干旱胁迫下PEPC过表达增强水稻的耐强光能力   总被引：1，自引：0，他引：1  

丁在松  周宝元  孙雪芳  赵明 《作物学报》2012,38(2):285-292

以过表达磷酸烯醇式丙酮酸羧化酶(PEPC)的水稻为材料,研究了不同程度干旱胁迫下开花期剑叶光合作用的光响应过程、叶绿素荧光参数、色素含量和活性氧代谢。结果表明,在干旱特别是重度干旱胁迫下,野生型水稻在强光下净光合速率迅速下降,而转Zmppc基因水稻没有明显的下降现象; 而且表示光化学活性的叶绿素荧光参数F_v/F_m、Φ_PSⅡ和q_P下降程度低,说明PEPC增强了干旱胁迫下水稻抵御强光胁迫的能力。这可能是因为干旱胁迫下转Zmppc基因水稻玉米黄质含量高,光系统对过剩光能的耗散能力强,能够保护光系统免受过剩光能的伤害,从而减小O₂^?产生速率; 同时干旱胁迫下转PEPC基因水稻抗氧化酶SOD、POD和CAT活性高,能有效清除活性氧,减轻膜质过氧化。  相似文献   

Divergent strategies displayed by potato (Solanum tuberosum L.) cultivars to cope with soil drought          下载免费PDF全文

D. Boguszewska‐Mańkowska  M. Pieczyński  A. Wyrzykowska  H. M. Kalaji  L. Sieczko  Z. Szweykowska‐Kulińska  B. Zagdańska 《Journal of Agronomy and Crop Science》2018,204(1):13-30

The physiological responses of potato (Solanum tuberosum L) cultivars to soil drought at the tuberization phase and their impact on agronomically important traits were investigated in potted plants under semi‐controlled conditions. Genotype‐dependent responses of potato to water deficiency were evaluated on two pairs (tolerant/sensitive) of Polish cultivars. Each pair of cultivars had a similar genetic background but was extremely different in terms of drought tolerance evaluated on the basis of loss of tuber yield under field conditions. The results clearly indicate different mechanisms of tolerance to water deficiency and the ability to recover from soil drought in two tolerant but genetically unrelated cultivars. When subjected to soil drought, the cultivar Gwiazda had low rates of transpiration and photosynthesis and low levels of stomatal conductance due to hypersensitivity to ABA, but its maximal photochemistry efficiency and PSII performance index were unchanged. Another strategy was displayed by the dehydration‐avoidant cultivar Tajfun, which kept the stomata partially open. Thus, the plants were able to retain a relatively high rate of photosynthesis over transpiration. The parameters measured for cultivar Tajfun for photosynthesis and transpiration were the same after plant rewatering, similar to the control plants. This was not the case for the cultivar Gwiazda. The ability of plants to regenerate after soil drought relief appears to be a good indicator of potato susceptibility to soil drought and allows the yield of potato tubers to be predicted. The physiological traits identified in closely related potato cultivars but differed in their drought tolerance seem to be useful for genetic engineering and breeding programmes.  相似文献   

PEPC过表达可以减轻干旱胁迫对水稻光合的抑制作用   总被引：5，自引：0，他引：5  

周宝元  丁在松  赵明 《作物学报》2011,37(1):112-118

为了明确磷酸烯醇式丙酮酸羧化酶(PEPC)过量表达能否提高水稻的光合速率,测定了42个表达不同PEPC水平的转玉米PEPC基因水稻株系及对照(受体亲本中花8号)开花期和灌浆期的光合速率。结果表明,在水田条件下,转基因株系光合速率与未转基因对照相比没有明显差异;而在旱地条件下,转基因水稻的光合速率显著高于对照(27%和24%)。随机选取2个PEPC相对活性分别为10倍和25倍的转基因株系进行网室精确控水盆栽实验得到相似的结果。说明单纯导入PEPC并不能提高水稻的光合速率,而干旱胁迫下转基因水稻的光合优势可能是由于PEPC参与水稻的抗旱反应而减轻了干旱胁迫对光合作用的抑制作用。  相似文献   

