Electron Transport Through Photosystem II Is Not Limited By A Wide Range of Water Deficit Conditions In Field‐Grown Gossypium hirsutum     

J. L. Snider  G. D. Collins  J. Whitaker  C. D. Perry  D. R. Chastain 《Journal of Agronomy and Crop Science》2014,200(1):77-82

Despite exhaustive literature describing drought stress effects on photosynthesis in Gossypium hirsutum, the sensitivity of photosynthetic electron flow to water deficit is heavily debated. To address this, G. hirsutum plants were grown at a field site near Camilla, GA under contrasting irrigation regimes, and pre‐dawn water potential (Ψ_PD), stomatal conductance (g_s), net photosynthesis (P_N), actual quantum yield of photosystem II (Φ_PSII) and electron transport rate (ETR) were measured at multiple times during the 2012 growing season. Ψ_PD values ranged from ?0.3 to ?1.1 MPa. Stomatal conductance exhibited a strong (r² = 0.697), sigmoidal response to Ψ_PD, where g_s was ≤0.1 mol m^?2 s^?1 at Ψ_PD values ≤ ?0.86 MPa. Neither Φ_PSII (r² = 0.015) nor ETR (r² = 0.010) was affected by Ψ_PD, despite exceptionally low Ψ_PD values (?1.1 MPa) causing a 71.7 % decline in P_N relative to values predicted for well‐watered G. hirsutum leaves at Ψ_PD = ?0.3 MPa. Further, P_N was strongly influenced by g_s, whereas ETR and Φ_PSII were not. We conclude that photosynthetic electron flow through photosystem II is insensitive to water deficit in field‐grown G. hirsutum.  相似文献   

花铃期不同钾效率基因型棉花对干旱和低钾胁迫的响应差异   总被引：1，自引：2，他引：1  

汪霄  陈防 《棉花学报》2015,27(1):16-21

以钾高效和钾低效基因型棉花(HEG和LEG)为试验材料,研究了最优水肥(W1K1),干旱胁迫(W2K1),低钾胁迫(W1K2),干旱、低钾胁迫(W2K2)对其光合作用及水分、钾素利用率的影响。结果表明:干旱显著降低花铃期2种基因型棉花叶片净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr),导致蕾铃脱落,钾素利用率(KUE)降低,造成棉花减产。施钾促进叶片Pn及水分利用率(WUE)的提高,但基因型间存在差异,LEG叶片WUE与施钾量成正比,HEG相反。低钾胁迫下HEG的Pn、Tr下降,但Pn下降幅度小于Tr,WUE增大。较高的WUE有利于提高棉花Pn,降低蕾铃脱落率,促进钾素的高效吸收和运输。  相似文献   

干旱胁迫对玉米品种苗期叶片光合特性的影响   总被引：2，自引：0，他引：2  

张兴华  高杰  杜伟莉  张仁和  薛吉全 《作物学报》2015,41(1):154-159

维持较高的光合作用对于作物适应干旱逆境意义重大,光合电子传递和气孔行为是作物光合机构的重要组成部分,而玉米上有关它们之间的组合响应干旱胁迫研究报道较少。本文将2个主推玉米品种陕单609和郑单958生长在自然光和4个干旱胁迫下的干旱棚内,对其叶片的光系统II(PSII)的电子传递功能和气孔导度进行了研究。结果显示,中度和重度干旱胁迫下2个品种叶片净光合速率(Pn)和气孔导度(Gs)显著下降,而伴随着胞间CO2浓度(Ci)上升,显示光合速率下降是非气孔因素所致。JIP-test分析发现干旱胁迫下2个品种叶绿素荧光诱导动力曲线(OJIP)中出现了K-band,说明光系统II(PSII)放氧复合体(OEC)受到抑制和PSII供体侧与受体侧电子传递不平衡;同时干旱胁迫下反映从PSII供体侧到PSI末端受体电子流的荧光参数显著改变,损伤了光系统II和I之间光合电子传递链,限制CO2同化。品种间光合特性对干旱胁迫的响应存在差异,重度干旱对郑单958叶片光合机构的影响比对品种陕单609大。以上结果表明,中度和重度干旱下玉米品种叶片Pn下降归属于光化学活性的衰退;陕单609光合机构的耐旱性强于郑单958。  相似文献   

