光照和温度对飞机草种子萌发的影响

通过在人工培养箱内模拟环境条件,探讨了不同光照和变温对飞机草种子萌发的影响。结果表明:在有光照状况下,飞机草种子在15℃/10℃～40℃/35℃条件下均能萌发,飞机草种子萌发的最适变温为30℃/25℃,萌发率达47.5%;而黑暗条件下,飞机草种子在15℃/10℃时不能萌发;在20℃/15℃～35℃/30℃范围内,温度越高,飞机草种子萌发高峰的出现时间越早;在15℃/10℃～30℃/25℃范围内,飞机草种子的萌发率随温度的升高而升高,超过30℃/25℃后,萌发率下降,而适当的光照有利于飞机草种子的萌发。飞机草成为入侵种并迅速扩散与其种子萌发对光照和温度的适应性密切相关。     

用超微细胞化学定位技术揭示ATP酶在紫茎泽兰高温适应性中的作用

【背景】外来人侵植物紫茎泽兰自然演化出耐高温种群,其适应机制与各种生理代谢有关。【方法】本文从超微细胞化学水平,对紫茎泽兰抗高温种群、敏感种群ATP酶活性定位,明确其在高温适应性中的作用,试图阐明该草的生态适应机制。【结果】正常情况下,紫茎泽兰ATP酶主要定位于细胞壁及细胞间隙周围的细胞壁表面;经40℃高温处理后,在不同的处理时间下,抗性、敏感种群之间ATP酶的活性表现出明显差异,其中以处理12h时差异最大,具体表现为抗高温种群的ATP酶活性明显高于敏感种群,ATP酶的定位点除细胞壁外,在细胞膜上也呈现大量的分布,而敏感种群在处理12h时的酶活性明显降低,只在细胞壁上有零星的分布。处理24h时,敏感种群叶片已完全萎蔫,细胞结构毁坏,细胞膜破损;而抗高温种群叶片仍然完好,细胞膜上仍有ATP酶分布。【结论与意义】经40℃高温处理后,紫茎泽兰抗高温种群ATP酶活性明显高于敏感种群,初步认为紫茎泽兰对高温的适应性与ATP酶活性相关。本研究为进一步阐明与紫茎泽兰适应性相关的入侵机理提供了资料。     

两种入侵植物与三种本地植物根系特征的比较研究

以菊科2种入侵植物飞机草(Chromolaena odorata (L.)R. M. King & H. Rob)和紫茎泽兰( Eupatorium adenophorum Speng)以及生活型相似的3种本地植物异叶泽兰(Eupatorium heterophyllum DC.)、佩兰(Eupa-torium for...     

冬小麦抗氧化酶对冬季节律性日变温和非节律性变温的响应

通过对冬季室内和室外分别生长30d的冬小麦在节律性和非节律性融冻变温过程中抗氧化酶活力和渗透调解物含量变化的分析,揭示其在冬小麦适应日融冻胁迫中的作用。结果表明:生育期不同的室内(均温11℃,拔节期)和室外(均温1℃,分蘖静滞期)冬小麦叶片抗氧化酶和脯氨酸对日光强和温度节律变化的响应趋势是一致的,即随日出而增高,中午气温较高时最高,日落而降低;在非节律性变温处理中,室外冬小麦抗氧化酶活力和脯氨酸含量随气温上升至18℃而增高,气温迅速下降到-2.5℃而降低,经历冻-融-冻胁迫冬小麦生长良好。室内冬小麦抗氧化酶活力随气温降低到-6℃,叶片结冻,迅速下降,气温升高到18℃而增加,经历融-冻-融胁迫后植株死亡;室外冬小麦光合速率(Pn)和比室内的低,而抗氧化酶活力高于室内;冬小麦快速提高抗氧化酶活力和脯氨酸含量,抑制氧自由基积累、维护细胞水分平衡,这在适应冬季节律性融冻胁迫中起重要作用;暖冬中冬小麦较高的Pn和较低的抗氧化酶活力可能是引起冬小麦在"倒春寒"中死亡的生理原因。     

Co-expression of monodehydroascorbate reductase and dehydroascorbate reductase from Brassica rapa effectively confers tolerance to freezing-induced oxidative stress

