Your search keyword '"Ary A, Hoffmann"' showing total 1,110 results

51. Horizontal transmission and recombination of Wolbachia in the butterfly tribe Aeromachini Tutt, 1906 (Lepidoptera: Hesperiidae)

Author

Zimiao Zhao, Jianqing Zhu, Ary A Hoffmann, Lijun Cao, Li Shen, Jie Fang, Shuojia Ma, Qunxiu Liu, Weidong Yu, Liying Tang, Yongqiang Wang, and Weibin Jiang

Subjects

Genetics, QH426-470

Abstract

Abstract WolbachiaWolbachiaWolbachiaWolbachiaWolbachiawWolbachiaWolbachiaWolbachiaWolbachia

Published

2021

52. Climate-induced phenology shifts linked to range expansions in species with multiple reproductive cycles per year

Author

Callum J. Macgregor, Chris D. Thomas, David B. Roy, Mark A. Beaumont, James R. Bell, Tom Brereton, Jon R. Bridle, Calvin Dytham, Richard Fox, Karl Gotthard, Ary A. Hoffmann, Geoff Martin, Ian Middlebrook, Sӧren Nylin, Philip J. Platts, Rita Rasteiro, Ilik J. Saccheri, Romain Villoutreix, Christopher W. Wheat, and Jane K. Hill

Subjects

Science

Abstract

Many species’ life cycles have moved earlier in the year because of climate change, but we do not know the consequences for range expansions. The authors show that these advances promote range expansions in species with multiple reproductive cycles per year, but not in species with only one.

Published

2019

53. The effects of individual nonheritable variation on fitness estimation and coexistence

Author

M. Gabriela M. Gomes, Jessica G. King, Ana Nunes, Nick Colegrave, and Ary A. Hoffmann

Subjects

bacterial growth, coexistence, cohort selection, fitness estimation, nonheritable variation, Ecology, QH540-549.5

Abstract

Abstract Demographic theory and data have emphasized that nonheritable variation in individual frailty enables selection within cohorts, affecting the dynamics of a population while being invisible to its evolution. Here, we include the component of individual variation in longevity or viability which is nonheritable in simple bacterial growth models and explore its ecological and evolutionary impacts. First, we find that this variation produces consistent trends in longevity differences between bacterial genotypes when measured across stress gradients. Given that direct measurements of longevity are inevitably biased due to the presence of this variation and ongoing selection, we propose the use of the trend itself for obtaining more exact inferences of genotypic fitness. Second, we show how species or strain coexistence can be enabled by nonheritable variation in longevity or viability. These general conclusions are likely to extend beyond bacterial systems.

Published

2019

54. A transcriptional and functional analysis of heat hardening in two invasive fruit fly species, Bactrocera dorsalis and Bactrocera correcta

Author

Xinyue Gu, Yan Zhao, Yun Su, Jiajiao Wu, Ziya Wang, Juntao Hu, Lijun Liu, Zihua Zhao, Ary A. Hoffmann, Bing Chen, and Zhihong Li

Subjects

expression plasticity, hardening response, Hsp23, invasive species, thermal adaptation, Evolution, QH359-425

Abstract

Abstract Many insects have the capacity to increase their resistance to high temperatures by undergoing heat hardening at nonlethal temperatures. Although this response is well established, its molecular underpinnings have only been investigated in a few species where it seems to relate at least partly to the expression of heat shock protein (Hsp) genes. Here, we studied the mechanism of hardening and associated transcription responses in larvae of two invasive fruit fly species in China, Bactrocera dorsalis and Bactrocera correcta. Both species showed hardening which increased resistance to 45°C, although the more widespread B. dorsalis hardened better at higher temperatures compared to B. correcta which hardened better at lower temperatures. Transcriptional analyses highlighted expression changes in a number of genes representing different biochemical pathways, but these changes and pathways were inconsistent between the two species. Overall B. dorsalis showed expression changes in more genes than B. correcta. Hsp genes tended to be upregulated at a hardening temperature of 38°C in both species, while at 35°C many Hsp genes tended to be upregulated in B. correcta but not B. dorsalis. One candidate gene (the small heat shock protein gene, Hsp23) with a particularly high level of upregulation was investigated functionally using RNA interference (RNAi). We found that RNAi may be more efficient in B. dorsalis, in which suppression of the expression of this gene removed the hardening response, whereas in B. correcta RNAi did not decrease the hardening response. The different patterns of gene expression in these two species at the two hardening temperatures highlight the diverse mechanisms underlying hardening even in closely related species. These results may provide target genes for future control efforts against such pest species.

