Comparative Morphology and Morphometric Analysis of Some Histeridae (Insecta: Coleoptera) Species
Yıl 2021,
Cilt: 14 Sayı: 3, 411 - 417, 15.12.2021
Cansu Kılıç
,
Ferhat Altunsoy
Öz
Histeridae (Coleoptera) is a worldwide group of about 400 genera and 4500 species. Many family members are predators of eggs, larvae, and adults of Diptera (Insecta) species. On the other hand, rotting corpses have great precaution in forensic studies due to their feeding and colonization. The taxonomic characters used in the classification of Histeridae species are based on morphology. However, the variations in morphological characters cause difficulties in the determinations that lead to significant errors in the diagnostic process. In this study, seasonal variations of some Histeridae species used to determine the minimum time of death (PMI) in forensic investigations are evaluated with geometrical morphometry and the references given for the prevention of errors for identifying species.
Destekleyen Kurum
Anadolu University
Kaynakça
- Mazur, S. (2011). A Concise catalogue of the Histeridae (Insecta: Coleoptera). Warsaw: Warsaw University of Life Sciences, SGGW Press.
- Caterino, M. S., & Tishenchkin, A. K. (2014). New genera and species of Neotropical Exosternini (Coleoptera: Histeridae). ZooKeys(381), 11-78.
- Lackner, T. (2015). Coleoptera: Sphaeritidae, Histeridae. Folia Heyrovskyana, Series B(23), 1-33.
- Zhou, Y. L., Caterino, M. S., Ren, D., & Slipinski, A. (2020). Phylogeny and evolution of Mesozoic and extant lineages of Histeridae (Coleoptera), with discovery of a new subfamily Antigracilinae from the Lower Cretaceous. Cladistics, 36(5), 521-539.
- Fincher, G. T. (1995). Predation on the horn fly by Hister Bruchi. Southwestern Entomologist, 20(4), 423-427.
- Summerlin, J. W., Roth, J. P., & Fincher, G. T. (1991). Predation by two species of Histerid Beetles on the Horn Fly. Southwestern Entomologist, 16(1), 45-49.
- Caneparo, M. C., Fischer, M. L., & Almeida, L. M. (2017). Effect of temperature on the life cycle of Euspilotus azureus (Coleoptera: Histeridae), a predator of forensic importance. Florida Entomologist, 100(4), 795-801.
- Szelecz, I., Feddern, N., Seppey, C. W., Amendt, J., & Mitchell, E. D. (2018). The importance of Saprinus semistriatus (Coleoptera: Histeridae) for estimating the minimum post-mortem interval. Legal Medicine(30), 21-27.
- Özdemir, S., & Sert, O. (2009). Determination of Coleoptera fauna on carcasses in Ankara province, Turkey. Forensic Science International(183), 24-32.
- Altunsoy, F., Turan , Y., Fırat, S., & Sert, O. (2017). Differences in succession of Coleoptera species attracted to pig carcasses in rural and urban habitats in Eskişehir Province, Turkey. Turkish Journal of Entomology, 41(2), 177-195.
- Lackner, T. (2010). Review of the Palaearctic genera of Saprininae (Coleoptera: Histeridae). Acta Entomologica Musei Nationalis Pragae, 50(1), 1-254.
- Secchi, F. (2002, February 18). July 2021 tarihinde http://www.insecte.org/photos/archives/histeridae_Secchi.pdf adresinden alındı
- Krikken, J., & Huijbregts, J. (2001). Insects as forensic informants: the Dutch experience and procedure. Entomologia Experimentalis et Applicata(12), 159-164.
- Salman , S., Garrouste, R., Nel, A., & Azar, D. (2018). The community succession of arthropods on a pig carcass in Lebanon: different taxonomic level approaches with faunistic notes. Annales de la Société entomologique de France, 54(5), 417-433.
- Ohara, M. (1994). A revision of the superfamily Histeroidea of Japan (Coleoptera). Insecta Matsumurana(51), 1-238.
- Zhang, M., Ruan, Y., Wan, X., Tong, Y., Yang, X., & Bai, M. (2019). Geometric morphometric analysis of the pronotum and elytron in stag beetles: insight into its diversity and evolution. ZooKeys(833), 21-40.
- Taratavi, S., Darvish, J., & Mirshamsi, O. (2009). Geometric morphometric study of two species of the psammophilous genus Erodiontes (Coleoptera: Tenebrionidae) from the Lute desert, Central Iran. Iranian Journal of Animal Biosystematics, 5(2), 81-89.
- Albert, P., Moureau, B., Dommergues, J. L., & David, B. (2001). Differentiation at a microgeographical scale within two species of ground beetle, Carabus auronitens and C. Nemoralis (Coleoptera, Carabidae): a geometrical morphometric approach. Zoologica Scripta(30), 299-311.
- Lİ, J., Baı, R., Li, X., Jiang, J., & Yan, F. (2013). Comparative Morphology and Morphometry of Six Biotypes of Bemisia tabaci (Hemiptera: Aleyrodidae) from China. Journal of Integrative Agriculture, 12(5), 846-852.
- Polat, F., & Çorak Öcal, İ. (2021). Phylogenetic analysis of Euscorpius phrygius Bonacina, 1980 (Scorpiones: Euscorpiidae) distributed in Turkey. . Biyolojik Çeşitlilik ve Koruma, 14(2), 214-219.