Plants are exposed to various environmental stresses and have therefore developed antioxidant enzymes and molecules to protect their cellular components against toxicity derived from reactive oxygen species (ROS). Ascorbate is a very important antioxidant molecule in plants, and monodehydroascorbate reductase (MDHAR; EC 1.6.5.4) and dehydroascorbate reductase (DHAR; EC 1.8.5.1) are essential to regeneration of ascorbate for maintenance of ROS scavenging ability. The MDHAR and DHAR genes from Brassica rapa were cloned, transgenic plants overexpressing either BrMDHAR and BrDHAR were established, and then, each transgenic plant was hybridized to examine the effects of co-expression of both genes conferring tolerance to freezing. Transgenic plants co-overexpressing BrMDHAR and BrDHAR showed activated expression of relative antioxidant enzymes, and enhanced levels of glutathione and phenolics under freezing condition. Then, these alteration caused by co-expression led to alleviated redox status and lipid peroxidation and consequently conferred improved tolerance against severe freezing stress compared to transgenic plants overexpressing single gene. The results of this study suggested that although each expression of BrMDHAR or BrDHAR was available to according tolerance to freezing, the simultaneous expression of two genes generated synergistic effects conferring improved tolerance more effectively even severe freezing.     

乙烯产生抑制剂对高温胁迫下蚕豆幼苗叶片的保护作用

该文报道了乙烯产生抑制剂氯化钴(CoCl₂)及氨基乙基乙烯基甘氨酸(Aminoethoxyvinylglycine, AVG)对高温胁迫下蚕豆(Vicia faba)幼苗叶片保护作用的现象及机制。研究结果表明,用CoCl₂和AVG溶液处理,在高温胁迫前及胁迫12 h时皆显著抑制乙烯产生。20 μmol·L ^-1 CoCl₂浇灌处理在高温胁迫前可以显著提高叶片抗氧化酶SOD、CAT、APX的酶活力,而20 μmol·L ^-1 AVG处理对这些抗氧化酶活力无显著影响。20 μmol·L ^-1 CoCl₂ 与20 μmol·L ^-1 AVG溶液浇灌处理在高温胁迫前对腐胺(Put)、亚精胺(Spd)、精胺(Spm)、叶绿素含量、活性氧(ROS)产生速率和脂质过氧化程度无显著影响。但经45 ℃高温胁迫12 h后,20 μmol·L ^-1 CoCl₂ 与20 μmol·L ^-1 AVG溶液处理显著提高了上述3种多胺的含量,减缓了抗氧化酶活性的下降,对活性氧水平及脂质过氧化水平的增加也起到了有效的抑制作用,这些改变可能对叶绿素降解的减少及膜稳定指数下降的减轻发挥着重要的作用。可见,通过抑制乙烯产生,相对提高多胺含量和抗氧化酶活性,以及抑制活性氧水平的提高和抑制细胞膜稳定指数的下降,CoCl₂和AVG对高温胁迫下的蚕豆幼苗叶片产生了一定的保护作用。     

高温胁迫下番茄幼苗对冷激的响应

高温逆境是影响夏秋季蔬菜设施集约化育苗质量的主要因素之一,利用温度逆境诱导植物产生交叉适应是植物获得抗逆性的一种有效手段.为探索冷激强度对番茄幼苗高温胁迫的缓解效应,试验采用人工气候箱模拟夏季设施中的高温胁迫,研究了不同冷激温度(5、10、15 ℃)和冷激持续时间(10、20、30 min)对番茄幼苗生长、生物膜保护系统的影响,并研究了单次适宜冷激处理对番茄小分子热激蛋白LeHSP23.8和CaHSP18基因表达的影响.结果表明： 在高温胁迫前对番茄幼苗进行冷激处理可以抑制其下胚轴的伸长和株高的生长.冷激缓解番茄幼苗高温胁迫的效应在不同冷激温度下表现出不同的变化趋势;5 ℃冷激处理抑制了番茄幼苗抗氧化酶活性的升高,使细胞膜透性增大,对幼苗产生伤害;10 ℃冷激处理对番茄幼苗高温胁迫的缓解效应随冷激时间的延长呈降低趋势;而15 ℃冷激处理缓解番茄幼苗高温胁迫的效应随冷激时间的延长呈增加趋势.适宜冷激温度和冷激持续时间能够诱导番茄幼苗对高温逆境的交叉适应性,在高温胁迫前将番茄幼苗进行温度为10 ℃、持续10 min的冷激处理效果最佳,与对照相比,显著提高了高温胁迫下番茄幼苗植株单株干质量和壮苗指数,降低了番茄幼苗叶片相对电导率和丙二醛含量,促进了脯氨酸和可溶性蛋白的积累,提高了番茄幼苗叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT) 3种抗氧化酶活性,并诱导了小分子热激蛋白基因LeHSP23.8和CaHSP18在常温条件下的上调表达.
     

