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1.
以氮素和水分(冬季增雪和夏季增雨)为控制因子, 开展相关田间控制实验, 分析不同功能群(以生活史为划分依据)尺度和群落尺度植物生物量分配格局对氮素和水分的响应, 得出以下结论: 1)一年生植物的繁殖生物量比重明显高于多年生植物, 而多年生植物种的叶/地上生物量比值显著高于一年生植物; 2)一年生植物对氮素和水分添加的响应剧烈, 氮添加耦合夏季增雨、氮添加耦合冬季增雪显著增加了一年生植物的繁殖生物量比重和叶生物量比重。多年生植物对氮素和水分添加的响应不敏感, 表现为多年生植物的各器官生物量分配格局对氮素添加和水分添加的响应不明显。3)氮素添加和水分处理改变了群落尺度生物量分配格局: 氮素添加耦合冬季增雪处理降低了群落植物的繁殖生物量比重和茎生物量比重, 提高了群落植物的叶生物量比重。4)冬季增雪和夏季增雨与氮素添加的交互作用对群落生物量分配格局的改变不同。夏季增雨耦合氮素添加处理下群落的茎生物量比重显著提高, 群落茎生物量分配的改变引起群落的垂直结构发生改变。冬季增雪氮素处理下群落的叶生物量比重增加, 但茎生物量比重增加不明显。冬季增雪也改变了群落的结构和功能。  相似文献   

2.
荒漠绿洲过渡带一年生草本植物对干旱胁迫的响应   总被引:2,自引:0,他引:2  
席璐璐  缑倩倩  王国华  宋冰 《生态学报》2021,41(13):5425-5434
选取河西走廊荒漠绿洲过渡带典型一年生草本植物雾冰藜(Bassia dasyphylla)、虎尾草(Chloris virgata)和狗尾草(Setaria viridis)为研究对象,设置5个水分梯度(正常水分(CK),轻度干旱(5d)、中度干旱(10d)、重度干旱(15d),重度干旱(15d)复水),分析了3种一年生草本植物生理和形态等性状对干旱胁迫的响应。结果表明:一年生草本植物可以通过生理反应(渗透调节)适应轻度和中度干旱胁迫,而通过个体形态来适应重度干旱胁迫。在轻度和中度干旱处理下,一年生草本植物通过调控叶片渗透调节物质脯氨酸、可溶性蛋白和可溶性糖维持叶片渗透压,提高保水能力,叶绿素含量增加,使丙二醛含量维持在较低的水平,同时,根系活力增强,有效促进了根系水分吸收;而在重度胁迫下,渗透调节物质作用降低,丙二醛含量迅速增加,导致可溶性蛋白含量下降,叶绿素分解加速,植物生长受到抑制,在有限的生物量下,一年生草本植物主要通过根系伸长、根长与茎长的比增加和减小茎长来适应重度干旱胁迫,最终导致了种子百粒重和结种数量下降。  相似文献   

3.
郭文婷  王国华  缑倩倩 《生态学报》2021,41(16):6633-6643
选取河西走廊荒漠绿洲过渡带典型藜科一年生草本植物雾冰藜、刺沙蓬和白茎盐生草为研究对象,分析不同浓度盐分(NaCl和NaHCO3,0、50、100、150、200 mmol/L)对3种藜科植物生长、繁殖和生物量分配的影响。研究结果表明:(1)钠盐胁迫下,3种藜科植物的存活率随盐浓度的增加呈下降趋势,雾冰藜和刺沙蓬在200 mmol/L NaCl和200 mmol/L NaHCO3胁迫下无法存活或存活率极低,白茎盐生草在200 mmol/L NaHCO3胁迫下无法存活;(2)钠盐胁迫显著抑制了刺沙蓬的生长和生物量积累,而一定浓度的盐分(50、100 mmol/L)可以促进雾冰藜和白茎盐生草的生长,较高浓度的盐分则抑制其生长;(3)3种植物的根冠比在钠盐胁迫下呈下降趋势,地上部生物量分配随盐浓度增加呈上升趋势,其中低盐胁迫下(50、100 mmol/L)繁殖分配比例增加明显,中高度盐胁迫下(150、200 mmol/L)茎、叶生物量分配比例增加显著,但根系生物量分配随盐分浓度增加而下降,这说明盐分胁迫下增加生物量在地上部的分配是藜科一年生草本植物应对盐胁迫的方式之一;(4) NaHCO3的胁迫作用大于NaCl,3种植物中,白茎盐生草的耐盐性最强,而雾冰藜和刺沙蓬的耐盐能力较差。  相似文献   