Published

2019

55. Tracking genetic invasions: Genome‐wide single nucleotide polymorphisms reveal the source of pyrethroid‐resistant Aedes aegypti (yellow fever mosquito) incursions at international ports

Author

Thomas L. Schmidt, Anthony R. van Rooyen, Jessica Chung, Nancy M. Endersby‐Harshman, Philippa C. Griffin, Angus Sly, Ary A. Hoffmann, and Andrew R. Weeks

Subjects

Aedes aegypti, assignment tests, biological invasions, biosecurity, discriminant analysis of principal components, genome‐wide SNPs, Evolution, QH359-425

Abstract

Abstract Biological invasions are increasing globally in number and extent despite efforts to restrict their spread. Knowledge of incursion pathways is necessary to prevent new invasions and to design effective biosecurity protocols at source and recipient locations. This study uses genome‐wide single nucleotide polymorphisms (SNPs) to determine the origin of 115 incursive Aedes aegypti(yellow fever mosquito) detected at international ports in Australia and New Zealand. We also genotyped mosquitoes at three point mutations in the voltage‐sensitive sodium channel (Vssc) gene: V1016G, F1534C and S989P. These mutations confer knockdown resistance to synthetic pyrethroid insecticides, widely used for controlling invertebrate pests. We first delineated reference populations using Ae. aegypti sampled from 15 locations in Asia, South America, Australia and the Pacific Islands. Incursives were assigned to these populations using discriminant analysis of principal components (DAPC) and an assignment test with a support vector machine predictive model. Bali, Indonesia, was the most common origin of Ae. aegypti detected in Australia, while Ae. aegypti detected in New Zealand originated from Pacific Islands such as Fiji. Most incursives had the same allelic genotype across the three Vsscgene point mutations, which confers strong resistance to synthetic pyrethroids, the only insecticide class used in current, widely implemented aircraft disinsection protocols endorsed by the World Health Organization (WHO). Additionally, all internationally assigned Ae. aegypti had Vssc point mutations linked to pyrethroid resistance that are not found in Australian populations. These findings demonstrate that protocols for preventing introductions of invertebrates must consider insecticide resistance, and highlight the usefulness of genomic data sets for managing global biosecurity objectives.

Published

2019

56. A comprehensive assessment of inbreeding and laboratory adaptation in Aedes aegypti mosquitoes

Author

Perran A. Ross, Nancy M. Endersby‐Harshman, and Ary A. Hoffmann

Subjects

Aedes aegypti, biological control, colonization, inbreeding, laboratory adaptation, Evolution, QH359-425

Abstract

Abstract Modified Aedes aegypti mosquitoes reared in laboratories are being released around the world to control wild mosquito populations and the diseases they transmit. Several efforts have failed due to poor competitiveness of the released mosquitoes. We hypothesized that colonized mosquito populations could suffer from inbreeding depression and adapt to laboratory conditions, reducing their performance in the field. We established replicate populations of Ae. aegypti mosquitoes collected from Queensland, Australia, and maintained them in the laboratory for twelve generations at different census sizes. Mosquito colonies maintained at small census sizes (≤100 individuals) suffered from inbreeding depression due to low effective population sizes which were only 25% of the census size as estimated by SNP markers. Populations that underwent full‐sib mating for nine consecutive generations had greatly reduced performance across all traits measured. We compared the established laboratory populations with their ancestral population resurrected from quiescent eggs for evidence of laboratory adaptation. The overall performance of laboratory populations maintained at a large census size (400 individuals) increased, potentially reflecting adaptation to artificial rearing conditions. However, most individual traits were unaffected, and patterns of adaptation were not consistent across populations. Differences between replicate populations may indicate that founder effects and drift affect experimental outcomes. Though we find limited evidence of laboratory adaptation, mosquitoes maintained at low population sizes can clearly suffer fitness costs, compromising the success of “rear‐and‐release” strategies for arbovirus control.