Thermotolerance and antioxidant systems in Agrostis stolonifera: involvement of salicylic acid, abscisic acid, calcium, hydrogen peroxide, and ethylene

This study investigated whether pre-treating plants with specific putative signaling components and heat acclimation would induce tolerance of a cool-season grass, creeping bentgrass (Agrostis stolonifera var. palustris), to subsequent heat stress and whether thermotolerance induction of those pretreatments was associated with the regulation of antioxidant regenerating enzymes. The treatments included foliar application of salicylic acid (SA), abscisic acid (ABA), calcium chloride (CaCl2), hydrogen peroxide (H2O2), 1-aminocyclopropane-1-carboxylic acid (ACC, a precursor of ethylene prior to the exposure of plants to heat stress (35 degrees C) in a growth chamber. Physiological measurements including turf quality, leaf photosynthetic rate, and levels of oxidative damage demonstrated that all treatments increased heat tolerance. The better heat tolerance for pre-treated plants as compared to controls was related to the protection of oxidative damage under heat stress. APX activity increased over the first 2 days and 5 days of heating for ACC and CaCl2 respectively, but for only 12 h for H2O2. SA and ABA pre-treatments had no effects on APX activity earlier, but maintained APX activity at a significantly higher level than in controls after 24 h of heating. SA and ABA pre-treatments had no effects on POX activity. ACC treatment significantly increased POX activity. Pre-treatment with CaCl2, H2O2, and HA reduced POX activity, particularly during the later phase of heating. Plants treated with SA, CaCl2, H2O2 and HA had lower CAT activity than their control plants prior to heating and within 48 h of heat stress. ABA and ACC pre-treatments maintained higher CAT activity than the controls after 48 h of heating. ACC, CaCl2, or HA pre-treatments increased SOD activity only before 5 days of heat stress. SA and ABA pre-treatments had less effect on APX activity earlier under heat stress. These results suggest that specific groups of potential signaling molecules may induce tolerance of creeping bentgrass to heat stress by reducing oxidative damage.     

Low temperature-induced changes in antioxidative metabolism in rubber-producing shrub,guayule (<Emphasis Type="Italic">Parthenium argentatum</Emphasis> Gray)

Two-year-old rubber-producing shrub, guayule (Parthenium argentatum, cv. 11591), was treated with low temperature (15 ^°C). The leaves were harvested at regular intervals (0, 2, 4 and 6 days) and the contents of protective antioxidants (ascorbic acid, monodehydroascorbate and caroteniods) and antioxidative enzymes (superoxide dismutase, catalase, peroxidases, glutathione reductase and monodehydroascorbate reductase) were determined. Low temperature-induced significant increase in the contents of ascorbic acid, monodehydroascorbate and caroteniods as well as the activities of all antioxidative enzymes. The results show an increase in several components of the antioxidant system in cold-treated guayule plants, which may suggest a role in mitigating an increase in oxidative stress.     

