TY  - JOUR
T1  - DNA Barcoding in Forensic Entomology: A Molecular Tool That Increases Reliability in Estimating the Postmortem Interval
TT  - Adli Entomolojide DNA Barkodlama: Ölüm Sonrası Zaman Aralığı Tahmininde Güvenirliği Artıran Bir Moleküler Araç
AU  - Turan, Yavuz
AU  - Kabalak, Mahmut
PY  - 2026
DA  - February
Y2  - 2026
DO  - 10.35229/jaes.1840921
JF  - Journal of Anatolian Environmental and Animal Sciences
JO  - JAES
PB  - Bülent VEREP
WT  - DergiPark
SN  - 2548-0006
VL  - 0
IS  - 2026
LA  - en
AB  - Forensic entomology has become an indispensable tool for estimating the postmortem interval (PMI), particularly in advanced stages of decomposition where classical forensic methods are limited. Reliable PMI estimation requires accurate and precise identification of insect evidence. Traditional morphological approaches often fail when dealing with immature stages (eggs, larvae, pupae), closely related species, or partially damaged specimens. To overcome these limitations, DNA barcoding has been increasingly integrated into forensic entomology over the past two decades. DNA barcoding typically relies on sequencing a standardized fragment of the mitochondrial cytochrome c oxidase I (COI) gene and comparing the obtained sequence with reference databases such as BOLD and GenBank to assign species identity. In this review, we summarize the theoretical basis of DNA barcoding in forensic entomology, the genetic markers employed, and the main steps of sampling, DNA extraction, PCR amplification, and sequence analysis. We present application examples from Diptera and Coleoptera, and discuss how DNA barcoding contributes to PMI estimation and case reconstruction. Furthermore, we address recent developments such as mini-barcode strategies, Next Generation Sequencing (NGS)/metabarcoding approaches, multi-locus barcoding, and highlight key limitations including database gaps, the barcode gap concept, contamination, and NUMTs. We also evaluate the current situation in Türkiye and propose the establishment of a national barcode reference library for forensically relevant insect taxa. Overall, DNA barcoding emerges as a powerful molecular tool that complements rather than replaces morphology, thereby improving the reliability of species identification and PMI estimations in forensic casework.
KW  - Forensic entomology
KW  - DNA barcoding
KW  - COI
KW  - postmortem interval
KW  - molecular species identification
N2  - Adli entomoloji, özellikle yumuşak dokuların hızla bozulduğu ve klasik adli tıp yöntemlerinin yetersiz kaldığı durumlarda ölüm sonrası zaman aralığı (ÖSZA) tahmininde vazgeçilmez bir araç haline gelmiştir. Ancak böcek gelişim sürelerine dayalı güvenilir bir ÖSZA tahmini için, elde edilen entomolojik örneklerin türlerinin doğru ve kesin biçimde teşhis edilmesi gereklidir. Geleneksel morfolojik teşhis yöntemleri, özellikle yumurta, larva ve pupa gibi ergin olmayan dönemlerde, yakın akraba türlerde ve kısmen tahrip olmuş örneklerde çoğu zaman yetersiz kalmaktadır. Bu sınırlılığı aşmak üzere son 20 yılda DNA barkodlama yaklaşımı adli entomolojiye yaygın biçimde entegre olmuştur. DNA barkodlama, çoğunlukla mitokondriyal sitokrom c oksidaz I (COI) geninin standart bir bölgesinin dizilenmesine dayanmakta; elde edilen dizi, BOLD ve GenBank gibi referans veri tabanlarındaki kayıtlarla karşılaştırılarak tür tanısı yapılmaktadır. Bu derlemede, adli entomolojide DNA barkodlamanın kuramsal temeli, kullanılan genetik belirteçler, örnekleme–DNA izolasyonu–PCR–dizi analizi basamakları, Diptera ve Coleoptera başta olmak üzere çeşitli taksonomik gruplar üzerindeki uygulama örnekleri ve ÖSZA tahminine katkıları ele alınmıştır. Ayrıca mini-barkod stratejileri, Yeni Nesil Sekanslama (YNS)/metabarkodlama yaklaşımları, çoklu marker kullanımı, veri tabanı sorunları, barkod boşluğu (barcode gap), kontaminasyon ve NUMT gibi teknik sınırlılıklar tartışılmış; Türkiye’de adli entomoloji bağlamında DNA barkodlamanın mevcut durumu ve ulusal barkod veri tabanı oluşturulmasına yönelik öneriler sunulmuştur. Sonuç olarak DNA barkodlama, morfolojik teşhisi ikame etmekten çok onu tamamlayan, tür tayini ve PMI tahminini daha güvenilir hale getiren güçlü bir moleküler araç olarak öne çıkmaktadır.
