微藻能源的研究进展

近年来,随着石油资源日趋枯竭、全球性能源短缺及环境污染等问题日益严重,开发绿色、清洁的生物燃料代替传统石化燃料,已成为国际研究热点。在生物燃料的众多原料中,微藻具有光合作用效率高、含油量高、生长周期短、油脂面积产率高等特点,被认为是最有潜力替代石油的生物质资源[1]。     

温度对四种产油微藻生长和油脂特性的影响

本文采用气相质谱联用技术对三株海水微藻—三角褐指藻(Phaeodactylum tricornutum,CCMM2012)、小球藻(Chlorella vulgaris,CCMM4004)、微拟球藻(Nannochloropsis sp.,CCMM6004),和一株淡水微藻—栅藻(Scenedesmus quadricauda,CCMM4002)在不同温度下的生长及油脂变化规律进行研究。结果表明:三角褐指藻、小球藻和栅藻在20℃下的油脂产率最大,分别为2.94、5.79和5.83mg/L/d,它们在20℃的培养条件下比较适合应用于生物能源开发;而微拟球藻在25℃下油脂产率最大,达6.45mg/L/d,因此此温度下更适合用于生物能源开发。三角褐指藻在15℃条件下DHA和EPA含量最多,为16.47%,而微拟球藻在25℃下DHA和EPA最多,为22.74%;因此三角褐指藻和微拟球藻在15℃和25℃下均比较适合应用于多不饱和脂肪酸的开发,而小球藻和栅藻的EPA和DHA含量在三个温度下普遍较少,不适合用于多不饱和脂肪酸的开发。     

微藻的异养培养及应用研究

微藻(microalgae)是一大类微观的以个体、链状或群体形式存在的单细胞藻类,大小从几微米到几百微米不等。微藻种类繁多,据估计大约有200 000-800 000种,其中已有记录的有35 000多种[1]。     

基于熵权的产生物柴油微藻开发潜力评价

结合青岛地区不同季节室外温度变化特点,采用熵权法对9株微藻利用发电厂废气生产生物柴油的户外开发潜力进行评估。选取油脂产率、油脂组成、CO2耐受性、破壁难易度和温度适应性5项指标,根据实验室测得的数据进行计算,得出春冬季以上5项指标的权重分别为0.261、0.002、0.059、0.211和0.467,而夏秋季以上5项指标的权重分别为0.098、0.001、0.022、0.079和0.801。在此权重的基础上,得出在春冬季节开发潜力最大的藻株为微拟球藻(Nannochloropsis sp.ZL-12),在夏秋季节开发潜力最大的藻株为球等鞭金藻(Isochrysis galbana C5001)。本方法为户外大规模开发生物柴油的微藻藻种选择提供了一个有效的思路。     

一种饵料微藻的脂肪酸甾醇分析及化学分类的探讨

对一种重要的未知生物饵料微藻在充气和瓶中静态两种生态条件下进行培养,设计了一种分步衍生化脂肪酸与甾醇的GC/MS连续分析法,对微藻脂肪酸甾醇进行了定性和定量分析,结果表明,这种微藻主要含有丰富的二十碳五烯酸(EPA),C14:0,C16:0,C16:1以及一定量的二十二碳六烯酸(DHA),C22:5(n-6)和C18不饱和脂肪酸;共鉴定出11种甾醇组分,主要是24-甲基(乙基)胆甾醇,碳数分布从27到30,特别含有甲基巴夫甾醇和乙基巴夫甾醇;可以把这种微藻归到Prymnesiophyceae纲Pavlovales目Pavlovaceae科.通过实例分析证明,脂类分析结果可以作为海洋微藻化学分类学的一个重要依据.     

从培养的微藻中初步筛选抗菌和抗肿瘤活性物质

从8种微藻中制备水溶和脂溶性的提取物,用来筛选抗菌和抗肿瘤活性.抗菌活性是用抑菌豳法(细菌用金黄色葡萄球菌,枯草芽孢杆菌和大肠杆菌为指示菌,真菌用黑曲霉和产黄青霉为指示菌).实验选用的所有的微藻均有不同程度的抗一种或多种菌活性,抗金黄色葡萄球菌微藻提取物中的57.14%有抗耐甲氧西林金黄色葡萄球菌活性,采用MTT法体外...     

