Tolerance of soil algae and cyanobacteria to drought stress

Tolerance to drought stress in soil crust microorganisms is essential for exploiting suitable organisms for restoring soil. In this study, the responses to drought stress of two drought‐tolerant species, a green alga and a cyanobacterium, were compared with those of two non‐tolerant green algae. In response to drought stress, induced by treatment with polyethylene glycol, the intracellular proline levels increased and were associated with increases in malondialdehye, pigment contents, and enzyme activities such as superoxide dismutase (SOD) and peroxidase (POD). Our results suggest that tolerance to drought stress could be indicated by the intracellular levels of proline, SOD, and carotenoids. This study provides insights into the drought physiology of the photosynthetic microorganisms and suggests that Leptolyngbya boryana and Chlorella vulgaris are suitable pioneer organisms for soil restoration.     

Production of γ-linolenic acid from the marine green alga Chlorella sp. NKG 042401

Abstract γ-Linolenic acid (GLA) production using a high GLA producing marine green alga, Chlorella sp. NKG 042401, was studied. GLA was presented in the galactolipid fraction (37.9%/total fatty acids). The effects of growth conditions on GLA production were studied. Optimum salinity for GLA production was 5 g 1⁻¹, at which salinity the highest cell concentration was achieved, resulting in a 1.6-fold increase in GLA productivity. Total fatty acid, however, was not drastically affected by change of salinity. Nitrogen starvation decreased the ratio of unsaturated fatty acids, and consequently GLA ratio in total fatty acid decreased. The urea adduct method was used to concentrate GLA from crude extract. As a result, after 5 sequential concentration procedures, GLA was concentrated 5-fold with a yield of 49%.     

干旱胁迫下几种荒漠植物抗氧化能力的比较研究

对3种荒漠植物沙拐枣、梭梭和沙枣在干旱胁迫下的抗氧化能力进行了比较研究。结果表明,3种荒漠植物长期处于干旱生境下,都受到不同程度的膜脂过氧化,其中,沙枣的膜脂过氧化程度大于梭梭和沙拐枣。在1d的变化中,随着水势的下降,上午10：00前3种植物体内MDA含量都表现为上升趋势,此后梭梭和沙拐枣体内MDA含量表现为持续下降,到下午18：00达到最低,说明尽管水分胁迫在加强,它们却表现出极强的抗氧化胁迫能力;而沙枣体内MDA含量在下午18：00又开始上升,表明沙枣表现出一定的调节能力,但其能力有限,低于梭梭和沙拐枣。3种植物对干旱胁迫的应激方式不同;沙拐枣体内的SOD活性和ASA含量明显高于梭梭和沙枣,这与其体内相对较低的O2含量具有很好的一致性;对于植物体内H2O2的清除,抗氧化酶系统对沙拐枣体内的H2O2的清除起了一定的作用,但不是主要的,抗氧化剂GSH起主要作用,而梭梭体内南抗氧化酶系统中的CAT起主要作用,抗氧化剂起辅助作用;沙枣体内的AsA-POD起主要作用,其它的抗氧化酶和氧化剂起辅助作用。同时,植物体内还保持管各种酶的平衡。     

Observations on tolerance to heavy metals of four green algae in relation to pH

Abstract

The inhibition of growth by different concentration of eight heavy metals: Cd, Cr, Co, Cu, Hg, Ni, Se and Tl, in inorganic medium at pH 3 and 6.5, was studied in four green algae: Chlorella protothecoides Krüger, Chlorella saccharophila (Krüger) Migula, Coenochloris sp. and Stichococcus bacillaris Naegeli.

The results suggest that pH has an important effect on heavy metal toxicity in algae although it is difficult to establish a relationship between pH and heavy metals.     

外生菌根对干旱胁迫的响应

从外生菌根真菌、外生菌根共生体以及外生菌根的间接作用等方面阐述外生菌根如何抵制干旱胁迫,并对未来我国外生菌根的研究提出了建议。干旱可以抑制外生菌根真菌的生长并降低其群落中真菌的多样性,干旱胁迫下外生菌根真菌子实体可以利用深度30cm以下的土壤水,子实体的表面积和体积比可作为筛选抗旱真菌的一个重要因子;在遭受干旱胁迫时,外生菌根共生体可以发生形态变化来应对干旱,同时增加了植株水分的吸收并改善了植物的光合作用、活性氧以及激素等相关代谢;外生菌根对植物生长的促进作用、增加土壤碳汇以及对其他根际微生物生长的促进作用等对宿主植物应对干旱胁迫有利。未来我国外生菌根研究应加强对干旱区优良菌-树组合的筛选工作,同时加大对乡土外生菌根真菌资源的调查力度,未来研究应重点向分子生物学领域推进。     

