[1] Williams, Robyn (2013). Microscopic algae produce half the oxygen we breathe. The Science Show.
[2] Thrush, Simon; Hewitt, Judi; Gibbs, Max; Lundquist, Caralyn; Norkko, Alf (2006). "Functional Role of Large Organisms in Intertidal Communities: Community Effects and Ecosystem Function". Ecosystems. 9 (6): 1029–1040.
[3] Scott, S. A.; Davey, M. P.; Dennis, J. S.; Horst, I.; Howe, C. J.; Lea-Smith, D. J.; Smith, A. G. (2010). "Biodiesel from algae: Challenges and prospects". Current Opinion in Biotechnology. 21 (3): 277–286.
[4] Chisti, Y. (2007). "Biodiesel from microalgae". Biotechnology Advances. 25 (3): 294–306.
[6] Greenwell, H. C. (2010). Placing microalgae on the biofuels priority list: a review of the technological challenges. J R Soc Interface. 7(46):703-26.
[8] Hartman, Eviana (2008). A Promising Oil Alternative: Algae Energy. The Washington Post
[9] Cardozo, Karina H. M. (2006). "Metabolites from algae with economical impact". Comparative Biochemistry and Physiology C. 146 (1–2): 60–78.
[10] Ratha SK, Prasanna R (2012). "Bioprospecting microalgae as potential sources of "Green Energy"—challenges and perspectives". Applied Biochemistry and Microbiology. 48 (2): 109–125.
[11] Wolfe, Gordon (2000). "The chemical Defense Ecology o Marine Unicelular Plankton: Constraints, Mechanisms, and Impacts". Biology Bulletins. 198 (2): 225–244.
[12] M. Tredici; R. Materassi (1992). "From open ponds to vertical alveolar panels: the Italian experience in the development of reactors for the mass cultivation of phototrophic microorganisms". Journal of Applied Phycology. 4 (3): 221–231.
[13] Wijesekara, I. , R. Pangestuti , and S. K. Kim . "Biological activities and potential health benefits of sulfated polysaccharides derived from marine algae." Carbohydrate Polymers 84.1(2011):14-21.