Published

2019

57. Functional Analysis of a Putative Target of Spatially Varying Selection in the Menin1 Gene of Drosophila melanogaster

Author

Nicolas Svetec, Perot Saelao, Julie M. Cridland, Ary A. Hoffmann, and David J. Begun

Subjects

DNA damage, chill coma recovery, local adaptation, latitudinal cline, Genetics, QH426-470

Abstract

While significant effort has been devoted to investigating the potential influence of spatially varying selection on genomic variation, relatively little effort has been devoted to experimental analysis of putative variants or genes experiencing such selection. Previous population genetic work identified an amino acid polymorphism in the Mnn1 gene as one of the most strongly latitudinally differentiated SNPs in the genome of Drosophila melanogaster in the United States and Australia. Here we report the results of our transgenic analysis of this amino acid polymorphism. Genotypes carrying alternative Mnn1 alleles differed in multiple phenotypes in a direction generally consistent with phenotypic differences previously observed along latitudinal clines. These results support inferences from earlier population genomic work that this variant influences fitness, and support the idea that the alleles exhibiting clines may be likely to have pleiotropic effects that are correlated along the axes favored by natural selection.

Published

2019

58. Genomic changes associated with adaptation to arid environments in cactophilic Drosophila species

Author

Rahul V. Rane, Stephen L. Pearce, Fang Li, Chris Coppin, Michele Schiffer, Jennifer Shirriffs, Carla M. Sgrò, Philippa C. Griffin, Goujie Zhang, Siu F. Lee, Ary A. Hoffmann, and John G. Oakeshott

Subjects

Comparative genomics, Transcriptomics, Cactophilic Drosophila, Heat stress, Host adaptation, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Insights into the genetic capacities of species to adapt to future climate change can be gained by using comparative genomic and transcriptomic data to reconstruct the genetic changes associated with such adaptations in the past. Here we investigate the genetic changes associated with adaptation to arid environments, specifically climatic extremes and new cactus hosts, through such an analysis of five repleta group Drosophila species. Results We find disproportionately high rates of gene gains in internal branches in the species’ phylogeny where cactus use and subsequently cactus specialisation and high heat and desiccation tolerance evolved. The terminal branch leading to the most heat and desiccation resistant species, Drosophila aldrichi, also shows disproportionately high rates of both gene gains and positive selection. Several Gene Ontology terms related to metabolism were enriched in gene gain events in lineages where cactus use was evolving, while some regulatory and developmental genes were strongly selected in the Drosophila aldrichi branch. Transcriptomic analysis of flies subjected to sublethal heat shocks showed many more downregulation responses to the stress in a heat sensitive versus heat resistant species, confirming the existence of widespread regulatory as well as structural changes in the species’ differing adaptations. Gene Ontology terms related to metabolism were enriched in the differentially expressed genes in the resistant species while terms related to stress response were over-represented in the sensitive one. Conclusion Adaptations to new cactus hosts and hot desiccating environments were associated with periods of accelerated evolutionary change in diverse biochemistries. The hundreds of genes involved suggest adaptations of this sort would be difficult to achieve in the timeframes projected for anthropogenic climate change.

Published

2019

59. Dissecting a mutualistic interaction involving an insect-endosymbiont association

Author

Jie Fang, Yongqiang Wang, Jiayao Hu, Ary A. Hoffmann, Lizhen Li, Ziwei Yin, Fan Yang, Lijun Cao, Jianqing Zhu, Qunxiu Liu, Yang Hong, Feiyu Duan, Mengqi Xiao, Chong Li, Liying Tang, Xiaoying Wei, Jiqin Jia, Weidong Yu, and Weibin Jiang

Subjects

Insect Science

Published

2023

60. Infertility and fecundity loss of Wolbachia-infected Aedes aegypti hatched from quiescent eggs is expected to alter invasion dynamics.

Author

Meng-Jia Lau, Perran A Ross, and Ary A Hoffmann

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The endosymbiotic bacterium Wolbachia shows viral blocking in its mosquito host, leading to its use in arboviral disease control. Releases with Wolbachia strains wMel and wAlbB infecting Aedes aegypti have taken place in several countries. Mosquito egg survival is a key factor influencing population persistence and this trait is also important when eggs are stored prior to releases. We therefore tested the viability of mosquitoes derived from Wolbachia wMel and wAlbB-infected as well as uninfected eggs after long-term storage under diurnal temperature cycles of 11-19°C and 22-30°C. Eggs stored at 11-19°C had higher hatch proportions than those stored at 22-30°C. Adult Wolbachia density declined when they emerged from eggs stored for longer, which was associated with incomplete cytoplasmic incompatibility (CI) when wMel-infected males were crossed with uninfected females. Females from stored eggs at both temperatures continued to show perfect maternal transmission of Wolbachia, but storage reduced the fecundity of both wMel and wAlbB-infected females relative to uninfected mosquitoes. Furthermore, we found a very strong negative impact of the wAlbB infection on the fertility of females stored at 22-30°C, with almost 80% of females hatching after 11 weeks of storage being infertile. Our findings provide guidance for storing Wolbachia-infected A. aegypti eggs to ensure high fitness adult mosquitoes for release. Importantly, they also highlight the likely impact of egg quiescence on the population dynamics of Wolbachia-infected populations in the field, and the potential for Wolbachia to suppress mosquito populations through cumulative fitness costs across warm and dry periods, with expected effects on dengue transmission.

