Hellbust J A;Lewin J,Heterotrophic nutrition,Berkeley:University of California Press,1977.
[2]
Rittenberg S C,The obligate autotroph-the demise of a concept,Antonie Van Leeuwenhoek-International Journal of General and Molecular Microbiology,1972.
[3]
Kelly D P,Autotrophy:concepts of lithotrophic bacteria and their orhanic metabolism,Annual Review of Microbiology,1971.
[4]
Gladue R M,Heterotrophic microalgae prodution:potential for application to aquaculture feeds,Honolulu,USA,1991.
[5]
Anderson S L;Mclntosh I,Light-activated heterotrophic growth of the Cyanobacterium Synechocystis strain PCC 6803:a blue-light-requiring process,Bacteriology,1991.
[6]
Cheng K C;Ogden K L,Alagl Biofuels:The Research,The Centre for Economic Performance,2011.
[7]
徐建祥.利用微藻培养生产DHA的进展[J].食品工业科技,2003(11)
[8]
Wen Z Y;Chert F,Heterotrophic production of eicosapentaenoic acid by microalgae,Biotechnology Advances,2003.
[9]
Chisti Y,Biodiesel from microalgae,Biotechnology Advances? ,2007, 25(03).
[10]
Guerin M;Huntley M E;Olaizola M,Haematococcus astaxanthin:applications for human health and nutrition,Trends in Biotechnology,2003.
[11]
Ogawa T;Aiba S,Bioenergetic analysis of mixotrophic growth in Chlorella vulgaris and Scenedesmus acutus,Biotechnology and Bioengineering,1981.
[12]
刘少华,蔡小宁,陈舒泛.硒对异养小球藻生长及品质的影响[J].安徽农业科学,2006(9)
[13]
Bouarab L;Dauta A;Loudiki M,Heterotrophic and mixotrophic growth of Micractinium pusillum Fresenius in the presence of acetate and glucose:effect of light and acetate gradient concentration,Water Research,2004.
[14]
Coombs J;Halicki P J;Holm-hansen O,Studies on the biochemistry and fine structure of silicate shell formation in diatoms:Ⅱ.Changes in concentration of nucleoside triphosphates in silicon-starvation synchrony of Navicula pelliculosa(Breb)Hilse,Experimental Cell Research,1967.
[15]
Enright C T;Newkirk G F;Craigie J S,Growth of juvenile Ostrea edulis L.fed Chaetoceros gracilis Schutt of varied chemical composition,Journal of Experimental Marine Biology and Ecology,1986.
[16]
Yongmanitchai W;Ward O P,Growth of and omega-3 fatty acid production by Phaeodactylum tricornutum under different culture conditions,Applied and Environmental Microbiology,1991.
[17]
缪晓玲;吴庆余,微藻生物质可再生能源的开发利用,可再生能源,2003(109).
[18]
Sebnem Asian ;Ilgi Karapinar Kapdan,Batch kinetics of nitrogen and phosphorus removal from synthetic wastewater by algae,Ecological engineering?,2006, 28(1).
[19]
Tara L;Walke R;Purton S,Microalgae as bioreactors,Plant Cell Reports,2005.
[20]
Combs G E,Algae(Chlorella)as a source of nutrients for the chicks,Science,1952.
[21]
Certik M;Shimizu S,Biosynthesis and regulation of microbial polyunsaturated fatty acid production,Biotechnology and Bioengineering,1999.
[22]
Mannar R M;Pakrasi H B,Dark heterotrophic growth conditions result in an increase in the content of photosystem II units in the filamentous Cyanobacterium Anabaena variabilis ATCC29413,Plant Physiology,1993.
[23]
Todd L R;Cysewski G R,Commercial potential for Haematococcus microalgae as a natural source of astaxanthin,Trends in Biotechnology,2000.
[24]
Wu Z Y;Shi X M,Optimization for high-density cultivation of heterotrophic Chlorella based on a hybrid neural network model,Compliation,2007.
