葡萄糖对小球藻(Chloralla sp. HN08)光合作用和生长的影响

【目的】探讨葡萄糖作为外加碳源对热带海洋小球藻(Chloralla sp.HN08)生物质生产和脂、光合色素、碳水化合物及可溶性蛋白等细胞主要成份含量的影响。【方法】分析比较小球藻HN08在光合自养和兼养(添加10 g/L葡萄糖)2种营养方式下的生长速率、细胞密度、光合放氧速率、油脂相对含量,以及可溶性总糖、淀粉和可溶性蛋白的含量。【结果】结果表明,在光照条件下葡萄糖(10 g/L)能促进小球藻(Chloralla sp.HN08)生长,提高细胞终密度,而异养条件下藻细胞逐渐衰亡。兼养条件下,细胞相对生长速率及细胞终密度分别是自养条件下的6.8倍和1.3倍。兼养藻细胞中可溶性糖、淀粉、油脂含量显著高于(P0.05)光合自养细胞,然而可溶性蛋白质和光合色素含量显著低于(P0.05)光合自养细胞。添加葡萄糖的小球藻液的光饱和点和呼吸速率均高于光自养条件下的细胞,但2种培养条件下藻液的净光合速率无显著差异(P0.05)。【结论】光照条件下,添加葡萄糖可显著提高小球藻HN08相对生长速率和细胞终密度,促进油脂与淀粉的积累。     

不同营养方式对普通小球藻生长代谢及生化组分的影响

摘要:【目的】系统研究自养、混养和异养3种营养方式对真核模式微藻———普通小球藻(Chlorella vulgaris)生长特性、细胞生化组分和碳代谢途径关键酶活性的影响。【方法】以C．vulgaris为研究对象,通过设置光合自养、混养和异养3 种营养方式,采用光谱学、色谱学方法,研究不同营养方式对C．vulgaris从生长特性、细胞组分合成和碳代谢等方面的影响。【结果】C．vulgaris依次经自养至混养和异养的培养方式转变中,藻细胞的可溶性糖和油脂含量显著提高,油脂中C16、C18不饱和脂肪酸的相对含量降低,而饱和脂肪酸的含量升高;蛋白质含量、光合色素含量显著下降,18种氨基酸的相对含量也呈下降趋势;葡萄糖的添加可抑制藻细胞吸收和积累除碳元素以外的其他测试元素。在添加葡萄糖的前提下,光照可促进藻细胞的生长量、不饱和脂肪酸和氨基酸,以及除碳元素以外的其他测试参数增加。对微藻胞外碳酸酐酶和核酮糖-1,5-二磷酸 羧化酶的活性分析结果表明,异养和混养直接影响C．vulgaris的碳代谢途径。【结论】光源和葡萄糖的供给与否直接影响C．vulgaris的生长代谢和生化组分合成,葡萄糖的添加在显著促进藻细胞生物量积累的同时,刺激碳素(糖类和油脂)生化成分的合成,而抑制氮素成分(蛋白质和光合色素)的合成;在光照条件下培养基质中葡萄糖的浓度和消耗水平直接决定藻细胞主营自养或异养生长。添加有机碳源葡萄糖的混养(光照)和异养(暗处理)培养可促进藻细胞的生长,异养和自养的生物量之和接近于混养,表明混养是最佳的藻细胞营养生长方式。     

不同营养方式对小球藻FACHB 484生长的影响及其非自养生长机理研究

系统研究了小球藻FACHB 484在含有葡萄糖的不同营养方式下的生长情况,并通过抑制试验探讨葡萄糖在小球藻FACHB 484光异养和兼养生长条件下所起的作用以及小球藻FACHB 484是否存在氧化呼吸系统的关键酶类。结果表明:小球藻FACHB 484可利用葡萄糖进行化能异养、光激活异养、光异养及兼养生长,其生长速率大小为:兼养光异养光激活异养化能异养光合自养。兼养培养的最大生物量和比生长速率分别是自养培养的8.6和3.4倍,其比生长速率接近于光合自养和光异养培养下的比生长速率之和。葡萄糖主要作为小球藻FACHB 484兼养和光异养培养的碳源,而能量主要源自光。小球藻FACHB 484存在氧化呼吸链代谢途径,其细胞中有琥珀酸脱氢酶和细胞色素氧化酶。       

