Abstract
The process of mummification had been known since the Fourth Dynasty of the Old Kingdom (ca. 2600 bc) and continued to develop throughout ancient Egyptian history. Although mummification protected the body from decay, especially by microbes, some mummification techniques left the body susceptible to insect attack. Certain types of insects have been detected in the mummies. In scholarly publications, most authors have dealt with microorganisms, while few have concerned themselves in depth with the effect of insects on the mummies. This study aims to discuss the significance of insects and the changes they affected to the mummies during embalming. To achieve this goal, experiments were carried out replicating various mummification techniques using albino Wistar rats. Analysis and investigative techniques used included visual observation, Fourier transform infrared spectroscopy, investigation of the surface morphology by a scanning electron microscope, and color change by a spectrophotometer. The following insects could be identified as being present during the second and third processes of mummification: Dermestes maculatus, Necrobia rufipes, Saprinus gilvicornis, Chrysomya albiceps, Wohlfahrtia magnifica, and Attagenus fasciatus. In addition, the majority of our findings confirmed that the degradation by insects increased with the second and third methods of mummification. Finally, the experimental study conducted using the mummification techniques of the New Kingdom (ca. 1570–1070 bc) indicated that they were more resistant to insect attack than the other types.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdel-Hamid H, Shaumar NF, Janteiv UG (1979) Studies on some museum insects, especially on infest wood and organic. Bulletin of the Conservation Centre, Egyptian Book Organization 1:108
Abdel-Maksoud GMM (2001) Conservation of Egyptian mummies, part I: Experimental study on the ancient Egyptian technique of mummification. In: Mummy Result of Interdisciplinary Examination of the Egyptian Mummies of Aset-iri-khet-es from the Archaeological Museum in Krakow, Krakow, Poland, p 225
Abdel-Maksoud G, Al-Saad Z (2009) Evaluation of cellulose acetate and chitosan used for the treatment of historical papers. J Mediterr Archaeol Archaeometry 9(1):69–87
Abdel-Maksoud G, Marcinkowska E (1999) Evaluation of vegetable tanned leather after artificial ageing compared with archaeological samples. ICOM Committee for Conservation, 12th Triennial Meeting, Lyon, 29th August–3rd September 1999, p 913
Abdel-Maksoud G, Marcinkowska E (2000) Changes in some properties of aged and historical parchment. Restaurator 21:138–157
Arya A, Shah AR, Sadasivan S (2001) Indoor aeromycoflora of Baroda museum and deterioration of Egyptian mummy. Curr Sci 81(7):795
Aufderheide AC (2003) The scientific study of mummies. Cambridge University Press, London, p 255
Bernard G, Auger M, Soucy J, Pouliot R (2007) Physical characterization of the stratum corneum of an in vitro psoriatic skin model by ATR-FTIR and Raman spectroscopies. Biochim Biophys Acta 1770:1317–1323
Bickerstaffe D (2009) Mummification techniques in the royal mummies. In: Bickerstaffe D (ed) Refugees for eternity: the royal mummies of Thebes. Part 4: Identifying the royal mummies. Canopus Press, Chippenham, pp 28–48
Centeno N, Maldonado M, Oliva O (2002) Seasonal patterns of arthropods occurring on sheltered and unsheltered pig carcasses in Buenos Aires Province (Argentina). Forensic Sci Int 126:63–70
Cockburn A, Barraco RA, Reyman Th A, Peck WH (1975) Autopsy of an Egyptian mummy. Sci New Ser 187(4182):1155–1160
Cotte M, Walter P, Tsoucaris G, Dumas P (2005) Studying skin of an Egyptian mummy by infrared microscopy. J Vibrational Spectrosc 38:159–167
Curry A (1979) The insects associated with the Manchester mummies. In: David AR (ed) The Manchester Museum Mummy Project. Manchester University Press, Manchester, pp 113–118
D’Auria S (1988) Mummification in ancient Egypt. In: D’Auria S, Lacovara P, Roehrig C (eds) Mummies and magic. The Funerary Arts of Ancient Egypt, Boston, p 16
David R (1978) The fauna. In: David AR (ed) Mysteries of the mummies: the story of the Manchester University Investigations. Book Club Associates, London, pp 160–167
David AR (1990) The history of mummification. In: David AR, Tapp E (eds) The mummy’s tale: the scientific and medical investigation of Natsef-Amun, priest in the temple at Karnak. Michael O’mara Books, London, pp 37–46
