The sawtoothed grain beetle, Oryzaephilus surinamensis, is a major pest of stored grains such as rice, wheat, barley, and legumes. This insect is highly adaptable and poses a persistent threat in diverse climatic conditions and storage environments. The present study aimed to determine the effect of the fungus Paecilomyces farinosus on the life stages (eggs, second and fourth instar larvae, and 24-hour-old pupae) of O. surinamensis. The fungus was tested at spore densities of 3×10⁷, 3×10⁵, and 3×10³ spores/ml. The results showed that the highest mortality rates for eggs, second instar larvae, fourth instar larvae, and 24-hour-old pupae at a concentration of 3×10⁷ spores/ml were 40.3%, 58.7%, 39.01%, and 55.6%, respectively. Furthermore, the study evaluated the impact of nano-zinc oxide (ZnONPs) on O. surinamensis at concentrations of 3000, 2000, and 1000 ppm. Various characteristics of the prepared ZnONPs, such as shape, size, and maximum absorption by ultraviolet spectroscopy, were analyzed. The results indicated 100% mortality of eggs treated with concentrations of 3000 ppm and 2000 ppm. The highest mortality rates for second instar larvae and 24-hour-old pupae were 80% and 20%, respectively, at a concentration of 2000 ppm. For fourth instar larvae, the highest mortality rate was 68.22% at a concentration of 3000 ppm. The study demonstrated that ZnONPs at all tested concentrations were more effective than the fungal suspension in causing mortality of eggs and second and fourth instar larvae. Moreover, the germination rate of rice grains treated with direct spraying was not affected by any of the treatments.

Al-Dosky, L.H.A., 2007. An environmental study and evaluation of the effectiveness of the two fungi Beauveria bassiana and Poecilomyces farinosus in some biological aspects of the Suni Bug Eurygaster integriceps on wheat. Doctoral thesis, College of Agriculture, University of Mosul.

Ali, S., Huang, Z., Ren, S., 2010. Production of cuticle degrading enzymes by Isaria fumosorosea and their evaluation as a biocontrol agent against diamondback moth. Journal of Pest Science 83, 361-370.

Al-Jabr, A.M., 2006. Toxicity and repellency of seven plant essential oils to Oryzaephilus surinamensis (Coleoptera: Silvanidae) and Tribolium castaneum (Coleoptera: Tenebrioidae). Scientific Journal of King Faisal University (Basic and Applied Sciences) 7(1), 49-60.

Al-Shammari, H.A.A.H., 2015. The effect of the predator Diptera: Cecidomyiidae Dicrodiplosis manihoti Harris and silver nanoparticles prepared by biological methods on some biological aspects of the citrus bug Planocolcus citri Hemiptera: Pseudococcidae. Doctoral thesis. College of Agriculture. University of Baghdad.

Champ, B.R., Dyte, C.E., 1976. Report of the prospecting FAOs global on susceptibility to the insecticidal pest of great pest of stored grain. Roma, 356. Cambridge, M.A., 348 pp.

Chorachoo, J., Amnuaikit, T., Voravuthikunchai, S.P., 2013. Liposomal encapsulated rhodomyrtone: a novel antiacne drug. Evidence‐Based Complementary and Alternative Medicine 2013(1), 157635.

DeBach, P., 1964. Biological Control of Insect Pests and Weeds. Cambridge University Press, Cambridge, UK, 844 p.

Elias, S.A., 2009. Advances in Quaternary entomology. 1st Edition, Volume 12, Hardback ISBN: 9780444534248, eBook ISBN: 9780080958491.

FAO., 2005. Guideline operational scale field trial with green muscle (Metarhizium anisopliaen var. acridum). Version 3 February 28, Migratory Pests Group Food and Agriculture Organization of the United Nations, Roma, Italy. pp. 798-865.

Gahlawat, G., Shikha, S., Chaddha, B.S., Chaudhuri, S.R., Mayilraj, S., Choudhury, A.R., 2016. Microbial glycolipoprotein-capped silver nanoparticles as emerging antibacterial agents against cholera. Microbial Cell Factories 15, 1-14.

Gindin, G., Ment, D., Rot, A., Glazer, I., Samish, M., 2009. Pathogenicity of Metarhizium anisopliae (Hypocreales: Clavicipitaceae) to tick eggs and the effect of egg cuticular lipids on conidia development. Journal of Medical Entomology 46(3), 531-538.

