Your search keyword '"Krosch, Matthew"' showing total 12 results

1. Preparation of a low-cost fingerprint powder that harnesses white light to emit long-lived phosphorescence

Author

Hopkins, Scarlet L., Clarke, Kristen T., Krosch, Matthew N., and Gee, William J.

Published

2023

2. A molecular phylogeny for the Tribe Dacini (Diptera: Tephritidae): Systematic and biogeographic implications

Author

Krosch, Matthew N., Schutze, Mark K., Armstrong, Karen F., Graham, Glenn C., Yeates, David K., and Clarke, Anthony R.

Published

2012

3. Population structure of Bactrocera dorsalis s.s., B. papayae and B. philippinensis (Diptera: Tephritidae) in southeast Asia: evidence for a single species hypothesis using mitochondrial DNA and wing-shape data

Author

Schutze Mark K, Krosch Matthew N, Armstrong Karen F, Chapman Toni A, Englezou Anna, Chomič Anastasija, Cameron Stephen L, Hailstones Deborah, and Clarke Anthony R

Subjects

Geometric morphometrics, Cytochrome c oxidase I, South China Sea biogeography, Fruit flies, Evolution, QH359-425

Abstract

Abstract Background Bactrocera dorsalis s.s. is a pestiferous tephritid fruit fly distributed from Pakistan to the Pacific, with the Thai/Malay peninsula its southern limit. Sister pest taxa, B. papayae and B. philippinensis, occur in the southeast Asian archipelago and the Philippines, respectively. The relationship among these species is unclear due to their high molecular and morphological similarity. This study analysed population structure of these three species within a southeast Asian biogeographical context to assess potential dispersal patterns and the validity of their current taxonomic status. Results Geometric morphometric results generated from 15 landmarks for wings of 169 flies revealed significant differences in wing shape between almost all sites following canonical variate analysis. For the combined data set there was a greater isolation-by-distance (IBD) effect under a ‘non-Euclidean’ scenario which used geographical distances within a biogeographical ‘Sundaland context’ (r2 = 0.772, P r2 = 0.217, P beast analysis provided a root age and location of 540kya in northern Thailand, with migration of B. dorsalis s.l. into Malaysia 470kya and Sumatra 270kya. Two migration events into the Philippines are inferred. Sequence data revealed a weak but significant IBD effect under the ‘non-Euclidean’ scenario (r2 = 0.110, P Conclusions Bactrocera dorsalis s.s., B. papayae and B. philippinensis likely represent one species structured around the South China Sea, having migrated from northern Thailand into the southeast Asian archipelago and across into the Philippines. No migration is apparent between the Philippines and Taiwan. This information has implications for quarantine, trade and pest management.

Published

2012

4. Rh6 gene modulates the visual mechanism of host utilization in fruit fly Bactrocera minax.

Author

Wang, Yaohui, Andongma, Awawing A, Dong, Yongcheng, Chen, Zhenzhong, Xu, Penghui, Ren, Xueming, Niu, Changying, Krosch, Matthew N, and Clarke, Anthony R

Subjects

BACTROCERA, DIPTERA, LIGHT absorption, PHOTORECEPTORS, HOST plants, OVIPARITY, DROSOPHILA

Abstract

BACKGROUND Vision plays a critical role in host location and oviposition behavior for herbivorous insects. However, the molecular mechanisms underlying visual regulation in host recognition and oviposition site selection in insects remains unknown. The aim of this study was to explore the key visual genes that are linked to the host plant location of the fruit fly, Bactrocera minax. RESULTS: Using a host specialist fruit fly, B. minax, which lays eggs only into immature green citrus fruit, we undertook behavioral, transcriptomic, and RNAi research to identify the molecular basis for host fruit color recognition. In laboratory and field assays we found that adults prefer green over other colors, and this preference is significantly increased in sexually mature over immature flies. Furthermore, we identified that the Rh6 gene, responsible for green spectral sensitivity, has elevated expression in mature flies over immature flies. RNAi suppression of Rh6 eliminated the preference for green, resulting in a significant decrease in the number of eggs laid by B. minax in green unripe citrus. CONCLUSION: These results show that the Rh6 gene modulates the visual mechanism of host utilization in B. minax, providing a genetic basis for visual host location in a non‐model insect herbivore. © 2018 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2019

