The ecology of Dunaliella in high-salt environments
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Teodoresco EC: Organisation et développement du Dunaliella , nouveau genre de Volvocacée-Polyblépharidée. Beih Bot Centralbl 1905, 18: 215–232.
Oren A: A hundred years of Dunaliella research: 1905–2005. Saline Systems 2005, 1: 2. 10.1186/1746-1448-1-2
Dunal F: Les algues qui colorent en rouge certains eaux des marais salants méditerranéens. Ann Sci Nat Bot 2e Sér 1838, 9: 172.
Baas Becking LGM: Geobiologie of Inleiding tot de Milieukunde. Den Haag, W.P. van Stockum & Zoon; 1934.
Ginzburg M: Dunaliella : a green alga adapted to salt. Adv Bot Res 1987, 14: 93–183. 10.1016/S0065-2296(08)60271-2
Avron M, Ben-Amotz A: Dunaliella: Physiology, Biochemistry, and Biotechnology. CRC Press, Boca Raton; 1992.
Ben-Amotz A, Polle JEW, Subba Rao DV: The alga Dunaliella. Biodiversity, Physiology, Genomics and Biotechnology. Science Publishers, Enfield, NH; 2009.
Oren A: Book Review. Ben-Amotz, A., Polle, J.E.W. & Subba Rao, D.V. 2009. The alga Dunaliella . Biodiversity, Physiology, Genomics and Biotechnology. Science Publishers, Enfield, New Hampshire, 555 pp. ISBN 978–1-57808–545–3. J Phycol 2010, 46: 216–217. 10.1111/j.1529-8817.2009.00785.x
Polle JEW, Tran D, Ben-Amotz A: History, distribution, and habitats of algae of the genus Dunaliella Teodoresco (Chlorophyceae). In The Alga Dunaliella. Biodiversity, Physiology, Genomics and Biotechnology. Edited by Ben-Amotz A, Polle JEW, Subba Rao DV. Enfield, NH: Science Publishers; 2009:1–13.
Lerche W: Untersuchungen über Entwicklung und Fortpflanzung in der Gattung Dunaliella . Arch Protistenkunde 1937, 88: 236–268.
Massyuk NP: Morphology, Taxonomy, Ecology and Geographic Distribution of the Genus Dunaliella Teod. and Prospects for its Potential Utilization. Naukova Dumka, Kiev; 1973.
Preisig HR: Morphology and taxonomy. In Dunaliella: Physiology, Biochemistry and Biotechnology. Edited by: Avron M, Ben-Amotz A. CRC Press, Boca Raton; 1992:1–15.
González MA, Gómez PI, Polle JEW: Taxonomy and phylogeny of the genus Dunaliella. In Ben-Amotz A, Polle JEW, Subba Rao DV. Enfield, NH: Science Publishers; 2009:15–44.
Borowitzka MA, Siva CJ: The taxonomy of the genus Dunaliella (Chlorophyta, Dunaliellales) with emphasis on the marine and halophilic species. J Appl Phycol 2007, 19: 567–590. 10.1007/s10811-007-9171-x
Borowitzka LJ: The microflora. Adaptations to life in extremely saline lakes. Hydrobiologia 1981, 81: 33–46. 10.1007/BF00048704
González MA, Gómez PI, Montoya R: Comparison of PCR-RFLP analysis of the ITS region with morphological criteria of various strains of Dunaliella . J Appl Phycol 1999, 10: 573–580. 10.1023/A:1008035422784
Olmos J, Paniagua J, Contreras R: Molecular identification of Dunaliella sp. utilizing the 18S rDNA gene. Lett Appl Microbiol 2000, 30: 80–84. 10.1046/j.1472-765x.2000.00672.x
Olmos J, Ochoa L, Paniagua-Michel J, Contreras R: DNA fingerprinting differentiation between β-carotene hyperproducer strains of Dunaliella from around the world. Saline Systems 2009, 5: 5. 10.1186/1746-1448-5-5
Olmos-Soto J, Paniagua-Michel J, Contreras R, Ochoa L: DNA fingerprinting intron-sizing method to accomplish a specific, rapid, and sensitive identification of carotenogenic Dunaliella species. Methods Mol Biol 2012, 892: 269–281. 10.1007/978-1-61779-879-5_16
Hejazi MA, Barzegari A, Gharajeh NH, Hejazi MS: Introduction of a novel 18S rDNA gene arrangement along with distinct ITS region in the saline water microalga Dunaliella . Saline Systems 2010, 6: 4. 10.1186/1746-1448-6-4