微藻生物技术在二氧化碳减排和生物柴油生产中的应用研究进展

温室气体过度排放引起的全球气候变化已经成为世界各国需要共同应对的首要环境问题,其中化石燃料燃烧产生的二氧化碳排放被认为是引起全球气候变暖的主要因素,所以减少二氧化碳排放可能是逆转全球气候变暖的主要措施。大规模微藻培养可以在减排二氧化碳的同时处理废水、     

微藻异养化培养的研究进展

微藻因其富含脂类、蛋白质和多糖,且具有光合作用效率高、生长周期短、可再生等突出特点,在食品、医药、保健品及生物能源领域得到了广泛应用[1-2]。但是,如何通过人工大规模培养技术高效率地获得微藻生物量是微藻资源开发利用的关键。现在的微藻培养技术多集中于光自养体系,包括户外开放式养殖和各种光生物反应器。然而,户外的开放式养殖生产效率低、占地面积大且易染菌;     

三种海洋浮游微藻的分子鉴定及培养条件研究

采用分子生物学手段结合形态特征对海洋中生活着的浮游单细胞海藻进行准确无误的分类鉴定,正在成为一种普遍接受的方式。这样做的前提是首先需要从海水中分离得到纯藻株, 掌握它们的生活条件, 获得生物量, 并进而完成鉴定。作者对一株裸甲藻类似种和两株新分离的赤潮单细胞海藻进行了分离、培养和鉴定。核糖体18S RNA 基因(18S rDNA)和转录单元内间隔区(ITS)序列分析结果显示这三株藻分别为共生甲藻(Symbiodinium sp.)、锥状斯氏藻(Scrippsiella trochoidea)和赤潮异弯藻(Heterosigma akashiwo)。作者以广泛使用的光密度值A₆₈₀作为衡量藻体生物量变化的指标, 研究了这三种藻在不同培养条件下的生长。结果表明, 在批次培养中, 共生甲藻、锥状斯氏藻和赤潮异弯藻的生物量都在22℃达到最大, 分别为9.28×10⁵个/mL、7.9×10⁴个/mL 和4.75×10⁵个/mL; 强光和长时间光照促进生长, 但锥状斯氏藻在强光下更早进入衰退期; 三种藻都表现出较强耐受盐度变化的能力,在盐度为15～36 的培养液中生长良好; 营养实验表明, 使用882 μmol/L 的NO₃^- 和36.2 μmol/L 的PO₄^3-能够维持三种海藻的快速生长。     

11种微藻脂类和EPA/DHA组成的研究

研究了11种微藻在可比较的条件下,其生物量、总脂含量和多不饱和脂肪酸(EPA/DHA)的组成.结果表明:卡德藻(Tetraselmissp.)的生物量最大,细胞干重可达0.140g/(L·d);南极冰藻(Berkeleyarutdans)次之,可达0.0748/(L·d).以叉鞭金藻(Dicrateriainornata)和球等鞭金藻(Isochrysisgalbana)的总酯含量最高,分别占细胞干重的13.1%和12.1%.在绿色巴夫藻(Pavlovaviridis)中,EPA和DHA分别占总脂肪酸(TFA)的25%和6%;小球藻(Chlorellasp.)的EPA含量为28%;南极冰藻的EPA含量为19%.     

O<Subscript>2</Subscript> consumption rate and its isotopic fractionation factor in the deep water of the Philippine Sea

Concentration and stable isotopic compositions (δ ¹⁸O) of dissolved O₂ were measured in seawater samples collected from the Philippine Sea in June 2006. The in-situ O₂ consumption rate and the isotopic fractionation factor (α _r ) during dissolved O₂ consumption were obtained from field observations by applying a vertical one-dimensional advection diffusion model to the deep water mass of about 1000–4000 m. The average O₂ consumption rate and α _r were, respectively, 0.11 ± 0.07 μmol kg⁻¹yr⁻¹ and 0.990 ± 0.001. These estimated values agree well with values from earlier estimations of Pacific deep water. The in-situ O₂ consumption rates are two or more times higher north of 20°N, although the value of α _r was not significantly different between the north and south. Its levels varied rapidly in the water mass of less about 2000 m depth. These results suggest that organic matter from the continent imparts a meaningful contribution to the upper water in the northern part of the area; it might produce the strong O₂ minimum that is evident in the water mass from about 1000–2000 m in the northern part of the Philippine Sea.     

Si2O2 molecule: structure of ground state and the excited properties under different external electric fields

Geometry and vibrational frequencies of the ground state of Si₂O₂ molecule are studied using density function theory (DFT) at the level of cc-pvtz and 6-311++G^**. It is found that the optimizing value by B3lyp/cc-pvtz is closer to the experimental data. The excited properties under different external electric fields are also investigated by the time-dependent-DFT method. Transitions from the ground state of Si₂O₂ molecule to the first singlet state under different external electric fields can take place more easily. The corresponding absorption spectral line is about 360 nm in wavelength and the excitation energy is about 3.4 eV.     

白令海BR断面海-气CO2通量及其参数特征

通过对2008年夏季白令海大气和海水pCO2连续观测资料,结合BR断面上站位水体垂直采样测量,对白令海不同海区pCO2的分布特征及其与理化参数的关系进行了初步研究,结果表明,将白令海划分为4个具有不同CO2吸收能力的海区,其中陆坡流区碳通量高达-18.72 mmol/(m2·d),是海盆北区的近2倍,比海盆南区高一个量...     