5. Population structure of a global agricultural invasive pest, Bactrocera dorsalis (Diptera: Tephritidae).

Author

Qin, Yu‐jia, Krosch, Matthew N., Schutze, Mark K., Zhang, Yue, Wang, Xiao‐xue, Prabhakar, Chandra S., Susanto, Agus, Hee, Alvin K. W., Ekesi, Sunday, Badji, Kemo, Khan, Mahfuza, Wu, Jia‐jiao, Wang, Qiao‐ling, Yan, Ge, Zhu, Li‐huan, Zhao, Zi‐hua, Liu, Li‐jun, Clarke, Anthony R., and Li, Zhi‐hong

Subjects

*ORIENTAL fruit fly, *DIPTERA, *TEPHRITIDAE, *TAXONOMY, *BIODIVERSITY

Abstract

Bactrocera dorsalis, the Oriental fruit fly, is one of the world's most destructive agricultural insect pests and a major impediment to international fresh commodity trade. The genetic structuring of the species across its entire geographic range has never been undertaken, because under a former taxonomy B. dorsalis was divided into four distinct taxonomic entities, each with their own, largely non‐overlapping, distributions. Based on the extensive sampling of six a priori groups from 63 locations, genetic and geometric morphometric datasets were generated to detect macrogeographic population structure, and to determine prior and current invasion pathways of this species. Weak population structure and high genetic diversity were detected among Asian populations. Invasive populations in Africa and Hawaii are inferred to be the result of separate, single invasions from South Asia, while South Asia is also the likely source of other Asian populations. The current northward invasion of B. dorsalis into Central China is the result of multiple, repeated dispersal events, most likely related to fruit trade. Results are discussed in the context of global quarantine, trade, and management of this pest. The recent expansion of the fly into temperate China, with very few associated genetic changes, clearly demonstrates the threat posed by this pest to ecologically similar areas in Europe and North America. [ABSTRACT FROM AUTHOR]

Published

2018

6. Integrative taxonomy versus taxonomic authority without peer review: the case of the Oriental fruit fly, Bactrocera dorsalis ( Tephritidae).

Author

SCHUTZE, MARK K., BOURTZIS, KOSTAS, CAMERON, STEPHEN L., CLARKE, ANTHONY R., DE MEYER, MARC, HEE, ALVIN K. W., HENDRICHS, JORGE, KROSCH, MATTHEW N., and MWATAWALA, MAULID

Subjects

ORIENTAL fruit fly, PAPAYA fruit-fly, TEPHRITIDAE, HORTICULTURE, FOOD security

Abstract

1. Major global horticultural and food security tephritid fruit fly pests, Bactrocera papayae (papaya fruit fly) and B. invadens (invasive fruit fly), were synonymised with B. dorsalis (Oriental fruit fly) by Schutze et al. (2015a) based on extensive integrative taxonomic evidence from multiple sources. This synonymy was peer reviewed by eight independent experts. 2. Drew & Romig (2016) withdrew B. papayae and B. invadens from synonymy based on opinion drawn primarily from disparate geographical distribution, morphological, and host use information. This reversal was not subjected to peer review. 3. We consider the withdrawal from synonymy as invalid due to significant errors and misrepresentations of the literature provided in the arguments of Drew & Romig (2016) that we propose would not have withstood peer scrutiny. 4. This case reflects a broader issue of individual taxonomic authorities using opinion to challenge extensive evidence generated via scientific hypothesis-testing methods by discipline specialists. 5. We recommend that taxonomic acts not subjected to peer review, especially of pest species, be actively discouraged by the broader scientific and regulatory community. [ABSTRACT FROM AUTHOR]

Published

2017

7. One and the same: integrative taxonomic evidence that Bactrocera invadens ( Diptera: Tephritidae) is the same species as the Oriental fruit fly Bactrocera dorsalis.