David AR (2000) Mummification. In: Nicholson PT, Shaw I (eds) Ancient Egyptian materials and technology. Cambridge University Press, Cambridge, pp 372–389
David AR (2001) Mummification. In: Redford DB (ed) The Oxford encyclopedia of ancient Egypt, vol 2. Oxford University Press, Cairo, pp 439–444
David R, Archbold R (2000) Conversations with mummies: new light on the lives of ancient Egyptians. HarperCollins, London, pp 65–87
Dawson WR (1927) Making a mummy. J Egypt Archaeol 13(1/2):40–49
De Jong GD, Hoback WW (2006) Effect of investigator disturbance in experimental forensic entomology: succession and community composition. Med Vet Entomol 20:248–258
Despins JL, Vaughan JA, Turner EC (1988) Role of the lesser mealworm Alphitobius diaperinus (Panzer) (Coleoptera: Tenebrionidae) as a predator of the house fly, Musca domestica L. (Diptera Muscidae) in poultry houses. Coleopt Bull 42:211–216
Dias M, Naik A, Guy RH, Hadgraft J, Lane ME (2008) In vivo infrared spectroscopy studies of alkanol effects on human skin. Eur J Pharm Biopharm 69:1171–1175
Droma EB, Wilamowski A, Schnur H, Yarom N, Scheuer E, Schwartz E (2007) Oral myiasis: a case report and literature review. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 103:92–96
Dunand F, Lichterberg R (2006) Mummies and death in Egypt. Cornell University Press, Ithaca, p 26
Dzierzykray-Rogalski T (1986) Natural mummification in Egypt. In: David RA (ed) Science in Egyptology. University of Manchester (Symposium (1st: 1986), pp 101–111
Ellison GTH (1990) The effect of scavenger mutilation on insect succession at impala carcasses in southern Africa. J Zool 220(4):679–688
Esterhuysen AB, Sanders VM, Smith JM (2009) Human skeletal and mummified remains from the AD 1854 siege of Mugombane, Limpopo South Africa. J Archaeol Sci 36:1038–1049
Gardiner AH (1909) The admonitions of an Egyptian sage. J.C. Hinrichs, London, p 76.
Garner RC (1986) Experimental mummification of rats. In: David RA (ed) Science Egyptology. University of Manchester (Symposium 1st: 1986), pp 11–12
Goff ML, Odom CB (1987) Forensic entomology in the Hawaiian Islands. Am J Forensic Med Pathol 8(1):45–50
Hamilton-Paterson J, Andrews C (1978) Mummies: death and life in Ancient Egypt. British Museum Publications, London
Hans KR (2010) Insect signature indicating corpse movement from urban to rural areas of northeast Ohio. Master of Science in Biology, The Cleveland State University, p 8
Harris JE, Weeks KR (1973) X-raying the Pharaohs. Charles Scribner, New York
Ikram S, Dodson A (1998) The mummy in ancient Egypt (equipping the dead for eternity). The American University in Cairo Press, Cairo
Iskander Z (1980) Mummification in ancient Egypt: development, history, and technique. In: Harries JE, Wente EF (eds) An X-ray atlas of the royal mummies. The University of Chicago Press, Chicago, p 6
Iskander Z, Shahin AE (1973) Temporary stuffing materials used in the process of mummification in ancient Egypt. Ann Serv Antiquités ’ Égypte 61:65–78
Jadoul A, Doucet J, Durand D, Preata V (1996) Modifications induced on stratum corneum structure after in vitro iontophoresis: ATR-FTIR and X-ray scattering studies. J Control Release 42:165–173
Janson RJ (2002) High-resolution spiral computed tomography with multiplanar reformatting, 3D surface- and volume rendering: a non-destructive method to visualize ancient Egyptian mummification techniques. Comput Med Imaging Graph 26:211–216
Kazarian SG, Chan KLA (2006) Review. Applications of ATR-FTIR spectroscopic imaging to biomedical samples. Biochim Biophys Acta 1758:858–867
Kemp BJ (1967) The Egyptian First Dynasty royal cemetery. Antiquity 41:22–32
Lauer JP, Iskender Z (1955) Dannées nouvelles.sur la momification dans l’ Égypte ancienne. Ann Serv Antiquités ’ Égypte 53:167–194
Leek F (1969) The problem of brain removal during embalming by the ancient Egyptians. J Egypt Archaeol 55:112–116
Liao W, Wei F, Liu D, Qian MX, Yuan G, Zhao XSh (2006) FTIR-ATR detection of proteins and small molecules through DNA conjugation. Sensors Actuators B 114:445
Louw SVDM, van der Linde TC (1993) Insects frequenting decomposing corpses in central South Africa. African Entomology 1(2):265–269
Mokhtar G (1996) Mummies, modern sciences, and technology. In: Studies in Honor of William Kelly Simpson, vol 2. Boston, pp 617–618