4.
《植物生态学报》1958,44(6):669
植物光合作用产生的非结构性碳水化合物(NSCs)水平可以反映植物和生态系统对环境变化的响应程度。近年来, 草原极端干旱事件的发生频率和持续时间增加趋势明显, 对生态系统结构和功能产生深远影响。该研究以内蒙古呼伦贝尔草甸草原为研究对象, 通过连续4年减少66%生长季降水量的控制实验来模拟极端干旱事件, 分析草原6种优势物种和植物功能群NSCs各组分对极端干旱的响应规律与机制。结果显示, 由于植物生物学、光合特性以及生理生态等特性的差异, 不同物种对干旱胁迫的响应具有明显差异。这表明草地植物NSCs组分及其利用策略对干旱胁迫的响应具有物种特异性, 从而导致其生物量的不同响应。将6种植物分为禾草和非禾草两类, 发现干旱显著增加了禾草的淀粉含量, 但对其可溶性糖含量无显著影响; 相反, 干旱显著增加了非禾草功能群的可溶性糖含量, 对其淀粉含量无显著影响, 表明不同功能群采取了不同的干旱应对策略。禾草选择将光合作用固定的能量进行储存以应对干旱胁迫, 其生物量对干旱响应不敏感; 而非禾草选择将能量以可溶性糖的形式直接供植物生长利用以及抵御干旱胁迫, 其生物量对干旱响应较为敏感。这一发现可为预测在全球气候变化背景下草甸草原生态系统结构与功能对极端干旱的响应提供科学参考。  相似文献   

5.
Aims          下载免费PDF全文
植物功能性状被广泛地用于研究植物对环境变化的响应。糙隐子草(Cleistogenes squarrosa)是内蒙古草原重要的C4物种,其功能性状是如何对水氮环境的变化做出响应的,还不十分清楚。该文采用盆栽实验的方法,进行氮添加(0,10.5,35.0和56.0 g·m–2·a–1)和降水(自然降水和70%平均月降水量)处理,研究糙隐子草整株性状、叶形态性状和叶生理性状对氮添加和干旱的响应。结果表明,氮添加显著影响了糙隐子草的整株性状,氮、水处理及它们的交互作用显著影响了糙隐子草的叶形态性状和叶生理性状。各功能性状对氮添加的响应格局在自然降水和干旱处理下是不同的。根深、茎生物量和茎叶比在干旱条件下低和中氮添加处理中较高,而在自然降水下无明显变化;比叶面积在干旱条件下随氮添加量的增加而增加,而在自然降水下无增加趋势;自然降水下,高氮添加显著刺激了光合速率和蒸腾速率,增加了水分利用效率,而在干旱条件下氮添加对它们没有显著影响;叶片单位面积的氮含量在自然降水下随氮添加量的增加有增加趋势,而在干旱条件下显著降低。在自然降水下,氮添加主要影响糙隐子草的叶形态和生理性状,而在干旱条件下,氮添加主要影响糙隐子草的整株性状和形态性状。总之,糙隐子草的功能性状对氮添加表现出明显的响应,响应格局在不同的水分条件下不同,反映了其对氮水环境变化的弹性适应。  相似文献   