水分胁迫下葡萄糖对小麦幼苗光合作用和相关生理特性的影响   总被引：11，自引：0，他引：11  

胡梦芸  李辉  张颖君  刘茜 《作物学报》2009,35(4):724-732

以15%聚乙二醇(PEG-6000)模拟水分胁迫,以不同浓度外源葡萄糖(Glc)处理小麦幼苗,探讨外源Glc对水分胁迫下小麦幼苗生长发育和光合特性的影响。结果表明,水分胁迫显著降低了小麦叶片水势和光合作用,抑制植株的生长,而水分胁迫下外源Glc处理能明显增加叶片水势和光合色素含量,并使水分胁迫和水分胁迫后复水处理条件下,小麦幼苗叶片的净光合速率(P_n)、气孔导度(G_s)胞间CO₂浓度(C_i)和叶片水分利用效率(WUE)显著升高,而使蒸腾速率(T_r)下降。同时,外源Glc处理显著提高了水分胁迫下叶片中可溶性糖和脯氨酸的积累,促进不定根和侧根的生长,植株干重比单一干旱处理提高14.32%~40.39%。由此表明,水分胁迫下外源Glc通过促进小麦根系生长和提高叶组织的渗透调节能力,改善叶片的水分状况,提高了叶片的光合功能,促进小麦幼苗的生长,降低了水分胁迫对小麦幼苗生长的抑制作用。  相似文献   

Leaf Gas Exchange Characteristics of Jatropha as Affected by Nitrogen Supply,Leaf Age and Atmospheric Vapour Pressure Deficit     

A. M. Rajaona  H. Brueck  F. Asch 《Journal of Agronomy and Crop Science》2013,199(2):144-153

Facing a steadily increasing world energy demand, jatropha, among other energy crops, has been reported to potentially contribute to biofuel production. A basic characterisation of plant responses to abiotic environmental factors is important for assessing the model‐assisted potential of this plant in view of the many agro‐ecological zones in which jatropha is presently cultivated. Two pot experiments and two field studies were used to record gas exchange parameters in response to light, nitrogen supply, atmospheric vapour pressure deficit (VPD), leaf age and time of measurements. Variation of N supply from 0 to 16 mm resulted in lower rates of photosynthesis (A) and stomatal conductance (g_s) of treatment 0 mm N compared with other N levels, whereas the light compensation point (I_C), quantum yield (QY) and dark respiration rates (R_d) were similar in all treatments. In the field, diurnal effects were evident with higher light‐saturated photosynthetic rate (A_max) and QY and lower I_C and R_d in the morning than in the afternoon. Considering leaf age effects, fully expanded leaves had a lower A_max compared with expanding leaves and this variation in leaf gas exchange was not related to changes in the chlorophyll index value (SPAD) which steadily increased with leaf age. QY of field and greenhouse plants varied from 0.023 to 0.037 and was substantially lower than in C3 plants. A was positively correlated with g_s in a hyperbolic function. A varied from 0.64 to 21.13 μmol m^?2 s^?1 and g_s varied from 12 to 469 mmol m^?2 s^?1. With increasing VPD, g_s decreased, but this response differed between the field experiments and the two pot experiments which contrasted each other distinctively. Applying the inverse logistic function of Webb (Ecological Modeling, 56 (1991), 81), the maximal stomatal conductance of jatropha was in the range of 382 mmol m^?2 s^?1 and g_s is predicted to be close to zero at 5 kPa. These data altogether indicate that light absorption characteristics of single leaves and carbohydrate status parameters should be investigated further to explain the low QY and the pronounced diurnal variation.  相似文献   

