叶片水力性状研究进展

叶片水力性状表征了叶片为适应外在环境而形成的水分传输方面的生存策略。叶片水力性状会限制整个植株的水分传输,并影响植物的气体交换及其对干旱的响应,因此关于叶片水力性状的研究已成为植物水分关系领域的研究热点之一。本文概括了叶片水力性状的基本指标(包括叶片整体水力导度(Kleaf)、叶片木质部水力导度(Kxylem)、叶片木质部外水力导度(Kout-xylem)等)和叶片水力导度的5种主要测量方法;总结了叶脉网络结构和环境因素对叶片水力性状的影响、叶片水力性状与叶片功能指标(气孔导度、叶片水势、叶片最大光合速率)的匹配与权衡关系,以及叶片水力性状与植物抗旱性关系的最新研究进展;对今后叶片水力性状的研究提出了两点建议:1)将叶片水力性状与气体交换和叶解剖结构等相结合,构建叶片碳-水耦合模型,揭示叶片应对外界环境变化而采取的生态策略,以及植物的水-碳投资机理;2)开展植株各部分(根-茎-叶)间水分传输的交互作用研究,筛选出水力系统高效安全的物种。     

绿化林木氰含量,质膜透性与季节的关系及其抗性的初步研究

研究表明：家榆、糖械、垂柳和中东杨等四种林木叶片氯含量和质膜透性明显随季节的更替而增加,林木受到氯气污染叶绿素含量显著下降。植物对氯气的吸收能力和抗性并不尽一致,家榆对氯的吸收能力很大,但其抗性居中;中东杨对氯的吸收能力和抗性均居中等;糖械的吸收能力和抗性均较低;垂柳对氯的吸收能力较大,而且具有很强的抗性。     

绿化林木氯含量、质膜透性与季节的关系及其抗性的初步研究

研究表明:家榆、糖槭、垂柳和中东杨等四种林木叶片氯含量和质膜透性明显随季节的更替而增加,林木受到氯气污染叶绿素含量显著下降。植物对氯气的吸收能力和抗性并不尽一致,家榆对氯的吸收能力很大,但其抗性居中;中东杨对氯的吸收能力和抗性均居中等;糖槭的吸收能力和抗性均较低;垂柳对氯的吸收能力较大,而且具有很强的抗性。     

玉米光合生理参数对全生育期干旱与拔节后干旱过程的响应

作物对干旱的响应已有大量研究,但对不同强度干旱及其持续时间响应过程的研究甚少。通过开展全生育期干旱和拔节后干旱过程的影响模拟实验,试图揭示夏玉米叶片光合生理特性对不同干旱强度及其持续时间的响应机理,为我国北方地区玉米育种和节水灌溉提供科学的理论依据。研究结果表明:1)干旱显著降低了玉米叶片的叶绿素相对含量(SPAD),但两种干旱处理下的SPAD随干旱持续时间的延长而出现响应差异并逐渐扩大;2)不同强度、不同持续时间的干旱处理均明显抑制了玉米叶片的最大净固碳速率(A_(sat)),拔节后的轻度干旱过程对玉米叶片A_(sat)的影响最大;3)拔节期后重度干旱过程处理下玉米叶片虽保持较高的光合速率,但叶片数量急剧减少,而且一直保持在营养生长阶段,没有产量;4)在两种干旱处理方式下,玉米叶片PSII的光化学效率(F_v′/F_m′)均到灌浆中期才开始出现显著降低现象,表现出了较强的干旱适应能力;5)SPAD与叶片光合及叶绿素荧光参数均存在较强的相关关系,可作为评价玉米叶片光合性能对干旱胁迫敏感性的指示性指标;6)不仅干旱强度影响玉米叶片的生理生态过程,干旱发生的时间也具有重要的影响。     

兔心脏左室乳头肌的形态和动脉分布

乳头肌可因缺血、纤维化或梗塞而影响其收缩功能,并产生二尖瓣关闭不全(朱清于等,1980)。致成乳头肌功能不全最常见的原因是心肌供血不足,因此研究乳头肌的动脉,具有实用意义。一些作者(Estes,1966;Farrer-Brown,1968;Ranganathan,1969等)对人心脏乳头肌动脉来源、分支分布作过研究,但关于实验动物家兔乳头肌的动脉的研究文献尚少报道。本文为了开展实验性乳头肌梗塞的研究,对兔心脏左室乳头肌的形态、动脉来源、分布类型以及口径、血管密度等进行了研究。     

