1- Arai R, Tominaga K, Wu M, Okura M, Ito K, Okamura N, Onishi H, Osaki M, Sugimura Y, Yoshiyama M, Takamatsu D. Diversity of Melissococcus plutonius from honeybee larvae in Japan and experimental reproduction of European foulbrood with cultured atypical isolates. PLoS One. 2012;7(3):e33708. doi: 10.1371/journal.pone.0033708. Epub 2012 Mar 19. PMID: 22442715; PMCID: PMC3307753.
2- Kaiser, C., and M. Ernst. 2014. Beekeeping and Honey Production, Center for Crop Diversification Crop Profile, https://www.uky.edu/Ag/CCD/introsheets/honey.pdf
3- Huang, S., C. P. Zhang, K. Wang, G. Q. Li and F. L. Hu. 2014. Recent advances in the chemical composition of propolis. Molecules, 19, 19610-19632
4-Ebad, F., and Azimi, A., 2017. A review on the biological function of royal jelly with an emphasis on its effects on health and longevity, National Conference on Bee Products from the Perspective of Biology, Health and Economy, Isfahan
5- Pileni M.P., 2007. Size and morphology control of nanoparticle growth in organized surfactant assemblies. Nanoparticles and nanostructured films: Wiley-VCH Verlag GmbH. 71-89.
6- Murray, H.H., 2006. Chapter 7 Palygorskite and Sepiolite Applications. In: Haydn HM, editor. Developments in Clay Science: Elsevier. p. 131-40.
7-Shahrestani, N. 2015. Honeybees and its culture: the complete revision and the latest achievements of beekeeping. Sepehr Publishers, Tehran. (In Farsi)
8-Kustiawan, P. M., Syaifie, P. H., Al Khairy Siregar, K. A., Ibadillah, D., & Mardliyati, E. 2024. New insights of propolis nanoformulation and its therapeutic potential in human diseases. ADMET & DMPK, 12(1), 1–26. https://doi.org/10.5599/admet.2128
9- Brumfitt,W., J. M. Miller and I. Franklin. 1990. Antibiotic activity of natural products : 1.Propolis. Microbios 62(250): 19-22.
10-Park, Y. K., M. H. Koo, J. A. Abreu, M. Ikegaki, J. A. Cury and P. L. Rosalen. 1998. Antimicrobial activioty of propolis on oral microorganisms. Current Microbiology 36(1): 24 - 28.
11- Sheikhhosseini, A., Shirvani, M., and Shariatmadari, H., 2013. Competitive sorption of nickel, cadmium, zinc and copper on palygorskite and sepiolite silicate clay minerals. Geoderma. 192: 249-53.
12- Tabak, A., Eren, E., Afsin, B., and Caglar, B., 2009. Determination of adsorptive properties of a Turkish Sepiolite for removal of Reactive Blue 15 anionic dye from aqueous solutions. J Hazardous Material. 161(2–3): 1087-94.
13- Brumfitt,W., J. M. Miller and I. Franklin. 1990. Antibiotic activity of natural products : 1.Propolis. Microbios 62(250): 19-22.
14- Cheng, P. C. and G. Wong. 1996. Honeybee propolis : prospects in medicine. Bee world 77(1): 8-15
15- Esther Margarida A. F. B, M. Michael Simone, D. Daniela Macedo Jorge, A. E. Egea Soares and M. Spivak. 2008. In vitro study of the antimicrobial activity of Brazilian propolis. Journal of Invertebrate Pathology 97: 273–281
16-Hegazi, A. G. andf. K. Abd El Hady. 2001. Egyptian propolis: 1- antimicrobial activity and chemical composition of upper Egypt. In: Proceeding of 37th International Apicultural Congress. Durban, South Africa
18- Velazquez, C., M. Navarro, A. Acosta, A. Angulo, Z. Dominguez, R. Robles, R. Robles-Zepeda, E. Lug .2007. Antibacterial and free-radical scavenging activities of Sonoran propolis. Journal of Applied Microbiology 103(5): 1747-56.
19- Stepanović, S., N. Antić, I. Dakić and M. Svabić-Vlahović. 2003. In vitro antimicrobial activity of propolis and synergism between propolis and antimicrobial drugs. Microbiol Reseach. 158(4): 353-7
20- Alippi, A. M., G. N. Albo, F. J. Reynaldi and M. R. De Giusti. 2005. In vitro and in vivo susceptibility of the honeybee bacterial pathogen Paenibacillus larvae subsp. larvae to the antibiotic tylosin. Veterinary Microbiology 109(1-2):47-55