两个不同耐旱性棉花品种根系生理特性对干旱的响应

为探明不同抗旱性棉花品种的根系生理特性对干旱的响应及其与生物量的关系,以不耐旱性品种‘新陆早17号'(L17)和耐旱性品种‘新陆早22号'(L22)为试材,在土柱栽培条件下设常规灌溉(CK)、轻度干旱(W₁)和中度干旱(W₂)处理,研究干旱胁迫对不同耐旱性棉花品种根系活力、保护酶活性及解剖结构(导管直径、数量)和生物量的影响。结果表明:干旱胁迫下两棉花品种根系可溶性蛋白(SP)含量、根系活力(RV)、木栓层数、根茎导管数量、导管直径显著降低,根系丙二醛(MDA)含量及保护性酶活性显著增加,进而导致地上部干物质量显著降低。与L17相比,L22的SP含量、0～40 cm和80～120 cm土层RV、木栓层数、根茎导管数量、导管直径以及地上部干物质量均显著增加,尤其W₂条件下L22的RV降幅比L17低26.2%,过氧化氢酶(CAT)、过氧化物酶(POD)和超氧化物歧化酶(SOD)活性和皮层厚度分别比L17高43.6%、6.9%、25.4%、19.9%,且差异均达到显著水平。干物质量与RV、SOD、POD、木栓层数、导管直径和个数之间均呈显著正相关。因此,耐旱性强的棉花品种在干旱条件下通过保持较高的根系活性、木栓层数、导管直径和数量,进而促进地上部生物量积累,是其具有较高耐旱性的生理机制。     

黄连木对干旱胁迫的生理响应

研究了自然干旱条件下黄连木（Pistacia chinensis Bunge）的生理变化。结果表明,随土壤含水量的减少,叶绿素b含量、光合速率、叶片相对含水量与叶水势均下降;叶绿素a和可溶性糖含量、叶绿素a和b的比值及总叶绿素含量呈现上升的趋势;超氧化物歧化酶活性先升后降;丙二醛含量干旱胁迫前期升高,后期变化不明显;净光合速率、气孔导度和蒸腾速率随土壤含水量的减少逐步降低。气孔和可溶性糖含量都是影响黄连木光合速率的关键因子,干旱胁迫前12d光合速率主要受气孔限制,之后为非气孔限制。干旱胁迫前期渗透调节物质以可溶性糖为主,干旱胁迫较重时脯氨酸含量急剧升高,与可溶性糖同时起渗透调节作用。     

干旱胁迫对小麦幼苗根系生长和叶片光合作用的影响

采用水培试验方法,以2个耐旱性不同的小麦品种(敏感型望水白和耐旱型洛旱7号)为材料,研究了干旱胁迫对小麦幼苗根系形态、生理特性以及叶片光合作用的影响,以期揭示小麦幼苗对干旱胁迫的适应机制.结果表明： 干旱胁迫下,2个小麦品种幼苗的根系活力显著增大,而根数和根系表面积受到抑制;干旱胁迫降低了望水白的叶片相对含水量,提高了束缚水/自由水,而对洛旱7号无显著影响;干旱胁迫降低了2个小麦品种叶片的叶绿素含量、净光合速率、蒸腾速率、气孔导度和胞间CO2浓度,但随胁迫时间的延长,洛旱7号的叶绿素含量和净光合速率与对照差异不显著;干旱胁迫降低了2个小麦品种幼苗的单株叶面积,以及望水白的根系、地上部和植株生物量,而对洛旱7号无显著影响.水分胁迫下,耐旱型品种可以通过提高根系活力、保持较高的根系生长量来补偿根系吸收面积的下降,保持较高的根系吸水能力,进而维持较高的光合面积和光合速率,缓解干旱对生长的抑制.     