6.
《植物生态学报》2014,38(9):929
荒漠草本植物是荒漠生态系统物种多样性的主体, 对其生物量分配及叶片化学计量特征随植物生长的变化规律的研究有助于深入了解荒漠草本植物生存策略和功能特征。该文选择古尔班通古特沙漠4种优势草本(2种短命植物, 2种一年生长营养期植物)为研究对象, 通过野外原位多时段取样, 对比研究了四者生物量分配、叶片N-P化学计量学随植物生长的变化特征, 以及二者之间的关系。结果表明, 在生物量累积过程中, 4种植物根冠比逐渐减小, 地上与地下生物量间的相关生长关系也发生变化, 其中琉苞菊(Hyalea pulchella)和角果藜(Ceratocarpus arenarius)的相关生长指数先增加后减小, 并趋于稳定, 而尖喙牻牛儿苗(Erodium oxyrrhynchum)和沙蓬(Agriophyllum squarrosum)的相关生长指数由小到大并趋于等速生长。琉苞菊叶片N、P含量呈逐渐增长趋势, 而另外3种植物呈下降趋势, 表明所研究的荒漠植物在生长过程中, 叶片N-P化学计量发生改变, 叶片化学计量特征与生物量指标的相关性较弱。  相似文献   

7.
《植物生态学报》2018,42(4):475
植物种间相互作用及其对环境胁迫的响应一直是物种共存和生物多样性维持研究的一个热点, 从地下根系入手来探讨混生群落植物种间关系及其对环境胁迫响应的研究少见报道。该文以荒漠草原区(灵武)、典型荒漠区(张掖)和极端荒漠区(酒泉) 3个不同生境条件下单生与混生红砂(Reaumuria soongarica)和珍珠猪毛菜(Salsola passerina)为实验材料, 采用分层取样法对其垂直根系参数进行测定和分析, 探讨了两种植物根系分布对混生及荒漠环境梯度的响应。结果表明: 同一生境条件下, 混生红砂和珍珠猪毛菜比根长和比表面积均高于单生, 说明红砂、珍珠猪毛菜混生后其根系相互作用关系表现为互惠, 促进了植株对土壤养分和水分的吸收。不同生境条件下, 同一生长方式的红砂根系分布深度均大于珍珠猪毛菜, 且根系消弱系数也普遍高于珍珠猪毛菜, 说明二者在不同生境条件下占据不同生态位, 红砂表现为深根性, 根系位于土壤深层, 珍珠猪毛菜表现为浅根性, 根系分布于土壤浅层。随着荒漠环境胁迫增强, 单生和混生红砂与珍珠猪毛菜的比根长和比表面积均呈现出极端荒漠区>典型荒漠区>草原荒漠区的规律, 且生境越干旱, 混生群落根系分离越明显; 单生与混生红砂根系消弱系数也逐渐增大, 在极端干旱区达到最大值, 珍珠猪毛菜变化不大, 表明红砂-珍珠猪毛菜混生群落根系生态位分离随荒漠环境胁迫增强而加大, 验证了环境胁迫梯度假说。可见“地上聚生, 地下分离”的混生方式可能是红砂-珍珠猪毛菜混生群落适应干旱胁迫环境的生长策略。  相似文献   