引种期同质园翅荚木主要叶功能性状与种源地环境关系

从比叶面积(SLA)、叶片相对含水量(LRWC)、叶组织密度(LTD)、叶片干物质含量(LDMC)、叶片碳(C)氮(N)磷(P)含量及其化学计量比等方面对在引种期同质园的广西桂林市(GGL)、广西靖西市(GJX)、湖南江华县(HJH)、湖南通道市县(HTD)、广东英德市(GYD)等5翅荚木种源叶片主要功能性状进行差异分析及相关性分析,并研究翅荚木叶功能性状与种源地环境因子的关系。结果显示,(1)不同种源间叶片C、N含量及C/N差异显著,5种源间叶片C含量GYD最高、GGL最低,N含量GJX最高、GYD最低,C/N为GYD最高、GJX最低。(2)比叶面积与叶组织密度呈显著负相关;叶片N含量与C/N和C/P呈显著负相关,与N/P呈显著正相关;C/P与P含量呈显著负相关,与C/N呈显著正相关;C/N与N/P呈显著负相关。(3)翅荚木叶功能性状主要受七月均温、年均温和相对湿度等地理环境因子影响。七月均温与C/P、比叶面积呈正相关,与叶片N含量、叶片干物质含量、叶组织密度呈负相关;年均温与C/N呈正相关,与N/P呈负相关;相对湿度与叶片P含量、叶组织密度呈正相关,与C/P、比叶面积呈负相关。研究结果有助于理解翅荚木对引种区的环境适应特征及其在引种期的生长与生存策略,对探究翅荚木的养分利用策略、揭示其对环境变化的响应机制等具有重要意义,并为相关部门选择适宜的翅荚木引种栽培种源及开展其优良种源的遗传改良等提供理论指导与决策参考。     

蒙古沙冬青叶蛋白质双向电泳体系的建立和优化

开展蒙古沙冬青叶组织的蛋白质组学研究,需要建立和优化叶的蛋白质组双向电泳体系。本研究以蒙古沙冬青(Ammopiptanthus mongolicus)叶片为材料,比较了不同总蛋白提取方法(TCA-丙酮法和Tris-饱和酚法)、不同染色方法(考马斯亮蓝染色和硝酸银染色)和不同蛋白质上样量对双向凝胶电泳蛋白质得率和等电聚焦效果的影响。结果显示,采用TCA-丙酮法提取蒙古沙冬青叶片总蛋白,蛋白质上样量500μg,以硝酸银染色SDS-PAGE胶,双向电泳的分辨率最高,图谱清晰。该方法的建立为开展蒙古沙冬青叶片蛋白质组定量和定性分析奠定了基础。     

6-苄氨基嘌呤对小麦叶片中脱落酸降解速率的影响

细胞分裂素(CTK)与脱落酸(ABA)对于植物的许多不同代谢过程都有相反的生理效应。(Fo—untain等1976;Krawiarz等1977;Biddington等1977)。用含有CTK和ABA的溶液处理植物材料时,常可以在多种植物中观察到拮拉作用(Longo等1978,1981,黄海等1984)。这一现象引起了一些研究者的兴趣(Longo等1981)。很明显,这种拮抗作用可以从两个方面来解释:1、CTK和ABA可能对植物的某些代谢过程有相反的作用。2、这两种激素之间可能有相互作用,即彼此加速对方的降解或转化。Even—chen等(1975)发现,用CTK处理烟草叶时,可以降低组织中ABA含量。Gepstein等(1980)发现,大麦叶片在黑暗中进行离体培养时,ABA含量上升7倍,预先用激动素处理可以阻止叶片中ABA含量的增加。然而这些工作都未能说明,在植物体内CTK的作用究竟是抑制了ABA的合成还是加速了ABA的降解。本文以小麦叶片为材料,人工喂入ABA,观察了喂入的ABA在组织中的降解以及6—苄氨基嘌呤(6BA)对喂入的ABA体内降解的影响,并对6BA促进ABA降解的机理进行了讨论。     