Author

SCHUTZE, MARK K., MAHMOOD, KHALID, PAVASOVIC, ANA, BO, WANG, NEWMAN, JAYE, CLARKE, ANTHONY R., KROSCH, MATTHEW N., and CAMERON, STEPHEN L.

Subjects

DIPTERA, ORIENTAL fruit fly, ANIMAL variation, BACTROCERA, CLASSIFICATION of insects, PHYSIOLOGY, BEHAVIOR, INSECTS

Abstract

The invasive fruit fly Bactrocera invadens Drew, Tsuruta & White, and the Oriental fruit fly Bactrocera dorsalis ( Hendel) are highly destructive horticultural pests of global significance. Bactrocera invadens originates from the Indian subcontinent and has recently invaded all of sub- Saharan Africa, while B. dorsalis principally occurs from the Indian subcontinent towards southern China and South-east Asia. High morphological and genetic similarity has cast doubt over whether B. invadens is a distinct species from B. dorsalis. Addressing this issue within an integrative taxonomic framework, we sampled from across the geographic distribution of both taxa and: (i) analysed morphological variation, including those characters considered diagnostic (scutum colour, length of aedeagus, width of postsutural lateral vittae, wing size, and wing shape); (ii) sequenced four loci ( ITS1, ITS2, cox1 and nad4) for phylogenetic inference; and (iii) generated a cox1 haplotype network to examine population structure. Molecular analyses included the closely related species, Bactrocera kandiensis Drew & Hancock. Scutum colour varies from red-brown to fully black for individuals from Africa and the Indian subcontinent. All individuals east of the Indian subcontinent are black except for a few red-brown individuals from China. The postsutural lateral vittae width of B. invadens is narrower than B. dorsalis from eastern Asia, but the variation is clinal, with subcontinent B. dorsalis populations intermediate in size. Aedeagus length, wing shape and wing size cannot discriminate between the two taxa. Phylogenetic analyses failed to resolve B. invadens from B. dorsalis, but did resolve B. kandiensis. Bactrocera dorsalis and B. invadens shared cox1 haplotypes, yet the haplotype network pattern does not reflect current taxonomy or patterns in thoracic colour. Some individuals of B. dorsalis/ B. invadens possessed haplotypes more closely related to B. kandiensis than to conspecifics, suggestive of mitochondrial introgression between these species. The combined evidence fails to support the delimitation of B. dorsalis and B. invadens as separate biological species. Consequently, existing biological data for B. dorsalis may be applied to the invasive population in Africa. Our recommendation, in line with other recent publications, is that B. invadens be synonymized with B. dorsalis. [ABSTRACT FROM AUTHOR]

Published

2015

8. Piecing together an integrative taxonomic puzzle: microsatellite, wing shape and aedeagus length analyses of Bactrocera dorsalis s.l. (Diptera: Tephritidae) find no evidence of multiple lineages in a proposed contact zone along the Thai/Malay Peninsula.

Author

KROSCH, MATTHEW N., SCHUTZE, MARK K., ARMSTRONG, KAREN F., BOONTOP, YUVARIN, BOYKIN, LAURA M., CHAPMAN, TONI A., ENGLEZOU, ANNA, CAMERON, STEPHEN L., and CLARKE, ANTHONY R.

Subjects

*ORIENTAL fruit fly, *MICROSATELLITE repeats, *INSECT wings, *AEDEAGUS, *INSECT genetics, *CLADISTIC analysis