基于红外热图像的棉花冠层水分胁迫指数与光合特性的关系   总被引：3，自引：2，他引：1  

程麒  黄春燕  王登伟  肖莉娟 《棉花学报》2012,24(4):341-347

 利用Fluke红外热像仪获取两个棉花品种4水平水分处理5个关键生育时期冠层的红外热图像;并在红外热图像测试的样本区内,分别测试棉花叶片净光合速率（P_n）、气孔导度（G_s）和叶面积指数（LAI）。应用图像处理技术,提取棉花冠层受光叶片温度,并将人工参考湿表面（WARS）的温度运用到Jones定义的作物水分胁迫指数CWSI的经验公式中,计算CWSI;分析棉花冠层CWSI和光合参数的生育期变化,表明棉花冠层CWSI升高,P_n、G_s和LAI相应降低;不同水分处理条件下,生育期CWSI平均值分别与Pn、Gs和LAI平均值呈极显著的负相关关系（r_CWSI-Pn=-0.9182^**,r_CWSI-Gs=-0.8819^**,r_CWSI-LAI=-0.8661^**,n=16）,CWSI与Pn、Gs和LAI可同步反映棉花冠层水分胁迫的状况。研究结果表明,先进的红外热图像技术,提供了一种获得作物冠层表面温度的高分辨率空间信息的手段,能够消除背景干扰因素的影响,更精确的计算棉花冠层CWSI,可快速、有效、准确地监测棉花冠层的水分状况。  相似文献   

Effects of soil drought during the vegetative phase of seedling growth on the uptake of ¹⁴co₂ and the accumulation and translocation of ¹⁴C in cultivars of field bean (vicia faba L. Var. Minor) and field pea (pisum sativum L.) Of different drought tolerance     

S. Grzesiak  M. Grzesiak  T. Hura 《Journal of Agronomy and Crop Science》1999,183(3):183-192

During the vegetative phase of growth of two field bean and two field pea cultivars of different drought tolerance, the effect of short and prolonged soil drought on gas exchange (CO₂ i H₂O), leaf water potential (ψ), stomatal diffusive resistance (r_S), uptake of CO₂, and the distribution and accumulation of ¹⁴C was studied. Differences in the response to drought conditions between resistant and susceptible cultivars were marked. After 5 days of soil drought, the decrease in net photosynthesis and transpiration rate and the increase of stomatal resistance were greater in the drought-resistant cultivars than in the drought-susceptible ones. In contrast, after 10 days of drought the decrease of leaf P_N (CO₂ assimilation rate), E (rate of transpiration) and ψ (water potential) was greater in the susceptible cultivars than in the resistant ones. Significant differences between the resistant and the susceptible cultivars were also observed in the assimilation and translocation of ¹⁴C by the green parts of the plant. The amount of carbon accumulation in roots in drought-susceptible cultivars increased less than in the drought-resistant cultivars. For treatments in which optimal soil watering was resumed after 5 or 10 days of drought there was no evidence of effects of drought on the majority of measurements, but the drought-resistant cultivars showed a general tendency for a more rapid recovery. Our results confirm the existence of genetic variability in drought tolerance among the cultivars of field bean and field pea. The recorded differences in the response to drought of experimental cultivars may indicate that, under water deficit in the soil and in plant tissues, they may use different strategies to avoid the damaging effects of temporary limitation of water supply; for example, the drought-resistant cultivars may more effectively conserve tissue hydration through effective stomatal closure. Also, the observed changes in carbon assimilation and accumulation might be the reason for their different responses to drought. The change in radioactivity losses in the control and stressed plants may result from the differences in demand for energy to maintain cell structure and function. Similarly, the less intense carbon accumulation in the roots of the sensitive cultivars could be caused by more harmful effects of drought on root growth.  相似文献   

Impact of water supply on photosynthesis,water use and carbon isotope discrimination of sugar beet genotypes     

《European Journal of Agronomy》2006,24(3):218-225

Improvements in drought tolerance of crop plants require research focused on physiological processes. In 2002 and 2003 pot experiments with sugar beet were conducted in a greenhouse. Two (2002) or three (2003) different genotypes were subjected to three watering regimes (100, 50 and 20% of water holding capacity). Gas exchange, chlorophyll fluorescence and water-use efficiency (WUE) as parameters of possible relevance for drought stress tolerance in sugar beet were investigated. It was studied whether ¹³C discrimination (Δ) is suitable as an indirect measure for WUE of sugar beet.DM yield, photosynthesis rate, transpiration rate and stomatal conductance decreased with increasing severity of drought stress. In contrast, internal CO₂ partial pressure remained relatively stable and effective quantum yield of photosynthesis was reduced only under severe drought, which points at non-stomatal inhibition of photosynthesis. Different sugar beet genotypes showed significant differences in DM yield, but interactions between genotype and water supply did not occur, indicating that genotypic differences in drought tolerance did not exist. In accordance with that, drought-sensitivity of gas exchange and chlorophyll fluorescence was the same in different genotypes. Δ was higher in the leaves than in the taproot. Reductions in Δ in drought-stressed plants corresponded to about 24% higher WUE. Differentiating between plant organs, only leaf Δ was negatively correlated with WUE_L whereas taproot Δ and WUE_T were unrelated. Δ was therefore proven to be a sensitive indicator for water availability during the growing period. However, similar as other parameters relevant for drought stress tolerance it requires investigations in broader genetic material of sugar beet to detect genotypic differences.  相似文献   