地形因素对外来入侵种紫茎泽兰的影响

 在紫茎泽兰(Eupatorium adenophorum)的分布区内设置171块临时样地,研究它的盖度和多度与经纬度、海拔、坡向、坡度、风向坡等地形因素的关系。结果表明,紫茎泽兰入侵最严重地区位于102° E左右,随着纬度增加入侵能力逐渐下降,但不显著(p>0.05);紫茎泽兰在中国的分布以云贵高原,尤其是云南高原为主体,通过云贵高原与原产地墨西哥、哥斯达黎加的气候条件对比,推断紫茎泽兰将来在中国的分布区主体还将局限在云贵高原,但不排除在某些局域气候条件下,形成斑块的可能;该次调查的海拔范围为75 m～2 330 m,以200 m为一个海拔梯度,多项式回归分析显示：紫茎泽兰的盖度与多度随着海拔升高而增加（p<0.05）,但在2 000 m左右已趋平缓,表明紫茎泽兰适宜生长在海拔2 000 m左右; ANOVA的结果显示：坡向对紫茎泽兰的入侵影响显著（p<0.05）,通过多重比较发现,北坡和南坡的盖度比东坡大（p<0.05）;北坡的多度比东坡大（p<0.05）,说明东坡不易被紫茎泽兰入侵,而北坡和南坡紫茎泽兰的盖度和多度差异并不显著（p>0.05）,说明温度与湿度可能不是造成不同坡向紫茎泽兰入侵差异的主导因素;坡度对紫茎泽兰入侵的影响并不显著（p>0.05）;风向坡对紫茎泽兰的盖度影响不显著（p>0.05）,而对多度的影响显著（p<0.05）,背风坡的多度显著大于侧风坡。     

小麦产量与品质对灌浆不同阶段高温胁迫的响应

利用人工环境控制室对盆栽冬小麦 (品种 :‘济南 17’和‘鲁麦 2 1’) (Triticumaestivumcv.‘Ji′nan17’and‘Lumai2 1’) 分别在子粒灌浆前期、中期和后期进行了 2 5℃ / 35℃ (夜 /昼 ) 的高温胁迫处理, 以生长在 2 0℃ / 30℃ (夜 /昼 ) 环境中的小麦为对照, 研究了灌浆期不同阶段高温胁迫对小麦产量和品质的影响。结果发现 :1) 子粒蛋白质积累速率在高温处理期间显著提高 (p<0.0 5 ), 但高值持续期缩短, 并最终造成植株氮素积累量减少, 氮素收获指数降低 (p <0.0 5 ) 。 2 ) 小麦蛋白质的组成和品质对不同灌浆阶段的响应存在显著差异, 前期高温胁迫导致麦谷蛋白 /醇溶蛋白的比值以及麦谷蛋白大聚合体 (GMP) 含量增加, 标志蛋白质和淀粉品质的湿面筋含量升高、沉降值增加、膨胀势和高峰粘度等指标也显著提高 ;灌浆中期高温却导致上述指标降低 ;灌浆后期高温在造成粒重减小、产量降低和淀粉品质下降的同时, 却有利于蛋白质含量的提高。 3) 小麦淀粉积累的形成与蛋白质品质的形成是两个既相互联系又相互独立的过程, 高温条件下子粒蛋白质含量的升高是淀粉积累量减少造成的。     

Evidence for the presence and activity of a complete antioxidant defence system in mature sieve tubes

The phloem is the major route for the transport of solutes and nutrients from source to sink organs in plants. The functional transport phloem consists of parenchymal tissue, enucleate sieve elements, and the intimately connected companion cells. The general absence of a nucleus and functional ribosomes in sieve tubes poses problems especially for damage avoidance and repair of sieve element components. To examine how sieve tubes can remain functional during oxidative stress, we analysed phloem sap of cucumber and pumpkin plants with respect to the presence of antioxidant defence enzymes, their enzymatic activity, and activity changes after exposure to drought stress. Using 1D SDS-PAGE and nano ESI MS/MS, the presence of proteins such as cytosolic Cu/Zn superoxide dismutase, monodehydroascorbate reductase, and peroxidase could be shown. Moreover, activities for several antioxidant enzymes (superoxide dismutase, dehydroascorbate reductase, peroxidase) in phloem exudate could be demonstrated. The activity of these enzymes in phloem sap from cucumber and pumpkin plants increased in response to drought stress. The presented results together with earlier findings provide evidence supporting the presence of a complete machinery of antioxidant defence enzymes and detoxifying metabolites important for avoiding damage to essential components of the sieve elements due to oxidative stress.     