Harney, S.K., 1989. Ecological and physiological aspects of Paecilomyces farinosus (Holm ex SF Gray) Brown & Smith: a potential biological control agent of spruce budworm. Doctoral dissertation, Concordia University, Faculty of Arts and Science, Ottawa, Canada. 97pp).

Javed, K., Javed, H., Mukhtar, T., Qiu, D., 2019. Efficacy of Beauveria bassiana and Verticillium lecanii for the management of whitefly and aphid. Pakistan Journal of Agricultural Sciences 56(3), 669-674.

Kadhim, M.A., Salman, H.E., Ali, H.A., 2019. Adsorption of albumin and creatinine on ZnO nanoparticles. International Journal of Pharmaceutical Quality Assurance 10(4), 689-695.

Kearn, T., 2006. Harvesting and Storage. University of California, Division of Agriculture and Natural Resources.

Khalil, M.S., Halawa, S.M., Azab, M.M., Abouelkassem, S., Morsy, A.R., 2019. Efficacy of Some nanoparticles against the adults of red flour beetle Tribolium castaneum (Herbst) under laboratory conditions. Annals of Agricultural Sciences, Moshtohor 57(2), 535-540.

Lacey, L.A., 1997. Manual of Techniques in Insect Pathology (Biological Techniques). Academic Press Sandiego. London. Boston. p. 408.

Lord, J.C., 2001. Response of the wasp Cephalonomia tarsalis (Hymenoptera: Bethylidae) to Beauveria bassiana (Hyphomycetes: Moniliales) as free conidia or infection in its host, the sawtoothed grain beetle, Oryzaephilus surinamensis (Coleoptera: Silvanidae). Biological Control 21(3), 300-304.

Mahmood, E.A., Mahmood S.I., 2013. Biological control of Khaprabeetle Trogoderma granarium (Everts) (Coleoptera: Dermestidae) by using Entomopathogenic fungi Paecilomyces farinosus (Holm.). Iraqi. M.Sc. thesis, College of Science for women, University Of Baghdad.

Mahmood, E.A., Tawfeeq, M.R., 2017. Biological control of saw toothed beetle Oryzaephilus surinamensis (L.) using fungi Lecanicillium lecanii (Zimm.). Baghdad Science Journal 14(3), 0448-0448.

Ment, D., Gindin, G., Glazer, I., Perl, S., Elad, D., Samish, M., 2010. The effect of temperature and relative humidity on the formation of Metarhizium anisopliae chlamydospores in tick eggs. Fungal Biology 114(1), 49-56.

Mohammadali, M.T., AL-Rubaie, E.E.Y., 2022. Using HS-SPME fiber technology for detection of volatile organic compounds of Trogoderma granarium Everts (Coleoptera: Dermestidae) on wheat and the use of some biopesticides to control it. M.Sc. thesis, College of Agriculture,.University of Karbala.

Nowack, B., 2009. Is anything out there? What life cycle perspectives of nano-products can tell us about nanoparticles in the environment. Nano Today 4(1), 11-12.

Phang, Y.K., Aminuzzaman, M., Akhtaruzzaman, M., Muhammad, G., Ogawa, S., Watanabe, A., Tey, L.H., 2021. Green synthesis and characterization of CuO nanoparticles derived from papaya peel extract for the photocatalytic degradation of palm oil mill effluent (POME). Sustainability 13(2), 796. https://doi.org/10.3390/su13020796.

Rees, D., 2007. Insects of stored grain: a pocket reference. CSIRO publishing., 150 Oxford Street (PO Box 1139), Collingwood VIC 3066 Australia.

Shehzad, M., Tariq, M., Ali, Q., Aslam, A., Mukhtar, T., Akhtar, M.F., Gulzar, A., Faisal, M., 2022. Evaluation of insecticidal activity of Beauveria bassiana against different instar larvae of Plutella xylostella by using two different methods of application. International Journal of Tropical Insect Science 42, 1471-1476.

Shehzad, M., Tariq, M., Mukhtar, T., Gulzar, A. 2021. On the virulence of the entomopathogenic fungi, Beauveria bassiana and Metarhizium anisopliae (Ascomycota: Hypocreales), against the diamondback moth, Plutella xylostella (L.) (Lepidoptera: Plutellidae). Egyptian Journal of Biological Pest Control, 31(1), 86.

Trematera, P., Reichmuth., 2000. The role of insect product protection. Department of Animal Plant and Environmental Science, University of Molise, International Congress of Entomology, Brazil. Via De Sanctis, I-86100 Campobasso. Italy, Section 23, p29.