Cuticular hydrocarbons for identifying Sarcophagidae (Diptera)

Moore, Hannah E.; Hall, M. J. R.; Drijfhout, Falko P.; Cody, Robert B.; Whitmore, Daniel

doi:10.1038/s41598-021-87221-y

Cited by 21 publications

(16 citation statements)

References 79 publications

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“…Chemotaxonomy within the field of entomology has been around for many years, and it is widely accepted that CHC analysis provides an excellent means of species identification across a broad range of insect orders like Hymenoptera [15,[23][24][25][26][27][28][29][30][31][32], Isoptera [14,33], Blattodea [31,34,35] and Coleoptera [28][29][30]. CHC analysis has also been used for Diptera [7,22,31,[36][37][38][39], providing a complementary technique when the taxonomical identification is ambiguous or even not feasible, which could be due to the damaged physical condition or DNA degradation, or quite simply because the morphology between particular species is too similar to identify them [22,40].…”

Section: Discussionmentioning

confidence: 99%

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Cuticular hydrocarbons for the identification and geographic assignment of empty puparia of forensically important flies

et al. 2022

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Research in social insects has shown that hydrocarbons on their cuticle are species-specific. This has also been proven for Diptera and is a promising tool for identifying important fly taxa in Forensic Entomology. Sometimes the empty puparia, in which the metamorphosis to the adult fly has taken place, can be the most useful entomological evidence at the crime scene. However, so far, they are used with little profit in criminal investigations due to the difficulties of reliably discriminate among different species. We analysed the CHC chemical profiles of empty puparia from seven forensically important blow flies Calliphora vicina, Chrysomya albiceps, Lucilia caesar, Lucilia sericata, Lucilia silvarum, Protophormia terraenovae, Phormia regina and the flesh fly Sarcophaga caerulescens. The aim was to use their profiles for identification but also investigate geographical differences by comparing profiles of the same species (here: C. vicina and L. sericata) from different regions. The cuticular hydrocarbons were extracted with hexane and analysed using gas chromatography-mass spectrometry. Our results reveal distinguishing differences within the cuticular hydrocarbon profiles allowing for identification of all analysed species. There were also differences shown in the profiles of C. vicina from Germany, Spain, Norway and England, indicating that geographical locations can be determined from this chemical analysis. Differences in L. sericata, sampled from England and two locations in Germany, were less pronounced, but there was even some indication that it may be possible to distinguish populations within Germany that are about 70 km apart from one another.

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Section: Discussionmentioning

confidence: 99%

“…A number of papers have begun to explore the potential of using CHC for species identification or population assignment and ageing various life stages of forensically important Calliphoridae [22,36,[43][44][45][46][47].…”

Section: Discussionmentioning

confidence: 99%

Cuticular hydrocarbons for the identification and geographic assignment of empty puparia of forensically important flies

et al. 2022

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“…A second test database was created using chromatographic data from a previously published study. Classification of Sarcophaga insects based on the chromatographic analysis of cuticular hydrocarbons was described in a separate publication . Retention time aligned chromatograms from this study were exported into a single Excel spreadsheet with retention time and peak area information for each component.…”

Section: Methodsmentioning

confidence: 99%

Creating a Searchable Chromatographic Database with the NIST Mass Spectral Search Program

Cody

Sparkman

Moore

2022

J. Am. Soc. Mass Spectrom.

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The NIST Mass Spectral Search Program can be used to create a searchable database of chromatograms. This approach was tested for a small database of chromatograms for gin volatiles and for a database of insect cuticular hydrocarbons with retention times and reconstructed total ion current chromatographic peak areas substituted for m/z values and abundance. The In-source HiRes Identity search permitted matching of randomly selected chromatograms against the database with good results. This approach is not intended to replace commercial software for chromatographic database management as it does not address the problems of chromatographic alignment or chromatographic deconvolution, but it does provide a method to manage a simple chromatographic database if other options are not available.

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“…Using a similar approach to a number of recent CHC studies (e.g., Moore et al ., 2021), we implemented a machine learning technique known as a neural net classifier (NNC) to further explore differences between species and among sexes for the above‐mentioned levels of biological organisation. In these analyses, our objective was to determine if CHC profiles could accurately predict species and sex identity.…”

Section: Methodsmentioning

confidence: 99%

“…We then fit a neural network with one hidden layer to the training dataset using the nnet (Venables & Ripley, 2002) and caret (Kuhn et al ., 2020) packages in R with 10‐fold cross validation repeated 10 times similar to the methods of Moore et al . (2021), to ‘classify’ each taxa and/or sex based on their CHC profiles and determine statistical significance. The best‐fit model, which determined the accuracy at which variation in CHCs distinguished among Rhagoletis taxa and between males and females, was then evaluated with a confusion matrix, using a one‐sided t ‐test to statistically compare the testing dataset generated in the cross‐validation process to the ‘no information rate’ training dataset.…”

Section: Methodsmentioning

confidence: 99%

Cuticular hydrocarbon variation among Rhagoletis fruit flies (Diptera: Tephritidae): implications for premating reproductive isolation and ecological speciation

Hood

Jennings

Bruzzese

et al. 2021

Ecological Entomology

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1. Fruit flies in the genus Rhagoletis are a model for ecological speciation via sympatric host plant shifting. Rhagoletis mate on or near the fruit of their respective host plants, generating premating reproductive isolation between taxa specialised on different hosts. However, non‐host‐related premating isolation has been observed between some Rhagoletis species associated with morphological differences in body colour and wing patterns. 2. Here, the extent of epicuticular hydrocarbon (CHC) variation as a possible, additional determinant of mate choice in adults of six Rhagoletis taxa, including the apple and hawthorn‐infesting host races of R. pomonella is investigated. 3. Gas‐chromatography‐mass‐spectrometry revealed 36 repeatable and quantifiable hydrocarbon components present on the epicuticles of all six fly taxa, comprised of at least 53 different CHC compounds, with chain lengths varying from 27 to 34 carbon atoms, consisting of n‐alkanes, mono‐, dimethyl‐, and trimethyl‐alkanes, alkenes, and alkadienes. There were significant differences in the relative proportions of CHCs between adult R. cingulata, R. cornivora, R. zephyria, R. mendax, and R. pomonella, as well as between the apple‐ and hawthorn‐infesting host races of R. pomonella. Furthermore, within the R. pomonella host races and R. mendax, significant CHC differences were observed between the sexes and across collecting sites. 4. The results are consistent with variation in CHCs potentially contributing to observed patterns of premating isolation between Rhagoletis taxa, possibly due to combination of sexual and host‐related selection, which will necessitate further, in depth chemical analyses and future mating trials to substantiate.

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Cuticular hydrocarbons for identifying Sarcophagidae (Diptera)

Cited by 21 publications

References 79 publications

Cuticular hydrocarbons for the identification and geographic assignment of empty puparia of forensically important flies

Cuticular hydrocarbons for the identification and geographic assignment of empty puparia of forensically important flies

Creating a Searchable Chromatographic Database with the NIST Mass Spectral Search Program

Cuticular hydrocarbon variation among Rhagoletis fruit flies (Diptera: Tephritidae): implications for premating reproductive isolation and ecological speciation

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