Assunção P, Jaén-Molina R, Caujapé-Castells J, de la Jara A, Carmona L, Freijanes K, Mendoza H: Phylogenetic position of Dunaliella acidophila (Chlorophyceae) based on ITS and rbcL sequences. J Appl Phycol 2012, 24: 635–639. 10.1007/s10811-011-9676-1
González MA, Coleman AW, Gómez PI, Montoya R: Phylogenetic relationship among various strains of Dunaliella (Chlorophyceae) based on nuclear ITS rDNA sequences. J Phycol 2001, 37: 604–611. 10.1046/j.1529-8817.2001.037004604.x
Assunção P, Jaén-Molina R, Caujapé-Castells J, Wolf M, Buchheim MA, de la Jara A, Freijanes K, Carmona L, Mendoza H: Phylogenetic analysis of ITS2 sequences suggests the taxonomic re-structuring of Dunaliella viridis ( Chlorophyceae , Dunaliellales ). Phycol Res 2013, 61: 81–88. 10.1111/pre.12003
Zamani H, Moradshahi A, Karbalaei-Heidari HR: Characterization of a new Dunaliella salina strain MSI-1 based on nuclear rDNA ITS sequences and its physiological response to changes in composition of growth media. Hydrobiologia 2011, 658: 67–75. 10.1007/s10750-010-0450-1
Assunção P, Jaén-Molina R, Caujapé-Castells J, de la Jara A, Carmona L, Freijanes K, Mendoza H: Molecular taxonomy of Dunaliella (Chlorophyceae), with a special focus on D. salina : ITS2 sequences revisited with an extensive geographical sampling. Aquat Biosyst 2012, 8: 2. 10.1186/2046-9063-8-2
Meuser JE, Baxter BK, Spear JR, Peters JW, Posewitz MC, Boyd ES: Contrasting patterns of community assembly in the stratified water column of Great Salt Lake, Utah. Microb Ecol 2013, 66: 268–280. 10.1007/s00248-013-0180-9
Bodaker I, Sharon I, Suzuki MT, Feingersch R, Shmoish M, Andreishcheva E, Sogin ML, Rosenberg M, Maguire ME, Belkin S, Oren A, Béjà O: Comparative community genomics in the Dead Sea: an increasingly extreme environment. ISME J 2010, 4: 399–407. 10.1038/ismej.2009.141
Heidelberg KB, Nelson WC, Holm JB, Eisenkolb N, Andrade K, Emerson JB: Characterization of eukaryotic microbial diversity in hypersaline Lake Tyrrell. Australia Front Microbiol 2013, 4: 115.
Hamburger C: Zur Kenntnis der Dunaliella salina und einer Amöbe aus Salinenwasser von Cagliari. Arch Protistenkunde 1905, 6: 111–131.
Borowitzka MA, Huisman JM: The ecology of Dunaliella salina (Chlorophyceae, Volvocales): effect of environmental conditions on aplanospore formation. Bot Mar 1993, 36: 233–243. 10.1515/botm.1993.36.3.233
Montoya TH, Olivera GA: Dunaliella salina from saline environments of the central coast of Peru. Hydrobiologia 1993, 267: 155–161. 10.1007/BF00018797
Post FJ: The microbial ecology of the Great Salt Lake. Microb Ecol 1977, 3: 143–165. 10.1007/BF02010403
Oren A, Ben-Yosef N: Development and spatial distribution of an algal bloom in the Dead Sea: a remote sensing study. Aquat Microb Ecol 1997, 13: 219–223. 10.3354/ame013219
Oren A, Gurevich P, Anati DA, Barkan E, Luz B: A bloom of Dunaliella parva in the Dead Sea in 1992: biological and biogeochemical aspects. Hydrobiologia 1995, 297: 173–185. 10.1007/BF00019283
Felix EA, Rushford SR: The algal flora of the Great Salt Lake, Utah. USA Nova Hedwigia 1979, 31: 163–195.
Larson CA, Belovsky GE: Salinity and nutrients influence species richness and evenness of phytoplankton communities in microcosm experiments from Great Salt Lake, Utah, USA. J Plankton Res 2013, 35: 1154–1166. 10.1093/plankt/fbt053
Post FJ: Biology of the north arm. In Great Salt Lake: A Scientific, Historical and Economic Overview. Edited by: Gwynn JW. Utah Geological and Mineral Survey, Salt Lake City; 1980:314–321.