8.
早春降雨事件是影响荒漠短命植物生长的重要因子, 为了解古尔班通古特沙漠积雪完全融化后早春首次降雨时间及降雨量对短命植物光合生长的影响。该研究选取两种优势短命植物尖喙牻牛儿苗(Erodium oxyrhinchum)和琉苞菊(Centaurea pulchella)为研究对象, 设置3个首次降雨时间(积雪完全融化后第10、20和30天)和3个降雨水平(5、10和15 mm), 探究两物种的形态、生物量及光化学效率的响应差异。结果显示: 积雪完全融化后第10天进行首次降雨处理时, 随着首次降雨量的增加, 尖喙牻牛儿苗的叶面积和总生物量呈显著增加趋势, 最大光化学效率呈下降趋势。在第20和30天进行首次降雨处理时, 尖喙牻牛儿苗和琉苞菊的叶面积均呈显著增加趋势。在积雪完全融化后5 mm降雨处理时, 随着首次降雨时间的延迟, 尖喙牻牛儿苗和琉苞菊的最大光化学效率呈先下降后上升趋势; 10 mm降雨处理时, 尖喙牻牛儿苗的冠根比降低, 根长和总生物量呈先增加后下降趋势, 琉苞菊的根长呈显著增加趋势; 15 mm降雨处理时, 尖喙牻牛儿苗的叶面积、冠根比和最大光化学效率呈显著增加趋势; 琉苞菊的冠根比和最大光化学效率呈下降趋势, 总生物量呈显著增加趋势。尖喙牻牛儿苗和琉苞菊的根长分别与0-5 cm和5-10 cm土壤含水量呈显著正相关关系。这说明早春首次降雨量比首次降雨时间更能影响植株生长, 但不同物种对降雨格局变化的响应不一致, 这可能通过影响早春短命植物的形态特征, 进而影响早春荒漠生态系统的稳定性。  相似文献   

9.
《植物生态学报》2014,38(5):499
采用砂培方法, 在温室内将一年生核桃(Juglans regia)嫁接苗木和绿豆(Vigna radiata)进行间作, 研究绿豆对核桃苗木生长、水分平衡和光合特性的影响。该研究设有5种处理, 即: 对照(核桃单作, 正常供应氮素); 核桃单作, 不添加氮素; 核桃绿豆间作, 不添加氮素; 核桃绿豆间作, 正常供应氮素; 绿豆单作, 不添加氮素。结果显示: 种植绿豆可以增加土壤氮含量和核桃茎内氮含量, 但对核桃叶和根系中的氮含量影响不明显。种植绿豆显著增加不施氮核桃的高生长和直径生长, 但降低了正常供氮核桃的生长。无论种植绿豆与否, 不供氮处理降低了核桃的总叶面积, 提高了根冠比。核桃叶片气孔气体交换对各处理的响应和生长有相同的趋势。缺氮显著降低了核桃叶柄在中午的导水率、提高了导水损失率; 种植绿豆显著提高不供氮核桃的导水率而且明显降低了其导水损失率。然而, 种植绿豆使正常供氮的核桃降低了导水率, 加剧了导水损失率。同时, 绿豆受到间作的竞争压力, 产量和生物量有所下降。由研究结果可知, 在贫瘠的土壤上, 固氮植物绿豆改善了间作的核桃的氮营养, 有益于核桃木质部发育、水分平衡以及光合代谢。但是在氮充足的土壤中, 种植绿豆反而降低了核桃的水分供应, 影响其气体交换和生长。  相似文献   

10.
为了揭示气候变暖背景下高寒灌丛土壤氮转化过程, 该文研究了青藏高原东缘窄叶鲜卑花(Sibiraea angustata)灌丛生长季节土壤硝态氮和铵态氮含量对增温和去除植物的响应。结果表明: 窄叶鲜卑花灌丛土壤硝态氮和铵态氮含量具有明显的季节动态。整个生长季节, 土壤硝态氮含量呈先增加后降低的趋势, 而铵态氮含量均表现为一直增加的趋势。在生长季初期和中期, 各处理土壤硝态氮含量均显著高于铵态氮含量, 而在生长季末期土壤硝态氮含量均显著低于铵态氮含量, 说明该区域土壤氮转化过程在生长季初期和中期以硝化作用为主, 而在生长季末期以氨化作用为主。不同时期土壤硝态氮和铵态氮含量对增温和去除植物的响应不同: 增温对硝态氮的影响主要发生在生长季中期和末期, 且因植物处理的不同而有显著差异, 增温仅在生长季中期使不去除植物样方铵态氮含量显著升高。去除植物对土壤硝态氮的影响仅表现在对照样方(不增温), 去除植物显著提高了生长季初期和中期土壤硝态氮含量, 显著降低了生长季末期土壤硝态氮含量; 同时去除植物显著降低了增温样方生长季中期土壤铵态氮含量。灌丛植被在生长季初期和中期可能主要吸收土壤硝态氮, 其吸收过程不受土壤增温的影响。  相似文献   