Chlorella variabilis and Micractinium reisseri sp. nov. (Chlorellaceae,Trebouxiophyceae): Redescription of the endosymbiotic green algae of Paramecium bursaria (Peniculia,Oligohymenophorea) in the 120th year

Symbiotic algae of the ciliate Paramecium bursaria (Ehrenberg) Focker are key species in the fields of virology and molecular evolutionary biology as well as in the biology of symbiotic relationships. These symbiotic algae were once identified as Zoochlorella conductrix Brandt by the Dutch microbiologist, Beijerinck 120 years ago. However, after many twists and turns, the algae are today treated as nameless organisms. Recent molecular analyses have revealed several different algal partners depending on P. bursaria strains, but nearly all P. bursaria contains a symbiont belonging to either the so‐called ‘American’ or ‘European’ group. The absence of proper names for these algae is beginning to provoke ill effects in the above‐mentioned study areas. In the present study, we confirmed the genetic autonomy of the ‘American’ and ‘European’ groups and described the symbionts as Chlorella variabilis Shihira et Krauss and Micractinium reisseri Hoshina, Iwataki et Imamura sp. nov., respectively (Chlorellaceae, Trebouxiophyceae).     

CO2浓度倍增条件下土壤干旱对两种沙生灌木碳氮含量及其适应性的影响

研究利用大型环境生长箱模拟了两种沙地优势灌木柠条和羊柴对 CO2 浓度倍增和土壤干旱交互作用的响应。 CO2 浓度倍增使柠条和羊柴的生物量分别增加了 6 2 .90 %和 5 0 .0 0 % ,使植株叶面积分别增加了 4 1.86 %和 4 5 .84 %。 CO2 浓度的倍增效应随着土壤干旱的增加而下降。 CO2 浓度倍增和土壤干旱都增加单位叶面积质量 (L MA) ,但 CO2 浓度倍增主要增加了水分充足时的 L MA。 CO2 倍增使柠条和羊柴叶片含氮量分别降低了 10 .4 0 %和 5 .0 6 %。柠条叶片含氮量在所有土壤干旱条件下均呈现出增加的趋势 ,而羊柴叶片的含氮量仅在严重干旱条件下增加。 CO2 倍增使叶片的碳氮比显著增加 ,但土壤干旱使之降低。CO2 浓度倍增降低叶肉细胞质膜的过氧化产物丙二醛 (MDA )的含量 ,干旱使之增加。叶片含氮量与 MDA呈显著正相关。研究表明 CO2 倍增有保护叶片免受严重土壤干旱的作用 ,但干旱的负面影响是 CO2 倍增效应所难以弥补的     

The active uptake of carbon dioxide by the unicellular green algae Chlorella saccharophila and C. ellipsoidea

Abstract. Mass spectrometry has been used to measure the rates of CO₂ uptake of acid- and alkali-grown cells of the green algae Chlorella ellipsoidea (UTEX 20) and C. saccharophila (UTEX 27). The time course of CO₂ formation on addition of 100mmol m⁻³ K₂CO₃ to cells in the dark was used as an assay for external carbonic anhydrase (CA). No external CA was detected in acid-grown cells of either species or in alkali-grown cells of C. ellipsoidea but was present in alkali-grown C. saccharophila . In the absence of external CA, or when it was inhibited by 5mmol m⁻³ acetazolamide, cells of both species, on illumination, rapidly depleted the free CO₂ in the medium at pH 7.5 to near zero concentrations before maximum photosynthetic O₂ evolution rates were established. Addition of bovine CA rapidly restored the equilibrium CO₂ concentration in the medium, indicating that the cells were selectively taking up CO₂. Transfer of cells to the dark caused a rapid increase in the CO₂ concentration in the medium largely due to the efflux of inorganic carbon from the cells as CO₂. This rapid light-dependent CO₂ uptake takes place against pH and concentration gradients and, thus, has the characteristics of active transport.     

The desert green algae Chlorella ohadii thrives at excessively high light intensities by exceptionally enhancing the mechanisms that protect photosynthesis from photoinhibition

Although light is the driving force of photosynthesis, excessive light can be harmful. One of the main processes that limits photosynthesis is photoinhibition, the process of light-induced photodamage. When the absorbed light exceeds the amount that is dissipated by photosynthetic electron flow and other processes, damaging radicals are formed that mostly inactivate photosystem II (PSII). Damaged PSII must be replaced by a newly repaired complex in order to preserve full photosynthetic activity. Chlorella ohadii is a green microalga, isolated from biological desert soil crusts, that thrives under extreme high light and is highly resistant to photoinhibition. Therefore, C. ohadii is an ideal model for studying the molecular mechanisms underlying protection against photoinhibition. Comparison of the thylakoids of C. ohadii cells that were grown under low light versus extreme high light intensities found that the alga employs all three known photoinhibition protection mechanisms: (i) massive reduction of the PSII antenna size; (ii) accumulation of protective carotenoids; and (iii) very rapid repair of photodamaged reaction center proteins. This work elucidated the molecular mechanisms of photoinhibition resistance in one of the most light-tolerant photosynthetic organisms, and shows how photoinhibition protection mechanisms evolved to marginal conditions, enabling photosynthesis-dependent life in severe habitats.     