Published

2021

61. Employing Different Traps for Collection of Mosquitoes and Detection of Dengue, Chikungunya and Zika Vector, Aedes albopictus, in Borderline of Iran and Pakistan

Author

Jalil Nejati, Morteza Zaim, Hassan Vatandoost, Seyed Hassan Moosa-Kazemi, Rubén Bueno-Marí, Shahyad Azari-Hamidian, Mohammad Mehdi Sedaghat, Ahmad Ali Hanafi-Bojd, Mohammad Reza Yaghoobi-Ershadi, Hassan Okati-Aliabad, Francisco Collantes, and Ary A. Hoffmann

Subjects

Stegomyia albopicta, Ovitrap, Sistan and Baluchistan, Pathology, RB1-214

Abstract

Background: Southeastern Iran has been established as an area with the potential to harbor Asian tiger mosquito popu­lations. In 2013, a few numbers of Aedes albopictus were detected in three sampling sites of this region. This field study was aimed to evaluate the efficacy of various traps on monitoring mosquitoes and status of this dengue vector, in five urban and 15 suburban/rural areas. Methods: For this purpose, four adult mosquito traps (BG-sentinel 2, bednet, Malaise, and resting box trap) were used and their efficacy compared. In addition, large numbers of CDC ovitraps were employed, within 12 months. Results: A total of 4878 adult samples including 22 species covering five genera were collected and identified from traps. It was not revealed any collection of Ae. albopictus. Statistical analysis showed no significant difference in mete­orological variables between the two periods, the previous report and the current study. There were significant differ­ences in the total number of mosquitoes collected by various traps in the region across different months. Conclusion: The resulting data collected here on the efficiency of the various trap types can be useful for monitoring the densities of mosquito populations, which is an important component of a vector surveillance system. While the pres­ence of Ae. albopictus was determined in this potential risk area, there is no evidence for its establishment and further monitoring needs to be carried out.

Published

2021

62. A diagnostic primer pair to distinguish between wMel and wAlbB Wolbachia infections.

Author

Meng-Jia Lau, Ary A Hoffmann, and Nancy M Endersby-Harshman

Subjects

Medicine, Science

Abstract

Detection of the Wolbachia endosymbiont in Aedes aegypti mosquitoes through real-time polymerase chain reaction assays is widely used during and after Wolbachia releases in dengue reduction trials involving the wMel and wAlbB strains. Although several different primer pairs have been applied in current successful Wolbachia releases, they cannot be used in a single assay to distinguish between these strains. Here, we developed a new diagnostic primer pair, wMwA, which can detect the wMel or wAlbB infection in the same assay. We also tested current Wolbachia primers and show that there is variation in their performance when they are used to assess the relative density of Wolbachia. The new wMwA primers provide an accurate and efficient estimate of the presence and density of both Wolbachia infections, with practical implications for Wolbachia estimates in field collected Ae. aegypti where Wolbachia releases have taken place.

Published

2021

63. From laboratory to field: laboratory-measured pesticide resistance reflects outcomes of field-based control in the redlegged earth mite, Halotydeus destructor