11.
Knowledge of the interactive effects of water and nitrogen (N) on physio-chemical traits of maize (Zea mays L.) helps to optimize water and N management and improve productivity. A split-plot experiment was conducted with three soil water conditions (severe drought, moderate drought, and fully water supply referring to 45%–55%, 65%–75%, and 85%–95% field capacity, respectively) and four N application rates (N0, N150, N240, and N330 referring to 0, 150, 240, 330 kg N ha–1 respectively) under drip fertigation in 2014 and 2015 in the Huang-Huai-Hai Plain of China. The results indicated that drought stress inhibited physiological activity of plants (leaf relative water content, root bleeding sap, and net photosynthetic rate), resulting in low dry matter accumulation after silking, yield, and N uptake, whereas increased WUE and NUE. N application rates over than 150 kg ha–1 aggravated the inhibition of physiological activity under severe drought condition, while it was offset under moderate drought condition. High N application rates (N330) still revealed negative effects under moderate drought condition, as it did not consistently enhance plant physiological activity and significantly reduced N uptake as compared to the N240 treatment. With fully water supply, increasing N application rates synergistically enhanced physiological activity, promoted dry matter accumulation after silking, and increased yield, WUE, and N uptake. Although the N240 treatment reduced yield by 5.4% in average, it saved 27.3% N under full water supply condition as compared with N330 treatment. The results indicated that N regulated growth of maize in aspects of physiological traits, dry matter accumulation, and yield as well as water and N use was depended on soil water status. The appropriate N application rates for maize production was 150 kg ha–1 under moderate drought or 240 kg ha–1 under fully water supply under drip fertigation, and high N supply (>150 kg ha–1) should be avoided under severe drought condition.  相似文献   

12.
Water and nitrogen supply are the two primary factors limiting productivity of wheat (Triticum aestivum L.). In our study, two winter wheat varieties, Xinong 979 and large-spike wheat, were evaluated for their physiological responses to different levels of nitrogen and water status during their seedling stage grown in a phytotron. Our results indicated that drought stress greatly reduced the net photosynthetic rate (Pn), transpiration rate (E), and stomatal conductance (Gs), but with a greater increase in instantaneous water use efficiency (WUE). At the meantime, the nitrogen (N) supply improved photosynthetic efficiency under water deficit. Parameters inferred from chlorophyll a measurements, i.e., photochemical quenching coefficient (qP), the maximum photochemical efficiency (Fv/Fm), the quantum yield of photosystemII(ΦPSII), and the apparent photosynthetic electron transport rate (ETR) decreased under water stress at all nitrogen levels and declined in N-deficient plants. The root–shoot ratio (R/S) increased slightly with water stress at a low N level; the smallest root–shoot ratio was found at a high N level and moderate drought stress treatment. These results suggest that an appropriate nitrogen supply may be necessary to enhance drought resistance in wheat by improving photosynthetic efficiency and relieving photoinhibition under drought stress. However, an excessive N supply had no effect on drought resistance, which even showed an adverse effect on plant growth. Comparing the two cultivars, Xinong 979 has a stronger drought resistance compared with large-spike wheat under N deficiency.  相似文献   