Effects of ozone and aerosol pollution on photosynthesis of poplar leaves

由于经济的快速发展, 中国大部分地区正面临着严峻的复合型大气污染, 其中臭氧和气溶胶是两种主要污染物。已有的研究表明臭氧对叶片的氧化性伤害能够抑制光合作用, 而气溶胶可通过增加散射辐射比例或缓解高温抑制促进光合作用。但复合污染下, 臭氧和气溶胶如何共同调控叶片光合作用, 仍缺乏研究。该研究利用北京及周边地区之间的污染梯度, 选择加杨(Populus × canadensis)作为实验对象, 于2012-2013年生长季期间对叶片光合速率进行连续观测, 并同时监测臭氧浓度(AOT40)、气溶胶光学厚度(AOD)、空气温度和冠层内外光合有效辐射(PAR)等环境因子, 以期探讨大气复合污染下臭氧和气溶胶变化对植物叶片光合作用的影响及相关机制。结果表明: (1)臭氧浓度与空气温度、气溶胶浓度之间均呈显著正相关关系, 但气溶胶浓度与空气温度没有显著相关关系; (2)臭氧浓度增加显著抑制了阳生叶片的光合作用, 但气溶胶浓度上升促进了阳生叶片的光合作用; 臭氧浓度升高对阴生叶片光合作用的影响较小, 但气溶胶浓度上升促进了阴生叶片的光合作用; (3)标准化后的结果显示, 臭氧对阳生叶片光合作用的影响最大, 此时气溶胶的促进作用一定程度上补偿了臭氧浓度上升所带来的抑制效应。对于阴生叶片光合作用而言, 气溶胶则是最重要的影响因素。该研究发现复合污染下阴生叶和阳生叶光合响应不同, 这表明冠层结构可能通过影响阴生叶和阳生叶的比例, 从而对植物生长产生不同影响。该研究对理解大气复合污染如何影响光合作用提供了的机理支持, 同时也表明, 为了维持生态系统生产力及功能, 需要同时控制气溶胶和臭氧污染。     

亚硫酸氢钠在低光强下对叶绿体循环光合磷酸化的促进作用

我们在70年代曾发现喷洒低浓度的亚硫酸氢钠能提高多种作物叶片的光合作用速率(沈允钢等1980)。近年来,谭实和沈允钢(1987)观察到喷洒低浓度的亚硫酸氢钠不但能增加作物叶片的光合作用速率,而且同时增加其呼吸作用速率,并初     

98种园林植物对氯气的反应和抗性的研究

应用动式熏气装置,研究了Cl_2对98种植物的急性伤害症状及其抗性。试验的Cl_2浓度为0.2、0.3、0.5、1、2、4、7、8ppm 8个等级。Cl_2伤害的特征症状是先在叶下表面出现微小的针点状,斑点状伤斑。死、活组织间无明显界线。试验植物对Cl_2的抗性分为4级:敏感(阈值≤0.3ppm×4小时),较敏感(阈值>0.3,≤0.5ppm×4小时),较强(阈值>0.5,≤1ppm×4小时),强(阈值>1ppm×4小时)。 本试验的结果与作者以前在工厂栽培试验的结果相比较认为,以急性伤害阈值来评定植物的抗性,对大多数是适用的,此方法有应用价值。植物伤害的典型症状,可作为大气中Cl_2污染的植物指示。     

HISTOLOGICAL EFFECTS OF AQUEOUS ACIDS AND GASEOUS HYDROGEN CHLORIDE ON BEAN LEAVES

Primary leaves of Phaseolus vulgaris L. (pinto bean), 9 or 12 days from sowing, were exposed to aqueous acids, chloride salts, or hydrogen chloride gas. Leaves were examined for the presence and severity of resultant visible injury and sampled for light and scanning electron microscopy. Exposure to 0.06 n HCl, HNO₃, H₂SO₄ or 14.5–19.0 mg m^-3 gaseous HCl for 20 min evoked similar foliar injury including glazing and necrosis of the laminas. This injury appeared to result initially from plasmolysis and collapse of the epidermis and subsequently of the underlying mesophyll. Cellular injury was accompanied by various cytoplasmic alterations. Microscopic symptoms observed in leaves exposed to gaseous HCl or aqueous acids included vesicles and particulates within the larger vacuoles. Similar symptoms were present in leaves exposed to polyethylene glycol 6000. Differential effects included formation of necrotic “pits” and preferential injury to paravascular tissues in leaves treated with aqueous acids and crystalline chloroplast inclusions in gaseous HCl-treated and water-stressed leaves. The visible and microscopic appearances of leaves exposed to aqueous acids or gaseous HCl were compared and related to injury stemming from acid precipitation and a possible mechanism of action for gaseous HCl phytotoxicity.     