Coronatine Alleviates Polyethylene Glycol-induced Water Stress in Two Rice (Oryza sativa L.) Cultivars     

L. Ai  Z. H. Li  Z. X. Xie  X. L. Tian  A. E. Eneji  L. S. Duan 《Journal of Agronomy and Crop Science》2008,194(5):360-368

We studied the effects of coronatine (COR), a structural and functional analogue of jasmonates, on the drought tolerance of two rice cultivars, Handao 297 (a drought-tolerant upland rice) and Yuefu (a drought-sensitive lowland rice). Seedlings were treated with COR at the three-leaved stage at 0.01 and 0.1 μm for 24 h, followed by imposition of water deficit induced with 20 % polyethylene glycol (PEG). Water stress reduced the biomass of both cultivars and increased leaf lipid peroxidation and solute leakage. Pre-treatment with COR significantly increased the activities of superoxide dismutase, catalase, ascorbate peroxidase and glutathione reductase in leaf tissues of water-stressed Handao 297 (0.01 μm ) and Yuefu (0.1 μm ) seedlings. COR supplement also increased the accumulation of 44 and 32 kDa polypeptides in water-stressed Handao 297 (0.01 and 0.1 μm ) and Yuefu (0.1 μm ) and significantly induced the expression of 29 kDa polypeptide in Handao 297. The results suggest that COR might alleviate drought stress by activating antioxidant enzymes and inducing proteins, thereby preventing membrane peroxidation and denaturation of bio-molecules. Thus, membrane permeability decreased substantially by 24–27 % in Handao 297, and 22–29 % in Yuefu. The optimal concentrations conferring drought resistance were 0.01 for the upland rice and 0.1 μm for the lowland cultivar.  相似文献   

Antioxidant and Photosynthetic Responses of Cotton to Soil Drought Stress during Flowering and Fruiting Stage     

《棉花学报》2018,30(2):155-163

[Objective] The purpose of this study was to examine potential drought tolerance mechanisms in cotton (Gossypium hirsutum L.). Biochemical (antioxidant, protein and compatible osmolyte) and physiological (photosynthesis) responses to drought stress during the flowering and fruiting stages were examined. [Method] Using two cotton genotypes (A001 and A705) with different drought tolerance, a pot study was conducted in 2016 with treatments consisting of control (well-watered) and water stress. Water stress treatment was designed as withholding water from the pots until stomatal closure followed by limited water supply for 25 days where water-stressed plants received 40% of the optimum quantity of water. Measurements were made on soluble protein, proline and malonaldehyde (MDA) concentrations, peroxidase (POD) activity and photosynthetic characteristics (net photosynthetic rate P_n, transpiration rate E, stomatal conductance G_s) during the period of water stress. [Result] The soluble protein concentration was decreased and POD activity and MDA level were increased in the leaf subtending cotton boll of A001 under water deficit when compared with the control, but no response was observed in A705. Proline level responded to water deficit inconsistently between the two genotypes and across all sampling dates. Water stress significantly decreased P_n, E and G_s in the main stem leaves for both A001 and A705. [Conclusion] The results indicated that POD, soluble protein and MDA are involved in A001 and A705 responses to water deficit, and A705 is more tolerant to soil drought than A001.  相似文献   

