Berner T,Dubinsky Z.Photoadaptation and the "package" effect in Dunaliella tertiolecta (Chlorophyceae)[J].Phycologia,1989,25:70-78.
[2]
Kelly A B,Dodge J D.Effects of chronic salt stress on the ultrastructure of Dunaliella bioculata (Chlorophyta,Volvocales):mechanisms of response and recovery[J].European Phycology,1999,34:117-123.
[3]
Fuggi A,Pollio A.Effects of NaCl,Na2SO4,H2SO4 and glucose on growth,photosynthesis,and respiration in the acidophilic alga Dunaliella acidophila[J].Phycologia,1988,27(3):334-339.
[4]
Senjie L,Gobler C J.Cytological and biochemical responses of Dunaliella tertiolecta (Volvocales,Chlorophyta) to iron stress[J].Phycologia,2001,40 (5):403-410.
[5]
Amotz A B.New mode of Dunaliella biotechnology:two-phase growth for β-carotene production[J].Journal of Applied Phycology,1995,7:65-68.
[6]
Borowitzka L J,Borowitzka M A.Mass culture of Dunaliella:from laboratory to pilot plant[J].Hydrobiologia,1984,116:115-121.
Borowitzka L J,Borowitzka M A.Mass culture of Dunaliella:from laboratory to pilot plant[J].Hydrobiologia,1984,116:115-121.
[9]
Giordano M.Organic carbon release by Dunaliella salina (Chlorophyta) under different growth conditions of CO2,nitrogen,and salinity[J].Phycologia,1994,30:249-257.
Francisco J L.Effects of light intensity,CO2 and nitrogen supply on lipid class composition of Dunaliella viridis[J].Journal of Applied Phycology,1998,10:135-144.
[12]
Carlos J,Niell F X.Influence of temperature and nitrogen concentration on photosynthesis of Dunaliella viridis Teodoresco[J].Journal of Applied Phycology,1990,2:309-317.
[13]
Amotz A B.Effect of low temperature on the stereoisomer composition of β-carotene in the halotolerant alga Dunaliella bardawil (Chlorophyta)[J].Phycology,1996,32:272-275.
[14]
Graziano L M,Roche J L.Physiological responses to phosphorus limitation in batch and steady-state cultures of Dunaliella tertiolecta (Chlorophyta):a unique stress protein as an indicator of phosphate deficiency[J].Phycologia,1996,32:825-838.
[15]
Geider R J,Macintyre H L.Responses of the photosynthetic apparatus of Dunaliella tertoilecta (Chlorophyceae) to nitrogen and phosphorus limitation[J].Phycology,1998,33:315-332.
[16]
Roche J L,Harrison W G.Reversible kinetic model for the short-term regulation of methylammonium uptake in two phytoplankton species,Dunaliella tertoilecta (Chlorophyceae) and Phaeodactylum tricornutum (Bacillariophyceae)[J].Phycology,1989,25:36-48.
[17]
Cifuentes A S,Mariela A.Reappraisal of physiological attributes of nine strains of Dunaliella (Chlorophyceae):growth and pigment content across salinity gradient[J].Phycologia,2001,37:334-344.
[18]
Roche J L,Bertrand A M.Light intensity-induced changes in cab mRNA and light harvesting complexⅡapoprotein levels in the unicellular Chlorophyte Dunaliella tertiolecta[J].Plant Physiology,1991,97:147-153.
[19]
Gerhard E,Gimmler H.The glycerol permeability of the plasmalemma of the halotolerant green alga Dunaliella parva (Volvocales)[J].Phycology,1980,16:524-532.
[20]
Orset S.Low-temperature-induced synthesis of α-carotene in the microalga Dunaliella salina (Chlorophyta)[J].Phycologia,1999,35:520-527.
[21]
Powtongsook S.Isolation and characterization of Dunaliella salina from Thailand[J].Journal of Applied Phycology,1995,7:75-76.
[22]
Hard B C,Gilmour D J.A mutant of Dunaliella parva CCAP 19/9 leaking large amounts of glycerol into the medium[J].Journal of Applied Phycology,1991,3:367-372.
[23]
Giordano A.Adaptation of Dunaliella salina (Volvocales,Chlorophyceae) to growth on NH+4 as the sole nitrogen source[J].Phycologia,1997,36 (5):345-350.
[24]
Huber M E,Lewin R A.Ethanol-induced flagellar automy in Dunaliella tertiolecta Butcher[J].Phycologia,1987,26 (1):138-151.
[25]
Grobbelar J U.Influence of areal density on β-carotene production by Dunaliella salina[J].Journal of Applied Phycology,1995,7:69-73.
[26]
Amotz A B,Avron M.The wavelength dependence of massive carotene synthesis in Dunaliella bardawil (Chlorophyceae)[J].Phycologia,1989,25:175-178.
[27]
Tan C K,Lee Y K.Effect of light intensity and ammonium-N on carotenogenesis of Trentepohlia odorata and Dunaliella bardawil[J].Journal of Applied Phycology,1993,5:547-549.
[28]
Mendoza H,Ramazanov Z.Low temperature induced β-carotene and fatty acid synthesis,and ultrastructural reorganization of the chloroplast in Dunaliella salina (Chlorophyta)[J].European Phycology,1996,31:329-331.
[29]
Lu S,Zhang X N,Li P Y,et al.A salt-induced chloroplast protein in Dunaliella salina (Chlorophyta)[J].Phycology,1996,32:983-986.
Carlos J,Niell F X.Growth of Dunaliella viridis Teodoresco:effect of salinity,temperature and nitrogen concentration[J].Journal of Applied Phycology,1991,3:319-327.
[32]
Sosik H M,Mitchell B G.Effects of temperature on growth,light absorption,and quantum yield in Dunaliella tertiolecta(Chlorophyceae)[J].Phycologia,1994,30:833-840.
[33]
Uriarte I,Bayne B L.Cell characteristics and biochemical composition of Dunaliella primolecta Butcher conditioned at different concentrations of dissolved nitrogen[J].Journal of Applied Phycology,1993,5:447-453.