Effects of Mild and Severe Drought Stress on Photosynthetic Efficiency in Tolerant and Susceptible Barley (Hordeum vulgare L.) Genotypes     

A. A. Ghotbi‐Ravandi  M. Shahbazi  M. Shariati  P. Mulo 《Journal of Agronomy and Crop Science》2014,200(6):403-415

Drought stress is one of the most important abiotic factors which adversely affect growth, metabolism and yield of crops worldwide. The objective of this study was to determine the effects of drought stress on photosynthesis in barley and examine the differential responses of photosynthetic apparatus in relatively tolerant (Yousof) and susceptible (Morocco) barley genotypes. Plants were subjected to different levels of soil water availability including control, mild and severe drought stress. In both genotypes, drought stress led to decrease in chlorophylls, β‐carotene and stomatal conductance accompanied by decrease in CO₂ assimilation rate. Significant increase in α‐tochoperol content was only observed in Yousof cultivar under drought stress. Initial slope and plateau phase of CO₂ response curve of drought‐stressed plants as well as polyphasic chlorophyll a fluorescence transient curve (OJIP test) and fast fluorescence induction kinetics were influenced by drought stress. These parameters were more affected in Morocco cultivar by drought stress compare with Yousof. Drought stress also resulted in reduction of D1 protein content in both genotypes and accelerated photoinhibition process. Based on our results, stomatal conductance is the main factor limiting photosynthesis in Yousof genotype under mild drought stress. However, in Morocco, in addition to stomatal limitation, damage to photosystem II (PSII), reduced electron transport and carboxylation efficiencies were important parts of limitation in photosynthesis. Severe drought stress resulted in structural and biochemical impairment of light‐dependent reactions as well as carboxylation process of photosynthesis in both genotypes. Alpha‐tocopherol showed an important protective role against drought stress in Yousof cultivar as a relatively drought‐tolerant cultivar.  相似文献   

四川盆地小麦籽粒的灌浆特性   总被引：8，自引：0，他引：8  

吴晓丽  汤永禄  李朝苏  吴春  黄钢  马蓉 《作物学报》2014,40(2):337-345

四川盆地小麦灌浆期长,粒重优势明显,但易受环境影响。2010-2011和2011-2012年连续2个小麦生长季,选用10个品种在3个地点进行灌浆特性研究,以揭示该区域小麦灌浆参数的基因型差异及环境效应。2年平均粒重48.25 g,灌浆分为渐增期(T₁)、快增期(T₂)和缓增期(T₃) 3个阶段,各阶段持续时间为T₃ (16.30 d)>T₁ (13.41 d)>T₂ (12.98 d),其灌浆速率分别为0.618、0.772和2.205 mg grain^-1 d^-1。3个阶段的干物质积累贡献率依次为21.21% (T₁)、58.27% (T₂)和20.53% (T₃),可见快增期结束时可以积累80%左右的干物质量。基因型、地点和年份对除粒重以外的所有灌浆参数均有显著影响,以年份的效应最大。同一年中,粒重、最大灌浆速率、平均灌浆速率、缓增期灌浆速率、渐增期灌浆速率和快增期灌浆速率主要受基因型的影响,而其他参数则以地点效应大于基因型效应。粒重与平均灌浆速率、最大灌浆速率、快增期灌浆速率和缓增期灌浆速率呈极显著正相关。10个参试品种中,川麦42、川育23和川麦56具开花期早、灌浆速率高、灌浆时间长、粒重大等特征。  相似文献   

Effects of Free‐Air Carbon Dioxide Enrichment on Sap Flow and Canopy Microclimate of Maize Grown under Different Water Supply          下载免费PDF全文

R. Manderscheid  M. Erbs  S. Burkart  K.‐P. Wittich  F.‐J. Löpmeier  H.‐J. Weigel 《Journal of Agronomy and Crop Science》2016,202(4):255-268

