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References
- Adenan, N.S., F. Md. Yusoff, M. Shariff. 2013. Effect of Salinity and Temperature on the Growth of Diatoms and Green Algae. Journal of Fisheries and Aquatic Science, 8(2): 397-404.
- Amini, S. dan R. Susilowati. 2010. Produksi Biodiesel dariMikroalgaBotryococcusbraunii. Squalen, 5(1).
- Dhanam, D. S., dan K. Dhandayuthapani. 2013. Optimization of ?-Carotene Production by Marine Microalga Dunaliellasalina.International Journal of Current Microbiology and Applied Sciences, 2(3):37-43.
- Erlina, A. 2007. Produksi Pakan Hidup. (Pelatihan Pembenihan Udang). Laboratorium Pakan Alami, Balai Besar Pengembangan Budidaya Air Payau Jepara.
- Gu, Na., Q. Lin, G. Li, Y. Tan, L. Huang, J. Lin. 2012. Effect of Salinity on Growth, Biochemical Composition and Lipid Productivity of Nannochloropsisoculata CS 179. Eng. Life Sci., 12(5):1-7.
- Gunawan dan Mulyani. 2004. Ilmu Obat Alam (Farmakognosi) Jilid I. Jakarta : Penebar Swadaya. Hal 98-105.
- Hirata H, Andarias I, dan Yamasaki S. 1981. Effect of salinity temperature on the growth of the marine phytoplankton Chlorella saccharophila. Mem. Fac. Fish. Kaghosima Univ. 30 : 257-262.
- Huang, W.W., B.Z. Dong, Z.P. Caidan S.S. Duan. 2011. Growth Effect on Mixed Culture of Dunaliellasalina and Phaeodactylumtrucornutum Under Different Inoculation Densities and Nitrogen Concentrations. Afr. J. Biotechnol., 10:13164-13174.
- Imron, M.A., Sudarno dan E.D. Masithah. 2016. Pengaruh Salinitas Terhadap Kandungan Lutein pada Mikroalga Botryococcus braunii. Journal of Marine and Coastal Science., 5(1).
- Isnansetyo, A dan Kurniastuty. 1995. Teknik Kultur Phytoplankton dan Zooplankton; Pakan Alami untuk Pembenihan Organisme Laut. Penerbit Kanisius. Yogyakarta.
- Mironyuk VI, Einor LO. 1986. Oxygen Exchange and Pigment Content in Various Forms of DunaliellasalinaTeod. Under Conditions of Increasing NaClContent. GidrobiolJ., 4:23-29.
- Pisal, S. Dipak and S. S. Lele. 2005. Carotenoid Prodution from Microalga, Dunaliella Salina. Indian Journal of Biotechnology, 10(4):476-483.
- Rusyani, E., 2001, Pengaruh Dosis Zeolit yang Berbeda terhadap Pertumbuhan Isochrysis galbana Klon Tahiti Skala Laboratorium dalam Media Komersial. Skripsi. Institut Pertanian Bogor, Bogor. 53 hlm.
- Soeder, C. and E. Stengel. 1974. Physicochemical Factors Affecting Metabolism and Growth Rate. In : “Algal Physiology and Biochemistry”. (W.D.P. Stewart. Editor).Blackwell Scientific Publication. Oxford London Edinburgh Melbourne : 714-730.
- Vo, Trung and Duc Tran. 2014. Carotene and Antioxidant Capacity of Dunaliellasalina Strains. World Journal of Nutrition and Health, 2 (2):21-23.
- Yudiati, E., Widianingsih, R. Hartati, H. Endrawati dan R. Fahmi. 2010. Pengaruh Salinitas terhadap Kandungan Total Lipid pada Mikroalga Nanno chloropsis sp.Dalam:Prosiding Biodiversitas dan Bioteknologi Sumberdaya Akuatik. UNSOED, Purwokerto, pp. 554-558
- Zhila, N.O., G.S. Kalacheva, and T. G. Volova. 2010. Effect of Salinity on The Biochemical Composition of The Alga BotryococcusbrauniiKutz IPPAS H-252. J ApplPhycol., Springer, DOI: 10.1007/s10811-010-9532-8.