一株新型自絮凝凯式拟小球藻的两步培养产油技术

以分离获得的一株新型自絮凝凯式拟小球藻(Parachlorella kessleri) F01为材料, 自养单步培养法为对照, 设计两步培养法, 研究阶段Ⅰ添加葡萄糖兼养和阶段Ⅱ营养元素限制处理对藻细胞油脂积累及絮凝性能的影响。分别采用血球板计数法、干重法、脂染色法测定藻细胞浓度、生物量和总脂含量, 三维荧光光谱分析藻细胞胞外聚合物(Extracellular polymeric substances, EPS)组分和含量。结果表明: (1)两步培养法阶段Ⅰ兼养培养最适葡萄糖浓度为10 g/L, 10d收获时藻细胞油脂产率204.25 mg/(L·d), 是对照组的16.20倍; 静置12h的藻细胞自絮凝率96.1%, 与对照组差异不显著。(2)在阶段Ⅰ基础上, 阶段Ⅱ进行不同元素限制处理培养1d, 低糖组和低糖低氮协同处理组的藻细胞油脂产率分别为242.64和227.61 mg/(L·d), 分别比阶段Ⅰ增加18.8%和11.4%; 培养4d, 低糖、无糖、低氮和低糖低氮协同4种处理组油脂产量显著高于对照组和阶段Ⅰ, 其中低糖低氮协同处理组最高, 达到3.08 g/L, 是对照组的23.69倍, 比阶段Ⅰ增加了51.0%, 而且阶段Ⅱ中4种处理组藻细胞的自絮凝率基本在85.0%以上, 能满足收获要求。(3) F01藻细胞EPS中蛋白类色氨酸物质含量高低与藻细胞自絮凝率大小密切相关, 不同培养处理通过改变藻细胞EPS中蛋白类色氨酸物质的含量而影响其絮凝性能。自絮凝凯式拟小球藻F01是生物柴油生产的优良潜力藻种, 两步培养法能大幅提升其产油效益。产油微藻的自絮凝优势与两步培养法结合, 有望成为解决微藻生物柴油生产技术瓶颈的关键突破口。     

热带普通小球藻培养模式的筛选及其培养基的优化

【背景】从海南热带海区中分离得到一株微藻,其生长速度快、适应力强,经鉴定该微藻为普通小球藻。【目的】提高热带普通小球藻的生长速率。【方法】以"宁波大学3#微藻培养液配方"为基础培养液,分别添加有机碳(C6H12O6和CH3COONa)对热带普通小球藻进行自养、兼养及异养培养,获得促进热带普通小球藻快速生长的培养方式。在"宁波大学3#微藻培养液配方"的基础上对热带普通小球藻的兼养培养基配方进行优化,并用优化兼养培养基与"宁波大学3#微藻培养基"对比培养热带普通小球藻。【结果】添加6 g/L CH3COONa的兼养模式促进热带普通小球藻生长效果最好;优化的兼养培养基配方为:6 g/L CH3COONa,20 mg/L(NH4)2SO4-N,5 mg/L Na H2PO4-P,3 mg/L Fe SO4-Fe,1 mg/L Vitamin B1和0.000 5 mg/L Vitamin B12。对比培养实验结果显示,培养第6天,兼养培养液收获的生物量(细胞密度)达4.20×107 cells/m L,是"宁波大学3#配方微藻培养液"的2.30倍。【结论】兼养培养模式为热带普通小球藻的最佳培养模式,优化的兼养培养基极显著地提高了热带普通小球藻的生物量(P0.01)。     

利用啤酒废水小球藻异养培养

摘要：【目的】利用小球藻异养培养技术处理啤酒废水,旨在为啤酒废水资源化利用和降低小球藻生产成本提供一个途径。【方法】在含有10 g/L葡萄糖的基本培养基进行异养小球藻高效藻株的筛选,并用于啤酒废水的资源化处理。【结果】从5株小球藻中得到2株适合高密度异养培养的藻株（Chlorella pyrenoidosa 15-2070 和 Chlorella vulgaris 15-2075）,在啤酒废水的资源化处理过程中这2株小球藻得到非常接近的试验结果。利用由废水配制含10 g/L葡萄糖的基本培养液培养Chlorella pyrenoidosa 15-2070获得了5.3 g/L藻细胞;并且在此过程中,啤酒废水得到有效利用,几种主要污染物最高去除率为：CODcr,92.2 %;BOD5,95.1 %;NO3--N,98.5 %;NH4+-N,92.3 %。【结论】啤酒废水中的重要环境污染物在培养小球藻的过程中可以得到有效地清除,并从中可以获得具有商业价值的小球藻细胞。     