Carbonate-related parameters of subsurface waters in the West Philippine, South China and Sulu Seas

Like most other deep basins in Southeast Asia, the deep Sulu Sea (SS) basin is isolated from the neighboring seas by surrounding topography. While the near-surface circulation is mainly governed by the seasonally reversing monsoon winds, below the warm and fresh surface layer, the core of the incoming Subtropical Lower Water from the West Philippine Sea (WPS), by way of the South China Sea (SCS), can be seen, at a depth of around 200 m, to have a distinct salinity maximum. It lies well above the sill depth (420 m) in the Mindoro Strait and thus, its spreading is not hampered by topography. The deep circulation is forced by an inflow of upper North Pacific Intermediate Water (NPIW) from the SCS through the Mindoro Str. Below 1000 m, the physico-chemical properties are remarkably homogeneous. The higher temperature, but lower salinity, oxygen and nutrients, of the deep SS waters, compared to those of the SCS, is indicative of the intrusion of NPIW above the sill depth. The excess, anthropogenic CO₂ penetrates the entire water column, because of the over-spill of the excess CO₂-laden water from the SCS.It has been reported that the bottom of the SS is CaCO₃ rich, relative to the SCS. Previous investigators attribute this to the higher θ in the SS. Indeed, the aragonite does not become undersaturated in the SS until below 1400 m, compared to 600 m in both the WPS and SCS; and the calcite does not become undersaturated until below 3800 m in the SS, compared to 2500 m in the SCS and around 1600 m in the WPS. However, the temperature effect is relatively small. These large differences are, in fact, largely a result of higher CO₃²⁻ concentrations in the SS, relative to the WPS and SCS. The higher CO₃²⁻ concentration in the SS, in turn, is mainly caused by the smaller amounts of organic carbon decomposition.     

High-resolution measurement of Southern Ocean CO2 and O2/Ar by membrane inlet mass spectrometry

This paper evaluates the simultaneous measurement of dissolved gases (CO₂ and O₂/Ar ratios) by membrane inlet mass spectrometry (MIMS) along the 180° meridian in the Southern Ocean. The calibration of pCO₂ measurements by MIMS is reported for the first time using two independent methods of temperature correction. Multiple calibrations and method comparison exercises conducted in the Southern Ocean between New Zealand and the Ross Sea showed that the MIMS method provides pCO₂ measurements that are consistent with those obtained by standard techniques (i.e. headspace equilibrator equipped with a Li–Cor NDIR analyser). The overall MIMS accuracy compared to Li–Cor measurements was 0.8 μatm. The O₂/Ar ratio measurements were calibrated with air-equilibrated seawater standards stored at constant temperature (0 ± 1 °C). The reproducibility of the O₂/Ar standards was better than 0.07% during the 9 days of transect between New Zealand and the Ross Sea.The high frequency, real-time measurements of dissolved gases with MIMS revealed significant small-scale heterogeneity in the distribution of pCO₂ and biologically-induced O₂ supersaturation (ΔO₂/Ar). North of 65°S several prominent thermal fronts influenced CO₂ concentrations, with biological factors also contributing to local variability. In contrast, the spatial variation of pCO₂ in the Ross Sea gyre was almost entirely attributed to the biological utilization of CO_2, with only small temperature effects. This high productivity region showed a strong inverse relationship between pCO₂ and biologically-induced O₂ disequilibria (r² = 0.93). The daily sea air CO₂ flux ranged from − 0.2 mmol/m² in the Northern Sub-Antarctic Front to − 6.4 mmol/m² on the Ross Sea shelves where the maximum CO₂ influx reached values up to − 13.9 mmol/m². This suggests that the Southern Ocean water (south of 58°S) acts as a seasonal sink for atmospheric CO₂ at the time of our field study.     

淡水和海水环境下沉积物搬运过程碳释放通量的模拟研究

基于室内物理模拟实验, 对长江沉积物进行淡水和海水环境下沉积物搬运过程碳释放通量实验模拟。结果表明, 模拟实验初期, 淡水和海水均为大气CO₂的源, 但淡水CO₂释放通量略高于海水;淡水、海水两种环境下, CH₄释放通量均较小, 为弱释放-弱吸收过程。对两种环境下碳通量对比研究发现,Eh 值可能是造成淡水和海水环境下CO₂通量差别的主要原因, 而pH 值可能对CO₂通量差别的影响较小。两种环境下温室气体通量差别的具体原因仍需进一步研究。通过模拟对比试验, 旨在为系统地认识长江流域水库的温室效应与减排提供科学依据, 为我国清洁水电能源发展提供理论参考。     