The significance of hydrogenase activity for the energy metabolism of green algae: anaerobiosis favours ATP synthesis in cells of Chlorella with active hydrogenase

In cells of the green alga Chlorella fusca, which contain active hydrogenase(s), the concentration of ATP, NADH and NADPH were measured during a 5 h period of anaerobiosis in the dark and upon subsequent illumination with high light intensities (770 W/m²), conditions which favour optimal hydrogen photoproduction.ATP concentrations were also determined in cells of Chlorella fusca, whose hydrogenase was inactivated prior to illumination, and in cells of Chlorella vulgaris which do not contain hydrogenase. In the dark, the ATP concentration increased slightly during anaerobiosis in cells with active hydrogenase. This increase in ATP concentration was accompanied by an increase of NADH and a decrease of NADPH content.Upon illumination, the ATP content increased in cells with an active hydrogenase, whereas the NADH content decreased. The rate of phosphorylation was twice that observed in cells without active hydrogenase.This ATP synthesis in the light was not inhibited by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) (10 mol/l) nor by carbonylcyanide-3-chlorophenyl-hydrazone (CCCP) (1 mol/l) but was diminished by 500 mol/l dibromothymoquinone (DBMIB) and 6 mol/l carbonylcyanide-3-chlorophenyl-hydrazone (CCCP).It was concluded that an active hydrogenase can support ATP production under anaerobic conditions in the dark as well as in the light. NADH might serve in vivo as electron donor for a fermentative production of hydrogen in the light.Possible mechanisms underlying ATP production under anaerobiosis and hydrogen productive conditions are discussed.Abbreviations CCCP Carbonylcyanide-3-chlorophenyl-hydrazone - DBMIB dibromothymoquinone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - FCCP carbonylcyanide-p-trifluormethoxyphenyl-hydrazone - HEPES N-2-hydroxyethylpiperazin-N-2-ethan-sulfonic acid - PSI II, photosystem I, II respectively - PQ plastoquinone     

Composition of the sheath produced by the green alga Chlorella sorokiniana

AIMS: To investigate the chemical characterization of the mucilage sheath produced by Chlorella sorokiniana. METHODS AND RESULTS: Algal mucilage sheath was hydrolysed with NaOH, containing EDTA. The purity of the hydrolysed sheath was determined by an ATP assay. The composition of polysaccharide in the sheath was investigated by high-performance anion-exchange chromatography with pulsed amperometric detection. Sucrose, galacturonic acid, xylitol, inositol, ribose, mannose, arabinose, galactose, rhamnose and fructose were detected in the sheath as sugar components. Magnesium was detected in the sheath as a divalent cation using inductively coupled argon plasma. The sheath matrix also contained protein. CONCLUSIONS: It appears that the sheath is composed of sugars and metals. Mucilage sheath contains many kinds of saccharides that are produced as photosynthetic metabolites and divalent cations that are contained in the culture medium. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report on chemical characterization of the sheath matrix produced by C. sorokiniana.     

模拟氮沉降和干旱对准噶尔盆地两种一年生荒漠植物生长和光合生理的影响

氮素和水分是荒漠生态系统的两个主要限制因子, 研究两者对荒漠植物的效应有助于深入了解荒漠生态系统对全球变化的响应。该文选择准噶尔盆地荒漠地区两种常见的一年生植物涩荠(Malcolmia africana)和钩刺雾冰藜(Bassia hyssopifolia), 设置0、0.18和0.72 g N·m ^-2·week ^-13个施氮浓度和湿润与干旱两个土壤水分处理, 研究模拟氮沉降增加和干旱对其生长和光合生理的影响。结果表明: (1)两种植物的根长、根重、叶片数、叶面积、总生物量和冠根比均随着施氮浓度的增加而增加, 干旱能够抑制氮对植物生长的促进作用, 但是, 氮的增加同时也能部分缓解干旱对植物生长的影响。与钩刺雾冰藜相比, 涩荠的根长、生物量和冠根比更易受氮增加和干旱的影响。(2)两种植物的最大净光合速率、叶绿素含量、可溶性蛋白含量随着氮浓度增加而增加, 但涩荠和钩刺雾冰藜对氮增加和干旱的生理响应也有所不同, 涩荠的响应更加敏感。两种植物对氮沉降和干旱胁迫响应的差异可能是其生活型等生物学特性差异所引起。通过对两种一年生植物的生长和光合生理分析表明, 在古尔班通古特沙漠, 春季丰富的降水和氮素增加将有利于涩荠和钩刺雾冰藜的生长和生产力的增加, 相对地下生长, 地上部分增加更显著。当干旱季节来临时, 氮的增加又能够在一定程度上降低干旱对这两种植物的负效应, 说明其对干旱具有一定的生态补偿作用。     