水分亏缺对小麦穗部光合特性及花前14C-同化物分配的影响     

张磊  吕金印  贾少磊 《作物学报》2013,39(8):1514-1519

为明确干旱胁迫对小麦穗部花前同化物合成和转运的影响,选用旱地品种西农928和水分敏感品种郑引1号,通过¹⁴CO₂标记技术研究了水分亏缺下穗部光合特性及穗部花前同化物的转运和分配规律。水分亏缺条件下,西农928灌浆前期、中期的穗部净光合速率、颖壳中叶绿素含量及可溶性总糖含量略有下降,而郑引1号显著下降。成熟期西农928的水分利用效率上升1.7% (P>0.05),籽粒中¹⁴C-同化物分配率略降3.2% (P>0.05);而郑引1号水分利用效率下降16.9% (P<0.05),籽粒中花前¹⁴C-同化物分配率上升7.8% (P<0.05)。试验表明,水分亏缺对西农928穗部光合的影响有限; 适度水分亏缺促进了水分敏感品种郑引1号颖壳及内外稃中花前¹⁴C-同化物向籽粒的转运, 相对提高了其穗部花前光合同化物对籽粒灌浆的贡献率。  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   

Growth and Distribution of Dry Matter in a Drought Tolerant and a Susceptible Potato Cultivar under Normal and Water Deficit Condition     

Shantha  Nagarajan K. C. Bansal 《Journal of Agronomy and Crop Science》1991,167(2):112-118

The growth behaviour of Dekama (drought tolerant) and Kufri Jyoti (drought susceptible) was studied using potted plants maintained at well watered condition and water deficit condition respectively. Periodic harvestings were done starting from 50 days after planting till maturity. Recordings of plant height, leaf area, dry weights of different plant parts, the proportion of thinner and thicker roots, stomatal conductance and water saturation deficit were obtained. The plant height, leaf area and dry weight of shoot decreased to nearly the same extent in both the cultivars under stress. The stomatal conductance decreased by 61.7 % in Dekama and by 64 % in Kufri Jyoti due to water stress. Water saturation deficit increased by about 80 % in both the cultivars. The ratios of root to shoot and that of thinner to thicker root increased due to stress in both cultivars and this increase was 85 % and 71 % in Dekama and 64 % and 19 % in Kufri Jyoti respectively. The distribution of dry matter to leaf, stem, root were more at the expense of tuber under stress conditions in both cultivars. However, the tolerant cultivar Dekama got adjusted to the stress condition, with more dry matter partitioned to tubers in the last two samplings. The study points out the factors responsible for better drought tolerance of Dekama compared to Kufri Jyoti and the possible physiological traits useful for selecting drought tolerant cultivars.  相似文献   

干旱对不同品种小麦幼苗的生理生化胁迫以及外源5-氨基乙酰丙酸的缓解作用     

陈新宜  宋宇航  张孟寒  李小艳  李华  汪月霞  齐学礼 《作物学报》2022,(2):478-487

黄淮主产区冬小麦生育期干旱灾害发生频繁,造成小麦苗期严重光合生理伤害。为探讨不同小麦品种光合特性对干旱胁迫的响应,以百农207,周麦18以及小麦新品种郑麦1860为材料,研究了干旱胁迫对不同品种小麦幼苗光合生理、抗氧化物酶、相关基因表达水平的影响以及外源ALA的干旱缓解作用。研究结果表明,干旱胁迫下郑麦1860具有较高的根干重和根冠比,与周麦18相比,抗旱能力较强的郑麦1860和百农207叶绿素含量的下降幅度、MDA含量的增加幅度、叶绿素荧光参数和光合作用参数的下降幅度相对较低,但SOD和CAT酶活性的增加幅度相对较大。同时,干旱胁迫显著增加了CAT、SOD-Cu/Zn、MnSOD和FeSOD抗氧化酶相关基因的转录表达水平,且增加程度与小麦的抗旱能力密切相关。外源ALA预处理能够通过对CAT、SOD-Cu/Zn和MnSOD的转录诱导,进一步提高干旱胁迫下SOD和CAT酶的活性,降低膜脂过氧化损伤程度,同时提高ATP酶的活性,缓解干旱对小麦光合生理的伤害。此外,本研究首次发现,小麦叶绿体光合机构相关psb28基因转录表达的维持也与不同品种的抗旱能力有一定联系,且受外源ALA预处理的显著诱...  相似文献   