有机碳源对三角褐指藻生长、胞内物质和脂肪酸组分的影响

研究了3种有机碳对三角褐指藻生长、胞内物质和脂肪酸组分的影响。结果表明, 三角褐指藻具有利用有机碳进行兼养生长的能力, 生长速率加快, 倍增时间缩短, 生物量显著提高, 100 mmol/L甘油兼养的生物量最高(713 mg/L), 是自养(460 mg/L)的1.60倍, 乙酸钠和葡萄糖兼养的生物量分别是自养的1.28倍和1.21倍。兼养下蛋白质含量较自养明显下降, 碳水化合物和总脂含量高于自养, 乙酸钠和甘油兼养的总脂含量分别是自养的1.43倍和1.20倍, 葡萄糖兼养的总脂含量与自养无明显差异。3种有机碳兼养的饱和脂肪酸和单不饱和脂肪酸占总脂肪酸的比例增大, 多不饱和脂肪酸比例降低, EPA(eicosapentaenoic acid)比例降低, 乙酸钠兼养的胞内EPA含量(6.23%)和产量(36.59 mg/L)均高于自养, 分别是自养的1.10倍和1.40倍, 甘油和葡萄糖兼养的EPA含量和产量均低于自养。     

以异养细胞作为种子的椭圆小球藻产油脂光自养培养优化

异养细胞种子/光自养培养方法是一种可异养培养的能源微藻培养的有效方法,但已有文献尚未从工艺优化角度考察其发展潜力。为了获得较高细胞密度的用于光自养培养的种子和提高光自养培养的细胞密度与油脂产率,对异养细胞种子/光自养培养的培养基和培养条件进行了优化。结果表明,采用优化后的培养基,椭圆小球藻在摇瓶中异养培养的最高藻细胞密度可达11.04 g/L,比在初始培养基条件下提高了28.0%,在5 L发酵罐中异养培养的藻细胞密度达到73.89 g/L;在2 L柱式光生物反应器中光自养培养的藻细胞密度、油脂含量和油脂产率分别达1.62 g/L、36.34%和6.1 mg/(L·h),油脂成分主要为含C16-C18碳链的脂肪酸,是制备生物柴油的理想原料。经过优化,异养细胞种子/光自养培养这一方法能够显著地提高椭圆小球藻产油脂的能力,这进一步表明异养细胞种子/光自养培养方法有望成为可异养的能源微藻的高效培养方式。     

小球藻高密度培养及油脂提取条件的优化

【目的】高密度培养小球藻及优化油脂提取条件。【方法】通过进行单因素实验研究不同培养基组成及环境因子对其细胞生长影响,并采用超声波提取法进行正交实验对藻粉油脂提取条件进行研究。【结果】对椭圆小球藻Y4进行异养培养,最适培养条件为:葡萄糖50 g/L,硝酸钾2 g/L,适宜的培养温度、摇床转速和接种量分别为29°C、180 r/min和20%。在此基础上,进行了1 L发酵罐培养实验,获得了干重18.25 g/L的生物量。通过对油脂提取条件进行优化,Y4的油脂提取率由优化前的25.0%提高到60.2%,提高了35.2%。【结论】优化了小球藻的培养条件及油脂提取条件,促进了小球藻的开发和利用。     

自养与异养小球藻脂溶性化合物对比研究

应用细胞培养技术获绿色自养小球藻与乳黄色异养小球藻细胞。异养藻细胞脂溶性化合物占细胞干重的７２％,是自养藻的４倍多。两类细胞烃类化合物的分布特征发生了显变化,自养藻以正十七烷占绝对优势;异养藻富含长链正烷烃,以正二十五烷烃占优势。两类细胞脂溶性色素化合物和苯洗脱组分化合物以及Ｃ、Ｈ、Ｏ、Ｎ１４种有机元素相对含量也差异显。对比实验结果对于异养小球藻的代谢研究和油脂化合物的开发利用具有重要意义。     

Sorption of some ions by algae related to their trophic conditions

The unicellular algaeScenedesmus obliquus (125),Chlorella pyrenoidosa (82) andCoccomyxa solorinae saccatae (111) were studied with respect to the form of uptake of potassium, phosphate, calcium and zinc ions and to the energy sources involved: light under autotrophic conditions, glucose under mixotrophic or heterotrophic conditions (in light and in darkness or together with yeast extract as an auxotrophic substrate). We respected the trophic conditions of algae when preparing the experimental material (precultivation). The following conditions were reached:

1. (1)
   The three algae grow faster in a glucose medium under mixotrophic conditions and are capable of growing on it also heterotrophically:Ch. pyrenoidosa andSc. obliquus grow substantially better thanC. solorinae saccatae. The first two algae grow more intensively in a glucose medium containing yeast extract whileCoccomyxa does not. After cultivation under mixotrophic conditions the first two diminish endogenous respiration, the third raises it. Glucose stimulates respiration in the first two when grown autotrophically, while after mixotrophic cultivation the effect of glucose is suppressed inCh. pyrenoidosa and in the other two only after growth on glucose with yeast extract.     
   