Author

Paul A. Umina, Leo McGrane, Joshua A. Thia, Evatt Chirgwin, and Ary A. Hoffmann

Subjects

Ecology, Insect Science, General Medicine

Abstract

Resistance to pesticides is typically identified via laboratory bioassays after field control failures are observed, but the results of such assays are rarely validated through experiments under field conditions. Such validation is particularly important when only a low-to-moderate level of resistance is detected in the laboratory. Here we undertake such a validation for organophosphate resistance in the agricultural pest mite Halotydeus destructor, in which low-to-moderate levels of resistance to organophosphorus pesticides have evolved in Australia. Using data from laboratory bioassays, we show that resistance to the organophosphate chlorpyrifos is higher (around 100-fold) than resistance to another organophosphate, omethoate (around 7-fold). In field trials, both these chemicals were found to effectively control pesticide-susceptible populations of H. destructor. However, when applied to a resistant mite population in the field, the effectiveness of chlorpyrifos was substantially decreased. In contrast, omethoate remained effective when tested alone or as a mixture with chlorpyrifos. We also show that two novel (non-pesticide) treatments, molasses and wood vinegar, are ineffective in controlling H. destructor when sprayed to pasture fields at rates of 4 L/ha. These findings suggest a close link between levels of resistance quantified through laboratory bioassays and the field effectiveness of pesticides; however, in the case of H. destructor, this does not necessarily mean all field populations possessing organophosphate resistance will respond similarly given the potentially complex nature of the underlying resistance mechanism(s).

Published

2023

64. Expanding risk predictions of pesticide resistance evolution in arthropod pests with a proxy for selection pressure

Author

Joshua A. Thia, James Maino, Alicia Kelly, Ary A. Hoffmann, and Paul A. Umina

Subjects

Ecology, Insect Science, Plant Science, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Abstract

Chemical resistance in pest organisms threatens global food security and human health, yet resistance issues are mostly dealt with reactively. Predictive models of resistance risk provide an avenue for field practitioners to implement proactive pest management but require knowledge of factors that drive resistance evolution. Despite the importance of chemical selection pressure on resistance evolution, poor availability of chemical usage data has limited the use of a general multi-species measure of selection pressure in predictive models. We demonstrate the use of pesticide product registrations as a predictor of resistance status and potential proxy of chemical selection pressure. Pesticide product registrations were obtained for 427 USA and 209 Australian agricultural arthropod pests, for 42 and 39 chemical Mode of Action (MoA) groups, respectively. We constructed Bayesian logistic regressions of resistance status as a function of the number of pesticide product registrations and two ecological traits, phagy and voltinism. Our models were well-supported with demonstrated power to discriminate between resistant and susceptible observations in both USA and Australian species sets using cross-validation. Importantly, we observed strong support for a positive association between pesticide products and resistance status. Our work expands the horizon for proactive management by quantitatively linking a proxy for selection pressure on pest species to different chemical MoAs. This proxy for selection pressure can be combined with ecological information to predict the resistance risk in agricultural pests. Because pesticide product registrations can typically be derived from publicly available data, we believe there is broad applicability to other agricultural pests such as weeds and fungi, and to other geographical regions beyond the USA and Australia.

Published

2023

65. Temporal decline of genetic differentiation among populations of western flower thrips across an invaded range

Author

Li-Na Sun, Li-Jun Cao, Jin-Cui Chen, Li-Jun Ma, Gui-Fen Zhang, San-An Wu, Ary Anthony Hoffmann, and Shu-Jun Wei

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2023

66. <scp>KASP</scp> genotyping and semi‐quantitation of <scp>G275E</scp> mutation in the α6 subunit of Thrips palmi <scp>nAChR</scp> gene conferring spinetoram resistance

Author

Pan Shi, Xiu‐Jing Shen, Jin‐Cui Chen, Yu‐Jie Zhang, Li‐Jun Cao, Bin‐Shuang Pang, Li‐Hua Liu, Ming‐Ming Zhang, Ary Anthony Hoffmann, and Shu‐Jun Wei

Subjects

Insect Science, General Medicine, Agronomy and Crop Science

Published

2023

67. A high‐throughput <scp>KASP</scp> assay provides insights into the evolution of multiple resistant mutations in populations of the two‐spotted spider mite Tetranychus urticae across China

Author

Xiu‐Jing Shen, Yu‐Jie Zhang, Shuai‐Yu Wang, Jin‐Cui Chen, Li‐Jun Cao, Ya‐Jun Gong, Bin‐Shuang Pang, Ary Anthony Hoffmann, and Shu‐Jun Wei