氮、钾、甜菜碱对水分胁迫下夏玉米叶片膜脂过氧化和保护酶活性的影响   总被引：26，自引：1，他引：25  

张立新  李生秀 《作物学报》2007,33(3):482-490

采用盆栽试验研究了水分胁迫和适量供水条件下,氮、钾和甜菜碱对2种不同基因型夏玉米陕单9号（抗旱品种）和陕单911（不抗旱品种）各生育期叶片膜脂过氧化和保护酶活性的影响,旨在揭示这些因子通过提高上述酶活性而增强作物抗旱性的生理功能。结果表明,水分胁迫下夏玉米超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）活性显著降低,不抗旱品种更甚;而丙二醛(MDA)含量有不同程度升高,抗旱品种的MDA含量和变幅小于不抗旱品种。苗期2个品种对水分胁迫响应较弱,SOD、POD、CAT和MDA均较低;拔节和抽雄期响应强烈,酶活性增高。SOD和POD达到最大值的时间比CAT晚,MDA在全生育期中呈现“升—降—升”的变化规律。施用氮、钾肥和甜菜碱能不同程度地提高夏玉米SOD、POD和CAT活性,降低MDA含量,减缓水分胁迫下膜脂过氧化作用。不抗旱品种施用氮肥增强了水分胁迫条件下叶片SOD、POD、CAT活性,降低了MDA含量,氮肥用量的影响有显著差异;抗旱品种施用低氮效果显著,施用高氮则降低了生育前期酶活性,增加了MDA含量,但生育后期氮肥用量的影响间无显著区别。钾肥和甜菜碱对受水分胁迫的夏玉米表现出比氮肥更突出的效果。而对适量供水条件下的夏玉米,氮、钾肥的作用明显下降,甜菜碱的效果甚至消失。说明施用氮、钾肥和甜菜碱对改善水分胁迫下玉米叶片膜脂过氧化作用和提高保护酶活性有重要贡献。  相似文献   

粳稻品种Dongjin在干旱胁迫下苗期生理反应   总被引：3，自引：0，他引：3  

张敬原  范云六  赵军 《中国农学通报》2007,23(2):231-231

为了明确苗期水稻对干旱胁迫的生理反应,笔者从光合作用、水分生理、植株体内的氧化逆境、渗透调节物质代谢以及细胞膜的完整性等几个方面分析了粳稻品种Dongjin（Oryza sativa L. subsp. japonica）在干旱胁迫处理下的生理变化。结果表明：干旱胁迫过程中,叶片的净光合速率与植株地上部相对含水量在处理5d内均已显著降低,5d后大幅度下降;植株地上部丙二醛含量的显著增加以及相对电导率的快速上升发生在处理5d以后,并且二者的变化趋势相类似;脯氨酸含量在处理6d时有所增加,处理6d后快速上升;叶片的活性氧含量在处理6d时略微下降,6d后逐渐上升,处理8d时显著升高。光合速率与相对含水量最先响应旱胁迫信号,与活性氧、丙二醛、脯氨酸含量和相对电导率一起可用作综合评价水稻苗期耐旱性的指标。  相似文献   

转PEPC基因水稻花粉株系不同生育期的光合生理表现     

张边江  凌丽俐  周峰  陈全战  华春  周泉澄  焦德茂 《华北农学报》2012,(1):184-188

以父本转玉米PEPC基因水稻、母本粳稻9516和杂交后代稳定的花粉株系JAAS45为材料,研究了JAAS45及其亲本的不同生育期的光合色素含量、净光合速率和水分利用效率。结果表明:分蘖期以后,杂交后代JAAS45的单位叶面积Chl含量超过母本9516,并一直维持着较高水平,与PC相近。在整个生育期,JAAS45和PC的叶绿素a/b一直高于9516。JAAS45苗期的净光合速率(Pn)与9516相近,而到了分蘖期,其Pn超过了9516,尤其到了抽穗及灌浆期,其Pn还超过了PC。从苗期到抽穗期,JAAS45的水分利用效率(WUE)与PC相接近,明显高于9516。这些结果说明,JAAS45具有较高的光合能力和水分利用效率,与父本PC相似。通过转PEPC基因水稻和杂交稻的亲本杂交,可将玉米PEPC基因转移到普通水稻品种中,培育出高光合效率和高产的水稻品系。  相似文献   