Bazı Histeridae (Insecta: Coleoptera) Türlerinin Karşılaştırmalı Morfolojisi ve Morfometrik Analizi
Yıl 2021,
Cilt: 14 Sayı: 3, 411 - 417, 15.12.2021
Cansu Kılıç
,
Ferhat Altunsoy
Öz
Histeridae (Coleoptera) dünya çapında yaklaşık 400 cins ve 4500 tür ile temsil edilen bir gruptur. Birçok Familya üyesi Diptera (Insecta) türlerinin yumurta, larva ve erginleri üzerinde predatördür. Diğer taraftan çürüyen cesetler üzerinde beslenmeleri ve kolonizasyonları sayesinde adli çalışmalarda büyük öneme sahiptir. Histeridae türlerinin sınıflandırılmasında kullanılan taksonomik karakterler morfoloji temellidir. Ancak morfolojik karakterlerdeki varyasyonlar teşhis aşamasında önemli hatalara neden olduğundan tayinlerde zorluk çıkarmaktadır. Bu çalışmada adli araştırmalarda minimum ölüm zamanının (PMI) belirlenmesi amacıyla kullanılan bazı Histeridae türlerinin ceset üzerindeki mevsimsel süksesyonuna bağlı olarak ortaya çıkan varyasyonları, geometrik morfometrik analizlerle ortaya koyulmuş ve türlerin teşhisinde yapılabilecek hataların önlenmesi için referans veriler sunulmuştur.
Kaynakça
- Mazur, S. (2011). A Concise catalogue of the Histeridae (Insecta: Coleoptera). Warsaw: Warsaw University of Life Sciences, SGGW Press.
- Caterino, M. S., & Tishenchkin, A. K. (2014). New genera and species of Neotropical Exosternini (Coleoptera: Histeridae). ZooKeys(381), 11-78.
- Lackner, T. (2015). Coleoptera: Sphaeritidae, Histeridae. Folia Heyrovskyana, Series B(23), 1-33.
- Zhou, Y. L., Caterino, M. S., Ren, D., & Slipinski, A. (2020). Phylogeny and evolution of Mesozoic and extant lineages of Histeridae (Coleoptera), with discovery of a new subfamily Antigracilinae from the Lower Cretaceous. Cladistics, 36(5), 521-539.
- Fincher, G. T. (1995). Predation on the horn fly by Hister Bruchi. Southwestern Entomologist, 20(4), 423-427.
- Summerlin, J. W., Roth, J. P., & Fincher, G. T. (1991). Predation by two species of Histerid Beetles on the Horn Fly. Southwestern Entomologist, 16(1), 45-49.
- Caneparo, M. C., Fischer, M. L., & Almeida, L. M. (2017). Effect of temperature on the life cycle of Euspilotus azureus (Coleoptera: Histeridae), a predator of forensic importance. Florida Entomologist, 100(4), 795-801.
- Szelecz, I., Feddern, N., Seppey, C. W., Amendt, J., & Mitchell, E. D. (2018). The importance of Saprinus semistriatus (Coleoptera: Histeridae) for estimating the minimum post-mortem interval. Legal Medicine(30), 21-27.
- Özdemir, S., & Sert, O. (2009). Determination of Coleoptera fauna on carcasses in Ankara province, Turkey. Forensic Science International(183), 24-32.
- Altunsoy, F., Turan , Y., Fırat, S., & Sert, O. (2017). Differences in succession of Coleoptera species attracted to pig carcasses in rural and urban habitats in Eskişehir Province, Turkey. Turkish Journal of Entomology, 41(2), 177-195.
- Lackner, T. (2010). Review of the Palaearctic genera of Saprininae (Coleoptera: Histeridae). Acta Entomologica Musei Nationalis Pragae, 50(1), 1-254.
- Secchi, F. (2002, February 18). July 2021 tarihinde http://www.insecte.org/photos/archives/histeridae_Secchi.pdf adresinden alındı
- Krikken, J., & Huijbregts, J. (2001). Insects as forensic informants: the Dutch experience and procedure. Entomologia Experimentalis et Applicata(12), 159-164.
- Salman , S., Garrouste, R., Nel, A., & Azar, D. (2018). The community succession of arthropods on a pig carcass in Lebanon: different taxonomic level approaches with faunistic notes. Annales de la Société entomologique de France, 54(5), 417-433.
- Ohara, M. (1994). A revision of the superfamily Histeroidea of Japan (Coleoptera). Insecta Matsumurana(51), 1-238.
- Zhang, M., Ruan, Y., Wan, X., Tong, Y., Yang, X., & Bai, M. (2019). Geometric morphometric analysis of the pronotum and elytron in stag beetles: insight into its diversity and evolution. ZooKeys(833), 21-40.
- Taratavi, S., Darvish, J., & Mirshamsi, O. (2009). Geometric morphometric study of two species of the psammophilous genus Erodiontes (Coleoptera: Tenebrionidae) from the Lute desert, Central Iran. Iranian Journal of Animal Biosystematics, 5(2), 81-89.
- Albert, P., Moureau, B., Dommergues, J. L., & David, B. (2001). Differentiation at a microgeographical scale within two species of ground beetle, Carabus auronitens and C. Nemoralis (Coleoptera, Carabidae): a geometrical morphometric approach. Zoologica Scripta(30), 299-311.
- Lİ, J., Baı, R., Li, X., Jiang, J., & Yan, F. (2013). Comparative Morphology and Morphometry of Six Biotypes of Bemisia tabaci (Hemiptera: Aleyrodidae) from China. Journal of Integrative Agriculture, 12(5), 846-852.
- Polat, F., & Çorak Öcal, İ. (2021). Phylogenetic analysis of Euscorpius phrygius Bonacina, 1980 (Scorpiones: Euscorpiidae) distributed in Turkey. . Biyolojik Çeşitlilik ve Koruma, 14(2), 214-219.