Use Of Dna Sequences To Identify Forensically Important Fly Species In The Coastal Region Of Central California Santa Clara County

Use of DNA Sequences to Identify Forensically Important Fly Species in the Coastal Region of Central California (Santa Clara County)

Author : Angela T. Nakano

Publisher :

Page : 74 pages

File Size : 21,70 MB

Release : 2013

Category : Blowflies

ISBN :

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Flies from the families Calliphoridae, Sarcophagidae, and Muscidae were trapped in meat-baited traps set in a variety of locations throughout the county. Flies were identified using morphological features and confirmed by molecular analysis. A total of 16 calliphorid species, 14 sarcophagid species, and four muscid species were collected and differentiated. This study found more species of flies than previous area surveys and established new county records for two calliphorid species: Cynomya cadaverina and Chrysomya rufifacies. Significant differences were found in fly fauna in different areas of the county (p





Spatial and Temporal Distribution of the Forensically Significant Blow Flies of Los Angeles County, California, United States (Diptera: Calliphoridae)

Author : Royce T. Cumming

Publisher :

Page : 77 pages

File Size : 16,65 MB

Release : 2019

Category :

ISBN :

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Forensic entomology although not a commonly used discipline in the forensic sciences, does have its niche and when used by investigators is respected in crinimolegal investigations (Greenberg and Kunich, 2005). With many species of forensically significant insects being regionally specific, it is often difficult for forensic entomologists to as confidently translate regionally specific studies across drastically differing geographic regions (Brundage, et al., 2011). The purpose of this study is to help create a better temporal and geographic distributional understanding of the blow fly species present in Los Angeles County, California, United States. Twenty-five locations from four ecoregions (coastal mountains, urban, interior mountains, and desert) were regularly surveyed using baited traps for forensically significant blow flies throughout Los Angeles County from July, 2017 through January, 2018. In total 10,875 arthropod specimens were collected, of which 4,933 were the target family Calliphoridae. Six genera and twelve forensically significant species were recorded from the county during this time period. In addition to the current survey, all specimens from the Los Angeles Museum of Natural History and from select literature were included revealing an additional three species not collected during this current survey. Chrysomya rufifacies and Lucilia sericata comprised most the specimens recorded [collectively 87.9% (61.3% and 26.6% respectively)]. Several species define two ecoregions, Lucilia cuprina was only recorded below 1,000 feet elevation in urban disturbed environments, and Calliphora livida and Calliphora vomitoria define the San Gabriel Mountains having only been found there above about 4,000 feet elevation. Temporally, with Los Angeles having a rather Mediterranean climate year-round it is not surprising that most species have wide temporal distributions with only Calliphora terraenovae significantly restricted to only May-June. In summary, summer was the most species rich season with all 15 species recorded, and the San Gabriel Mountains had the highest diversity with 13 of the 15 species occurring there.





Evaluation of Microsatellite Markers for the Differentiation of Specimens and Populations of Australian Forensically Significant Blowfly Species

Author : Paula Andrea Mugno Ramirez

Publisher :

Page : 134 pages

File Size : 16,17 MB

Release : 2010

Category : Blowflies

ISBN :

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DNA-based identification methods have been developed for the accurate identification of forensically relevant arthropods collected from human remains, which is a key factor in the estimation of the postmortem interval. Several DNA regions such as the Cytochrome Oxidase (CO) genes have been studied to evaluate whether the variation observed within these regions can differentiate between forensically important fly species and populations. Although the CO genes have been extensively used in species identification, and a large number of forensically significant fly species can be successfully differentiated using these genes, the ability to differentiate closely related species using these genes is limited. Therefore, there is a need for the identification of genetic makers with sufficient discrimination power at the intra-species level. Microsatellites are repeat motifs of 2-6 bp in the DNA sequence. These repeat units are highly variable among individuals, and thus, are suitable for species and population identification purposes. Microsatellite markers have been developed for forensically significant calliphorids such as Chrysomya albiceps and Cochliomyia hominivorax in Brazil, and Lucilia sericata and Lucilia illustris in Sweden. These microsatellites have been used to identify forensically significant blowflies at the population-level. The use of microsatellites to identify forensically significant blowflies in Australia is scarce. The main aim of this research was to test the suitability of nine previously described microsatellite markers (Torres and Azeredo-Espin, 2008), to differentiate between forensically significant fly species and populations in Australia. Specimens of the species Chrysomya rufifacies, Chrysomya megacephala, Chrysomya varipes, Calliphora dubia, Calliphora albifrontalis, and Lucilia sericata were collected from different sites in Western Australia using liver-baited traps. Additional specimens of these species and Lucilia cuprina and Calliphora vicinia specimens were provided by the QLD Police and the Agriculture Department of NSW. DNA from the thoracic flight muscle of the blowfly specimens was extracted and the quality of the DNA extracts assessed by PCR amplification with an established PCR system. The species of each DNA extract was confirmed by sequence comparison with sequences from the GenBank database. PCR amplification for the microsatellite primer pairs was optimized by varying the annealing temperature and the MgCl2 concentration of each PCR primer pair. The DNA extracts were then amplified with the microsatellite primers using optimized conditions and the PCR products were evaluated using low-resolution gel electrophoresis and medium-resolution MultiNA analysis. No amplification products were obtained with two of the primer pairs. With three of the primers, no large size differences were observed between the species and the populations tested. With the remaining four primers, size differences were observed between the species studied. Further analysis within each population will be necessary to determine if these primer pairs allow species or population differentiation. It is recommended that new microsatellites are isolated from a genomic library obtained from each of the forensically important blowfly species.



