Chlorophyll contents,net photosynthetic rates and chlorophyll fluorescence parameters of the cigar wrapper tobacco leaves were measured to study the response of photosynthetic characteristics to different N application rate under shady condition.The results showed that the chlorophyll contents of tobacco leaves were increased with the increasing rate of nitrogen,so did the PSII potential activity,the maximal photochemical efficiency of PSII,and photochemical quenching coefficient(qP) in tobacco leaves,consequently the net photosynthetic rates were enhanced.The results of experiments also showed that optimum application of N could improve the photosynthetic capability of tobacco leaves and increase the net photosynthetic rates,but over-application of N had a negative influence on photosynthetic capability and an even worse effect on the photochemical quenching coefficient and ΦPSII.

通过遮荫条件下的盆栽试验,测定分析了4个氮肥处理的雪茄外包皮烟叶片的叶绿素含量、净光合速率和叶绿素荧光动力学参数,探讨了不同氮肥用量对雪茄外包皮烟叶光合特性的调控效应。结果表明,随着氮肥用量的增加,烟叶的叶绿素含量增加,叶片的PS.II最大光化学效率和潜在活性,PSⅡ的实际光化学效率以及荧光光化学猝灭系数(qP)都有增加的趋势,最终导致叶片净光合速率的提高。试验还表明,适当的增施氮肥有利于改善叶片的光合功能,提高叶片的净光合速率,但过量氮肥则不利于光合能力的改善,更不利于荧光动力学参数的优化。

【Objectives】Chlorophyll fluorescence parameters are often used to evaluate the function of photosynthetic organs and the influence of the environment pressure. Tolerance to low nitrogen stress are largely different with different maize genotypes, which can be reflected through photosynthesis and chlorophyll fluorescence characteristics. In this paper, the response of four maize cultivars to low nitrogen stress were compared at the seedling stage for the purpose of further understanding of the mechanism of their low nitrogen tolerance.【Methods】A completely random two-factor pot experiment was conducted in greenhouse. The main factor was maize cultivars, two tolerant cultivars of Zhenghong 311 and Chengdan 30, two non-tolerant cultivars of Xianyu 508 and Beisan 2; The second factor was N levels: N 15 mmol/L(CK, Hoagland nutrition solution), 0.5 mmol/L(low N stress, LN1), N: 0.05 mmol/L(extremely low N stress, LN2). The items were measured, including individual plant dry matter and nitrogen accumulation, relative chlorophyll content(SPAD)of leaves, and the photosynthesis parameters. 【Results】The dry matter and nitrogen accumulation amounts of per plant, relative chlorophyll content(SPAD)of leaves, net photosynthetic rate( P n), stomatal conductance( G s), transpiration rate( T r), variable fluorescence( F v), maximum fluorescence( F m), potential activity of PSⅡ( F v/ F 0 ), the primary maximum photochemical efficiency of PSⅡ( F v/ F m), effective light quantum yield of PSⅡ( F v′/ F m′)and photochemical quenching coefficient(qP)of the four maize hybrids are declined sharply under the low nitrogen stress conditions. Compared with the low nitrogen sensitive maize cultivars, the reduced ranges of these parameters of the low nitrogen tolerant maize cultivars are much lower. In contrast to the above parameters, the intercellular CO 2 concentrations are remarkably increased in the tested maize hybrids, and the concentration increases of the low nitrogen tolerant maize cultivars are rather less than those of the sensitive ones. The actual photochemical efficiencies of PSⅡ in the light( Φ PSⅡ )of the low nitrogen tolerant maize cultivars are decreased, while those of the low nitrogen sensitive maize cultivars are increased. In addition, the non-photochemical quenching coefficients(NPQ)of the low nitrogen tolerant maize cultivars are increased, while those of the low nitrogen sensitive maize cultivars are decreased.【Conclusions】 The negative effect of N stress on the photosynthetic system of the low nitrogen tolerant maize cultivars can be offset to some extent, so a relatively high nitrogen accumulation is kept to improve chlorophyll content and maintain high effective light quantum yield of PSⅡ( F v′/ F m′)and photochemical quenching coefficient(qP), and keep high net photosynthetic rate( P n)to guarantee a higher dry matter productivity.