转玉米C4光合酶基因水稻株系中的光合C4微循环   总被引：9，自引：0，他引：9  

季本华  朱素琴  焦德茂 《作物学报》2004,30(6):536-543

用转PEPC、PPDK、NADP-ME、PEPC PPDK等酶基因的水稻株系及原种野生型(WT)为材料, 研究了不同基因型水稻叶片中的C4光合微循环及其功能.用外源OAA或MA饲喂叶切片或离体叶绿体后,光合放氧速率在野生型水稻中增加了50%,在NADP-ME-和PPDK-转基因水稻中增加了50%～54%,在PEPC-和 PEPC PPDK-转基因水稻中增加了100%～150%.证明原种水稻Kitaake叶片中具有一个原初的和有限的C4光合微循环,除PPDK基因、NADP-ME基因外,外源PEPC基因或PEPC PPDK双基因导入原种水稻Kitaake后,可大幅度提高C4光合微循环的运行.水稻中C4光合微循环的增强有降低光呼吸速率(Pr)、增加净光合速率(Pn)的作用,在光能利用上,可增加PSⅡ光化学效率(Fv/Fm)、光化学猝灭(qp)、降低非光化学猝灭(qN)的作用;这些结果为转C4光合酶基因水稻中建立C4微循环系统来提高光合作用效率的可能性提供了依据.  相似文献   

Effect of Progressive Drought on Endoproteolytic Activities and Water Status of Brassica napus Leaves     

G. Ilami  D. Contour-Ansel 《Journal of Agronomy and Crop Science》1997,178(3):157-164

Rapeseed (Brassica napus L. var. oleifera) is known to display adaptive responses under drought stress, especially in leaves. The aim was to study the influence of water deficit on endoproteolytic activities and water status of leaves developed before (L3 leaf) or after the onset of water stress (L2 and L3 leaves). Although the impact of senescence on proteolytic activities is well known, little information is available on the effect of water deficit on such activities. Seedlings of rapeseed were submitted to controlled progressive drought. Soil water potential (T) and soil dry weight humidity (H) were measured daily in the dark. Endoproteolytic activities were assayed both on control and water-stressed plants using azocasein as substrate after partial purification of the extracts, Two zones of maximal activity were detected, the first between pH 4.5 and 6.0 and the second at pH 8.0 as a sharp peak, in control as well as in drought stressed-plants. While LI leaf was very sensitive to water stress and wilted when ψ reached −2.8 to −3.2 MPa, L2 leaf began to display signs of senescence for this value whereas L3 leaf which showed the lowest endoproteolytic activities, remained turgid, hardened and developed a typical bluish coloration. The relation between the acquired resistance of young leaves, the low endo-proteolytic activity and the induction of a 22 kDa protein under progressive drought is discussed.  相似文献   

Soil drought duration and severity affect cotton boll biomass by altering recovery times and carbon dynamics of subtending leaf     

Jie Zou  John L. Snider  Honghai Zhu  Jiaqi He  Yuxia Li  Zhiguo Zhou  Youhua Wang  Yali Meng  Binglin Chen  Wenqing Zhao  Shanshan Wang  Wei Hu 《Journal of Agronomy and Crop Science》2023,209(1):94-115