References
Adenan, N.S., F. Md. Yusoff, M. Shariff. 2013. Effect of Salinity and Temperature on the Growth of Diatoms and Green Algae. Journal of Fisheries and Aquatic Science, 8(2): 397-404.
Amini, S. dan R. Susilowati. 2010. Produksi Biodiesel dariMikroalgaBotryococcusbraunii. Squalen, 5(1).
Dhanam, D. S., dan K. Dhandayuthapani. 2013. Optimization of ?-Carotene Production by Marine Microalga Dunaliellasalina.International Journal of Current Microbiology and Applied Sciences, 2(3):37-43.
Erlina, A. 2007. Produksi Pakan Hidup. (Pelatihan Pembenihan Udang). Laboratorium Pakan Alami, Balai Besar Pengembangan Budidaya Air Payau Jepara.
Gu, Na., Q. Lin, G. Li, Y. Tan, L. Huang, J. Lin. 2012. Effect of Salinity on Growth, Biochemical Composition and Lipid Productivity of Nannochloropsisoculata CS 179. Eng. Life Sci., 12(5):1-7.
Gunawan dan Mulyani. 2004. Ilmu Obat Alam (Farmakognosi) Jilid I. Jakarta : Penebar Swadaya. Hal 98-105.
Hirata H, Andarias I, dan Yamasaki S. 1981. Effect of salinity temperature on the growth of the marine phytoplankton Chlorella saccharophila. Mem. Fac. Fish. Kaghosima Univ. 30 : 257-262.
Huang, W.W., B.Z. Dong, Z.P. Caidan S.S. Duan. 2011. Growth Effect on Mixed Culture of Dunaliellasalina and Phaeodactylumtrucornutum Under Different Inoculation Densities and Nitrogen Concentrations. Afr. J. Biotechnol., 10:13164-13174.
Imron, M.A., Sudarno dan E.D. Masithah. 2016. Pengaruh Salinitas Terhadap Kandungan Lutein pada Mikroalga Botryococcus braunii. Journal of Marine and Coastal Science., 5(1).
Isnansetyo, A dan Kurniastuty. 1995. Teknik Kultur Phytoplankton dan Zooplankton; Pakan Alami untuk Pembenihan Organisme Laut. Penerbit Kanisius. Yogyakarta.
Mironyuk VI, Einor LO. 1986. Oxygen Exchange and Pigment Content in Various Forms of DunaliellasalinaTeod. Under Conditions of Increasing NaClContent. GidrobiolJ., 4:23-29.
Pisal, S. Dipak and S. S. Lele. 2005. Carotenoid Prodution from Microalga, Dunaliella Salina. Indian Journal of Biotechnology, 10(4):476-483.
Rusyani, E., 2001, Pengaruh Dosis Zeolit yang Berbeda terhadap Pertumbuhan Isochrysis galbana Klon Tahiti Skala Laboratorium dalam Media Komersial. Skripsi. Institut Pertanian Bogor, Bogor. 53 hlm.
Soeder, C. and E. Stengel. 1974. Physicochemical Factors Affecting Metabolism and Growth Rate. In : “Algal Physiology and Biochemistry”. (W.D.P. Stewart. Editor).Blackwell Scientific Publication. Oxford London Edinburgh Melbourne : 714-730.
Vo, Trung and Duc Tran. 2014. Carotene and Antioxidant Capacity of Dunaliellasalina Strains. World Journal of Nutrition and Health, 2 (2):21-23.
Yudiati, E., Widianingsih, R. Hartati, H. Endrawati dan R. Fahmi. 2010. Pengaruh Salinitas terhadap Kandungan Total Lipid pada Mikroalga Nanno chloropsis sp.Dalam:Prosiding Biodiversitas dan Bioteknologi Sumberdaya Akuatik. UNSOED, Purwokerto, pp. 554-558
Zhila, N.O., G.S. Kalacheva, and T. G. Volova. 2010. Effect of Salinity on The Biochemical Composition of The Alga BotryococcusbrauniiKutz IPPAS H-252. J ApplPhycol., Springer, DOI: 10.1007/s10811-010-9532-8.