   

EFFICIENCY OF GROWTH AND NUTRIENT UPTAKE FROM WASTEWATER BY HETEROTROPHIC,AUTOTROPHIC, AND MIXOTROPHIC CULTIVATION OF CHLORELLA VULGARIS IMMOBILIZED WITH AZOSPIRILLUM BRASILENSE1

Heterotrophic growth of microalgae presents significant economic advantages over the more common autotrophic cultivation. The efficiency of growth and nitrogen, phosphorus, and glucose uptake from synthetic wastewater was compared under heterotrophic, autotrophic, and mixotrophic regimes of Chlorella vulgaris Beij. immobilized in alginate beads, either alone or with the bacterium Azospirillum brasilense. Heterotrophic cultivation of C. vulgaris growing alone was superior to autotrophic cultivation. The added bacteria enhanced growth only under autotrophic and mixotrophic cultivations. Uptake of ammonium by the culture, yield of cells per ammonium unit, and total volumetric productivity of the culture were the highest under heterotrophic conditions when the microalga grew without the bacterium. Uptake of phosphate was higher under autotrophic conditions and similar under the other two regimes. Positive influence of the addition of A. brasilense was found only when light was supplied (autotrophic and mixotrophic), where affinity to phosphate and yield per phosphate unit were the highest under heterotrophic conditions. The pH of the culture was significantly reduced in all regimes where glucose was consumed, similarly in heterotrophic and mixotrophic cultures. It was concluded that the heterotrophic regime, using glucose, is superior to autotrophic and mixotrophic regimes for the uptake of ammonium and phosphate. Addition of A. brasilense positively affects the nutrient uptake only in the two regimes supplied with light.     

Das rhythmische Verhalten einer farblosen Mutante von Euglena gracilis

Summary A colorless mutant of Euglena gracilis shows a cireadian rhythmic mobility in darkness just as mixotrophic and autotrophic green forms do.Therefore the obligatory heterotrophic form is very suitable for testing to what extent the rhythmic behavior of the mixotrophic cells, in contrast to that of the autotrophic cells, is independent of photosynthesis.Like the green cells, the colorless cells are synchronized by a single transient from light to dark. About 12 hours after the beginning of the darkness the rhythmic mobility of the colorless cells attains the first maximum, whereas the green forms both show their first maximum 18 hours after the end of the light period, which is much more advantageous for a photosynthesizing organism.The free running period seems to be dependent on the temperature during anaerobic glycolysis and independent of temperature during respiration, just as it has been recently found out in the case of green forms. The type of energy supply changes with the age of the cultures.Respiration has no significance as energy source for the rhythm which continues under pure glycolytic conditions.A sudden increase of the constant temperature does not shift the phase. The same is true in the case of mixotrophic cells but not in the case of autotrophic cells. However, the rhythm is often first suppressed for several days.A lowering of the temperature is followed by two or three transients with about half the frequency, but it does not influence the phase as far as it can be extrapolated. The same has been shown to be true in the case of mixotrophic cells.The rhythmic behavior of the heterotrophic cells is very similar to that of the mixotrophic ones. However, the heterotrophic cells are very sensitive to changes in temperature, which are more compensated for in the mixotrophic cells, apparently by photosynthesis.     

Circadian Rhythm Changes in Autotrophic Euglena Induced by Organic Carbon Sources*

SYNOPSIS. Acetate added to autotrophic Euglena cultures changed the period length of the circadian rhythm of phototaxis. Phase shifts were induced by acetate pulses. Since transition from one metabolic state to another (autotrophic/mixotrophic) caused a phase shift or a period change, such effects possibly result from switching metabolic pathways. As suggested (Brinkmann, K., 1966. Planta 70 , 344–89), differences in the temperature responses of the rhythm in mixotrophic and autotrophic cells might also be caused by participation of different metabolic pathways with different Q¹⁰ values, e.g. dark reactions vs photochemical reactions. However the Q¹⁰ of a given dark reaction, e.g. protein synthesis, can differ in the 2 states. Therefore temperature experiments alone do not suffice for deciding whether the pathways include photochemical reactions, dark reactions, or both.     