Nair SM (1986) Biodeterioration of museum collections by dermestid beetles, with particular reference to tropical countries. Biodeterioration 6 Papers presented at the 6th International Biodeterioration Symposium, Washington, DC, August 1984 (1986), pp 337–343
Panagiotakopulu E (1999) An examination of biological materials from coprolites from XVIII Dynasty Amarna, Egypt. J Archaeol Sci 26:547–551
Panagiotakopulu E (2001) New records for ancient pests: archaeoentomology in Egypt. J Archaeol Sci 28:1235–1246
Panagiotakopulu E (2004) Dipterous remains and archaeological interpretation. J Archaeol Sci 31:1675–1684
Panagiotakopulu E, Buckland PC, Kemp BJ (2010) Underneath Ranefer’s floors—urban environments on the desert edge. J Archaeol Sci 37:474–481
Peacock ER (1993) Adults and larvae of hide, larder and carpet beetles and their relatives (Coleoptera: Dermestidae) and of Derodontid Beetles (Coleoptera: Derodontidae). Handbooks for the Identification of British Insects 5,3. Royal Entomological Society of London
Peck WH (1980) Mummies of ancient Egypt. In: Cockburn A (ed) Mummies, disease, and ancient cultures. Cambridge University Press, Cambridge, pp 11–28
Pettigrew THJ (1834) History of Egyptian mummies. Longman, London, pp 54–55
Pouliot R, Germain L, Auger FA, Tremblay N, Juhasz J (1999) Physical characterization of the stratum corneum of an in vitro human skin equivalent produced by tissue engineering and its comparison with normal human skin by ATR-FTIR spectroscopy and thermal analysis (DSC). Biochim Biophys Acta 1439:341–352
Riddle JM (1980) A survey of ancient specimens by electron microscopy. In: Cockburn A, Cockburn E (eds) Mummies, disease, and ancient culture. Cambridge University Press, Cambridge, pp 274–286
Russeau W, Mitchell J, Tetteh J, Lane ME, Hadgraft J (2009) Investigation of the permeation of model formulations and a commercial ibuprofen formulation in Carbosil® and human skin using ATR-FTIR and multivariate spectral analysis. Int J Pharm 374:17–25
Salter-Pedersen E (2004) The myth of eternal preservation: patterns of damage in Egyptian mummies. Master thesis dissertation, The Department of Geography and Anthropology, Louisiana
Schroeder H, Klotzbach H, Oesterhelweg L, Püschel K (2002) Larder beetles (Coleoptera, Dermestidae) as an accelerating factor for decomposition of a human corpse. Forensic Sci Int 127:231–236
Sivrev D, Miklosova M, Georgieva A, Dimitrov N (2005) Modern day plastination techniques—successor of ancient embalmment methods. Trakia J Sci 3(3):48–51
Smith GE, Dawson WR (1924) Egyptian mummies. Allen and Unwin, London
Strong L (2002) Extensive damage by Dermestid beetles. In: Dawson DP, Giles S, Ponsford MW (eds) Horemkenesi May He Live Forever! The Bristol Mummy Project, p 175
Taconis WK (2005) Mummification in ancient Egyptian with a history of the investigation of Egyptian mummies. In: Raven MJ, Taconis WK (eds) Egyptian mummies. Radiological Atlas of the Collections in the National Museum of Antiques art Leiden. Prepols, pp 35–67
Tapp E (1986) Unwrapping of 1770. In: David RA (ed) Science in Egyptology (Symposium 1st: 1986). Manchester University Press, pp 49–50
Taylor JH (1995) Unwrapping a mummy: the life, death and embalming of Horemkenesi. British Museum Press, London
Thekkaniyil JK, Bishara SE, James MA (2000) Dental and skeletal findings on an ancient Egyptian mummy. Am J Orthod Dentofacial Orthop 117(1):10–14
Thomas LW (1962) The chemical composition of adipose tissue of man and mice. Q J Exp Physiol Cogn Med Sci 47:179–188
Van Tiggelen R (2004) Ancient Egypt and radiology, a future for the past! Nucl Instrum Meth Phys Res B 226:10–14
Velkova V, Lafleur M (2002) Influence of the lipid composition on the organization of skin lipid model mixtures: an infrared spectroscopy investigation. Chem Phys Lipids 117:63–74
Xie J, Cl R, Kumar M, Kr C (2002) FTIR/ATR study of protein adsorption and brushite, transformation to hydroxyapatite. Biomaterials 23:3609–3616
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Abdel-Maksoud, G., Abed al-Sameh Al-Shazly, E.E. & El-Amin, AR. Damage caused by insects during the mummification process: an experimental study. Archaeol Anthropol Sci 3, 291–308 (2011). https://doi.org/10.1007/s12520-011-0069-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12520-011-0069-9