Changes and Regulation of Stress Ethylene Production and Polyamine Content in Spring Wheat Leaves Exposed to O3

Spring wheat plants (Triticum aestivum L. ) at 4-leaf stage were fumigated with 03 (0. 796± 0.04 mg/m3) in open-top chambes. The changes and regulation of stress ethylene production and polyamine metabolism in leaves were emphatically investigated. The results revealed that the stress ethylene production in leaves exposed to 03 increased at first and declined afterwards; and could be inhibited by COC12. During the initial stage of 03 stress, the activity of arginine decarboxylase (ADC) increased, but with the augment of leaf injury caused by 03, the ADC activity was correspondingly retarded. After leaves were sprayed with p-chloromercuri benzoie acid (PCMB), the ADC activity was inhibited and putamine content was reduced. However the Spd and Spm content rose slightly. After leaves were sprayed with CoC12, the ADC activity was not significantly altered, whereas the content of Spd and Spm accumulated greatly. Moreover, the high concentration of Spd and Spm maintained for a long time so as the leaf injury from 03 stress became less serious. These results indicate that the potyamine content can be accumulated by inhibiting stress ethylene production. The high concentration of Spd and Spm plays a major role in protection against 03 injury. Change of polyamine content in leaves is an adaptive regulatory mechanism against 03 stress.     

Efficacy of certain disinfectants against infectious pancreatic necrosis virus

The virucidal properties of iodophor, chlorine (sodium hypochlorite), formalin, thimerosal (organic mercurial compound), malachite green, and acriflavine were tested on infectious pancreatic necrosis virus (IPNV). Iodine and chlorine showed good activity, but efficacy depended on the concentration of virus, the presence of organic matter (calf serum), and water _pH. Water hardness (0-300 mg 1⁻¹ as CaCO₃) did not affect virucidal activity. In a 5 min exposure, 4 mg 1⁻¹ available iodine inactivated 10^3.9 TCID₅₀ m1⁻¹ IPNV but 16 mg 1⁻¹ iodine were needed for inactivation of 10^6.3TCID₅₀m1⁻¹. The addition of 0-5% calf serum significantly reduced the iodine concentration and the virucidal activity. In comparison, 4 mg 1⁻¹ chlorine were needed to inactivate 10⁴⁶ TCID₅₀ m1⁻¹ IPNV in 5 min. However, the addition of 0-07 % serum greatly reduced the chlorine concentration and extended the virucidal contact time to 30 min or more. IPNV at 10^6.3 TCID₆₀ m1⁻¹ was not inactivated by exposures for 60 min to 0-2% formalin, 10 min to 0-2% thimerosal, 60 min to 5 mg 1⁻¹ malachite green, or 20 min to 500 mg 1⁻¹ acriflavine. However, acriflavine at 0-5 mg 1⁻¹ in cell culture media prevented the development of cytopathology caused by IPNV and may be useful in the treatment of the disease.     

Monitoring chilling injury: A comparison of chlorophyll fluorescence measurements, post-chilling growth and visible symptoms of injury in Zea mays

Changes in chlorophyll fluorescence emission from maize ( Zea mays L. cv. Northern Belle) seedlings chilled at 1.5°C in the dark for 3–30 h were compared with the ability of plants to resume growth in the immediate post-chilling period and with the development of visible symptoms of injury to the leaves. During chilling, the maximal rate of increase of the induced chlorophyll fluorescence rise. F_R, was measured on secondary leaf tissue. F_R decreased exponentially, at approximately the same rate in plants grown and chilled in hydroponic pots, in leaves detached from similar plants and in plants that were removed from the hydroponic pots and laid on wet filter paper adjacent to the detached leaves. The half-fall time for F_R in the 3 treatments was 7.8 ± 1.3 h, 8.6 ± 0.6 h and 8.8 ± 1.0 h, respectively. Following seedling removal from 1.5°C and return to 25/15°C, relative growth rates were determined from daily measurements of plant fresh weight gain. Compared with non-chilled seedlings, plants chilled for 3 h and longer showed depressed rates of growth. Inhibition of growth in the immediate post-chilling period (0–27 h) was linearly related to the duration of the chilling period and had a high positive correlation with the decrease in chlorophyll fluorescence (linearly related to log F_R) sustained during the chilling exposure. Visible symptoms of chilling injury developed during the post-chilling period on seedlings chilled for longer than 3 h. The decrease in log F_R during chilling was also linearly correlated with the severity of visual symptoms of chilling injury expressed in the post-chilling period. It is concluded that the extent of chilling injury in maize can be rapidly and non-destructively assessed from measurements of chlorophyll fluorescence.     