【目的】叶绿素荧光参数经常用来评价光合器官的功能和环境压力的影响,不同玉米基因型耐低氮胁迫能力差异较大,与光合及叶绿素荧光特性对低氮胁迫的响应机制有关。本文以耐低氮能力差异较大的4个玉米杂交种为试验材料,研究了低氮胁迫对不同耐低氮性玉米品种苗期光合及叶绿素荧光特性的影响,以期明确耐低氮胁迫玉米品种的光合机制。【方法】采用二因素完全随机设计盆栽试验,因素A为不同耐低氮性玉米品种: ‘正红311’、‘成单30’和不耐低氮品种‘先玉508’、‘三北2号’;因素B为不同氮素水平: 正常氮CK(霍格兰完全营养液, N 15 mmol/L)、低氮胁迫LN1(N 0.5 mmol/L)、极低氮胁迫LN2(N 0.05 mmol/L)。测定了苗期单株干物质积累量,单株氮素积累量,叶片叶绿素含量与荧光特性,以及光合效率指标。【结果】低氮胁迫下玉米苗期单株干物质积累量、单株氮素积累量、叶片叶绿素含量等生理指标显著下降,但耐低氮品种的下降幅度显著低于不耐低氮品种;低氮胁迫下玉米苗净光合速率( P n)、气孔导度( G s)、蒸腾速率( T r)显著降低,胞间CO 2 浓度( C i)显著升高,净光合速率( P n)、气孔导度( G s)和蒸腾速率( T r)的降幅及胞间CO 2 浓度( C i)的增幅耐低氮品种均显著低于不耐低氮品种;低氮胁迫下可变荧光( F v)、最大荧光( F m)、PSⅡ潜在活性( F v/ F 0 )、PSⅡ最大光化学效率( F v/ F m)、PSⅡ有效光量子产量( F v′/ F m′)和光化学猝灭系数(qP)等叶绿素荧光特性也均显著降低,耐低氮品种下降幅度显著低于不耐低氮品种;低氮胁迫下耐低氮品种PSⅡ实际光量子产量( Φ PSⅡ )降低,不耐低氮品种有所增加;而耐低氮品种非光化学猝灭系数(NPQ)升高,不耐低氮品种有所降低。【结论】耐低氮玉米品种能够减缓低氮胁迫对植株光合系统的影响,进而保证植株较高的氮素积累,提高叶片叶绿素含量,维持较高的PSⅡ有效光量子产量( F v′/ F m′)和光化学猝灭系数(qP),为光合作用提供充足的光能;从而保持了较高的净光合速率( P n),保证了耐低氮品种在低氮条件下保持较高的干物质生产。

Jilin Province is the main maize-producing province in China but frequently suffers from drought. Western parts of the province, such as Baicheng and Songyuan, do not receive sufficient rainfall to support increased agricultural production, which severely limits enhancement of maize yield. A project to install drip irrigation to one million acres was initiated in the province, which is important for improving the drought resistance and yield of maize. Nitrogen, as the most important element for maize growth, has a major impact on yield and physiological characteristics. For maize cultivated with under-mulch drip irrigation with dual lines per ridge, what influence will the nitrogen nutrition level have on photosynthesis by the ear leaf and related physiological characteristics? To address this question, maize Xianyu420 was used as the test material and five nitrogen nutrition levels were applied. Starting from the silking stage, on each morning at 09:00-11:00 for 10 days, six representative plants of uniform growth were selected from each treatment and the following photosynthesis parameters were measured: ear leaf net rate of photosynthesis ( P n ), transpiration rate ( T r ), stomatal conductance ( g s ), water use efficiency (WUE), maximum photochemical efficiency ( F v / F m ), actual photochemical efficiency ( Φ PSⅡ ), photochemical quenching ( q P ), nitrogen content, and the activities of phosphoenolpyruvate (PEP) and ribulose 1,5-biphosphate (RUBP) carboxylase, proteolytic enzymes (endopeptidase and aminopeptidase), nitrate reductase (NR), and glutamine synthetase (GS). The influence of nitrogen level on photosynthesis characteristics and activity of key enzymes involved in nitrogen metabolism in the ear leaf was studied with under-mulch drip irrigation with dual lines per ridge. The results showed that the average values for ear leaf nitrogen content, P n , T r , g s WUE, F v / F m , Φ PSⅡ and q P were highest in the N3 treatment (300 kg N/hm 2 ). The response of PEP carboxylase activity to nitrogen fertilizer application was more sensitive than that of RUBP carboxylase activity. When nitrogen fertilizer application was less than 100 kg N/hm 2 , RUBP carboxylase activity was significantly reduced. Application of nitrogen fertilizer increased the activity of NR and GS in the ear leaf. And the highest increases in NR and GS activity were recorded in the N3 treatment. Proteolytic activity showed the opposite response. The nitrogen content of the ear leaf was negatively correlated with endopeptidase and aminopeptidase activity, and positively correlated with all other indicators of photosynthetic activity. In the study area, when the total amount of nitrogen fertilizer applied is 300 kg/hm 2 , the ear leaf of maize maintains higher photosynthetic parameters and relevant enzyme activity and provides the foundation for increased grain yield. Adequate supply of nitrogen fertilizer can ensure smooth and efficient activity of enzymes involved in nitrogen metabolism in leaves of maize.