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CR  - Grzywacz, A., Wyborska, D., & Piwczyński, M. (2017). DNA
barcoding allows identification of European Fanniidae
(Diptera) of forensic interest. Forensic Science
International, 275, 95-102
http://doi.org/10.1016/j.forsciint.2017.06.023
CR  - Hajibabaei, M., Smith, M.A., Janzen, D.H., Rodriguez, J.J.,
Whitfield, J.B., & Hebert, P.D.N. (2006). A
minimalist barcode can identify a specimen whose
DNA is degraded. Molecular Ecology Notes, 6(4), 959-
964. https://doi.org/10.1111/j.1471-8286.2006.01470.x
CR  - Haymer, D. (2024). State of the art and new directions using
DNA and other molecular markers in forensic
entomology. Academia Biology, 2, 1–8
https://doi.org/10.20935/AcadBiol7450.
CR  - Hebert, P.D.N., Cywinska, A., Ball, S.L., & deWaard, J.R.
(2003). Biological identifications through DNA
barcodes. Proceedings of the Royal Society B:
Biological Sciences, 270(1512), 313-321
https://doi.org/10.1098/rspb.2002.2218
CR  - Karataş, D., &Darılmaz, M.C. (2018). A preliminary study on
aquatic forensic entomology in Turkey. J. For. Med.,
32(1), 18-29.
https://doi.org/10.5505/adlitip.2018.48091
CR  - Khullar, N., & Singh, D. (2025). Advances in molecular
techniques in forensic entomology. In Tanda A.S. (Ed),
Advances in Forensic Entomology: Basic and Applied
Aspects, 51–71p, TechSar Publishing.
CR  - Liu, J., Jiang, J., Song, S., Tornabene, L., Chabarria, R.,
Gavin, J.P.N. & Li, C. (2017). Multilocus DNA
barcoding - Species Identification with Multilocus
Data. Scientific Reports, 7, 16601.
https://doi.org/10.1038/s41598-017-16920-2
CR  - López-Rubio, A., Amat, E., Pérez, A., Gómez, G., & Gómez,
L.M. (2017). Assessing a DNA mini-barcode strategy
for species identification in neotropical necrophagous
blow flies (Diptera: Calliphoridae) of forensic
importance. Genome 60(11), 965.
CR  - Lord, W.D., & Stevenson, JR. (1986). Directory of forensic
entomologists. 2nd ed. Washington, DC: Defense Pest
Management Information Analysis Center, Walter
Reed Army Medical Center.
CR  - Meyer, C.P., & Paulay, G. (2005). DNA barcoding: Error rates
based on comprehensive sampling. PLoS Biology,
3(12), e422
https://doi.org/10.1371/journal.pbio.0030422
CR  - Mutlu, E.Ç., Yılmaz, M.C., Balık, R., Onay, A.S., & Turan, Y.
(2024). Determination of insect fauna and succession
important for forensic entomology in İstanbul Province.
Transactions of the American Entomological Society,
216-230. https://doi.org/10.3157/061.150.0202.
CR  - Özdemir, S., & Sert, O. (2009). Determination of Coleoptera
fauna on carcasses in Ankara province, Turkey.
Forensic Science International, 183, 24-32.
https://doi.org/10.1016/j.forsciint.2008.09.018.