Subjects

Insect Science, General Medicine, Agronomy and Crop Science

Abstract

The two-spotted spider mite (TSSM), Tetranychus urticae (Acari: Tetranychidae), is a cosmopolitan phytophagous pest in agriculture and horticulture. It has developed resistance to many acaricides by target-site mutations. Understanding the status and evolution of resistant mutations in the field is essential for resistance management. Here, we applied a high-throughput KASP (Kompetitive allele-specific PCR) method for detecting six mutations conferring resistance to four acaricides of the TSSM. We genotyped 3274 female adults of TSSM from 43 populations collected across China in 2017, 2020, and 2021.The KASP genotyping of 24 testing individuals showed 99% agreement with Sanger sequencing results. KASP assays showed that most populations had a high frequency of mutations conferring avermectin (G314D and G326E) and pyridaben (H92R) resistance. The frequency of mutation conferring bifenazate (A269V and G126S) and etoxazole (I1017F) resistance was relatively low. Multiple mutations were common in the TSSM, with 70.2% and 24.6% of individuals having 2-6 and 7-10 of 10 possible resistant alleles, respectively. No loci were linked in most populations among the six mutations, indicating the development of multiple resistance is mainly by independent selection. However, G314E and I1017F on the nuclear genome deviated from Hardy-Weinberg Equilibrium in most populations, indicating significant selective pressure on TSSM populations by acaricides or fitness cost of the mutations in the absence of acaricide selection.Our study revealed that the high frequency of TSSMs evolved multiple resistant mutations in population and individual levels by independent selection across China, alarming for managing multiple-acaricides resistance. This article is protected by copyright. All rights reserved.

Published

2023

68. Wolbachia Genome Stability and mtDNA Variants in Aedes aegypti Field Populations Eight Years after Release

Author

Bixing Huang, Qiong Yang, Ary A. Hoffmann, Scott A. Ritchie, Andrew F. van den Hurk, and David Warrilow

Subjects

Biological Sciences, Entomology, Parasitology, Virology, Genomics, Science

Abstract

Summary: A dengue suppression strategy based on release of Aedes aegypti mosquitoes infected with the bacterium Wolbachia pipientis is being trialed in many countries. Wolbachia inhibits replication and transmission of dengue viruses. Questions remain regarding the long-term stability of virus-suppressive effects. We sequenced the Wolbachia genome and analyzed Ae. aegypti mitochondrial DNA markers isolated from mosquitoes sampled 2–8 years after releases in the greater Cairns region, Australia. Few changes were detected when Wolbachia genomes of field mosquitoes were compared with Wolbachia genomes of mosquitoes obtained soon after initial releases. Mitochondrial variants associated with the initial Wolbachia release stock are now the only variants found in release sites, highlighting maternal leakage as a possible explanation for rare Wolbachia-negative mosquitoes and not migration from non-release areas. There is no evidence of changes in the Wolbachia genome that indicate selection against its viral-suppressive effects or other phenotypes attributable to infection with the bacterium.

Published

2020

69. Population genomics of two invasive mosquitoes (Aedes aegypti and Aedes albopictus) from the Indo-Pacific.

Author

Thomas L Schmidt, Jessica Chung, Ann-Christin Honnen, Andrew R Weeks, and Ary A Hoffmann

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The arbovirus vectors Aedes aegypti (yellow fever mosquito) and Ae. albopictus (Asian tiger mosquito) are both common throughout the Indo-Pacific region, where 70% of global dengue transmission occurs. For Ae. aegypti all Indo-Pacific populations are invasive, having spread from an initial native range of Africa, while for Ae. albopictus the Indo-Pacific includes invasive populations and those from the native range: putatively, India to Japan to Southeast Asia. This study analyses the population genomics of 480 of these mosquitoes sampled from 27 locations in the Indo-Pacific. We investigated patterns of genome-wide genetic differentiation to compare pathways of invasion and ongoing gene flow in both species, and to compare invasive and native-range populations of Ae. albopictus. We also tested landscape genomic hypotheses that genetic differentiation would increase with geographical distance and be lower between locations with high connectivity to human transportation routes, the primary means of dispersal at these scales. We found that genetic distances were generally higher in Ae. aegypti, with Pacific populations the most highly differentiated. The most differentiated Ae. albopictus populations were in Vanuatu, Indonesia and Sri Lanka, the latter two representing potential native-range populations and potential cryptic subspeciation respectively. Genetic distances in Ae. aegypti increased with geographical distance, while in Ae. albopictus they decreased with higher connectivity to human transportation routes. Contrary to the situation in Ae. aegypti, we found evidence of long-distance Ae. albopictus colonisation events, including colonisation of Mauritius from East Asia and of Fiji from Southeast Asia. These direct genomic comparisons indicate likely differences in dispersal ecology in these species, despite their broadly sympatric distributions and similar use of human transport to disperse. Our findings will assist biosecurity operations to trace the source of invasive material and for biocontrol operations that benefit from matching genetic backgrounds of released and local populations.