Performance of a periodic anaerobic baffled reactor fed on Chinese traditional medicine industrial wastewater

A four-compartment periodic anaerobic baffled reactor (PABR) was run in a 'clockwise sequential' switching manner continuously fed on chinese traditional medicine industrial wastewater under an alkalinity concentration between 1000 and 1500 mg CaCO(3)/L of the feed with average organic load rate (OLR) at about 1, 2, 4 and 6 kg COD/(m(3)d) for 12, 24, 24 and 6d, respectively. Hydraulic residence time was 2d, while switching period was 4d. As the average OLR increased to 6 kg COD/(m(3)d), the time of the sharp fall in pH, chemical oxygen demand (COD) removal, gas production and methane percentage of the biogas of all the compartments and the time of rapid volatile fatty acids accumulation in effluent coincided, hence the PABR became sour. Denaturing gradient gel electrophoresis (DGGE) community fingerprints and their cluster analysis revealed that community structures of each compartment tended to be more closely related if the PABR was not overloaded.     

二苯基脲磺酸钙对小麦苗抗旱性的影响

用浓度为100mgL^-1的二苯基脲磺酸钙溶液喷小麦苗期叶片,能明显增加小麦幼苗的过氧化物酶、过氧化氢酶和超氧化物岐化酶的活性,并使保水力和复活能力增强。用100mgL^-1DSC拌种,还可提高小麦种子在干旱条件下的萌发率。     

OZONE SENSITIVITY OF LEAVES: RELATIONSHIP TO LEAF WATER CONTENT,GAS TRANSFER RESISTANCE,AND ANATOMICAL CHARACTERISTICS

Relative water content, resistance to gas transfer, stomatal spacing, and other characteristics of primary bean leaves were studied in relation to ozone sensitivity and injury. Cells of primary bean leaves are maximally sensitive to ozone exposure 9–10 days after germination under our experimental conditions. The stage of maximum sensitivity was not correlated with changes in stomatal number or resistance on either adaxial or abaxial leaf surfaces. It was deduced that bean leaf sensitivity was a function of more internal circumstances, and gas exchange was never the limiting factor through the developmental period studied. Changes in resistance were not significantly altered by ozone levels that produced no visible injury. After exposure to high ozone doses, a decrease in adaxial resistance occurred apparently as a result of palisade and epidermal cell lysis. Normally most gas exchange occurs through the adaxial surface. A 10 % decrease in relative water content accompanying a 60-min ozone exposure of 0.55 ppm could not be explained physiologically on the basis of cell injury as no visible leaf injury occurred.     

OBSERVATIONS ON THE EFFECT OF ADDED HYPOCHLORITE ON THE NUMBERS AND KINDS OF BACTERIA IN MILK

SUMMARY: In an investigation of the effect of added hypochlorite on the bacterial flora and bacterial numbers of milk no bactericidal action was apparent within 15 min of adding the disinfectant unless at least 500 p/m available chlorine had been added. After 24 hr storage at atmospheric temperature a reduction in numbers was found with 10 p/m available chlorine and this became more pronounced with increased concentrations. Micrococci seemed more susceptible to the bactericidal effect than streptococci, which formed, after 24 hr storage, the predominant residual flora where 250 and 500 p/m available chlorine had been added. Acid production by lactic streptococci was retarded at concentrations greater than 50 p/m available chlorine in a 5 hr incubation period at 30°, but after a 24 hr incubation the decrease in acid production was only apparent when 500 or 1,000 p/m available chlorine was present. Little effect on acid production by lactic streptococci was found when less than 50 p/m available chlorine had been added. The residual chlorine content of rinses of equipment sterilized in hypochlorite solutions was negligible.     

Treatment of waste gas containing diethyldisulphide (DEDS) in a bench scale biofilter

Waste gas containing diethyldisulphide (DEDS) is generated from various industries including pulp and paper, refinery, rayon and molasses based distilleries, etc. DEDS has odour threshold detection with an average concentration of 10(-9)mg/m(3) at 25 degrees C. DEDS is toxic to bacteria, fungus and also to mammals when exposed for a long period. Waste gas containing DEDS require proper treatment prior to discharge into the environment. DEDS containing waste gas was treated in a biofilter, packed with compost along with wooden chips and enriched with DEDS degrading microorganisms. The biofilter could remove DEDS to the extent of 94+/-5% at a loading of 1.60 g/m(3)/h with an empty bed retention time of 150s. At optimal operating conditions, the average moisture content required by the biofilter was in the range of 60-65%. The biodegradative products of DEDS were thiosulphate and sulphate.