以先玉420为试验材料，研究在大垄双行膜下滴灌种植模式下，氮素水平对玉米穗位叶光合特征及氮代谢关键酶活性的影响。结果表明：1）玉米穗位叶氮素含量、光合速率（ P n ）、蒸腾速率（ T r ）、气孔导度（ G s ）、水分利用效率（WUE）、最大光化学效率（ F v / F m ）、实际光化学效率（ Φ PS Ⅱ ）和光化学猝灭（ q P ）均以N3（300 kg/hm 2 ）水平最高。2） PEP羧化酶对氮肥的响应较RUBP羧化酶敏感，氮肥少于100 kg/hm 2 才显著降低RUBP羧化酶活性。3） 施用氮肥均增加穗位叶硝酸还原酶（NR）和谷氨酰胺合成酶（GS）活性，以N3处理增幅最大，蛋白水解酶活性则相反。4）相关分析表明：穗位叶氮含量与与内肽酶和氨肽酶呈现负相关，与其他各项指标均呈现正相关，差异显著性因花后不同时期而不同。6）在供试试验区，在氮肥施用总量为300 kg/hm 2 时，玉米穗位叶保持较高的光合特性和相关酶活性，为玉米籽粒产量的形成奠定了基础。

以甘农3号和陇东苜蓿为研究材料,采用营养液砂培法,比较研究了 NH 4+-N 0、105、210、315、420 mg/L 5个水平对紫花苜蓿光合色素及光合特性的影响。结果表明：供氮处理下2个品种紫花苜蓿的光合速率、气孔导度、叶面积和叶绿素含量均显著高于 CK(P <0.05),并随供氮水平的增大先增加后减小,在210 mg/L 达到最大。紫花苜蓿胞间 CO2浓度随氮素水平的提高而降低,N210对紫花苜蓿叶片光合性能调节作用最大。2个品种对 N210氮素水平的敏感度最高,且在 N210处理下,甘农3号的光合速率、气孔导度和叶绿素含量对氮素的敏感度高于陇东苜蓿；而陇东苜蓿叶面积和胞间 CO2浓度对氮素的敏感度高于甘农3号。

The photosynthetic characteristics and seed yields of sudangrass response to different topdressing nitrogen fertilizer including six different nitrogen application rates of 0, 150, 300, 450, 600 and 750 kg·ha -1 and the fixed proportion (3∶4∶3) were studied by single factor randomized trials using Sorghum sudanense ‘Xinsu No.2’. The results showed that photosynthesis rate (P n ), stomatal conductance (GS), transpiration rate (T r ) significantly increased with increasing of nitrogen fertilization application rate in a certain range. The values of P n , T r , GS in heading stage were significantly greater than that in grain filling stage and heading stage. Excessive nitrogen fertilizer could inhibit the photosynthetic during growth period. The results confirmed that SPAD value can fully reflect the chlorophyll contents. The SPAD value significantly increased with increasing of nitrogen fertilization application rate if the nitrogen fertilizer rate was less than 450 kg·ha -1 . Nitrogen fertilizer could effectively improved thousand seeds weight, grains per spike, and also significantly increased sudangrass seed yield in a certain range. However, the seed yield significantly decreased with the increasing of fertilizer. The seed yield was maximized (3 815 kg·ha -1 ) at the level of 600 kg·ha -1 nitrogen application. In combination with photosynthetic characteristics and seed yield of sudangrass, the best nitrogen application rate was 600 kg·ha -1 .

以新苏2号苏丹草(Sorghum sudanense ‘Xinsu No.2’)为试材, 采用单因素完全随机区组设计, 在拔节、孕穗和灌浆期追施氮肥, 以揭示施氮对苏丹草叶片光合生理特性及种子产量性状的影响。结果表明, 追施氮肥可显著提高苏丹草叶片光合速率、气孔导度和水分利用效率, 当追肥超过600 kg·hm -2 时, 在拔节期和抽穗期对光合速率产生抑制作用。随追肥量增加SPAD值随之增大, 追肥量超过450 kg·hm -2 后, SPAD值增幅较小或不增加。追施氮肥可有效增加种子千粒重、穗粒数, 从而使苏丹草种子产量明显增加, 然而, 追施氮量增加, 落粒率升高, 产量增幅明显减小, 追氮150与300 kg·hm -2 时, 产量增幅分别达23.7％和32.2％, 而追氮750 kg·hm -2 时, 产量增幅仅为3.9％, 追施氮肥600 kg·hm -2 时, 可获最大种子产量3 815 kg·hm -2 。综合苏丹草光合生理指标及产量性状的变化认为, 追肥量为600 kg·hm -2 为最佳, 此时光合速率最大, 并可获得最大种子产量。