Responses of antioxidant enzymes to cold and high light are not correlated to freezing tolerance in natural accessions of Arabidopsis thaliana

Low temperatures and high light cause imbalances in primary and secondary reactions of photosynthesis, and thus can result in oxidative stress. Plants employ a range of low‐molecular weight antioxidants and antioxidant enzymes to prevent oxidative damage, and antioxidant defence is considered an important component of stress tolerance. To figure out whether oxidative stress and antioxidant defence are key factors defining the different cold acclimation capacities of natural accessions of the model plant Arabidopsis thaliana, we investigated hydrogen peroxide (H₂O₂) production, antioxidant enzyme activity and lipid peroxidation during a time course of cold treatment and exposure to high light in four differentially cold‐tolerant natural accessions of Arabidopsis (C24, Nd, Rsch, Te) that span the European distribution range of the species. All accessions except Rsch (from Russia) had elevated H₂O₂ in the cold, indicating that production of reactive oxygen species is part of the cold response in Arabidopsis. Glutathione reductase activity increased in all but Rsch, while ascorbate peroxidase and superoxide dismutase were unchanged and catalase decreased in all but Rsch. Under high light, the Scandinavian accession Te had elevated levels of H₂O₂. Te appeared most sensitive to oxidative stress, having higher malondialdehyde (MDA) levels in the cold and under high light, while only high light caused elevated MDA in the other accessions. Although the most freezing‐tolerant, Te had the highest sensitivity to oxidative stress. No correlation was found between freezing tolerance and activity of antioxidant enzymes in the four accessions investigated, arguing against a key role for antioxidant defence in the differential cold acclimation capacities of Arabidopsis accessions.     

PHYSIOLOGICAL AND BIOCHEMICAL MECHANISMS OF TEMPERATURE SHOCKS ON OVERWINTERING MATURE LARVAE OF PINE NEEDLE GALL MIDGE THECODIPLOSIS JAPONENSIS (DIPTERA: CE-CIDOMYIIDAE)*

Abstract The supercooling points of cold (-10C and -5C) and heat (37 C, 40 C and 45 C) shocked overwintering larvae were nearly the same as that of un-shocked ones (ca. -20C). Temperature shocks enhanced the ability to endure subzero temperature (- 15C, 3 h), and the cold shock treatment had more significant effect on maintaining larval survival than that of heat shock. It is the third insect that heat shock and cold shock enhanced its survival rate under low temperature simultaneously. A special stress protein (MW = 83 kD) was expressed under cold shock at -10 C and heat shock at 40 C or 45 C. It is also a few instances that a stress protein was expressed in the same insect under both heat shock and cold shock simultaneously. Meanwhile, the antioxidant system under different treatments was studied. Rapid cold hardening process had no oxidative stress because of the increase content of reduced glutathione and activity of glutathione reductase, but other treatments had.     

Metabolic profile and antioxidant responses during drought stress recovery in sugarcane treated with humic acids and endophytic diazotrophic bacteria

Water deficit is the major yield‐limiting factor for sugarcane crop production that can be enhanced by inoculating with plant growth promoting bacteria (PGPB) combined with humic substances. The aim of this work was to examine changes to the metabolic profile and antioxidant enzyme activity of sugarcane treated with PGPB and humic acid (HA) after drought and then rehydration. The drought was imposed by withholding irrigation for 21 days thereby measuring enzyme activity, metabolic profile and photosynthetic rate 1 week after rehydratation. Growth of plants treated with HA, PGPB and with both treatments combined (PGPB + HA) was higher than control plants. The antioxidant enzymes superoxide dismutase (SOD), catalase (CAT) and ascorbate peroxidase (APX) activities remained higher after rehydration only in plants treated with HA. Plants treated with HA and PGPB + HA exhibited increased transpiration, stomatal conductance and net photosynthesis than plants treated with PGPB. The PGPB‐treated plants exhibited drought resistance that resembled ‘delayed stress onset’, which is a new term for preserving water in the plants tissues. Water preservation in plants treated with PGPB was corroborated by higher relative water content (RWC) than control plants at the end of the drought period. Plants treated with HA + PGPB exhibited the highest water potential after rehydration and high RWC. Osmotic adjustment in the other treatments (control, HA and PGPB) was indicated by a new pattern of metabolic response after rehydration, including generally enhanced carbohydrates and proteins and specific changes induced by HA‐enhancing aromatic compounds, whereas PGPB exhibited enhanced fatty acids and other aliphatic H species. Humic acids assist with drought stress recovery by inducing antioxidant enzyme activity whereas PGPB induced preservation of leaf water potential and RWC by closing stomata efficiently, resulting in plant water preservation.     