The rise of atmospheric CO₂ concentration ([CO₂]) affects stomatal conductance and thus transpiration and leaf temperature. We evaluated the effect of elevated [CO₂] levels under different water supply on daily sap flow and canopy microclimate (air temperature (Tc) and vapour pressure deficit (VPD)) of maize. The crop was cultivated in circular field plots under ambient (AMB, 378 μmol mol^?1) and elevated [CO₂] (FACE, 550 μmol mol^?1) using free‐air CO₂ enrichment with sufficient water in 2007, while in 2008 a DRY semicircle received only half as much water as compared to the WET semicircle from mid of July. In 2007, sap flow was measured in WET simultaneously under AMB and FACE conditions and was significantly decreased by elevated [CO₂]. In 2008, sap flow was measured in all four treatments but not simultaneously. Therefore, data were correlated with potential evaporation and the slopes were used to determine treatment effects. Drought reduced whole‐plant transpiration by 50 % and 37 % as compared to WET conditions under AMB and FACE, respectively. Moreover, CO₂ enrichment did not affect sap flow under drought but decreased it under WET by 20 % averaged over both years. The saving of water in the period before the drought treatment resulted in a displacement of dry soil conditions under FACE as compared to AMB. Under WET, CO₂ enrichment always increased Tc and VPD during the day. Under DRY, FACE plots were warmer and drier most of the time in August, but cooler and damper short after the start of drought in July and from the end of August onwards. Thus, the CO₂ effect on transpiration under drought was variable and detectable rather easy by measuring canopy microclimate.  相似文献   

爆、甜、糯玉米生育后期叶片光合特性的比较   总被引：4，自引：1，他引：3  

左振朋  孙庆泉  董鲁浩  王婧  马登超  董树亭 《作物学报》2009,35(10):1930-1935

以爆裂玉米、甜玉米和糯玉米3种类型特用玉米为试材,系统比较研究了生育后期叶片光合特性在类型间和叶位间的差异。结果表明,玉米叶片的光合特性存在类型间差异,糯玉米叶片的光合特性明显优于爆裂玉米和甜玉米,叶片的光合速率(P_n)、叶绿素含量(Chl)、蒸腾速率(T_r)和气孔导度(G_s)均表现为糯玉米＞甜玉米＞爆裂玉米;3类玉米的光合特性存在叶位间差异,中部叶片光合速率表现为糯玉米>甜玉米和爆裂玉米,下部叶片光合速率的类型间差异不显著,上、中部叶片叶绿素含量表现为甜玉米＞爆裂玉米＞糯玉米;相关分析表明,叶绿素含量、蒸腾速率、气孔导度与光合速率显著或极显著正相关。总之,各类型玉米的上部和中部叶片光合特性都优于下部叶片,其中糯玉米上部和中部叶片的光合速率、光合速率高值持续期、叶绿素含量和蒸腾速率都大于甜玉米和爆裂玉米,甜玉米和爆裂玉米下部叶片光合性能的衰减在时间上早于糯玉米。  相似文献   

Thermal phenotyping of stomatal sensitivity in spring barley          下载免费PDF全文

P. Rischbeck  P. Cardellach  B. Mistele  U. Schmidhalter 《Journal of Agronomy and Crop Science》2017,203(6):483-493

Thermometry and thermography are alternative methods used for measuring stomatal conductivity via transpirative cooling. However, the influence of mixed soil–plant information contained in thermal images compared to thermometric spot measurements on the measurement quality and relationships to agronomic traits remains unclear. To evaluate their respective influence, canopy temperature was measured simultaneously by two infrared thermometers (thermometry), which were oriented oblique to the plant canopy and mounted on a tractor, and a hand‐held, nadir oriented thermal camera (thermography) in irrigated and drought‐stressed spring barley cultivar trials in 2011. Canopy temperatures were separated from soil temperatures and extracted from the thermal images by matching thermal and RGB images. Thermometric measurements conducted at the beginning of shooting during a stable period of high radiation were more closely related to total plant biomass and straw yield at harvest than thermography under both irrigated and drought‐stressed conditions. Taking into account the results of this evaluation, thermometry was used for assessing the agronomic importance of stomatal sensitivity, the earliness of stomatal closure, of spring barley cultivars subjected to different water supply in 2013. In this year, 16 spring barley cultivars were grown under mild drought stress and rainfed conditions. A stomatal sensitivity index was derived relating canopy temperatures of the cultivars grown under rainfed and drought‐stressed conditions to each other. Under rainfed conditions, stomatal sensitivity was negatively related to grain protein yield with a coefficient of determination of R² = .43. Under increasing terminal drought stress, positive regression slopes of stomatal sensitivity to grain yield, biomass yield and culms/m² were observed with coefficients of determination amounting to R² = .22, .31 and .36, respectively. Stomatal sensitivity negatively impacts agricultural production under well‐watered conditions, but maintains productivity under conditions of terminal drought.  相似文献   