采用两因素的随机区组设计，研究了氮肥（２５０ｋｇ／ｈｍ ２ 、不施氮肥）、不同刈割强度（即刈割时离地面５，２０和５０ｃｍ）对桂牧１号杂交象草光合特性的影响。结果表明，６个处理叶片净光合速率日变化曲线均为双峰曲线，但随着刈割强度的增加，光合速率先升高后降低，且在施氮肥的情况下，光合“午休”明显减弱。施氮肥能显著增加桂牧１号杂交象草的叶绿素含量和最大净光合速率。在施加氮肥的情况下，随着刈割强度的增加，叶片表观量子效率有增加的趋势，羧化效率先增大后降低，光补偿点、光呼吸速率和暗呼吸速率则呈现相反的变化趋势；而在不施氮肥的情况下，随着刈割强度增加，表观量子效率、光补偿点、羧化效率、光呼吸速率和暗呼吸速率均呈现先减少后增加的趋势。这些试验结果表明，氮肥、刈割强度均对桂牧１号杂交象草光合特性产生了一定的影响，在中强度刈割条件下，对桂牧１号施用２５０ｋｇ／ｈｍ ２ 氮肥，可以显著提高其光合能力。

以叶片枯黄率为指标,通过水培法对5属12种50份暖季型草坪草优良选系和品种进行了抗盐性评价,为选育抗盐优质草坪草新品种提供试验依据。结果表明,供试草种间的抗盐性变异很大,总的变异系数达到60%,其中,结缕草属和狗牙根属变异系数分别为52%和29%,而结缕草和中华结缕草是变异最大的种,变异系数分别为56%和52%。总的来讲,抗盐性最强的多为细叶结缕草和沟叶结缕草植物,海雀稗‘Adalayd’、钝叶草‘S004’及部分结缕草、中华结缕草植物的抗盐性也较强,部分结缕草属其他材料和狗牙根属植物的抗盐性中等或较弱,而假俭草的抗盐性最弱。结缕草属中抗盐性比‘马尼拉’强的有7份材料,比‘兰引3号’强的有12份材料,而狗牙根属中除‘C158’、‘南京’狗牙根和‘C610’外,多数材料的抗盐性比对照品种‘Tifgreen’和‘Tifdwarf’强。抗盐性最强的3份选系(品种)为细叶结缕草‘Z160’、沟叶结缕草‘Diamond’和‘Z075’。

A pot experiment was conducted to study the response of the growth characteristics, reproductive allocation pattern of Elymus nutans to competition density and nutrient addition. The plant height, leaf length, panicle length, tiller number and each organ biomass of E.nutans had competition-density effects under different planting densities. Biomass allocation of each organ were constrained by the density and the reproductive biomass allocation reached the highest of 10.46% under lower density (20 seed·m -2 ). There were significant effects of high nitrogen fertilizer on each organ biomass. Meanwhile, the effects of nitrogen fertilizer on reproductive biomass showed the trend of the inverted “V” type. Each growth index of E.nutans was significantly positive ( P E.nutans .

基于盆栽试验,研究海北高寒地区垂穗披碱草( Elymus nutans )生长特性、生殖分配格局对不同种植密度和不同施氮水平处理的响应。结果表明,1)不同种植密度垂穗披碱草的株高、叶长、穗长、分蘖数及各器官生物量均表现出竞争―密度效应;各器官生物量分配规律均受密度效应影响,且生殖生物量分配在中低密度(20粒·m -2 )下达最大值(10.46%)。 2)高氮肥(2 g·m -2 )对垂穗披碱草各器官生物量影响较大,氮肥作用后对垂穗披碱草生殖生物量分配的影响表现先增大后减小的趋势; 3)相关性分析表明,密度、氮肥单因子作用下株高、叶长、穗长、分蘖数及各器官生物量之间均呈极显著( P <0.01)正相关。4)线性回归分析表明,密度、氮肥单因子处理下,各器官的资源分配方面都存在“此消彼长”的权衡关系。

以氮效率不同的4个玉米杂交种(组合)为材料,在两个氮水平下分析了营养生长及光合特征.结果表明,施氮条件下玉米营养体的含氮量平均在2.0%左右,低氮处理下降到1.5%左右;氮高效品种的穗位叶光合效率并没有降低,氮低效品种的叶片光合效率则显著降低.氮高效品种在叶片保绿性方面明显具有优势,在低氮条件下保持了较大的绿叶面积和较高的叶绿素含量.这些特征保证了氮高效品种后期光合产物供应能力强,并用于子粒灌浆.