Abstract

Bactrocera dorsalis (Hendel) and B. papayae Drew & Hancock represent a closely related sibling species pair for which the biological species limits are unclear; i.e. it is uncertain if they are truely two biological species, or one biological species which has been incorrectly split taxonomically. The geographical ranges of the two taxa are thought to abut or overlap on or around the Isthmus of Kra, a recognised biogeographic barrier located on the narrowest portion of the Thai Peninsula. We collected fresh material of B. dorsalis s.l. (i.e. B. dorsalis s.s.+ B. papayae) in a north-south transect down the Thai Peninsula, from areas regarded as being exclusively B. dorsalis s.s., across the Kra Isthmus, and into regions regarded as exclusively B. papayae. We carried out microsatellite analyses and took measurements of male genitalia and wing shape, both used previously to separate the taxa. No significant population structuring was found in the microsatellite analysis, consistent with one, predominantly panmictic population. Both morphological datasets showed consistent, clinal variation along the transect, without disjunction. No evidence supported historical vicariance driven by the Isthmus of Kra, and no dataset supported the current taxonomy of two species. Rather, within and across the area of range overlap or abutment between the two species, only continuous morphological and genetic variation was recorded. Recognition that morphological traits previously used to separate these taxa are continuous, and that there is no genetic evidence for population segregation in the region of suspected species overlap, is consistent with a growing body of literature that reports no evidence of biological differentiation between these taxa. [ABSTRACT FROM AUTHOR]

Published

2013

9. Phylogeography of Echinocladius martini Cranston (Diptera: Chironomidae) in closed forest streams of eastern Australia.

Author

Krosch, Matthew N.

Subjects

*PHYLOGEOGRAPHY, *CHIRONOMIDAE, *RAIN forests, *VICARIANCE, *FRESHWATER invertebrates

Abstract

The eastern Australian rainforests have experienced several cycles of range contraction and expansion since the late Miocene that are closely correlated with global glaciation events. Together with ongoing aridification of the continent, this has resulted in current distributions of native closed forest that are highly fragmented along the east coast. Several closed forest endemic taxa exhibit patterns of population genetic structure that are congruent with historical isolation of populations in discrete refugia and reflect evolutionary histories dramatically affected by vicariance. Currently, limited data are available regarding the impact of these past climatic fluctuations on freshwater invertebrate taxa. The non-biting midge species Echinocladius martini Cranston is distributed along the east coast and inhabits predominantly montane streams in closed forest habitat. Phylogeographic structure in E. martini was resolved here at a continental scale by incorporating data from a previous pilot study and expanding the sampling design to encompass populations in the Wet Tropics of north-eastern Queensland, south-east Queensland, New South Wales and Victoria. Patterns of phylogeographic structure revealed several deeply divergent mitochondrial lineages from central and south-eastern Australia that were previously unrecognised and were geographically endemic to closed forest refugia. Estimated divergence times were congruent with late Miocene onset of rainforest contractions across the east coast of Australia. This suggested that dispersal and gene flow among E. martini populations isolated in refugia has been highly restricted historically. Moreover, these data imply, in contrast to existing preconceptions about freshwater invertebrates, that this taxon may be acutely susceptible to habitat fragmentation. [ABSTRACT FROM AUTHOR]

Published

2011

10. Optimisation and validation of cost-effective water-based solutions of acid fuchsin for detecting fingermarks in blood.

Author

Clarke, Kristen T., Banasiak, Michael L., and Krosch, Matthew N.

Subjects

*CRIME scenes, *FLUORESCENCE, *ABSORPTION, *CRIMINAL investigation, *AMINO acids

Abstract

Fingermark impressions in blood are commonly encountered at violent crime scenes and represent a critical trace that can link an individual to the scene. A range of techniques are available for detecting and enhancing bloody impressions; however, many chemical methods involve using hazardous solvents or require alternative light sources to visualise fluorescence. This is particularly challenging for bloody impressions on dark substrates. An alternative treatment is the protein dye known as acid fuchsin (commonly known as 'Hungarian Red'), which can be visualised under both white light and fluorescence lighting. However, there is limited research available on this method, especially concerning its use in detecting bloody fingermarks on dark surfaces and its fluorescence qualities. To address these knowledge gaps, this study broadly aimed to evaluate the effectiveness of acid fuchsin for enhancing bloody fingermarks on a range of common substrates, along with comparing the performance of a formulation made from base components against a commercially-available Hungarian Red reagent. Through a multi-phased experimental approach, results supported an all-in-one treatment that contained 2 % SSA, 0.2 % acid fuchsin, and deionised water as the most effective. This formulation performed as well or better than commercial Hungarian Red, amido black and acid yellow in the validation trial. Enhanced impressions could be visualised under white light on light and dark surfaces, whilst 530 nm excitation provided improved detection via both fluorescence and absorption modes depending on substrate background interference. Moreover, the reagent was applied by spraying directly onto substrates placed at near-vertical angles, with no evidence of any fingermarks being affected by running or inadequate fixing. The ability to enhance and visualise bloody impressions on light and dark surfaces, under white light or excitation, using a single, water-based treatment is highly advantageous to operational crime scene examiners and forensic scientists. [Display omitted] • Bloody fingermarks can provide critical evidence for criminal investigations. • The protein dye acid fuchsin can be visualised under white light and fluorescence. • Optimised and validated two-step acid fuchsin formulation incorporating a fixative. • Performance was equivalent to amido black, acid yellow and commercial Hungarian Red. • Provided high quality enhancement on light, dark or patterned substrates. [ABSTRACT FROM AUTHOR]