13.
水分和磷素对木荷不同种源苗木生长和磷效率的影响   总被引:6,自引:0,他引:6  
林磊  周志春 《应用生态学报》2009,20(11):2617-2623
以用木荷中心产区的浙江龙泉、福建建瓯、尤溪和江西吉安4个代表性优良种源为试验材料,以广西产红荷为对照,设置不同水分处理和磷素水平的盆栽试验,研究水分和磷素对木荷种源苗木生长和生理指标的影响.结果表明:在不同的水分和磷素处理下,4个参试种源的苗木生长、根系形态参数和磷素吸收效率等均存在显著的遗传差异,福建建瓯和浙江龙泉种源苗木生长量大、根系发达、磷素吸收效率高,生长表现明显优于福建尤溪和江西吉安种源,而广西产红荷则保持其原产地速生、抗旱、耐瘠的特性.土壤水分和磷素对木荷种源苗木生长影响显著.适宜水分条件下,种源苗木径生长、干物质量、根系参数和磷素吸收效率较干旱胁迫条件下高18.5%~105.6%,高磷水平下种源苗木上述性状较低磷处理高37.5%~286.2%.但在干旱和低磷胁迫下,木荷将光合产物更多地分配至地下根系,磷素利用效率也较高,这可能是木荷适应干旱和低磷胁迫的重要生理机制.相对于显著的种源、水分和磷素主效应,其间的交互作用则可以忽略.  相似文献   

14.
Abies fabri (Mast.) Craib. (A. fabri) is an endemic and dominant species in typical subalpine dark coniferous forests distributed in mountainous regions of Western Sichuan, China. We investigated the ecophysiological responses of A. fabri seedlings to short‐term experimental drought, nitrogen supply and their interaction. Drought stress was created by excluding natural precipitation with automatically controlled plastic roof that covered the seedlings. Nitrogen fertilization was applied weekly by spraying over seedlings ammonium nitrate solution (50 kg N ha?1 year?1) during the growing season of 2009. The results showed that drought stress decreased leaf relative water content (RWC), whereas it caused marked increases in root mass ratio (RMR) and root/shoot mass ratio by 6.19 and 10.39%, respectively, as compared with the control. Drought stress increased malondialdehyde (MDA) content, electrolyte leakage, proline content, soluble sugars content and the activities of antioxidant enzymes, whereas nitrogen supply decreased MDA content, but enhanced activities of some antioxidant enzymes [especially peroxidase (POD)]. In the drought stressed plots, nitrogen supply increased RWC and decreased the content of MDA. The combination of drought stress and nitrogen supply also decreased the activities of antioxidant enzymes. These results indicated that the negative effects of drought stress on A. fabri seedlings might be alleviated by nitrogen supply.  相似文献   

15.
The plasticity response of Quercus variabilis and Quercus mongolica seedlings to combined nitrogen (N) deposition and drought stress was evaluated, and their performance in natural niche overlaps was predicted. Seedlings in a greenhouse were exposed to four N deposition levels (0, 4, 8, and 20 g N m?2 year?1) and two water levels (80 and 50 % field-water capacity). Plant traits associated with growth, biomass production, leaf physiology, and morphology were determined. Results showed that drought stress inhibited seedling performance, altered leaf morphology, and decreased fluorescence parameters in both species. By contrast increased N supply had beneficial effects on the nutritional status and activity of the PSII complex. The two species showed similar responses to drought stress. Contrary to the effects in Q. mongolica, N deposition promoted leaf N concentration, PSII activity, leaf chlorophyll contents, and final growth of Q. variabilis under well-watered conditions. Thus, Q. variabilis was more sensitive to N deposition than Q. mongolica. However, excessive N supply (20 g N m?2 year?1) did not exert any positive effects on the two species. Among the observed plasticity of the plant traits, plant growth was the most plastic, and leaf morphology was the least plastic. Therefore, drought stress played a primary role at the whole-plant level, but N supply significantly alleviated the adverse effects of drought stress on plant physiology. A critical N deposition load around 20 g N m?2 year?1 may exist for oak seedlings, which may more adversely affect Q. variabilis than Q. mongolica.  相似文献   

