Bryce Peters scite author profile

The genus Leishmania includes approximately 53 species, 20 of which cause human leishmaniais; a significant albeit neglected tropical disease. Leishmaniasis has afflicted humans for millennia, but how ancient is Leishmania and where did it arise? These questions have been hotly debated for decades and several theories have been proposed. One theory suggests Leishmania originated in the Palearctic, and dispersed to the New World via the Bering land bridge. Others propose that Leishmania evolved in the Neotropics. The Multiple Origins theory suggests that separation of certain Old World and New World species occurred due to the opening of the Atlantic Ocean. Some suggest that the ancestor of the dixenous genera Leishmania, Endotrypanum and Porcisia evolved on Gondwana between 90 and 140 million years ago. In the present study a detailed molecular and morphological characterisation was performed on a novel Australian trypanosomatid following its isolation in Australia’s tropics from the native black fly, Simulium (Morops) dycei Colbo, 1976. Phylogenetic analyses were conducted and confirmed this parasite as a sibling to Zelonia costaricensis, a close relative of Leishmania previously isolated from a reduviid bug in Costa Rica. Consequently, this parasite was assigned the name Zelonia australiensis sp. nov. Assuming Z. costaricensis and Z. australiensis diverged when Australia and South America became completely separated, their divergence occurred between 36 and 41 million years ago at least. Using this vicariance event as a calibration point for a phylogenetic time tree, the common ancestor of the dixenous genera Leishmania, Endotrypanum and Porcisia appeared in Gondwana approximately 91 million years ago. Ultimately, this study contributes to our understanding of trypanosomatid diversity, and of Leishmania origins by providing support for a Gondwanan origin of dixenous parasitism in the Leishmaniinae.

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High phylogenetic diversity of the cat flea (Ctenocephalides felis) at two mitochondrial DNA markers

Lawrence

Brown

Peters

et al. 2014

Medical Vet Entomology

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The cat flea, Ctenocephalides felis (Siphonaptera: Pulicidae) (Bouché), is the most common flea species found on cats and dogs worldwide. We investigated the genetic identity of the cosmopolitan subspecies C. felis felis and evaluated diversity of cat fleas from Australia, Fiji, Thailand and Seychelles using mtDNA sequences from cytochrome c oxidase subunit I (cox1) and II (cox2) genes. Both cox1 and cox2 confirmed the high phylogenetic diversity and paraphyletic origin of C. felis felis. The African subspecies C. felis strongylus (Jordan) is nested within the paraphyletic C. felis felis. The south East Asian subspecies C. felis orientis (Jordan) is monophyletic and is supported by morphology. We confirm that Australian cat fleas belong to C. felis felis and show that in Australia they form two distinct phylogenetic clades, one common with fleas from Fiji. Using a barcoding approach, we recognize two putative species within C. felis (C. felis and C. orientis). Nucleotide diversity was higher in cox1 but COX2 outperformed COX1 in amino acid diversity. COX2 amino acid sequences resolve all phylogenetic clades and provide an additional phylogenetic signal. Both cox1 and cox2 resolved identical phylogeny and are suitable for population structure studies of Ctenocephalides species.

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Development of Melaleuca oils as effective natural‐based personal insect repellents