Published

2024

11. Showcasing water-based delivery of an amino acid targeting fingermark developer in a hydrogel.

Author

Clarke, Kristen T., Hopkins, Scarlet L., Krosch, Matthew N., Cresswell, Sarah L., and Gee, William J.

Subjects

*HUMAN fingerprints, *AMINO acid analysis, *HYDROGELS in medicine, *FORENSIC sciences, *SUSTAINABLE chemistry

Abstract

Most recommended methods for visualising fingermarks on paper rely on chemical developers that target and react with amino acids. Traditionally, these developers are sprayed onto paper substrates in solutions of per- and polyfluoroalkyl substances (PFAS), but now those same PFAS chemicals are undergoing phaseout or phasedown, which threatens to undermine forensic capabilities. This situation provides an opportunity to pivot towards greener approaches to fingermark visualisation. The ideal methodology would be a water-based treatment, as these provide superior safety for practitioners, combined with environmental sustainability. A major hurdle to implementing a water-based fingermark developer targeting amino acids is that water, as a universal solvent, can dissolve the eccrine components in fingermarks, as well as any optical or luminescent dyes that are created, causing the ridge detail to run or dissolve. This work circumvents this problem by delivering the amino acid developer alloxan in a hydrogel, which enables sharp fingermark ridge details to be observed despite it being a water-based treatment. Alloxan dissolved in a viscous hydrogel is shown here to react with the amino acids in fingerprint residues to form the coloured dye murexide, supported by optimisation and characterisation studies. • New fingermark development methods are needed as PFAS chemicals are phased-out. • Water-based methods are ideal from a cost, safety, and environmental perspective. • A water-based alloxan treatment was found to develop charged fingermarks on paper. • Xanthan gum creates an alloxan hydrogel that inhibits blurring of ridge details. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic diversity and population structure in Bactrocera correcta (Diptera: Tephritidae) inferred from mtDNA cox1 and microsatellite markers.

Author

Qin, Yu-Jia, Buahom, Nopparat, Krosch, Matthew N., Du, Yu, Wu, Yi, Malacrida, Anna R., Deng, Yu-Liang, Liu, Jia-Qi, Jiang, Xiao-Long, and Li, Zhi-Hong

Abstract

Bactrocera correcta is one of the most destructive pests of horticultural crops in tropical and subtropical regions. Despite the economic risk, the population genetics of this pest have remained relatively unexplored. This study explores population genetic structure and contemporary gene flow in B. correcta in Chinese Yunnan Province and attempts to place observed patterns within the broader geographical context of the species' total range. Based on combined data from mtDNA cox1 sequences and 12 microsatellite loci obtained from 793 individuals located in 7 countries, overall genetic structuring was low. The expansion history of this species, including likely human-mediated dispersal, may have played a role in shaping the observed weak structure. The study suggested a close relationship between Yunnan Province and adjacent countries, with evidence for Western and/or Southern Yunnan as the invasive origin of B. correcta within Yunnan Province. The information gleaned from this analysis of gene flow and population structure has broad implications for quarantine, trade and management of this pest, especially in China where it is expanding northward. Future studies should concentrate effort on sampling South Asian populations, which would enable better inferences of the ancestral location of B. correcta and its invasion history into and throughout Asia. [ABSTRACT FROM AUTHOR]

Published

2016