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当前,全球能源系统的主体是"碳基能源"——石油和煤等。这些不可再生的资源已日渐枯竭,而且大量使用会破坏地球生态系统。因此,用"氢基能源"逐步取代"碳基能源"已成为发达国家能源战略的首选目标,有的国家甚至将这一目标定在本世纪中叶。对于中国等发展中国家,大力开发生物质能等新的可再生"碳基能源",同时加速发展"氢基能源",争取提前进入氢能时代,才能实现可持续发展,甚至跨越式发展。制氢技术包括非生物制氢和生物制氢。非生物制氢目前已小量生产和应用,生物制氢的研究也有相当长的时间,其中影响生物制氢进入实用的主要因素是能耗和生产成本过高。因此,如果作为一个孤立的技术系统,生物制氢只能作为战略性项目。首先介绍了生物制氢的主要原理、目前限制生物制氢产业化的关键限制因子;提出了从系统论的原理出发,通过技术集成,突破生物制氢成本的"瓶颈",达到环保和资源利用的双重目的,使其提前实用化;最后,重点阐述了以海水为介质的高盐有机废水的生物制氢技术的研究进展,尤其介绍我国在相关方面的研究进展。 相似文献
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氢作为一种清洁高效的可再生能源日益受到人们的重视。本文从微生物制氢的条件与代谢调控方面探讨了生物制氢的最新进展。目前常用产氢细菌进行了总结,分析了细菌的培养方式和工艺方法,探讨了影响生物制氢的各种因素(pH,温度,基质,离子浓度,反应器等)。在此基础之上,阐述了分子生物学技术在生物制氢中的应用及系统代谢调控。最后,对生物制氢今后的主要研究方向及前景进行了展望。 相似文献
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随着能源紧缺的日益加剧,以及化石燃料燃烧引起的环境问题逐渐突显,氢能作为一种清洁可再生能源越来越受到青睐。生物制氢与热化学及电化学制氢相比其反应条件温和、低耗、绿色,是一项非常有应用前景的技术。生物制氢从广义上可以分为暗发酵和光发酵产氢两种,其中暗发酵微生物可以利用有机废弃物产生氢气以及有机酸等副产物,光合细菌在光照和固氮酶的作用下可以将暗发酵产生的有机酸继续用于产氢,因此两种发酵产氢方式相结合可以提高有机废物的资源化效率。将近年来暗发酵-光发酵两阶段生物制氢技术进行整理分析,从其产氢机理、主要影响因素、暗发酵-光发酵产氢结合方式(两步法、混合培养产氢)几个方面进行阐述,最后指出该技术面临的挑战。 相似文献
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生物制氢——能源、资源、环境与经济可持续发展策略 总被引:2,自引:0,他引:2
人类面临能源危机、资源短缺、环境污染的严峻挑战,开发新的能源,合理利用资源并保护生态环境势在必行。氢能具有清洁、高效、可再生的特点,是未来重要的新能源物质。生物制氢技术利用可再生资源,特别是可利用工农业有机废弃物产氢,效率高,能耗低,污染少,成本低,具有巨大的发展潜力。本文简要阐述生物制氢技术及其发展状况,提出我国发展生物制氢技术,实现能源、资源、环境与经济可持续发展的政策建议。 相似文献
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氢是一种理想的清洁能源,生物制氢是在新能源的研究利用中占有日趋重要的位置。该文综述了国内外光合产氢和发酵产氢的机理、研究现状及存在的问题,并对其进一步发展进行了分析和展望。 相似文献
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微藻光生物水解制氢技术 总被引:14,自引:0,他引:14
氢气是未来人类社会可持续发展的理想能源。介绍微藻太阳能光生物水解制氢的研究现状,重点讨论微藻光水解制氢的生物学原理。重点讨论微藻光解水制氢的酶学机理、工艺过程以及当前的主要研究方向。通过比较微藻固氮酶制氢、可逆产氢酶直接光水解制氢、可逆产氢酶间接光水解制氢等技术路线的优缺点,指出利用微藻可逆产氢酶两步法间接光水解制氢最具发展潜力,可望为21世纪的“氢能经济社会”提供大量的氢源。该技术成功的关键在于相关的基因工程和代谢调控研究取得重大突破。 相似文献
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Acclimation of the photosynthetic apparatus to light absorbed primarily by phycobilisomes (which transfer energy predominantly to photosystem II) or absorbed by chlorophyll a (mainly present in the antenna of photosystem I) was studied in the macroalga Palmaria palmata L. In addition, the influence of blue and yellow light, exciting chlorophyll a and phycobilisomes, respectively, ivas investigated. All results were compared to a white light control. Complementary chromatic adaptation in terms of an enhanced ratio of phycoerythrin to phycocyanin under green light conditions was observed. Red light (mainly absorbed by chlorophyll a) and green light (mainly absorbed by phycobilisomes) caused an increase of the antenna system, which was not preferentially excited. Yellow and blue light led to intermediate states comparable to each other and white light. Growth was reduced under all light qualities in comparison to white light, especially under conditions preferably exciting phycobilisomes (green light-adapted algae had a 58% lower growth rate compared to white light-adapted algae). Red and blue light-adapted algae showed maximal photosynthetic capacity with white light excitation and significantly lower values with green light excitation. In contrast, green and yellow light-adapted algae exhibited comparable photosynthetic capacities at all excitation wavelengths. Low-temperature fluorescence emission analysis showed an increase of photosystem II emission in red light-adapted algae and a decrease in green light-adapted algae. A small increase of photosystem I emission teas also found in green light-adapted algae, but this was much less than the photosystem II emission increase observed in red light-adapted algae (both compared to phycobilisome emission). Efficiency of energy transfer from phycobilisomes to photosystem II was higher in red than in green light-adapted algae. The opposite was found for the energy transfer efficiency from phycobilisomes to photosystem I. Zeaxanthin content increased in green and blue light-adapted algae compared to red, white, and yellow light-adapted algae. Results are discussed in comparison to published data on unicellular red algae and cyanobacteria. 相似文献