Drought appears at flowering and boll formation for cotton frequently. However, reports on the impact of carbon dynamics in the subtending leaf on boll biomass under periodic droughts are limited. To investigate this, experiments were carried out with two cultivars (drought-tolerant: Dexiamian 1; drought-sensitive: Yuzaomian 9110), three water levels [soil relative water content (SRWC): control (75 ± 5)%, moderate drought (60 ± 5)%, severe drought (45 ± 5)%] and five drought durations (10, 17, 24, 31 and 38 days). A 38-day drought declined the net photosynthetic rate of subtending leaf, which could be collectively attributed to the reduction in carboxylation with reduced ribulose-1,5-bisphosphate carboxylase activity, and stomal limitation with decreased stomatal conductance, along with the damage of photosynthetic apparatus with depressed maximum and actual photochemical quantum yield, leading to lower starch content. A 38-day drought also increased the activities of sucrose phosphate synthase (SPS), sucrose synthase (Susy) and expressions of genes (GhSPS1, GhSPS2, GhSusA and GhSusB) associated with these enzymes, causing the accumulation of sucrose content, finally resulting in lower boll biomass. Some of the above parameters fully recovered under more than 17-day moderate drought or over 10-day severe drought, but boll biomass still decreased after re-watering. Under 10-day moderate drought, all aforementioned indices and boll biomass were completely recovered within 7 days of re-watering, and the recovery capacity of Yuzaomian 9110 was lower than that of Dexiamian 1. Therefore, rapid recovery of photosynthesis and decline in the subtending leaf sucrose content to pre-stress levels are important factors in lessening the impacts of drought on boll biomass and are indicative of cultivar tolerance to short-term moderate water deficit.  相似文献   

Remobilization of Proline and Other Nitrogen Compounds from Senescing Leaves of Maize under Water Stress     

M. Carceller→  P. Prystupa  J. H. Lemcoff 《Journal of Agronomy and Crop Science》1999,183(1):61-66

The effects of water stress around anthesis on proline accumulation and translocation from leaves of two maize cultivars (DA 4F37 and DA XL636) were studied. Water stress increased leaf proline content only in DA 4F37, while proline in leaf exudates was detected only in DA XL636 water-stressed plants. Proline translocation was not associated with increased nitrogen remobilization from leaves. The accumulating proline cultivar DA 4F37 showed a higher osmotic adjustment capacity than DA XL636. Leaf proline content in water-stressed DA 4F37 plants varied with daytime. High proline concentration during the morning was found in leaves with high relative water content. This evidence would support the hypothesis that proline is involved in osmotic adjustment.  相似文献   

Effects of Soil Drought in the Generative Phase of Development of Field Bean (Vicia faba L. var. minor) on Leaf Water Status, Photosynthesis Rate and Biomass Growth     

S. Grzesiak    J. Koscielniak    W. Filek  G. Augustyniak 《Journal of Agronomy and Crop Science》1989,162(4):241-247

The effects of 10-day periods of soil drought during flowering (DI) or pod growth (DII) and during both these phases (DI + DII) on leaf water status, photosynthesis rate, plant growth and production of biomass was studied in pot experiments with field bean. Soil water content during drought spells were kept at 30% of field water capacity. Soil water deficiency DI and DII depressed the leaf water potential relatively to control by about 100 % and 140 % respectively, increased the water deficit by 100 % and 120 % and reduced photosynthesis rate by 80 % and 90 %. Rehydration of tissues completely abolished any decline of photosynthesis rate caused by drought DI, but after drought DII photosynthesis rate remained depressed by about 30 % even after rehydration. Drought periods DI and DII caused more rapid withering of leaves, a decline in the total leaf area and a temporary increase of root weight.
Drought occuring at flowering (DI) also activated the mechanism of plant adaptation to water deficiency during the pod formation phase (DII). Single or double periods of drought had not any significant influence on the number of pods and seeds, but decreased their weight.  相似文献   

Photosynthetic Acclimation and Productivity of Mungbean Cultivars under Elevated CO₂ Concentration     