Post FJ: Microbiology of the Great Salt Lake north arm. Hydrobiologia 1981, 81: 59–69. 10.1007/BF00048706
Post FJ: Oxygen-rich gas domes of microbial origin in the salt crust of the Great Salt Lake, Utah. Geomicrobiol J 1980, 2: 127–139. 10.1080/01490458009377757
Stephens DW, Gillespie DM: Phytoplankton production in the Great Salt Lake, Utah, and a laboratory study of algal response to enrichment. Limnol Oceanogr 1976, 21: 74–87. 10.4319/lo.1976.21.1.0074
Stephens DW: Changes in lake levels, salinity and the biological community of Great Salt Lake (Utah, USA), 1847–1987. Hydrobiologia 1990, 197: 139–146. 10.1007/BF00026946
Oren A: The microbial ecology of the Dead Sea. In Advances in Microbial Ecology, Vol. 10. Edited by: Marshall KC. Plenum Publishing Company, New York; 1988:193–229. 10.1007/978-1-4684-5409-3_6
Oren A: Halophilic Microorganisms and their Environments. Kluwer Scientific Publishers, Dordrecht; 2002.
Volcani BE: The Microorganisms of the Dead Sea. In Papers Collected to Commemorate the 70th Anniversary of Dr. Chaim Weizmann. Daniel Sieff Research Institute, Rehovoth, Rehovoth; 1944:71–85.
Nissenbaum A: The microbiology and biogeochemistry of the Dead Sea. Microb Ecol 1975, 2: 139–161. 10.1007/BF02010435
Ben-Amotz A, Ginzburg BZ: Light-induced proton uptake in whole cells of Dunaliella parva . Biochim Biophys Acta 1969, 183: 144–154. 10.1016/0005-2736(69)90138-2
Oren A, Shilo M: Population dynamics of Dunaliella parva in the Dead Sea. Limnol Oceanogr 1982, 27: 201–211. 10.4319/lo.1982.27.2.0201
Oren A, Shilo M: Factors determining the development of algal and bacterial blooms in the Dead Sea: a study of simulation experiments in outdoor ponds. FEMS Microbiol Ecol 1985, 31: 229–237. 10.1111/j.1574-6968.1985.tb01154.x
Kaplan IR, Friedmann A: Biological productivity in the Dead Sea. Part I. Microorganisms in the water column. Israel J Chem 1970, 8: 513–528. 10.1002/ijch.197000058
Wright SW, Burton HR: The biology of Antarctic saline lakes. Hydrobiologia 1981, 82: 319–338. 10.1007/BF00048723
Oren A: Saltern evaporation ponds as model systems for the study of primary production processes under hypersaline conditions. Aquat Microb Ecol 2009, 56: 193–204. 10.3354/ame01297
Alfinito S, Iberite M, Fumanti B: The algal microflora of the salt works of Tarquinia (Italy). Hydrobiologia 1990, 203: 137–146. 10.1007/BF00005682
Giani D, Seeler J, Giani L, Krumbein WE: Microbial mats and physicochemistry in a saltern in the Bretagne (France) and in a laboratory scale model. FEMS Microbiol Ecol 1989, 62: 151–162. 10.1111/j.1574-6968.1989.tb03689.x
Joint I, Henriksen P, Garde K, Riemann B: Primary production, nutrient assimilation and microzooplankton grazing along a hypersaline gradient. FEMS Microbiol Ecol 2002, 39: 245–257. 10.1111/j.1574-6941.2002.tb00927.x
Rodriguez-Valera F, Ventosa A, Juez G, Imhoff JF: Variation of environmental features and microbial populations with salt concentrations in a multi-pond saltern. Microb Ecol 1985, 11: 107–115. 10.1007/BF02010483
Javor BJ: Industrial microbiology of solar salt production. J Ind Microbiol Biotechnol 2002, 28: 42–47. 10.1038/sj/jim/7000173
Javor BJ: Planktonic standing crop and nutrients in a saltern ecosystem. Limnol Oceanogr 1983, 28: 153–159. 10.4319/lo.1983.28.1.0153
Dolapsakis NP, Tafas T, Abatzopoulos TJ, Ziller S, Economou-Amilli A: Abundance and growth response of microalgae at Megalon Embolon solar saltworks in northern Greece: an aquaculture prospect. J Appl Phycol 2005, 17: 39–49. 10.1007/s10811-005-5553-0
Oren A, Rodríguez-Valera F: The contribution of halophilic Bacteria to the red coloration of saltern crystallizer ponds. FEMS Microbiol Ecol 2001, 36: 123–130.
Oren A, Dubinsky Z: On the red coloration of saltern crystallizer ponds. II. Additional evidence for the contribution of halobacterial pigments. Int J Salt Lake Res 1994, 3: 9–13. 10.1007/BF01990638
Oren A, Stambler N, Dubinsky Z: On the red coloration of saltern crystallizer ponds. Int J Salt Lake Res 1992, 1: 77–89. 10.1007/BF02904363
Oren A: Microbial diversity and microbial abundance in salt-saturated brines: why are the waters of hypersaline lakes red? In Saline Lakes around the World: Unique Systems with Unique Values. Edited by: Oren A, Naftz DL, Palacios P, Wurtsbaugh WA. The S.J. and Jessie E. Quinney Natural Resources Research Library, College of Natural Resources, Utah State University, Salt Lake City; 2009:247–255.