Published

2020

70. Stable establishment of wMel Wolbachia in Aedes aegypti populations in Yogyakarta, Indonesia.

Author

Warsito Tantowijoyo, Bekti Andari, Eggi Arguni, Nida Budiwati, Indah Nurhayati, Iva Fitriana, Inggrid Ernesia, Edwin W Daniwijaya, Endah Supriyati, Dedik H Yusdiana, Munasdi Victorius, Dwi S Wardana, Hilmi Ardiansyah, Riris Andono Ahmad, Peter A Ryan, Cameron P Simmons, Ary A Hoffmann, Edwige Rancès, Andrew P Turley, Petrina Johnson, Adi Utarini, and Scott L O'Neill

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The successful establishment of the wMel strain of Wolbachia for the control of arbovirus transmission by Aedes aegypti has been proposed and is being implemented in a number of countries. Here we describe the successful establishment of the wMel strain of Wolbachia in four sites in Yogyakarta, Indonesia. We demonstrate that Wolbachia can be successfully introgressed after transient releases of wMel-infected eggs or adult mosquitoes. We demonstrate that the approach is acceptable to communities and that Wolbachia maintains itself in the mosquito population once deployed. Finally, our data show that spreading rates of Wolbachia in the Indonesian setting are slow which may reflect more limited dispersal of Aedes aegypti than seen in other sites such as Cairns, Australia.

Published

2020

71. Persistent deleterious effects of a deleterious Wolbachia infection.

Author

Perran A Ross, Jason K Axford, Ashley G Callahan, Kelly M Richardson, and Ary A Hoffmann

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Wolbachia are being used to reduce dengue transmission by Aedes aegypti mosquitoes around the world. To date releases have mostly involved Wolbachia strains with limited fitness effects but strains with larger fitness costs could be used to suppress mosquito populations. However, such infections are expected to evolve towards decreased deleterious effects. Here we investigate potential evolutionary changes in the wMelPop infection transferred from Drosophila melanogaster to Aedes aegypti more than ten years (~120 generations) ago. We show that most deleterious effects of this infection have persisted despite strong selection to ameliorate them. The wMelPop-PGYP infection is difficult to maintain in laboratory colonies, likely due to the persistent deleterious effects coupled with occasional maternal transmission leakage. Furthermore, female mosquitoes can be scored incorrectly as infected due to transmission of Wolbachia through mating. Infection loss in colonies was not associated with evolutionary changes in the nuclear background. These findings suggest that Wolbachia transinfections with deleterious effects may have stable phenotypes which could ensure their long-term effectiveness if released in natural populations to reduce population size.

Published

2020

72. Establishment of wMel Wolbachia in Aedes aegypti mosquitoes and reduction of local dengue transmission in Cairns and surrounding locations in northern Queensland, Australia [version 2; peer review: 2 approved]

Author

Peter A. Ryan, Andrew P. Turley, Geoff Wilson, Tim P. Hurst, Kate Retzki, Jack Brown-Kenyon, Lauren Hodgson, Nichola Kenny, Helen Cook, Brian L. Montgomery, Christopher J. Paton, Scott A. Ritchie, Ary A. Hoffmann, Nicholas P. Jewell, Stephanie K. Tanamas, Katherine L. Anders, Cameron P. Simmons, and Scott L. O’Neill

Subjects

Medicine

Abstract

Background: The wMel strain of Wolbachia has been successfully introduced into Aedes aegypti mosquitoes and subsequently shown in laboratory studies to reduce transmission of a range of viruses including dengue, Zika, chikungunya, yellow fever, and Mayaro viruses that cause human disease. Here we report the entomological and epidemiological outcomes of staged deployment of Wolbachia across nearly all significant dengue transmission risk areas in Australia. Methods: The wMel strain of Wolbachia was backcrossed into the local Aedes aegypti genotype (Cairns and Townsville backgrounds) and mosquitoes were released in the field by staff or via community assisted methods. Mosquito monitoring was undertaken and mosquitoes were screened for the presence of Wolbachia. Dengue case notifications were used to track dengue incidence in each location before and after releases. Results: Empirical analyses of the Wolbachia mosquito releases, including data on the density, frequency and duration of Wolbachia mosquito releases, indicate that Wolbachia can be readily established in local mosquito populations, using a variety of deployment options and over short release durations (mean release period 11 weeks, range 2-22 weeks). Importantly, Wolbachia frequencies have remained stable in mosquito populations since releases for up to 8 years. Analysis of dengue case notifications data demonstrates near-elimination of local dengue transmission for the past five years in locations where Wolbachia has been established. The regression model estimate of Wolbachia intervention effect from interrupted time series analyses of case notifications data prior to and after releases, indicated a 96% reduction in dengue incidence in Wolbachia treated populations (95% confidence interval: 84 – 99%). Conclusion: Deployment of the wMel strain of Wolbachia into local Ae. aegypti populations across the Australian regional cities of Cairns and most smaller regional communities with a past history of dengue has resulted in the reduction of local dengue transmission across all deployment areas.