P. Sharma-Natu  V. Pandurangam  M. C. Ghildiyal 《Journal of Agronomy and Crop Science》2004,190(2):81-85

Mungbean [Vigna radiata (L.) Wilczek] cultivars (Pusa Baisakhi, PS 16 and P 105) were grown in field at atmospheric (360 ± 10 ppm, AC) and elevated CO₂ (650 ± 50 ppm, EC) concentrations inside open top chambers for entire period of growth and development till maturity. Leaf net photosynthesis rate (P_N) of AC and EC grown plants when compared at same CO₂ concentration showed no significant down‐regulation of P_N in EC plants. In cv. P 105, even up‐regulation of P_N was observed in EC plants. Mungbean cultivars accumulated assimilates in the leaves during the day mostly in the form of starch. Nodule number and weight were also higher in EC plants. The positive effect of elevated CO₂ on P_N, dry‐matter production and seed yield was better expressed in cv. P 105 having greater podding ability.  相似文献   

Effect of Homobrassinolide Application on Metabolic Activity and Grain Yield of Wheat under Normal and Water-Stress Condition     

R. K. Sairam 《Journal of Agronomy and Crop Science》1994,173(1):11-16

Activities of nitrate reductase, glutamine synthetase along with rate of photosynthesis, chlorophyll content, soluble protein, relative water content, transpiration and diffusion resistance were estimated in wheat cv. C306 at anthesis stage under irrigated and moisture-stress condition and two levels (0.1 and 1.0 ppm) of homobrassinolide application. Yield and yield attributing parameters were recorded at harvest. Moisturestress adversely affected relative water content, transpiration, net photosynthesis, nitrate reductase and glutamine synthetase activity, chlorophyll and soluble protein content.
Homobrassinolide application increased leaf relative water content and transpiration and decreased diffusion resistance in water-stressed and recovered plants. Homobrassinolide application also had positive effect on nitrate reductase and glutamine synthetase activities, photosynthesis, chlorophyll and total soluble protein content in stressed, irrigated and revived plants. The beneficial effect was also observed on grain yield and yield attributing parameters such as grain number per ear, 1000 grain weight, ear number per plant and harvest index. It was concluded that homobrassinolide induced promotion in metabolic activity was mediated through increased enzyme protein synthesis as well as uptake of water resulting in enhanced relative water content under moisture-stress.  相似文献   

Assessment of soybean yield with altered water-related genetic improvement traits under climate change in Southern Brazil     

《European Journal of Agronomy》2017

Water deficit is a major factor responsible for soybean yield gap in Southern Brazil and tends to increase under climate change. An alternative to reduce such gap is to identify soybean cultivars with traits associated to drought tolerance. Thus, the aim of this study was to assess soybean adaptive traits to water deficit that can improve yield under current and future climates, providing guidelines for soybean cultivar breeding in Southern Brazil. The following soybean traits were manipulated in the CSM-CROPGRO-Soybean crop model: deeper root depth in the soil profile; maximum fraction of shoot dry matter diverted to root growth under water stress; early reduction of transpiration under mild stress; transpiration limited as a function of vapor pressure deficit; N₂ fixation drought tolerance; and sensitivity of grain filling period to water deficit. The yields were predicted for standard and altered traits using climate data for the current (1961–2014) and future (middle-century) scenarios. The traits with greater improvement in soybean yield were deeper rooting profile, with yield gains of ≈300 kg ha⁻¹, followed by transpiration limited as a function of vapor pressure deficit and less drought-induced shortening of the grain filling period. The maximum fraction of shoot dry matter diverted to root and N₂ fixation drought tolerance increased yield by less than 75 kg ha⁻¹, while early reduction of transpiration resulted in a small area of country showing gains. When these traits were combined, the simulations resulted in higher yield gains than using any single trait. These results show that traits associated with deeper and greater root profile in the soil, reducing transpiration under water deficit more than photosynthesis, creating tolerance of nitrogen fixation to drought, and reducing sensitivity of grain filling period to water deficit should be included in new soybean cultivars to improve soybean drought tolerance in Southern Brazil.  相似文献