Mishra A, Jha B: Isolation and characterization of extracellular polymeric substances from micro-algae Dunaliella salina under salt stress. Bioresour Technol 2009, 100: 3382–3386. 10.1016/j.biortech.2009.02.006
Davis JS, Giordano M: Biological and physical events involved in the origin, effects, and control of organic matter in solar saltworks. Int J Salt Lake Res 1996, 4: 335–347. 10.1007/BF01999117
Giordano M, Bargnesi F, Mariani P, Ratti S: Dunaliella salina (Chlorophyceae) affects the quality of NaCl crystals. Cryprogam Algol 2014, 35: 285–302. 10.7872/crya.v35.iss3.2014.285
Giordano M, Beardall J: Impact of environmental conditions on photosynthesis, growth and carbon allocation strategies of hypersaline species of Dunaliella . Global NEST J 2009, 11: 79–85.
Buchheim MA, Kirkwood AE, Buchheim JA, Verghese B, Henley WJ: Hypersaline soil supports a diverse community of Dunaliella (Chlorophyceae). J Phycol 2010, 46: 1038–1047. 10.1111/j.1529-8817.2010.00886.x
Azúa-Bustos A, González-Silva C, Salas L, Palma RE, Vicuña R: A novel subaerial Dunaliella species growing on cave spiderwebs in the Atacama Desert. Extremophiles 2010, 14: 443–452. 10.1007/s00792-010-0322-7
DiGregorio BE: Pleistocene microbes recovered from halite inclusions prove viable. Microbe 2011, 6: 260–261.
Lowenstein TK: Microorganisms in Evaporites: Review of Modern Geomicrobiology. In Advances in Understanding the Biology of Halophilic Microorganisms. Edited by: Vreeland RH. Springer Science and Business Media, Dordrecht; 2012:117–139. 10.1007/978-94-007-5539-0_5
Schubert BA, Timofeeff MN, Lowenstein TK, Polle JEW: Dunaliella cells in fluid inclusions in halite: significance for long-term survival of prokaryotes. Geomicrobiol J 2010, 27: 61–75. 10.1080/01490450903232207
Schubert BA, Lowenstein TK, Timofeeff MN, Parker MA: How do prokaryotes survive in fluid inclusions in halite for 30 k.y.? Geology 2009, 37: 1059–1062. 10.1130/G30448A.1
Lowenstein TK, Schubert BA, Timofeeff MN: Microbial communities in fluid inclusions and long-term survival in halite. GSA Today 2011, 21: 4–9. 10.1130/GSATG81A.1
Conner AJ, Benison KC: Acidophilic halophilic microorganisms in fluid inclusions in halite from Lake Magic, Western Australia. Astrobiology 2013, 13: 850–860. 10.1089/ast.2012.0956
Benison KC, Karmanocky FJ III: Could microorganisms be preserved in Mars gypsum? Insights from terrestrial examples. Geology 2014, 42: 615–618. 10.1130/G35542.1
Brock TD: Salinity and the ecology of Dunaliella from Great Salt Lake. J Gen Microbiol 1975, 89: 285–292. 10.1099/00221287-89-2-285
Moulton TP, Sommer TR, Burford MA, Borowitzka LJ: Competition between Dunaliella species at high salinity. Hydrobiologia 1987, 151/152: 107–116. 10.1007/BF00046115
Williams TJ, Allen MA, DeMaere MZ, Kyrpides NC, Tringe SG, Woyke T, Cavicchioli R: Microbial ecology of an Antarctic hypersaline lake: genomic assessment of ecophysiology among dominant haloarchaea. ISME J 2014, 8: 1645–1658. 10.1038/ismej.2014.18
Pedrós-Alió C, Calderón-Paz JI, MacLean MH, Medina G, Marassé C, Gasol JM, Guixa-Boixereu N: The microbial food web along salinity gradients. FEMS Microbiol Ecol 2000, 32: 143–155. 10.1016/S0168-6496(00)00025-8
Elevi Bardavid R, Khristo P, Oren A: Interrelationships between Dunaliella and halophilic prokaryotes in saltern crystallizer ponds. Extremophiles 2008, 12: 5–14. 10.1007/s00792-006-0053-y
Enhuber G, Gimmler H: The glycerol permeability of the plasmalemma of the halotolerant green alga Dunaliella parva (Volvocales). J Phycol 1980, 16: 524–532. 10.1111/j.1529-8817.1980.tb03069.x