CR  - Park, S.H., Kim, H.J., Jang, H., Park, J., Kim, Y.H., & Ko,
K.S. (2018). Molecular identification of forensically
important flies (Diptera: Calliphoridae, Sarcophagidae)
using COI and ITS2 gene regions. Journal of Asia-
Pacific Entomology, 21, 1-10
https://doi.org/10.1016/j.forsciint.2017.12.017
CR  - Sagar, A., Singh, T.K., Harsh, N., Jha, N.K., Dode, P.S. &
Podder, A. (2025). DNA barcoding: From taxonomy to
technology - A review. Journal of Carcinogenesis,
24(7s), 835-842
https://doi.org/10.64149/J.Carcinog.24.7s.835-843
CR  - Schilthuizen, M., Scholte, C., van Wijk, R.E.J.,
Dommershuijzen, J., van der Horst, D., zu
Schlochtern, M.M., Lievers, R., & Groenenberg,
D.S.J. (2011). Using DNA-barcoding to make the
necrobiont beetle family Cholevidae accessible for
forensic entomology. Forensic Science International
210, 91-95
https://doi.org/10.1016/j.forsciint.2011.02.003
CR  - Scieuzo, C., Rinaldi, R., De Stefano, F., Di Fazio, A., &
Falabella, P. (2025). The contribution of molecular
biology to forensic entomology. Insects, 16, 694.
https://doi.org/10.3390/insects16070694
CR  - Sert, O., Kabalak, M., & Şabanoğlu, B. (2012). Determination
of forensically important Coleoptera and Calliphoridae
(Diptera) species on decomposing dog (Canis lupus
familiaris L.) carcass at Ankara province. Hacettepe
Journal of Biology and Chemistry, 40(1), 99-103.
CR  - Sharawi, S.E. (2025). Forensic entomology in Jeddah: Molecular
identification of emerging insect strains. Indian Journal
of Animal Research, 59(1), 1-4.
https://doi.org/10.18805/IJAR.BF-1881
CR  - Şabanoğlu, B., & Sert, O. (2010). Determination of
Calliphoridae (Diptera) fauna and seasonal distribution
on carrion in Ankara province. Journal of Forensic
Sciences, 55(4), 1003-1007.
https://doi.org/10.1111/j.1556-4029.2010.01366.x
CR  - Schilthuizen, M., Scholte, C., van Wijk, R.E.J.,
Dommershuijzen, J., van der Horst, D., Meijer zu
Schlochtern, M., Lievers, R. & Groenenberg, D. S.
J. (2011). Using DNA-barcoding to make the
necrobiont beetle family Cholevidae accessible for
forensic entomology. Forensic Science International,
210, 91-95.
https://doi.org/10.1016/j.forsciint.2011.02.003
CR  - Sharma, S., & Dalal, J. (2025). in Tanda, A.S. (Ed.). Advances
in forensic entomology: Basic and applied aspects.
TechSar Publishing.
CR  - Taberlet, P., Coissac, E., Hajibabaei, M., & Rieseberg, L.H.
(2012). Environmental DNA. Molecular Ecology,
21(8), 1789–1793. https://doi.org/10.1111/j.1365-
294X.2012.05542.x
CR  - Wang, B., Ha, S., Cai, J., Ma, Y., Li, D., Chen, J., & Deng, J.
(2025). Exploratory study on DNA barcode combined
with PCR-HRM technology for rapid and accurate
identification of necrophilous fly species. Insects, 16,
590. https://doi.org/10.3390/insects16060590
CR  - Wells, J.D., & Stevens, J.R. (2008). Application of DNA-based
methods in forensic entomology. Annual Review of
Entomology, 53, 103-120.
CR  - Yavasoglu, S.İ., Yılmaz, C., Ulger, C., & Simsek, F.M. (2016).
Molecular identification and genetic structure of Aedes
phoeniciae (Diptera: Culicidae) in Northern Cyprus and
Turkey. Biochemical Systematics and Ecology, 69, 6-
14. https://doi.org/10.1016/j.bse.2016.08.003
CR  - Yu, D.W., Ji, Y., Emerson, B.C., Wang, X., Ye, C., Yang, C.,
& Ding, Z. (2012). Biodiversity soup: Metabarcoding
of arthropods for rapid biodiversity assessment and
biomonitoring. Methods in Ecology and Evolution,
3(4), 613-623. https://doi.org/10.1111/j.2041-
210X.2012.00198.x
CR  - H., & Chakrabarty, K. (2025). Detecting partial
sample forgery in DNA forensics using molecular barcoding on digital microfluidic biochips. Journal of Hardware and Systems Security, 9, 136-148.
https://doi.org/10.1007/s41635-025-00167-9.