Investigation of mixotrophic,heterotrophic, and autotrophic growth of Chlorella vulgaris under agricultural waste medium

Growth of Chlorella vulgaris and its lipid production were investigated under autotrophic, heterotrophic, and mixotrophic conditions. Cheap agricultural waste molasses and corn steep liquor from industries were used as carbon and nitrogen sources, respectively. Chlorella vulgaris grew remarkably under this agricultural waste medium, which resulted in a reduction in the final cost of the biodiesel production. Maximum dry weight of 2.62 g L^?1 was obtained in mixotrophic growth with the highest lipid concentration of 0.86 g L^?1. These biomass and lipid concentrations were, respectively, 140% and 170% higher than autotrophic growth and 300% and 1200% higher than heterotrophic growth. In mixotrophic growth, independent or simultaneous occurrence of autotrophic and heterotrophic metabolisms was investigated. The growth of the microalgae was observed to take place first heterotrophically to a minimum substrate concentration with a little fraction in growth under autotrophic metabolism, and then the cells grew more autotrophically. It was found that mixotrophic growth was not a simple combination of heterotrophic and autotrophic growth.     

Interactions between metazoans,autotrophs, mixotrophs and bacterioplankton in nutrient‐depleted high DOC environments: a long‐term experiment

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Integration of algae cultivation as biodiesel production feedstock with municipal wastewater treatment: strains screening and significance evaluation of environmental factors

The objectives of this study are to find the robust strains for the centrate cultivation system and to evaluate the effect of environmental factors including light intensity, light–dark cycle, and exogenous CO₂ concentration on biomass accumulation, wastewater nutrient removal and biodiesel production. The results showed that all 14 algae strains from the genus of Chlorella, Haematococcus, Scenedesmus, Chlamydomonas, and Chloroccum were able to grow on centrate. The highest net biomass accumulation (2.01 g/L) was observed with Chlorella kessleri followed by Chlorella protothecoides (1.31 g/L), and both of them were proved to be capable of mixotrophic growth when cultivated on centrate. Environmental factors had significant effect on algal biomass accumulation, wastewater nutrients removal and biodiesel production. Higher light intensity and exogenous CO₂ concentration with longer lighting period promote biomass accumulation, biodiesel production, as well as the removal of chemical oxygen demand and nitrogen, while, lower exogenous CO₂ concentration promotes phosphorus removal.     

Studies on Chlorella regularis, heterotrophic fast-growing strain II. Mixotrophic growth in relation to light intensity and acetate concentration

1) Chlorella regularis showed exponential growth under heterotrophiccondition (in the dark with acetate as the carbon source). Thegrowth rate depended on the acetate concentration. Under autotrophic condition (in light with an inorganic medium),growth proceeded exponentially then linearly, in a pattern typicalof unicellular algae. The effect of light intensity on the growthrates in the exponential and linear phases was examined. When the cells were cultured under mixotrophic condition (inlight with acetate), the growth rate was approximately the sameas the sum of the growth rates in the autotrophic and heterotrophiccultures. CMU (50 µM), a specific inhibitor of photosynthesis, causedcomplete suppression of autotrophic growth, but did not affectheterotrophic growth. When the inhibitor was added to the mixotrophicculture, growth decreased to the level of the heterotrophicculture. These facts indicate that the mixotrophic growth processes ofthe alga consist of autotrophic and heterotrophic processesthat can proceed noncompetitively with each other. (Received March 31, 1976; )     

Life history characteristics of three types of females in Brachionus calyciflorus Pallas (Rotifera) fed different algae

This study describes the life history characteristics of amictic, unfertilized mictic and fertilized mictic females of the rotifer Brachionus calyciflorus cultured individually on two different algae at 0.1 mg ml^–1 food concentration and 27 °C. The duration of the juvenile period of amictic females was significantly shorter on Chlorella pyrenoidosa Chick than on Scenedesmus obliquus Kütz or both algae together. The duration of the juvenile period of unfertilized mictic females was significantly longer, and the number of eggs produced by amictic females was significantly larger on Chlorella pyrenoidosa than on S. obliquus. When fed the same type of alga, the duration of the juvenile period of the fertilized mictic females was the longest among the three types of females, and the durations of the reproductive period of the amictic females and the post-reproductive period of the fertilized mictic females were longer than, or equal to those of the other two types of females, respectively. The number of eggs produced by an unfertilized mictic female was the largest among the three types of females, and that of amictic females was larger than or equal to that of fertilized mictic females, depending on the type of diet.