References
- Amoura M, Brayner R, Perullini M, Sicard C, Roux C, Livage J, Coradin T. 2009. Bacteria encapsulation in a magnetic sol–gel matrix. J Mater Chem. 19:1241–1244.
- Biroa E, Nemeth AS, Feczkoa T, Toth J, Sisak C, Gyenis J. 2009. Three-step experimental design to determine the effect of process parameters on the size of chitosan microspheres. Chem Eng Process. 48: 771–779.
- Chung Young C, Rekha PD, AnLai W, Arun AB. 2006. Encapsulation of plant growth promoting bacteria in alginate beads enriched with humicacid. Biotechnol Bioeng. 95:76–83.
- Farrar R, Ridgeway R. 2000. Laboratory evaluation of selected spray adjuvant as ultraviolet light protectants for the nuclear polyhedrosis virus of the celery looper (Lepidoptera: Noctuide). J Entomol Sci. 35:239–250.
- Fenice M, Selbman L, Federici F, Vassilev N. 2000. Application of encapsulated pencillium variable P16 in solubilization of rock phosphate. Bioresour Technol. 73:157–162.
- Gifani A, Marzban R, Safekordi A, Ardjmand M, Dezianian A. 2015. Ultraviolet protection of nucleopolyhedrovirus through microencapsulation with different polymers. Biocontrol Sci Technol. 25:814–827.
- Griego VM, Spence KD. 1978. Inactivation of Bacillus thuringiensis spores by ultraviolet and visible light. J Appl Environ Microbiol. 35:906–910.
- Howard, AB, Deborah, RF, Richmond, V. 1990. Microcapsulated insecticidal pathogens. United States Patent [19], Patent Number: 4,948,586.
- Kalantari M, Marzban R, Imani S, Askari H. 2013. Effects of Bacillus thuringiensis isolates and single nuclear polyhedrosis virus in combination and alone on Helicoverpa armigera. Arch Phytopathol Plant Prot. 47:42–50.
- Khorramvatan S, Marzban R, Ardjmand M, Safekordi A, Askary H. 2014. The effect of polymers on the stability of microencapsulated formulations of Bacillus thuringiensis subsp. kurstaki (Bt-KD2) after exposure to ultra violet radiation. Biocontrol Sci Technol. 24:462–472.
- Lebo Jr., SE. 1999. Method for microcapsulation of agriculturally active substances. United States Patent, Patent Number: 5,552,149.
- Marzban R. 2012. Investigation on the suitable isolate and medium for production of Bacillus thuringiensis. J Biopestic. 5:144–147.
- Nokhodchi A, Tailor A. 2004. In situ cross-linking of sodium alginate with calcium and aluminum ions to sustain the release of theophylline from polymeric matrices. Farmaco. 59:999–1004.
- Rodrigues AP, Hirsch D, Figueiredo HCP, Logato PVR, Moraes AM. 2006. Production and characterisation of alginate microparticles incorporating Aeromonas hydrophila designed for fish oral vaccination. J Process Biochem. 41:638–643.
- Satinder K, Verma M, Tyagi RD, Vale′ro JR. 2006. Recent advances in downstream processing and formulations of Bacillus thuringiensis based biopesticides. J Process Biochem. 41:323–342.
- Scher H. 1997. Microencapsulated pesticides. J Controlled Release Pestic. 53:126–144.
- Sultana K, Georgia GW, Reynolds N, Arumugaswamy R, Peiris P, Kailasapathy K. 2000. Encapsulation of probiotic bacteria with alginate- starch and evaluation of survival in simulated gastrointestinal conditions and in yoghurt. J Food Microbiol. 62:47–55.
- Villamizar L, Barrera G, Cotes AM, Matinez F. 2010. Eudragit S100 microparticles containing Spodoptera frugiperda nucleopolyehedrovirus: physicochemical characteriztion, photostability and in vitro virus release. J Microencapsulation. 27:314–324.
- Zohar-Perez C, Ritte E, Chernin L, Chet I, Nussinovitch A. 2002. Preservation of chitinolytic Pantoae agglomerans in a viable form by cellular dried alginate-based carriers. Biotechnol Prog. 18:1133–1140.