CR  - Grzywacz, A., Wyborska, D., & Piwczyński, M. (2017). DNA
barcoding allows identification of European Fanniidae
(Diptera) of forensic interest. Forensic Science
International, 275, 95-102
http://doi.org/10.1016/j.forsciint.2017.06.023
CR  - Hajibabaei, M., Smith, M.A., Janzen, D.H., Rodriguez, J.J.,
Whitfield, J.B., & Hebert, P.D.N. (2006). A
minimalist barcode can identify a specimen whose
DNA is degraded. Molecular Ecology Notes, 6(4), 959-
964. https://doi.org/10.1111/j.1471-8286.2006.01470.x
CR  - Haymer, D. (2024). State of the art and new directions using
DNA and other molecular markers in forensic
entomology. Academia Biology, 2, 1–8
https://doi.org/10.20935/AcadBiol7450.
CR  - Hebert, P.D.N., Cywinska, A., Ball, S.L., & deWaard, J.R.
(2003). Biological identifications through DNA
barcodes. Proceedings of the Royal Society B:
Biological Sciences, 270(1512), 313-321
https://doi.org/10.1098/rspb.2002.2218
CR  - Karataş, D., &Darılmaz, M.C. (2018). A preliminary study on
aquatic forensic entomology in Turkey. J. For. Med.,
32(1), 18-29.
https://doi.org/10.5505/adlitip.2018.48091
CR  - Khullar, N., & Singh, D. (2025). Advances in molecular
techniques in forensic entomology. In Tanda A.S. (Ed),
Advances in Forensic Entomology: Basic and Applied
Aspects, 51–71p, TechSar Publishing.
CR  - Liu, J., Jiang, J., Song, S., Tornabene, L., Chabarria, R.,
Gavin, J.P.N. & Li, C. (2017). Multilocus DNA
barcoding - Species Identification with Multilocus
Data. Scientific Reports, 7, 16601.
https://doi.org/10.1038/s41598-017-16920-2
CR  - López-Rubio, A., Amat, E., Pérez, A., Gómez, G., & Gómez,
L.M. (2017). Assessing a DNA mini-barcode strategy
for species identification in neotropical necrophagous
blow flies (Diptera: Calliphoridae) of forensic
importance. Genome 60(11), 965.
CR  - Lord, W.D., & Stevenson, JR. (1986). Directory of forensic
entomologists. 2nd ed. Washington, DC: Defense Pest
Management Information Analysis Center, Walter
Reed Army Medical Center.
CR  - Meyer, C.P., & Paulay, G. (2005). DNA barcoding: Error rates
based on comprehensive sampling. PLoS Biology,
3(12), e422
https://doi.org/10.1371/journal.pbio.0030422
CR  - Mutlu, E.Ç., Yılmaz, M.C., Balık, R., Onay, A.S., & Turan, Y.
(2024). Determination of insect fauna and succession
important for forensic entomology in İstanbul Province.
Transactions of the American Entomological Society,
216-230. https://doi.org/10.3157/061.150.0202.
CR  - Özdemir, S., & Sert, O. (2009). Determination of Coleoptera
fauna on carcasses in Ankara province, Turkey.
Forensic Science International, 183, 24-32.
https://doi.org/10.1016/j.forsciint.2008.09.018.
