References:
1. Deamici K.M., Cardias B.B., Costa J.A.V. and Santos L.O. 2016. "Static magnetic fields in culture of Chlorella fusca: Bioeffects on growth and biomass composition," Process Biochemistry, p. 912–916
2. Hunt R.W., Zavalin A., Bhatnagar A., Chinnasamy S., Das K.C. 2009.Electromagnetic Biostimulation of Living Cultures for Biotechnology, Biofuel and Bioenergy Applications// International Journal of Molecular Sciences. V.10. P.4515-4558.
3. Li Z.Y., Guo S.Y., Lin L., Cai M.Y. 2007 Effects of electromagnetic field on the batch cultivation and nutritional compostion of Spirulina platensis in an air-lift photobioreactor. // Bioresour. Technol. V.98; P. 700-705.
4. Small D.P., Hüner N.P. and Wan W. 2012. "Effect of Static Magnetic Fields on the Growth, Photosynthesis and Ultrastructure of Chlorella kessleri Microalgae," Bioelectromagnetics, P. 298-308
5. Utsunomiya T., Yamane Y.I., Watanabe M., Sasaki K. 2003. Stimulation of porphyrin production by application of an external magnetic field to a photosynthetic bacterium, Rhodobacter sphaeroides. // J. Biosci. Bioeng. V.95; P.401-404.
6. Wang H.Y., Zeng X.B., Guo S.Y., Li Z.T. 2008. Effects of magnetic field on the antioxidant defense system of recirculation-cultured Chlorella vulgaris. //Bioelectromagnetics V.29; P.39-46.
7. Yamaoka Y., Takimura O., Fuse H., Kamimura K.1992. Effect of magnetism on growth of Dunaliella salina. //Res. Photosynth.V. 3; P.87-90.