[25]
Wen Z Y;Chen F,Heterotrophic production of eicosapentaenoid acid by the diatom Nitzschia laevis:effects of silicate and glucose,Industrial Microbiology and Biotecnology,2000.
[26]
Lewin J C;Lewin R A,Culture and nutrition of some apochlorotic diatoms,General Microbiology,1967.
[27]
Borowitzka M A;Borowitzka L J,Microalgal Biotechnology,Cambridge:Cambridge University Press,1988.
Jiang Y;Chen F,Effects of temperature and temperature shift on docosahexaenoic acid production by the marine microalga Crypthecodinium cohnii,Journal of the American Oil Chemists\'society,2000.
[30]
Ohta S;Chang T;Aozasa O,Alterations in fatty acid composition of marine red alga Porphyridium purpureum by environmental factors,Botanica Marina,1993.
[31]
王永华 隐甲藻高密度发酵培养和油脂改性研究 [D].2002
[32]
Miao XL ;Wu QY,High yield bio-oil production from fast pyrolysis by metabolic controlling of Chlorella protothecoides,Journal of Biotechnology?,2004, 110(1).
[33]
Payer H D;Chiemvichak Y;Hosakul K,Temperature as an important climate factor during mass production of microscopic algae,New York:Elsevier Biomedical Press,1980.
Zaslavskaia L A;Lippmeier J C;Shin C,Trophic conversion of an obligate photoautotrophic organism through metabolic engineering,Science,2001.
[37]
刘晓娟 三角褐指藻的自养、兼养和异养特性研究 [D].2008
[38]
Brinda B R;Sarada R;Kamath B S,Accumulation of astaxanthin in flagellated cells ofHaematococcus pluvialis --cultural and regulatory aspects,Current Science,2004.
[39]
Liu S M;Chen F;Liang S Z.Researches in the Heterotrophic culture of Chlorella Vulgaris[J].South China University of Technology(Natural Science),1999(4)
[40]
Ogbonna J C;Tomiyama S;Tanaka H,Heterotrophic cultivation of Euglena gracilis Z for efficient production of a-tocopherol,Applied Phycology,1998.
[41]
Jiang Y;Chen F,Effects of medium glucose concentration and PH on docosahexaenoic acid content of heterotrophic Crypthecodinium cohnii,Process Biochemistry,2000.
[42]
Vartanian M D;Espardellier F J;Astier C,Contributions of respiratory and photosynthetic pathways of a facultative photoautotrophic cyanobacterium,Aphanocapsa 6714,Plant Physiology,1981.
[43]
Bouarab L;Dauta A;Loudiki M,Heterotrophic and mixotrophic growth of Micratinium pusillum Fresenius in the presence of acetate and glucose:effecy of light and acetate gradient concentration,Water Research,2004.
[44]
Liu, ZY ;Wang, GC ;Zhou, BC,Effect of iron on growth and lipid accumulation in Chlorella vulgaris,Bioresource Technology?,2008, 99(11).
[45]
刘世名;梁世中,La^3+球藻异养生长及叶绿素含量的影响,稀土,1999(3).
[46]
Schneegurf M A;Sherman D M;Sherman L A,Growth,physiology,and ultrastructure of a diazotrophic Cyanothece sp.Strain ATCC 51142 in mixotrophic and chemoheterotrophic cultures,Phycologia,1997.
[47]
Pelroy R A;Bassham J m,Kinetics of glucose incorporation by Aphanocapsa 6714,Bacteriology,1973(3).
[48]
刘晓娟;段舜山;李爱芬,不同营养因子对微藻3种培养方式生产EPA的影响,究与开发,2006(8).
[49]
张丽君;杨汝德;肖恒.小球藻的异养生长及培养条件优化[J].广西植物,2001(4)
[50]
Chen F;Johns M R,Effect of C/N ratio and aeration on the fatty acid composition of heterotrophic Chlorella sorokiniana,Applied Phycology,1991.
[51]
Gordillo F J L;Goutx M;Figueroa F L,Effects of light intensity,CO2 and nitrogen supply on lipid classcomposition of Dunaliella viridis,Applied Phycology,1998.