Cu2+/SnO2复合纳米光催化剂的制备及其对海洋柴油污染物的降解

采用化学沉淀法成功制备了Cu2+/SnO2复合纳米光催化剂,采用XRD、SEM等测试手段对复合纳米光催化剂的粒径、形态等进行表征。在紫外光条件下,分别改变催化剂掺杂比、催化剂煅烧温度、催化剂投加量、柴油初始含量和光照时间等单因素,探究不同条件对Cu2+/SnO2复合纳米光催化剂降解海洋柴油污染物的影响。结果表明,自制复合纳米光催化剂可以有效降解海水中的柴油污染物,在紫外光作用下,于400℃下煅烧Cu/Sn掺杂比为0. 03的Cu2+/SnO2复合纳米光催化剂、投加量为0. 2 g/dm3、柴油初始含量为0. 15 g/dm3、H2O2溶液含量为0. 2 g/dm3、溶液的p H为7、光照时间3 h时效果最好,海水中柴油的去除率最高,达到86. 98%。Cu2+/SnO2复合纳米光催化剂用聚丙烯纳米球负载后可以实际应用于海洋中,便于回收。     

Fabrication and test of sol–gel based planar oxygen optodes for use in aquatic sediments

We describe the fabrication of organically modified sol–gel (ORMOSIL) planar optodes for mapping the two-dimensional oxygen distribution in sediments. All sensor foils were based on the use of ruthenium(II)-tris-(4,7-diphenyl-1,10-phenantrolin)-perchlorate, which is a fluorescent dye quenched dynamically by oxygen. Sensors made with different sol–gel immobilisation matrices, different concentrations of precursors and indicator dye, as well as different types of scattering particles co-immobilised in the sensor foil were investigated systematically. Optimal sensor performance was obtained with dye concentrations of 2–10 mmol/kg in an immobilisation matrix made of diphenyldiethoxy-silan and phenyltriethoxy-silan precursors with addition of organically coated TiO₂ particles. The sensors exhibited a good mechanical stability and a high sensitivity from 0% to 100% oxygen, which remained constant over at least 36 days. The planar optodes were used with a fluorescent lifetime imaging system for direct mapping of the spatio-temporal variation in oxygen distribution within marine sediment inhabited by the polychaete Hediste diversicolor. The measurements demonstrated the spatio-temporal heterogeneity of the oxygen distribution in bioturbated sediments due to burrow structures and non-constant irrigation activity of the polychaete, which is difficult to resolve with microsensors or with traditional biogeochemical techniques.     

亚热带珊瑚礁海域枯水季pCO2的分布特征及CO2汇源转换机制-以深圳杨梅坑海域为例

由于存在极高的初级生产和高效的碳代谢速率, 珊瑚礁海域二氧化碳(CO₂)的汇/源属性仍存有争议。为明晰中国典型珊瑚礁海域CO₂的汇源属性及驱动因素, 作者基于2022年11月(秋季)和2023年2月(冬季)在深圳杨梅坑海域的调查结果并结合室内培养实验所获得的数据, 探究了枯水季节典型亚热带珊瑚礁海水二氧化碳分压(pCO₂)的分布特征及主要控制机制。结果表明, 调查期间pCO₂的变化较大, 其范围为233.3~465.3 μatm。秋季表现为大气CO₂的汇, CO₂吸收通量为1.66±0.41 mmol C/(m²/d);冬季表现为大气CO₂的弱源, 其释放通量为0.36±0.17 mmol C/(m²/d)。调查期间(枯水季)杨梅坑海域受淡水输入的影响较小, 季节性温度影响下的生物过程是驱动pCO₂变化的关键因素, 其贡献pCO₂总变化量的73.6%(表层)和66.5%(底层)。其中, 浮游植物光合作用的季节差异是导致海水CO₂汇源转变的主要成因, 而微生物呼吸作用的影响甚微。相比较, 物理过程(CO₂海-气交换、温度和盐度变化)对pCO₂的影响相对较小, 其作用结果远低于生物过程。此外, 珊瑚的代谢活动对杨梅坑局部海域pCO₂分布产生一定影响, 造成礁区pCO₂值高于非礁区。因此, 海气CO₂通量估算中不能忽视局部海域珊瑚代谢作用的影响。     

东太平洋海隆热液活动区原位观测数据的小波分析和热液指标的周期性变化

洋中脊热液流体供养了特殊的生物群落.热液扩散流中的生物群从流体中汲取基本代谢组分(如H₂S,CH₄,CO₂,O₂等),将它们供给共生菌,通过共生菌将它们转化成机体能够利用的有机质[1-2].热液中的硫化氢一方面提供营养给化学自养菌,另一方面对许多海底生物又具有毒性[3-4],因此热液中溶解硫化氢的浓度是制约生物群空间分布和组合特征的重要因素[5-8].