Greive¹,

Staton

Miller

et al. 2010

Australian Journal of Entomology

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For many decades effective insect repellents have relied on synthetic actives such as N,N-diethyl-metatoluamide. Increasingly, consumers are seeking natural-based alternatives to many everyday products including insect repellents. While many studies have been published detailing the potential of essential oils to act as insect repellents, few oils have been identified as viable alternatives to synthetic actives. This study details the process involved in the selection of Australian essential oils effective as repellents and the subsequent testing of natural-based insect repellents using the selected oils. Using a combination of laboratory-based and field-based testing, oil from Melaleuca ericifolia was identified as being an effective insect repellent. When formulated into three different bases: an alcohol-based spray, an emulsion and a gel, these Melaleuca-based repellents were shown to be as effective at repelling mosquitoes Aedes vigilax (Skuse) (Diptera: Culicidae) and Verrallina carmenti (Edwards) (Diptera: Culicidae), the bush fly Musca vetustissima (Walker) (Diptera: Muscidae), and biting midges Culicoides ornatus (Taylor) (Diptera: Ceratopogonidae) and Culicoides immaculatus (Lee & Reye) (Diptera: Ceratopogonidae) as a synthetic-based commercial repellent. This study has shown that effective insect repellents based on natural active ingredients can deliver repellency on par with synthetic actives in the field. Three Melaleuca-based formulations have been registered as repellents and are now commercially available.

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Pyriproxyfen for the Control of Australian Salt-Marsh Mosquito, Aedes vigilax

Webb¹,

Miller

Peters

2012

Journal of the American Mosquito Control Association

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The efficacy of pyriproxyfen against the Australian salt-marsh mosquito, Aedes vigilax, was examined in 2 laboratory and 1 semi-field study using both technical grade and formulated products. In a dose-response study, the median emergence inhibition (EI50) and EI95 values were determined to be 0.019 and 0.076 ppb, respectively, for pyriproxyfen technical grade, 0.021 and 0.092 ppb for a microencapsulated formulation (Sumilarv 90CS), and 0.054 and 0.236 ppb for the formulated s-methoprene product, Altosid Liquid Larvicide. A further laboratory comparison of the microencapsulated formulation of pyriproxyfen and Altosid, at the nominal field rate for Altosid, showed that both products provided 100% emergence inhibition and this was confirmed in a semi-field study, which also included a granular formulation of pyriproxyfen (Sumilarv 0.5G).

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Overview of the public health implications of cockroaches and their management

Peters¹

2004

NSW Public Health Bull.

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The Nitbusters program is a NSW Health initiative to reduce the prevalence of headlice in the community. The project, developed in consultation with the NSW Federation of Parents and Citizens Associations and the NSW Department of Education and Training, educates school children and parents about headlice and how to screen for and treat them as a community. The program is aimed not at eradicating headlice but at identifying and managing infestations. Nitbusters tries to educate communities through schools about the most effective ways to reduce populations of headlice by encouraging school 'Nitbuster days'. These days are coordinated by parent volunteers, who use a fine-toothed nit comb and white hair conditioner to both screen for and treat headlice. As most parents realise, eliminating headlice completely is probably-for the moment at least-not realistic. However, learning a safe and effective and simple method of removing headlice can make the management of infestations a little easier. Nitbusters recommends that all families regularly practise this method of treatment. Keep a good quality nit comb in the shower and train children to use it every time they wash their hair, even if their heads are not itchy. The Nitbusters program has held demonstration training days in a number of primary schools across New South Wales. Neighbouring schools were invited to attend these days and learn how to coordinate their own Nitbuster day. Data is available from some of those demonstration schools. Over 3,000 primary school children have been screened. Of those screened, more than 24 per cent had infestations of headlice. This is similar to both Victoria and Queensland, where more than 20 per cent of primary school children have been reported to have headlice. Information on headlice, and the Nitbusters program, including how to run a Nitbuster day, is available at www.health.nsw.gov.au/headlice.

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Bryce Peters

Isolation of Novel Trypanosomatid, Zelonia australiensis sp. nov. (Kinetoplastida: Trypanosomatidae) Provides Support for a Gondwanan Origin of Dixenous Parasitism in the Leishmaniinae

High phylogenetic diversity of the cat flea (Ctenocephalides felis) at two mitochondrial DNA markers

Development of Melaleuca oils as effective natural‐based personal insect repellents

Pyriproxyfen for the Control of Australian Salt-Marsh Mosquito, Aedes vigilax

Overview of the public health implications of cockroaches and their management

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