16.
A greenhouse experiment was conducted in order to understand the adaptation responses to different water and N conditions, and further explore if additional N supply could improve the water-use efficiency (WUE) and adaptability of Sophora davidii seedlings under dry conditions. Two-month-old seedlings were subjected to a completely random design with three water (80, 40 and 20% water field capacity (FC)) and three N supply (N0: 0, Nl: 92 and Nh:184 mg N kg−1 soil) regimes. Drought stress dramatically decreased seedlings height, basal diameter, leaf number, leaf area, root length, and biomass production. An increase in below-ground biomass was observed indicating a higher root/shoot ratio (R/S) under drought stress conditions, and drought further decreased relative water content (RWC) and WUE. On the other hand, S. davidii seedlings exhibited strong responses to N supply, but the responses were inconsistent with the various N supply levels. Low N supply (Nl) increased seedlings height, basal diameter, leaf number, leaf area, and biomass production, but decreased root length. In contrast, high N supply (Nh) decreased or had little effect on these growth characteristics. N supply increased leaf percentages, but decreased fine root percentages. In addition, Nl rather than the other two N treatments increased leaf area ratio (LAR), leaf/fine root mass ratio (L/FR), R/S and RWC under severe drought stress (20% FC), even though these parameters could increase with the Nh treatment under well-watered condition (80% FC). Moreover, Nl also increased WUE under three water conditions, but Nh had little effect on WUE under drought stress conditions (40% FC and 20% FC). The results suggested that water and N co-limited the growth of S. davidii seedlings, and the seedlings exhibited great positive responses to Nl in this study. Appropriate or low N supply, therefore, would be recommended to stimulate growth, enhance WUE, alleviate drought stress, and consequently contribute to S. davidii seedling establishment under dry condition, but excess N supply should be avoided.  相似文献   

17.
增强UV-B辐射及氮水平对长春花生长和生理代谢的影响   总被引:2,自引:0,他引:2  
地表UV-B 辐射增强和氮沉降增加目前已成为影响植物生长的重要生态因子。本文以药用植物长春花(Catharanthus roseus)为材料,研究UV-B辐射和氮供应增加对长春花生长、生理及长春碱含量的协同效应。研究结果表明,紫外辐射增加对长春花生长和生物量积累具有显著的抑制作用。同时外源增加氮供应能明显缓解紫外辐射引起的生长抑制效应。紫外辐射引起的叶片膜脂过氧化胁迫导致了长春花叶片丙二醛含量显著增加,但同时增加氮供应能显著降低丙二醛水平。增强UV-B辐射处理显著促进长春花叶片UV-B吸收化合物合成积累,并随氮供应增加其含量进一步增加;氮供应增加和UV-B辐射增强共同作用时,长春花叶片中长春碱的含量较其单独作用时均显著增加。上述结果表明,增加氮供应不但可以缓解紫外辐射引起的生长抑制和生理伤害,同时对长春花叶片中生物碱的合成积累具有协同促进效应,其原因可能是增强UV-B辐射能促使长春花利用更多的氮源合成积累长春碱。  相似文献   

18.
干旱胁迫对不同施氮水平麻疯树幼苗光合特性及生长的影响   总被引:12,自引:2,他引:10  
采用盆栽控水的方法,研究了干旱胁迫(连续干旱0d,5d,10d,…,45d)对不同施氮水平(对照0kgN.hm-2、低氮96kgN·hm-2、中氮288kgN·hm-2、高氮480kgN·hm-2)麻疯树幼苗光合特性及其生长的影响.结果表明:随干旱胁迫强度的增加,各施氮水平麻疯树幼苗叶片相对含水量、苗高生长量、地径生长量、叶面积、净光合速率、蒸腾速率和气孔导度均降低,且各水分处理间差异极显著(P0.01);随干旱时间的延长,叶绿素含量和水分利用效率表现出先升高后降低的趋势,而胞间CO2浓度呈先降低后升高的趋势.正常供水时,施氮处理均不同程度提高了麻疯树幼苗的光合能力,促进了麻疯树幼苗的生长,且施氮量越高效果越好;干旱条件下,氮素营养对植株光合能力和生长的影响与干旱程度和施氮水平有关.轻度干旱时,提高施氮水平对植株光合能力和生长具有明显的促进作用;中度干旱时,中氮的促进作用明显高于其他施氮水平;严重干旱时,低氮的促进效果最好,高氮的促进作用减弱并逐渐转向抑制.  相似文献   