玉米叶片气孔特征及气体交换过程对气候变暖的响应   总被引：6，自引：0，他引：6  

郑云普  徐明  王建书  邱帅  王贺新 《作物学报》2015,41(4):601-612

气孔是植物叶片表面控制大气与植物间气体交换的孔状结构,对于生态系统碳、水循环过程的调节起着非常重要的作用。本文利用典型农田生态系统实验增温平台,研究了未来气候变暖对玉米叶片的气孔特征(包括气孔频度、气孔开口大小和形状以及气孔分布格局)和气体交换过程的影响。结果表明:(1)尽管增温并没有改变气孔密度(P0.05),但却由于表皮细胞数目的减少导致气孔指数显著增加12%(P0.05);(2)增温使气孔开口的长度显著减小18%(P0.01),宽度增加26%(P0.01),面积和周长分别增加31%(P0.01)和13%(P0.05);(3)实验增温还使单个气孔之间最近邻域的平均距离显著增加,表明气孔在玉米叶片上的分布变得更加均匀;(4)增温导致玉米叶片的净光合反应速率(Pn)、气孔导度(Gs)和蒸腾速率(Tr)分别增加52%(P0.05)、163%(P0.001)和81%(P0.05);与此相反,玉米叶片的暗呼吸速率(Rd)却显著降低24%(P0.01)。增温没有对细胞间CO2浓度(Ci)和水分利用效率(WUE)产生显著的影响(P0.05)。本研究结果表明,未来全球气候变暖可能通过改变玉米叶片的气孔频度、气孔开口大小和形状及其在叶片上的空间分布格局来改变其气体交换过程。  相似文献   

Physiological responses of six bread wheat and durum wheat genotypes to water stress     

C. Seropian  C. Planchon 《Euphytica》1984,33(3):757-767

Summary The responses of six wheat genotypes to water stress were analysed. Soil moisture (H), leaf water potential (_w), photosynthesis (P_N), stomatal resistance (r_s) and transpiration (T) were measured during a water stress. The genotypes investigated differed in their stress avoidance (_w-H relationship) and their stress tolerance (P_N-_w and r_s-_w relationships). The most important differences observed concern the mechanisms of tolerance at low leaf water potential: two varieties, Haurani 27 and Baalback, can then maintain a high photosynthetic activity. These observations are in agreement with the drought resistance characteristics already known for these genotypes. Possible applications to wheat breeding are considered  相似文献   

IR64背景耐旱导入系“PD29”分蘖期的抗逆生理特征   总被引：1，自引：0，他引：1  

赵秀琴  谢学文  孙勇  邓建利  朱苓华  黎志康 《作物学报》2008,34(7):1227-1232

以轮回亲本IR64(籼稻)及旱稻材料IRAT109为对照, 系统分析了“PD29”在灌溉(对照)与干旱(胁迫)条件下的相关生理性状特征。研究发现, 遭遇干旱胁迫后, “PD29”植株能够维持较高的相对含水量(RWC)且胁迫后复水2 h该株系的RWC迅速恢复到饱和状态, 表明其具有较强的御旱能力。干旱条件下, “PD29”的PS II最大光化学效率(F_v/F_m)、渗透势(Y)、脯氨酸含量(Pro)、活性氧清除系统活性(AOA)均显著高于IR64, 且相对于灌溉处理, 其RWC, F_v/F_m的降低幅度显著低于IR64, 净光合速率(P_n)、蒸腾速率(T_r)、气孔导度(G_s)的降幅, Pro及AOA的增幅均高于IR64。与IRAT109比较, 干旱逆境下“PD29”的Pro含量显著偏高且AOA平均增幅较高。因此认为, “PD29”的优良耐旱性表现与其在逆境下脯氨酸含量及活性氧清除系统活性的显著增强有关。另外, 干旱环境下的P_n、G_s及T_r的显著降低, 表明“PD29”的光合性能可塑性较强, 其光合性能在有利生长环境下能高效表达, 而在土壤水有限的环境下, 能够迅速降低以减少水分的进一步损失。  相似文献   