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研究对中国绿水螅共生绿藻的核18S rRNA基因全长序列及其叶绿体9个基因(atpA、chlB、chlN、petA、psaB、psbA、psbC、psbD及rbcL)片段序列进行了克隆和测序, 并基于18S rRNA基因序列及叶绿体9个基因序列的整合数据分别通过最大似然法(Maximum-likelihood)和贝叶斯分析(Bayesian inference)对中国绿水螅(Hydra sinensis)共生单细胞绿藻的系统发生地位进行了探讨。系统发生表明: (1)中国绿水螅共生绿藻属于共球藻纲(Trebouxiophyceae)小球藻目(Chlorellales), 但不属于其中的小球藻属(Chlorella); (2)来源于草履虫、水螅、地衣及银杏的共生绿藻均在共球藻纲支系, 而来源于蛙类和蝾螈的共生绿藻属于绿藻纲(Chlorophyceae)支系。无论在共球藻纲支系还是在绿藻纲支系, 不同来源的共生藻并没有排他性地聚为单系群而在系统树中与其他自由生活的绿藻混杂排列, 来自不同宿主的共生绿藻没有共同起源。 相似文献
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J. P. Dubacq 《Protoplasma》1973,76(3-4):373-385
Summary YoungAcetabularia mediterranea cells without cap have a fatty acid composition different from other green algae currently used for biological research. They contain important quantities of palmitic and oleic acid, but are very poor in polyunsaturated fatty acids such as linoleic and linolenic acid. (These polyunsaturated fatty acids are predominant in higher plants and many green algae.) 相似文献
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单细胞真核绿藻在中国水螅(Hydra sinensis)内胚层皮肌细胞中共生是有较高科研价值的特殊生物学现象。水螅宿主细胞为共生藻提供CO2、氮源及矿物质,而共生藻通过光合作用可能为宿主提供碳水化合物等有机物营养,因此水螅与共生藻间代谢流是以共生藻光合作用为中心,但基于代谢流二者间的互作机制目前尚未阐明。水螅通过营养积累进行出芽生殖,从母体脱落的芽体数量间接反映水螅营养积累的相对量。而光暴露时长能影响共生绿藻光合作用,如果共生藻的确能向水螅细胞转移光合作用产物,那光暴露时长应该能间接影响水螅的营养积累、从而进一步影响水螅无性出芽生殖。为证实该假说,本研究应用种群累积培养法,观察了光周期对中国水螅种群增长、无性出芽生殖及抗氧化酶(SOD和CAT)活力的影响。结果显示,光周期对中国水螅种群增长具有明显的影响。培养15 d后,所有实验组水螅的种群密度均为正增长,其中8L∶16D(在一个24h周期内光暴露8 h、黑暗16 h)实验组种群密度最大、而0L∶24D(持续黑暗)实验组种群密度最小。另外,随着光暴露时长的增加,中国水螅SOD及CAT活力整体均呈下降趋势。结果表明,从光周期对中国水螅无性出芽生殖及两种抗氧化酶活力的影响来看,中国水螅对光周期的生理学响应较为敏感,这个现象可能源于共生绿藻能通过向宿主细胞转移光合作用产物的方式为水螅提供营养补充。 相似文献
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Many areas of algae technology have developed over the last decades, and there is an established market for products derived from algae, dominated by health food and aquaculture. In addition, the interest for active biomolecules from algae is increasing rapidly. The need for CO(2) management, in particular capture and storage is currently an important technological, economical and global political issue and will continue to be so until alternative energy sources and energy carriers diminish the need for fossil fuels. This review summarizes in an integrated manner different technologies for use of algae, demonstrating the possibility of combining different areas of algae technology to capture CO(2) and using the obtained algal biomass for various industrial applications thus bringing added value to the capturing and storage processes. Furthermore, we emphasize the use of algae in a novel biological process which produces H(2) directly from solar energy in contrast to the conventional CO(2) neutral biological methods. This biological process is a part of the proposed integrated CO(2) management scheme. 相似文献
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Green algae are major components of biological soil crusts in alpine habitats. Together with cyanobacteria, fungi and lichens, green algae form a pioneer community important for the organisms that will succeed them. In their high altitudinal habitat these algae are exposed to harsh and strongly fluctuating environmental conditions, mainly intense irradiation, including ultraviolet radiation, and lack of water leading to desiccation. Therefore, green algae surviving in these environments must have evolved with either avoidance or protective strategies, as well as repair mechanisms for damage. In this review we have highlighted these mechanisms, which include photoprotection, photochemical quenching, and high osmotic values to avoid water loss, and in some groups flexibility of secondary cell walls to maintain turgor pressure even in water-limited situations. These highly specialized green algae will serve as good model organisms to study desiccation tolerance or photoprotective mechanisms, due to their natural capacity to withstand unfavorable conditions. We point out the urgent need for modern phylogenetic approaches in characterizing these organisms, and molecular methods for analyzing the metabolic changes involved in their adaptive strategies. 相似文献