CR  - Park, S.H., Kim, H.J., Jang, H., Park, J., Kim, Y.H., & Ko,
K.S. (2018). Molecular identification of forensically
important flies (Diptera: Calliphoridae, Sarcophagidae)
using COI and ITS2 gene regions. Journal of Asia-
Pacific Entomology, 21, 1-10
https://doi.org/10.1016/j.forsciint.2017.12.017
CR  - Sagar, A., Singh, T.K., Harsh, N., Jha, N.K., Dode, P.S. &
Podder, A. (2025). DNA barcoding: From taxonomy to
technology - A review. Journal of Carcinogenesis,
24(7s), 835-842
https://doi.org/10.64149/J.Carcinog.24.7s.835-843
CR  - Schilthuizen, M., Scholte, C., van Wijk, R.E.J.,
Dommershuijzen, J., van der Horst, D., zu
Schlochtern, M.M., Lievers, R., & Groenenberg,
D.S.J. (2011). Using DNA-barcoding to make the
necrobiont beetle family Cholevidae accessible for
forensic entomology. Forensic Science International
210, 91-95
https://doi.org/10.1016/j.forsciint.2011.02.003
CR  - Scieuzo, C., Rinaldi, R., De Stefano, F., Di Fazio, A., &
Falabella, P. (2025). The contribution of molecular
biology to forensic entomology. Insects, 16, 694.
https://doi.org/10.3390/insects16070694
CR  - Sert, O., Kabalak, M., & Şabanoğlu, B. (2012). Determination
of forensically important Coleoptera and Calliphoridae
(Diptera) species on decomposing dog (Canis lupus
familiaris L.) carcass at Ankara province. Hacettepe
Journal of Biology and Chemistry, 40(1), 99-103.
CR  - Sharawi, S.E. (2025). Forensic entomology in Jeddah: Molecular
identification of emerging insect strains. Indian Journal
of Animal Research, 59(1), 1-4.
https://doi.org/10.18805/IJAR.BF-1881
CR  - Şabanoğlu, B., & Sert, O. (2010). Determination of
Calliphoridae (Diptera) fauna and seasonal distribution
on carrion in Ankara province. Journal of Forensic
Sciences, 55(4), 1003-1007.
https://doi.org/10.1111/j.1556-4029.2010.01366.x
CR  - Schilthuizen, M., Scholte, C., van Wijk, R.E.J.,
Dommershuijzen, J., van der Horst, D., Meijer zu
Schlochtern, M., Lievers, R. & Groenenberg, D. S.
J. (2011). Using DNA-barcoding to make the
necrobiont beetle family Cholevidae accessible for
forensic entomology. Forensic Science International,
210, 91-95.
https://doi.org/10.1016/j.forsciint.2011.02.003
CR  - Sharma, S., & Dalal, J. (2025). in Tanda, A.S. (Ed.). Advances
in forensic entomology: Basic and applied aspects.
TechSar Publishing.
CR  - Taberlet, P., Coissac, E., Hajibabaei, M., & Rieseberg, L.H.
(2012). Environmental DNA. Molecular Ecology,
21(8), 1789–1793. https://doi.org/10.1111/j.1365-
294X.2012.05542.x
CR  - Wang, B., Ha, S., Cai, J., Ma, Y., Li, D., Chen, J., & Deng, J.
(2025). Exploratory study on DNA barcode combined
with PCR-HRM technology for rapid and accurate
identification of necrophilous fly species. Insects, 16,
590. https://doi.org/10.3390/insects16060590
CR  - Wells, J.D., & Stevens, J.R. (2008). Application of DNA-based
methods in forensic entomology. Annual Review of
Entomology, 53, 103-120.
CR  - Yavasoglu, S.İ., Yılmaz, C., Ulger, C., & Simsek, F.M. (2016).
Molecular identification and genetic structure of Aedes
phoeniciae (Diptera: Culicidae) in Northern Cyprus and
Turkey. Biochemical Systematics and Ecology, 69, 6-
14. https://doi.org/10.1016/j.bse.2016.08.003
CR  - Yu, D.W., Ji, Y., Emerson, B.C., Wang, X., Ye, C., Yang, C.,
& Ding, Z. (2012). Biodiversity soup: Metabarcoding
of arthropods for rapid biodiversity assessment and
biomonitoring. Methods in Ecology and Evolution,
3(4), 613-623. https://doi.org/10.1111/j.2041-
210X.2012.00198.x
UR  - https://doi.org/10.35229/jaes.1840921
L1  - https://dergipark.org.tr/tr/download/article-file/5501331
ER  -