Drought stress‐induced changes in starch yield and physiological traits in potato          下载免费PDF全文

K. Rudack  S. Seddig  H. Sprenger  K. Köhl  R. Uptmoor  F. Ordon 《Journal of Agronomy and Crop Science》2017,203(6):494-505

Drought stress is an important limitation for potato (Solanum tuberosum L.) production as potato depends on appropriate water availability for high yields of good quality. Therefore, especially in the background of climate change, it is an important goal in potato breeding to improve drought stress tolerance. In this study, 34 European starch potato cultivars were evaluated for drought stress tolerance by growing under well‐watered and long‐term drought stress conditions in rainout shelters in 2 years’ pot trials. Besides yield, six physiological traits, that is free proline content, osmolality, total soluble sugar content, chlorophyll content (SPAD), cell membrane stability and crude protein content, were determined in leaves sampled during vegetative growth and during flowering to investigate their association with drought tolerance. ANOVA revealed significant treatment effects for all physiological traits and increased genotypic effects at flowering. The sensitivity of physiological traits to drought was significantly higher during flowering than during vegetative growth. Drought stress decreased starch yield significantly (p < .001), on average by 55%. Starch yield was significantly influenced by genotype and genotype × treatment interactions. Stress tolerance index (STI) calculated from starch yield ranged from 0.26 (sensitive) to 0.76 (tolerant) with significant genotype effects (p ≤ .001). STI correlated positively with cell membrane stability (r = .59) and crude protein content (r = .38) and negatively with osmolality (r = ?.57) and total soluble sugar content (r = ?.71). These contrary correlations suggest a dual adaptation strategy in potato under long‐term drought stress conditions including increased membrane stability combined with an increased osmolality due to an increased soluble sugar content.  相似文献   

Contrasting Water‐Use Efficiency (WUE) Responses of a Potato Mapping Population and Capability of Modified Ball‐Berry Model to Predict Stomatal Conductance and WUE Measured at Different Environmental Conditions          下载免费PDF全文

K. P. Kaminski  K. Kørup  K. Kristensen  K. L. Nielsen  F. Liu  H. B. Topbjerg  H. G. Kirk  M. N. Andersen 《Journal of Agronomy and Crop Science》2015,201(2):81-94

Potatoes (Solanum tuberosum L.) are drought‐sensitive and more efficient water use, while maintaining high yields is required. Here, water‐use efficiency (WUE) of a mapping population comprising 144 clones from a cross between 90‐HAF‐01 (Solanum tuberosum₁) and 90‐HAG‐15 (S. tuberosum₂ × S. sparsipilum) was measured on well‐watered plants under controlled‐environment conditions combining three levels of each of the factors: [CO₂], temperature, light, and relative humidity in growth chambers. The clones were grouped according to their photosynthetic WUE (pWUE) and whole‐plant WUE (wpWUE) during experiments in 2010. Two offspring groups according to pWUE and wpWUE were identified on the basis of experiments conducted in 2010, which in experiments in 2011 again showed significant differences in pWUE (46 %, P < 0.001) and wpWUE (34 %, P < 0.001). The high‐WUE group had a higher net photosynthesis rate (34 %) and dry matter accumulation (55 %, P < 0.001) rather than leaf‐level transpiration rate (?4 %, no significant difference) or whole‐plant water use (16 %). The pWUE correlated negatively to the ratio between leaf‐internal and leaf‐external [CO₂] (R² = ?0.86 in 2010 and R² = ?0.83 in 2011, P < 0.001). The leaf chlorophyll content was lower in the high‐WUE group indicating that the higher net photosynthesis rate was not due to higher leaf‐N status. Less negative value of carbon isotope discrimination (δ¹³C) in the high‐WUE group was only found in 2011. A modified Ball‐Berry model was fitted to measured stomatal conductance (g_s) under the systematically varied environmental conditions to identify parameter differences between the two groups, which could explain their contrasting WUE. Compared to the low‐WUE group, the high‐WUE group showed consistently lower values of the parameter m, which is inversely related to WUE. Differences related specifically to the dependence of g_s on humidity and net photosynthesis rate were only found in 2010. The lower ratio between leaf‐internal and leaf‐external [CO₂] and higher WUE of the high‐WUE group was consistent over a wide range of air vapour pressure deficits from 0.5 to 3.5 kPa. The mapping population was normally distributed with respect to WUE suggesting a multigenic nature of this trait. The WUE groups identified can be further employed for quantitative trait loci (QTL) analysis by use of gene expression studies or genome resequencing. The differences in population WUE indicate a genetic potential for improvement of this trait.  相似文献   