Protection against oxygen radicals: an important defence mechanism studied in transgenic plants

Free radicals and other active derivatives of oxygen are inevitable by-products of biological redox reactions. Reduced oxygen species, such as hydrogen peroxide, the superoxide radical anion and hydroxyl radicals, inactivate enzymes and damage important cellular components. In addition, singlet oxygen, produced via formation of triplet state chlorophyll, is highly destructive. This oxygen species initiates lipid peroxidation, and produces lipid peroxy radicals and lipid hydroperoxides that are also very reactive. The increased production of toxic oxygen derivatives is considered to be a universal or common feature of stress conditions. Plants and other organisms have evolved a wide range of mechanisms to contend with this problem. The antioxidant defence system of the plant comprises a variety of antioxidant molecules and enzymes. Considerable interest has been focused on the ascorbate-glutathione cycle because it has a central role in protecting the chloroplasts and other cellular compartments from oxidative damage. It is clear that the capacity and activity of the antioxidative defence systems are important in limiting photo-oxidative damage and in destroying active oxygen species that are produced in excess of those normally required for signal transduction or metabolism. In our studies on this system, we became aware that the answers to many unresolved questions concerning the nature and regulation of the antioxidative defence system could not be obtained easily by either a purely physiological or purely biochemical approach. Transgenic plants offered us a means by which to achieve a more complete understanding of the roles of the enzymes involved in protection against stress of many types: environmental and man-made. The ability to engineer plants which express introduced genes at high levels provides an opportunity to manipulate the levels of these enzymes, and hence metabolism in vivo. Studies on transformed plants expressing increased activities of single enzymes of the antioxidative defence system indicate that it is possible to confer a degree of tolerence to stress by this means. However, attempts to increase stress resistance by simply increasing the activity of one of the antioxidant enzymes have not always been successful presumably because of the need for a balanced interaction of protective enzymes. The study of these transformed plants has allowed a more complete understanding of the roles of individual enzymes in metabolism. Protection against oxidative stress has become a feasible objective through the application of molecular genetic techniques in conjunction with a biochemical and physiological approach.     

氧化损伤是热胁迫下小金蝠蛾幼虫不能存活的重要原因

【目的】小金蝠蛾Thitarodes xiaojinensis是冬虫夏草菌Ophiocordyceps sinensis的寄主昆虫,生活于高海拔、高寒地区,低温适应性强,但在室温下（25~27℃）不能正常存活。本研究检测了热胁迫（27℃）对小金蝠蛾幼虫消化酶及抗氧化系统的影响,以期揭示小金蝠蛾室温不耐受的生理机制。【方法】小金蝠蛾8龄幼虫分两组进行处理：高温组于27℃下饲养,对照组于16℃下饲养。处理24 h后观察虫体状态,并解剖,取中肠及血淋巴。透射电镜观察中肠细胞线粒体结构,分别测定中肠总蛋白酶和糖基水解酶活性,血淋巴丙二醛（MDA）含量,以及血淋巴保护酶系中超氧化物歧化酶（SOD）、过氧化氢酶（CAT）和过氧化物酶（POD）的活性。【结果】两组幼虫中肠总蛋白酶及糖基水解酶活性均随反应温度（16~37℃）升高而增强。协方差分析显示,高温组幼虫酶活性极显著低于对照组（P<0.01）。然而,高温组幼虫在27℃下的酶活性与对照组幼虫在16℃下的酶活性无显著差异（P<0.05）。热胁迫下虫体血淋巴中丙二醛含量显著升高（P<0.05）,提示出现了氧化损伤。透射电镜结果显示,高温组中肠细胞线粒体肿胀,膜受损,嵴排列混乱,结构破坏。对活性氧起清除作用的3种保护酶中,仅POD活性显著升高（P<0.05）,SOD和CAT活性均无显著变化（P>0.05）。【结论】消化酶活性的变化可能不是小金蝠蛾室温不耐受的重要因素;氧化损伤是其热胁迫下不能正常存活的一个重要原因。