19.
Ru  Chen  Wang  Kaifei  Hu  Xiaotao  Chen  Dianyu  Wang  Wene  Yang  Haosheng 《Journal of Plant Growth Regulation》2023,42(3):1681-1703

Longer and more intense heat and drought stresses will occur in terrestrial ecosystems in the future. Although the effects of individual heat or drought stress on wheat plants have been largely explored, the regulatory effect of nitrogen (N) on winter wheat under heat, drought, and combined stresses and whether N alleviates damage to wheat plants caused by these stresses remain unclear. Therefore, the objective of the present study was to investigate the growth, photosynthesis, antioxidant enzyme and N metabolism-related enzyme activity, cell membrane system, osmoregulatory substance, and yield responses to heat, drought, and combined stresses in wheat plants and to clarify the regulatory effects of N on the growth, physiological and biochemical characteristics, and yield of wheat plants under stress conditions. The results showed that wheat plant exposure to individual heat or drought stress reduced photosynthesis and N metabolism-related enzyme activities and increased antioxidant enzyme activities, electrolyte leakage (EL), and the contents of MDA (malondialdehyde) and O2? (superoxide anion). The above parameters showed typical superposition effects under combined stress. Under individual heat or drought stress, wheat plants treated with a medium (N2) or high (N3) N supply maintained higher photosynthesis and N metabolism-related enzyme activities than did those treated with a low N supply (N1). Enhanced heat and drought tolerance in wheat plants under an appropriate N supply may be attributed to improved antioxidant capacity, as exemplified by increased activities of superoxide dismutase (SOD), peroxidase (POD), catalase (CAT), glutathione reductase (GR) and ascorbate peroxidase (APX), and to enhanced osmoregulation capacity, as signified by increased contents of soluble sugar (SS), soluble protein (SP), and proline (Pro). Variable importance in projection (VIP) analysis indicated that efficient SOD, POD, CAT, and GR activities and an increased Pro content had superior potential to alleviate heat, drought, and combined stress stresses in wheat plants, and the improvements in growth and grain yield in wheat plants further confirmed the oxidative stress alleviation and stress tolerance enhancement. However, positive effects of N on wheat growth and grain yield under combined stress were usually observed under a low N supply. These results may facilitate future research on the effects of N fertilizer on the stress resistance of winter wheat.

Graphical Abstract
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20.
Increases in nitrogen (N) deposition and variation in precipitation have been occurring in temperate deserts; however, little information is available regarding plant phenological responses to environmental cues and their relationships with plant growth pattern in desert ecosystems. In this study, plant phenology and growth of six annuals in response to N and water addition were monitored throughout two consecutive growing seasons in 2011 and 2012 in a temperate desert in northwestern China. The effects of N and water addition on reproductive phenology differed among plant species. N and water addition consistently advanced the flowering onset time and fruiting time of four spring ephemerals; however, their effects on two spring‐summer annuals were inconsistent, with advances being noted in one species and delays in another. N and water addition alone increased plant height, relative growth rate, leaf number, flower number, and individual biomass, while their combinative effects on plant growth and reproductive phenology were dependent on species. Multiple regression analysis showed that flowering onset time was negatively correlated with relative growth rate of two species, and negatively correlated with maximum plant height of the other four species. Our study demonstrates that phenological responses to increasing precipitation and N deposition varied in annuals with different life histories, whereby the effects of climate change on plant growth rate were related to reproductive phenology. Desert annuals that were able to accelerate growth rate under increasing soil resource availability tended to advance their flowering onset time to escape drought later in the growing season. This study promotes our understanding of the responses of temperate desert annuals to increasing precipitation and N deposition in this desert.  相似文献   

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