[52]
Redfield A C,On the Proportions of organic derivations in sea water and their relation to the composition of plankton,Liverpool:University Press of Liverpool,1934.
[53]
蒋冰飞;孙颖颖;王长海,营养盐对球等边金藻生长和脂肪酸含量及组分的影响,海洋通报,2007(5).
[54]
A.M.Illman ;A.H.Scragg ;S.W.Shales,Increase in Chlorella strains calorific values when grown in low nitrogen medium,Enzyme and Microbial Technology?,2000, 27(8).
[55]
Gao C F;Zhai Y;Ding Y;Wu Q Y,Application of sweet sorghum for biodiesel production by heterotrophic microalga Chlorella protothecoides,Applied Energy,2010(3).
LEWIN J C,Heterotrophy in diatoms,General Microbiology,1953.
[58]
Miao, XL ;Wu, QY,Biodiesel production from heterotrophic microalgal oil,Bioresource Technology?,2006, 97(6).
[59]
Van Baalen C;Hoare D S;Brandt E,Heterotrophic growth of Blue-Green algae in dim light,Bacteriology,1971(3).
[60]
Iwamoto H,Industrial production of microalgal cell-mass and secondary products-major industrial species- Chlorella,Blackwell:Oxford,2004.
[61]
Gladue R M;Maxey J F,Microalgal feeds for aquaculture,Applied Phycology,1994.
[62]
Kobayashi M;Kakizono T;Yamaguchi K,Growth and astaxanthin formation of Haematococcus pluvialis in heterotrophic and mixotrophic conditions,Journal of Fermentation and Bioengineering,1992.
[63]
Tan C K;Johns M R,Fatty acid production by heterotrophic Chlorella saccharophila,Hydrobiologia,1991.
[64]
Endo H;Sansawa H;Nakajima K,Studies on Chlorella regularis heterotrophic fast growing stain.Ⅱ.Mixotrophic growth in relation to light intensity and acetate concentration,Plant and Cell Physiology,1977.
[65]
Pauline Spolaore ;Claire Joannis-Cassan ;Elie Duran ;Arsene Isambert,Commercial Applications of Microalgae,Journal of Bioscience and Bioengineering?,2006, 101(2).
[66]
Laliberte G;Noiie J D L,Auto-,hetero- and mixotrophic growth of Chlamydomonas humicola(Chlorophyceae)on acetate,Phycologia,1993.
[67]
Chen F;Johns M R,Heterotrophic growth of Chlamydomonas reinhardtii on acetate in chemostat culture,Process Biochemistry,1996.
[68]
Tsavalos A J;Day J G,Development of media for the mixotrophic/heterotrophic culture of Brachiomonas submarina,Applide Phycology,1994.
[69]
Chojnacka K;Andrzej N,Evaluation of Spirulina sp.Growth in photoautotrophic,heterotrophic and mixotrophic cultures,Enzyme and Microbial Technology,2004.
[70]
Marquez F J;Saski K;Kakizono T,Growth characteristic of Spirulina platensis in mixotrophic and heterotrophic conditions,Journal of Fermentation and Bioengineering,1973.
[71]
Ingram L O;Calder J A;Vanbaalen C,Role of reduced exogenous organic compounds in the physiology of the blue-green bacteria(algae):photoheterotrophic growth of a "heterotrophic" blue-green bacterium,Bacteriology,1973(2).
[72]
Freedberg W B;Kistler W S;Line E C,Lethal synthesis of methylglyoxal by Escherichia coli during unregulated glycerol metabolism,Bacteriology,1971.
[73]
Cox G B;Gibson F;Mccann L,Oxidative phosphorylation in Escherichia coli K-12 An uncoupled mutant with altered membrane structure,Biochemical Journal,1974.
[74]
Wood A P;Aurikko J P;Kelly D P,Achallenge for 21st century molecular biology and biochemistry:what are the causes of obligate autotrophy and methanotrophy,FEMS Microbiology Reviews,2004.