The Marsh Flies of California

Author : T. W. Fisher

Publisher : Univ of California Press

Page : 130 pages

File Size : 17,40 MB

Release : 1983-01-01

Category : Science

ISBN : 9780520096653

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DNA Barcoding of Great Salt Lake Shore Flies

Author : Krystle J. Minear

Publisher :

Page : 0 pages

File Size : 11,23 MB

Release : 2010

Category : DNA fingerprinting of animals

ISBN :

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Most popular sources state that there are two key species of shore fly at Great Salt Lake. But there is little known about their distribution. ... DNA barcoding is a technique used to identify and distinguish species. ... DNA barcodes constitute a relatively short specific sequence of the mitochondrial gene Cytochrome Oxidase I, that has been agreed upon as the standard. Cytochrome Oxidase I mitochondrial region (COI) has become the standardized area for barcoding. ... In addition to COI, there are other DNA sequences that are useful in identifying species. One of these is the internal transcribed space 1 region, or ITS-1. ... The purpose of this study was to examine sequences of both COI and ITS-1 obtained for four species of Great Salt Lake shore flies. The principle objective was to identify species of shore fly and create barcodes for each. The second objective was to compare intraspecific and interspecific sequence variation for both COI and ITS-1. Barcodes performed on shore flies of Great Salt Lake will add to the international effort to barcode every living species. The results of this study can be used to help support the strength of COI as a standard biological barcode as well as the appropriate use of ITS-1 as a tool in genetic variation studies in closely related species.



Species Differentiation of Forensically Relevant Flies Using Amplified Fragment Length Polymorphism

Author : Jason C. Beckert

Publisher :

Page : 224 pages

File Size : 22,34 MB

Release : 2008

Category : Blowflies

ISBN :

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The ability to quickly and reliably identify insect larvae found at crime scenes is an important part of many forensic investigations. Correct species identification can help establish the postmortem interval (PMI), one of the most salient facts in most investigations. Unfortunately, morphological identification of the immature insects commonly found at crime scenes has inherent problems that cannot always be satisfactorily overcome. There exists the need for another speedy and accurate method of identification. Amplified fragment length polymorphism (AFLP) is a genetic technique that has been used to differentiate species from a wide variety of organisms. In this study, the first application of the AFLP technique to forensic entomology is described. Three species, representing two of the most forensically relevant families of insects, Calliphoridae (blow flies) and Sarcophagidae (flesh flies) were studied. Potential species specific markers were identified for Phormia regina, Cochliomyia macellaria and Sarcophaga bullata. These encouraging initial results suggest that AFLP holds real promise as a universal method for identifying forensically relevant insect species in their immature stages. Further study of other species, as well as populations from wider geographic locales, is required before AFLP can be introduced to practical forensic applications.



Distribution, Dna Barcoding and Phylogenetics of Caribbean Calliphoridae Flies: Tools for Forensic Studies

Author : Sohath Zamira Yusseff

Publisher :

Page : 334 pages

File Size : 21,45 MB

Release : 2018

Category : Blowflies

ISBN :

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Blow flies (Diptera: Calliphoridae) are among the most dominant and conspicuous insects in the decomposition process. They are important in forensic entomology to determine time of death and, in certain situations, cause of death or relocation of a body. Insects are now included as standard operating procedures in crime scene investigations in many countries, however, this is not standard procedure in the Caribbean area due to lack of knowledge of insects involved in cadaveric decomposition. Successful application of forensic entomology depends on solid underlying data. Our main goal is to advance the knowledge of Calliphoridae in the Caribbean to enable forensic entomology studies. We performed a mega-transect across the Caribbean and extensively collected flies attracted to rotten meat baits during five years from 2011 to 2015. Overall we collected 61,332 flies of which 34,650 were Calliphoridae. We sampled 16 of the 18 species of forensically important Caribbean Calliphoridae and three continental species. We determine the diversity and distribution of Calliphoridae in the Caribbean. We also present a thorough DNA barcode dataset, covering the geographic range of most species in the region. Finally we established phylogenetic relationships among Calliphoridae species and test biogeographical hypotheses, and patterns of diversification and endemism in the Caribbean. In sum, this is the most comprehensive study of the family Calliphoridae from the Caribbean that will open the door for future research on forensic entomology in the region.