The canopy structure and photosynthetic characteristics of oats with different fertilizer treatment were contrasting studied with an infrared CO2 analyzer and canopy analyzer in the Naked dam oat1.Analysis the difference between levels of nitrogen yield characters indicator.The results showed that chlorophyll content and leaves area per plant were clearly increased with increasing nitrogen fertilizer application.Leaves area per plant in all mature stages showed "M"change trend,the maximum chlorophyll content stage was at heading.Effects of nitrogen fertilizer rate on oat canopy LAI and DIFN showed contrary change trend,LAI became larger but DIFN became smaller with increasing nitrogen fertilizer application.Net photosynthetic rate,stomatal conductance and transpiration rate in oat fag leaves increased significantly but intercellular CO 2 concentration decreased when we apply nitrogen fertilize.So a reasonable amount of nitrogen fertilizer can be significantly improved oat groups canopy structure,and increase photosynthetic efficiency.It is one of oat production important agronomic measures.

为了研究氮素对燕麦坝莜1号的冠层结构、光合特性及产量的影响,用红外气体分析仪和冠层分析仪测定不同氮肥处理下群体的冠层结构和光合特性,同时分析了不同氮素水平下产量性状指标之间的差异性。结果表明:随着施氮量的增加,单株叶面积和叶绿素含量均显著增加,单株叶面积在整个生育期呈"M"型变化,叶绿素含量在抽穗期达到最大值。施氮量对叶面积指数和透光率的影响呈相反的变化趋势,随着施氮量的增加,叶面积指数变大,而透光率变小。随着施氮量的增加,燕麦坝莜1号旗叶净光合速率、气孔导度和蒸腾速率显著提高,胞间CO2浓度则降低。产量以N2处理(144.0 kg/hm2)最高。因此认为,合理的氮肥用量能显著改善燕麦群体的冠层结构,提高光合效率,是燕麦增产的重要农艺措施。

In order to understand the adaptability of Lespedeza davurica on different forest light environmental, photosynthetic gas exchange and light response curve of chlorophyll fluorescence parameters were detected respectively. The results showed that P n and AQY of L. davurica leaf growth in understory were significantly higher than that of the forest edge under low light intensity, which indicated that the ability of capture and utilization of weak light growth in understory were significantly higher than that in the edge of forest. On the contrary, the ability of capture and utilization of strong light growth in understory was significantly lower than that in the edge of forest, in which the value of LSP and P max were lower. The increased extent of G S and T r of L. davurica leaves understory were lower than the edge of the forest with increasing the light intensity, but L. davurica grown in forest has relatively higher water use efficiency. Under low light intensity, the parameters of Ф PSⅡ and ETR were both not different between understory and forest edge. But the parameters of Ф PSⅡ and ETR for those grown in forest edge were higher than understory when the intensity was more than 400 μmol·m -2 ·s -1 , ETR and LCP of L. davurica leaves were significantly higher than those understory. The heat dissipation capability of understory was higher than those grown in forest edge. In conclusion, the results of this study showed that the ability of L. davurica for adapting different light environments were strong.

为了解兴安胡枝子( Lespedeza daurica )对不同森林光环境的适应性,分别测定了林下和林缘兴安胡枝子叶片的光合气体交换参数和叶绿素荧光参数的光响应曲线。结果表明,在低光强下,林下兴安胡枝子叶片的净光合速率(P n )和表观量子效率(AQY)明显高于林缘,即林下兴安胡枝子叶片对弱光的捕获和利用能力明显高于林缘,但林下兴安胡枝子在相对较强光强下的光合能力明显低于林缘,表现为较低的光饱和点(LSP)和净光合速率(P max ),随着光强的增加而减少,林下兴安胡枝子叶片的气孔导度(G s )和蒸腾速率(T r )增加幅度也明显低于林缘,但林下兴安胡枝子具有相对较高的水分利用效率。低光强下,林下和林缘兴安胡枝子叶片的实际光化学效率(Ф PSⅡ )和电子传递速率(ETR)均无明显差异,但当光强超过400 μmol·m -2 ·s -1 后,林缘兴安胡枝子叶片的Ф PSⅡ 和ETR均明显高于林下,但是林下兴安胡枝子叶片的热耗散能力明显高于林缘。兴安胡枝子叶片的光合特性对不同光环境具有较强的适应能力。