23.36% and 33.84%, respectively. The decreasing root exudation and fine root biomass in response to nitrogen addition significantly decreased C flux of root exudates. Our results provide additional evidences toward a robust theoretical foundation for better understanding soil C-nutrient cycling process mediated by root exudation inputs in Alpine shrubbery ecosystems under various environmental changes.     

Alteration of N nutrition in Myrica gale induces changes in nodule growth, nodule activity and amino acid composition

Changes in nodule growth and activity and in the concentrations of soluble N compounds in nodules, leaves and xylem sap under conditions of altered N nutrition in the actinorhizal plant Myrica gale L. are reported. Altering the N nutrition of symbiotic plants may alter the internal regulation of combined N which in turn may regulate nodule growth and activity. Flushing nodules daily with 100% O₂ caused a decline in amide concentration and an increase in nodule growth although plants had recovered some nitrogenase activity within 4 h of exposure to O₂. Samples of nodules, leaves and xylem sap were derivatized and amino acids identified and quantified using either reverse phase high performance liquid chromatography or gas chromatography-mass spectrometry in single ion monitoring mode. The ratio of asparagine in the nodules to that in the xylem was much higher in plants fed N (6.7 for NH⁺₄-fed and 8.3 for NO⁻₃-fed plants) than for N₂-fixing plants (2.5). Significant amounts of ¹⁵N added as ¹⁵NH⁺₄ or ¹⁵NO⁻₃ accumulated in nodules following accumulation in the shoot which is consistent with the translocation of N to the nodules via the phloem. The uptake of ¹⁵NH⁺₄ led to the synthesis and subsequent translocation of glutamine in the xylem sap. These results are discussed in terms of the feedback mechanisms that may regulate nitrogen fixation in Myrica root nodules.     

Photostimulation of nitrogen fixation in Anabaena cylindrica

Photostimulation of N₂ fixation in the blue-green alga Anabaena cylindrica was investigated using monochromatic light and by comparing action spectra of C₂H₂ reduction with that of photosynthetic O₂ evolution. Maximum nitrogenase activity per unit energy was measured at a wavelength which corresponds to the maximum light absorption of chlorophyll a. The action spectrum of C₂H₂ reduction indicates a primary involvement of Photosystem I in N₂ fixation by blue-green algae.     

氮处理对大豆根瘤固氮能力及GmLbs基因表达的影响

共生根瘤的固氮效率受外界氮素的严格调控。除固氮酶活性外,豆血红蛋白(Lb)浓度亦是反应固氮能力的重要指标。为明确氮水平对生物固氮作用的影响,以大豆(Glycine max)为材料,在低氮(0.53 mmol·L–1)条件下接种根瘤菌,30天后再进行高氮(5.3、10、20、30和40 mmol·L–1)处理7天,分析L...     

外源氮添加对温带荒漠地表凋落物分解及养分释放的影响

采用分解网袋法,在古尔班通古特沙漠南缘设置对照N₀(0 g N·m^-2·a^-1)、N₅(5 g N·m^-2·a^-1)、N₁₀(10 g N·m^-2·a^-1)和N₂₀(20 g N·m^-2·a^-1)4个施N处理,研究外源N添加对多枝柽柳、盐角草及两者混合凋落物分解过程及养分释放的影响,分析氮沉降对荒漠生态系统凋落物分解的影响。结果表明: 各物种凋落物的分解速率存在显著差异,经过345 d的分解,多枝柽柳、盐角草及混合物在不同N处理间的分解速率分别为0.64～0.70、0.84～0.99和0.71～0.81 kg·kg^-1·a^-1。凋落物分解过程中,N、P均表现为养分的直接释放,试验结束时,N₀、N₅、N₁₀和N₂₀处理单种凋落物及其混合物N分别释放60.6%～67.4%、56.7%～62.6%、57.4%～62.3%、46.8%～63.0%,P分别释放51.9%～77.9%、59.9%～74.7%、53.0%～79.9%、52.3%～76.4%。N处理对单种凋落物及其混合物的分解影响不显著,但各种凋落物的养分动态对N添加的响应不同,N处理抑制了盐角草N、P释放及混合凋落物P释放,而对多枝柽柳无影响。在温带荒漠,适量的N输入对凋落物分解速率影响不大,但可能会延缓个别物种养分向土壤系统的归还。     

N2 fixation by purified components of the N2-fixing system of Clostridium pasteurianum

1. N₂ fixation, reductant-supported ATP utilization and ATP-dependent H₂ evolution are catalyzed by combined molybdoferredoxin and azoferredoxin, the two purified components of the N₂-fixing system of Clostridium pasteurianum. No additional protein components are needed. At this stage of purity, neither of the two components of the N₂-fixing system catalyzed any of these reactions without the other.

2. The utilization of ATP by the N₂-fixing system involves a single P_i elimination; the rate of P_i release from ATP is exactly matched by ADP formation. The product ADP inhibits each of the reactions catalyzed by the enzyme components.

3. Aided by a more sensitive colorimetric analysis for NH₃ with ninhydrin, N₂ fixation is routinely obtained with ATP as the sole source of energy. No ATP-generating system is needed.

4. With the purified components, the stoichiometry of P_i released per electron pair for H₂ evolution and N₂ fixation is 4.     

氮肥后移对抽穗后水分胁迫下冬小麦光合特性及产量的影响

采用子母桶栽土培法模拟冬小麦抽穗后不同的水分胁迫状态,研究了氮肥后移对冬小麦光合特性及产量的影响.设置3个氮肥处理,分别为N₁(基肥∶拔节肥∶开花肥=10∶0∶0)、N₂(6∶4∶0)和N₃(4∶3∶3),模拟冬小麦抽穗后2种水分胁迫(渍水胁迫、干旱胁迫),设正常供水为对照.结果表明：相同供水条件下,N₂和N₃处理较N₁处理显著提高冬小麦灌浆期旗叶的SPAD和光合速率,确保了收获时较高的穗数、穗粒数和地上部分生物量;氮肥后移处理显著提高了冬小麦的耗水量,但其籽粒产量和水分利用效率也显著提高.相同氮肥条件下,干旱胁迫和渍水胁迫处理较正常供水显著降低了冬小麦开花期和灌浆期旗叶的光合速率、千粒重、穗粒数和产量.与正常供水相比,各氮肥条件下干旱胁迫和渍水胁迫处理花后旗叶光合速率及籽粒产量的减小幅度均表现为N₁＞N₂＞N₃.表明氮肥后移通过提高旗叶SPAD、减缓花后旗叶光合速率的下降幅度、增加地上部分干物质积累量,调控产量及其构成要素,以减轻逆境灾害(干旱和渍水胁迫)对产量的影响.