Yield Performance of Wheat Isolines with Different Dosages of the Short Arm of Rye Chromosome 1          下载免费PDF全文

D. C. Maheepala  B. Ehdaie  J. G. Waines 《Journal of Agronomy and Crop Science》2015,201(2):152-160

Translocations of the short arm of rye (Secale cereale L.) chromosome 1 (1RS) in wheat (Triticum aestivum L. cv. Pavon 76) are known to increase root biomass. Such an increase enhances water and nutrient uptake and may improve grain yield. Two greenhouse experiments and a field experiment were carried out at the University of California, Riverside, in 2012 and 2013 under well‐watered and terminal drought treatments to evaluate phenotypic characters associated with varying dosages of 1RS, including grain yield. The genotypes used were cultivar Pavon 76 (R₀), Pavon 76/Pavon1RS.1AL (F₁ hybrid) with a single dosage of 1RS (R₁A), Pavon 1RS.1AL with two dosages of 1RS (R₂A), Pavon 1RS.1DL (R₂D) also with two dosages of 1RS and Pavon 1RS.1AL‐1RS.1DL (R₄AD) with four dosages of 1RS. There was a significant positive correlation between number of dosages of 1RS and root biomass. However, no correlation was found between root biomass and grain yield per plant. Drought in the field experiment reduced grain yield significantly. Under well‐watered field conditions, grain yield of R₂A (215.9 g plant^?1) was significantly greater than those of R₂D (191.8 g plant^?1) and R₄AD (161.7 g plant^?1). Also, grain yield of R₄AD was significantly less than those of F₁, Pavon 76 and R₂D under well‐watered conditions. Under drought field conditions, no significant differences were found among the genotypes for grain yield was found between F₁ (14.7 g plant^?1) and R₄AD (12.4 g plant^?1). Harvest index was significantly greater in well‐watered (44.2 %) than in drought (34.6 %) field conditions. On average, genotypes F₁ (42.3 %) and R₂A (40.6 %) had higher harvest index than R₂D (38.3 %) and R₄AD (35.5 %) in the field. Also, Pavon 76 (40.2) and R₂D (38.3) had higher harvest index than R₄AD. Drought tolerance was lowest for R₄AD due to its relatively lower grain yield potential. In general, Pavon 1RS.1AL carrying two dosages of 1RS showed higher grain yield under wet treatments. Pavon 1RS.1AL‐1RS.1DL carrying four dosages of 1RS produced the largest shoot and root biomasses, but the least grain yield.  相似文献   

Infrared Thermal Imaging as a Rapid Tool for Identifying Water‐Stress Tolerant Maize Genotypes of Different Phenology     

S. Zia  G. Romano  W. Spreer  C. Sanchez  J. Cairns  J. L. Araus  J. Müller 《Journal of Agronomy and Crop Science》2013,199(2):75-84

The main task of this research was to evaluate canopy temperature and Crop Water Stress Index (CWSI) by assessing genotype variability of maize performance for different water regimes. To that end, three hundred tropical and subtropical maize hybrids with different phenology in terms of date of anthesis were evaluated. The influence of phenology on the change in canopy temperatures and CWSI was not equal during the three dates of measurement. At the end of vegetative growth (82 days after sowing, DAS) and at the blister stage (DAS 97), a high significant difference in temperatures and CWSI (P < 0.001) were obtained between the early‐ and late‐maturity genotypes. During anthesis (DAS 89), phenology had a significant effect (P < 0.01) only for the well‐watered genotypes, while under water‐stress conditions, no differences were found between early and late genotypes in terms of canopy temperature and CWSI. High significant differences (P < 0.001) in stomatal conductance (g_s) between early and late genotypes for different treatments were observed. A relationship (R² = 0.62) between g_s and canopy temperature was obtained. Under a water‐stress canopy, temperature was measured at anthesis, which was negatively correlated with grain yield of the early (r = ?0.55)‐ and late (r = ?0.46)‐maturity genotypes in the water‐stressed condition.  相似文献