Spectroscopic investigations of U(VI) species sorbed by the green algae Chlorella vulgaris

The green alga Chlorella vulgaris has the ability to bind high amounts of uranium(VI) in the pH range from 3 to 6. At pH 3 up to 40% of the uranium are bound by the algal cells. The uranium removal is almost complete at pH 5 and 6 under the given experimental conditions. Scanning electron microscopy and laser-induced fluorescence spectroscopy were used to characterize uranyl species formed in the selected pH range. The micrographs show a regular distribution of U(VI) on the cell surface. Fluorescence spectroscopic investigations of formed algal uranyl complexes indicate that the binding of U(VI) to carboxyl groups plays a dominating role at pH 3, whereas a minor impact of organic phosphate compounds on the U(VI) sorption cannot be excluded. In contrast, at pH 5 and 6 the phosphate groups are mainly responsible for the removal and binding of U(VI) by formation of organic and/or inorganic uranyl phosphates.     

Oxygen supply to immobilized cells: 1. Oxygen production by immobilized Chlorella pyrenoidosa

Oxygen supply at high cell densities of aerobic organisms is a great problem in immobilized cell preparations. To investigate the possibility of in situ oxygen generation the alga Chlorella pyrenoidosa was immobilized on alginate beads. The conditions for optimal oxygen production were investigated and in long term experiments the preparations were successful for at least 30 days.     

小车前（Plantago minuta Pall.）种子表面粘液物质的吸水特性及其对种子在干旱环境中萌发的影响

为了理解荒漠短命植物小车前(Plantago minuta Pall.)种子表面的粘液物质对种子在干旱环境中萌发的作用,在室内控制条件下研究了粘液物质的吸水保水特性、剥离粘液物质的种子(无粘液种子)和保留粘液物质的种子(粘液种子)在-1.15～-0.15 MPa不同渗透胁迫条件下的萌发状况.结果表明: (1)小车前种子表面的粘液物质干重占粘液种子干重的5.6%;在去离子水中,粘液物质可以吸收相当于其自身干重217.1倍的水分;粘液物质的存在使得小车前种子的吸水倍数由2倍增加至14倍,从而保证为种子萌发提供充足的水分;(2)干燥的粘液种子吸水2h后即达到饱和,而吸水饱和后的粘液种子在室温下晾置,经过48h后又干燥失水恢复至原重;(3)在去离子水中或低渗透胁迫(-0.33～-0.15 MPa) 条件下,粘液物质吸水作用能促进小车前种子萌发,粘液种子3d的发芽势和10d的总萌发率均显著高于无粘液种子;在高渗透胁迫(-1.15～-0.73MPa)条件下,粘液种子3d的发芽势显著低于无粘液种子的,而10d的总萌发率与无粘液种子的没有显著差别,表明粘液物质在干旱条件下可能从种子而非外界环境中吸取水分,减缓了种子萌发速率.通过上述结果可以认为小车前种子表面的粘液物质在早春干湿交替剧烈的荒漠生境中起到通过调节水分来调节种子萌发的作用,这种萌发策略大大降低了因大批种子同时萌发导致幼苗受旱甚至种群灭亡的潜在风险.     

Adaptation of the Photosynthetic Apparatus of Chlorella and Ankistrodesmus to Blue and Red Light

The mode of adaptation of the photosynthetic apparatus of three unicellular green algae, Ankistrodesmus braunii, Chlorella fusca and Chlorella saccharophila to red and blue light are documented by the fluence-rate curves of photosynthetic oxygen evolution. For all three algae tested photosynthetic capacity, respiration and light compensation point were higher for cells grown under red light, while the chlorophyll content increased in blue light-grown cells. Blue light-adapted cells have a lower chlorophyll a to chlorophyll b ratio and more chlorophyll in the light-harvesting system than red light-adapted cells, as shown in the electrophoretic profile of the pigment-protein complexes. It is concluded that the action of red light resembles that of high levels of white light, while blue light causes the same effects as low levels of white light. In agreement with previous publications these findings indicate that the mode of adaptation to different light qualities is ubiquitous in unicellular green algae.