Felix A. H. Sperling scite author profile

Insect larvae found on a corpse can be used for estimating postmortem intervals. Here, we describe a molecular method for rapid identification of these insects. Specific insect DNA fragments were amplified using the polymerase chain reaction (PCR), followed by direct DNA sequencing of the amplification products. We sequenced 2300 base pairs of mitochondrial DNA from each of three blowfly species: Phormia regina, Phaenicia sericata and Lucilia illustris. All three species are important in forensic entomology. We found 118 nucleotide differences between the L. illustris and P. sericata sequences, 186 between L. illustris and P. regina, and 192 between P. sericata and P. regina. Based on these abundant DNA sequence differences, we can unambiguously identify the immature larval stages of these insects. These DNA sequence differences were also used to predict species-specific, diagnostic restriction sites in the amplified DNA, and these predictions were verified by digestion with nine restriction enzymes. The DNA sequences reported here encode the mitochondrial COI, COII and tRNA-leucine genes.

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Testing the Role of the Red Queen and Court Jester as Drivers of the Macroevolution of Apollo Butterflies

Condamine

Rolland

Höhna

et al. 2018

148

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In macroevolution, the Red Queen (RQ) model posits that biodiversity dynamics depend mainly on species-intrinsic biotic factors such as interactions among species or life-history traits, while the Court Jester (CJ) model states that extrinsic environmental abiotic factors have a stronger role. Until recently, a lack of relevant methodological approaches has prevented the unraveling of contributions from these 2 types of factors to the evolutionary history of a lineage. Herein, we take advantage of the rapid development of new macroevolution models that tie diversification rates to changes in paleoenvironmental (extrinsic) and/or biotic (intrinsic) factors. We inferred a robust and fully-sampled species-level phylogeny, as well as divergence times and ancestral geographic ranges, and related these to the radiation of Apollo butterflies (Parnassiinae) using both extant (molecular) and extinct (fossil/morphological) evidence. We tested whether their diversification dynamics are better explained by an RQ or CJ hypothesis, by assessing whether speciation and extinction were mediated by diversity-dependence (niche filling) and clade-dependent host-plant association (RQ) or by large-scale continuous changes in extrinsic factors such as climate or geology (CJ). For the RQ hypothesis, we found significant differences in speciation rates associated with different host-plants but detected no sign of diversity-dependence. For CJ, the role of Himalayan-Tibetan building was substantial for biogeography but not a driver of high speciation, while positive dependence between warm climate and speciation/extinction was supported by continuously varying maximum-likelihood models. We find that rather than a single factor, the joint effect of multiple factors (biogeography, species traits, environmental drivers, and mass extinction) is responsible for current diversity patterns and that the same factor might act differently across clades, emphasizing the notion of opportunity. This study confirms the importance of the confluence of several factors rather than single explanations in modeling diversification within lineages.

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DNA-Based Identification and Molecular Systematics of Forensically Important Sarcophagidae (Diptera)

2001

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Sarcophagid flies have many characteristics that make them ideal forensic indicators. However, their utility is severely limited because it is difficult or impossible to determine the species of a sarcophagid larva, and in many instances an adult specimen, based on anatomy. We developed a database of mitochondrial DNA sequence data that makes it possible to identify all sarcophagid species likely to be found feeding on a human corpse at an urban location in Canada or the USA. Analyses were based on a 783 base pair region of the gene for cytochrome oxidase subunit one (COI). The species analyzed, including some of no forensic importance that were included for purposes of phylogenetic comparisons, were members of the genera Sarcophaga, Peckia, Blaesoxipha, Ravinia, Wohlfahrtia, Brachicoma (all Sarcophagidae), and Musca (Muscidae).

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MITOCHONDRIAL DNA PHYLOGENY OF THEPAPILIO MACHAONSPECIES GROUP (LEPIDOPTERA: PAPILIONIDAE)

Sperling

1993

Mem. Entomol. Soc. Can.

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In swallowtail butterflies of the Papilio machaon species group, mitochondrial (mt) DNA divergence has allowed speciation and adaptation to be understood more precisely. The reconstructed phylogeny of mtDNA of the P. machaon group is largely congruent with prior systematic hypotheses based on allozymes and color pattern. Genetic divergences of mtDNA support use of broad, character-based species concepts for the P. machaon group, and allow inferences regarding the origin of hybrid populations. The mtDNA phylogeny provides a guide for evolutionarily appropriate comparisons in studies of the chemical and genetic basis of hostplant use. Finally, mtDNA demonstrates the phylogenetically distinct status of an endangered species, P. hospiton.

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Comparison of bacterial 16S rRNA variable regions for microbiome surveys of ticks

Sperling

Silva-Brandão

Brandão

et al. 2017

Ticks and Tick-borne Diseases

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