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《BBA》2020,1861(4):148038
Photosynthesis is a fundamental biological process involving the conversion of solar energy into chemical energy. The initial photochemical and photophysical events of photosynthesis are mediated by photosystem II (PSII) and photosystem I (PSI). Both PSII and PSI are multi-subunit supramolecular machineries composed of a core complex and a peripheral antenna system. The antenna system serves to capture light energy and transfer it to the core efficiently. Both PSII and PSI in the green lineage (plants and green algae) and PSI in red algae have an antenna system comprising a series of chlorophyll- and carotenoid-binding membrane proteins belonging to the light-harvesting complex (LHC) superfamily, including LHCII and LHCI. However, the antenna size and subunit composition vary considerably in the two photosystems from diverse organisms. On the basis of the plant and algal LHCII and LHCI structures that have been solved by X-ray crystallography and single-particle cryo-electron microscopy we review the detailed structural features and characteristic pigment properties of these LHCs in PSII and PSI. This article is part of a Special Issue entitled Light harvesting, edited by Dr. Roberta Croce. 相似文献
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Ghirardi ML 《Indian journal of biochemistry & biophysics》2006,43(4):201-210
Oxygenic photosynthetic organisms such as cyanobacteria, green algae and diatoms are capable of absorbing light and storing up to 10-13% of its energy into the H-H bond of hydrogen gas. This process, which takes advantage of the photosynthetic apparatus of these organisms to convert sunlight into chemical energy, could conceivably be harnessed for production of significant amounts of energy from a renewable resource, water. The harnessed energy could then be coupled to a fuel cell for electricity generation and recycling of water molecules. In this review, current biochemical understanding of this reaction in green algae, and some of the major challenges facing the development of future commercial algal photobiological systems for H2 production have been discussed. 相似文献
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microRNAs(miRNAs)have emerged as key components in the eukaryotic gene regulatory network.We and others have previously identified many miRNAs in a unicellular green alga,Chlamydomonas reinhardtii.To investigate whether miRNA-mediated gene regulation is a general mechanism in green algae and how miRNAs have been evolved in the green algal lineage,we examined small RNAs in Volvox carteri,a multicellular species in the same family with Chlamydomonas reinhardtii.We identified 174 miRNAs in Volvox,with many of them being highly enriched in gonidia or somatic cells.The targets of the miRNAs were predicted and many of them were subjected to miRNA-mediated cleavage in vivo,suggesting that miRNAs play regulatory roles in the biology of green algae.Our catalog of miRNAs and their targets provides a resource for further studies on the evolution,biological functions,and genomic properties of miRNAs in green algae. 相似文献
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Jae Sam Yang 《Hydrobiologia》1991,211(3):165-170
Twenty-one species of seaweed from the California coast were analyzed for rhenium. For the first time, high enrichment (thousandfolds) of rhenium relative to seawater was found in brown algae, but not in green or red algae. Brown algae was suggested as a biological sink of rhenium in the sea and the analogous behavior of technetium to rhenium was found in marine algae. Preliminary incubation experiments with a common brown alga (Pelvetia fastigiata) showed that algal surface is not a major accumulating locus of rhenium. 相似文献