Published

2020

73. Heatwaves cause fluctuations in wMel Wolbachia densities and frequencies in Aedes aegypti.

Author

Perran A Ross, Jason K Axford, Qiong Yang, Kyran M Staunton, Scott A Ritchie, Kelly M Richardson, and Ary A Hoffmann

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Aedes aegypti mosquitoes infected with the wMel strain of Wolbachia are being released into natural mosquito populations in the tropics as a way of reducing dengue transmission. High temperatures adversely affect wMel, reducing Wolbachia density and cytoplasmic incompatibility in some larval habitats that experience large temperature fluctuations. We monitored the impact of a 43.6°C heatwave on the wMel infection in a natural population in Cairns, Australia, where wMel was first released in 2011 and has persisted at a high frequency. Wolbachia infection frequencies in the month following the heatwave were reduced to 83% in larvae sampled directly from field habitats and 88% in eggs collected from ovitraps, but recovered to be near 100% four months later. Effects of the heatwave on wMel appeared to be stage-specific and delayed, with reduced frequencies and densities in field-collected larvae and adults reared from ovitraps but higher frequencies in field-collected adults. Laboratory experiments showed that the effects of heatwaves on cytoplasmic incompatibility and density are life stage-specific, with first instar larvae being the most vulnerable to temperature effects. Our results indicate that heatwaves in wMel-infected populations will have only temporary effects on Wolbachia frequencies and density once the infection has established in the population. Our results are relevant to ongoing releases of wMel-infected Ae. aegypti in several tropical countries.

Published

2020

74. Toxicity and Control Efficacy of an Organosilicone to the Two-Spotted Spider Mite Tetranychus urticae and Its Crop Hosts

Author

Jin-Cui Chen, Zhong-Zheng Ma, Ya-Jun Gong, Li-Jun Cao, Jia-Xu Wang, Shao-Kun Guo, Ary A. Hoffmann, and Shu-Jun Wei

Subjects

Tetranychus urticae, organosilicone, trisiloxane ethoxylate, acaricide, crop safety, Science

Abstract

Organosilicone molecules represent important components of surfactants added to pesticides to improve pest control efficiency, but these molecules also have pesticidal properties in their own right. Here, we examined toxicity and control efficacy of Silwet 408, a trisiloxane ethoxylate-based surfactant, to the two-spotted spider mite (TSSM), Tetranychus urticae and its crop hosts. Silwet 408 was toxic to nymphs and adults of TSSM but did not affect eggs. Field trials showed that the control efficacy of 1000 mg/L Silwet 408 aqueous solution reached 96% one day after spraying but declined to 54% 14 days after spraying, comparable to 100 mg/L cyetpyrafen, a novel acaricide. A second spraying of 1000 mg/L Silwet 408 maintained control efficacy at 97% when measured 14 days after spraying. However, Silwet 408 was phytotoxic to eggplant, kidney bean, cucumber, and strawberry plants, although phytotoxicity to strawberry plants was relatively low and declined further seven days after application. Our study showed that while the organosilicone surfactant Silwet 408 could be used to control the TSSM, its phytotoxicity to crops should be considered.

Published

2022

75. Increasing Frequency of G275E Mutation in the Nicotinic Acetylcholine Receptor α6 Subunit Conferring Spinetoram Resistance in Invading Populations of Western Flower Thrips in China

Author

Li-Na Sun, Xiu-Jing Shen, Li-Jun Cao, Jin-Cui Chen, Li-Jun Ma, San-An Wu, Ary Anthony Hoffmann, and Shu-Jun Wei

Subjects

biological invasion, KASP, molecular diagnostics, pesticide resistance, spinosyns, Science

Abstract

The western flower thrips Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) is an important invasive pest worldwide. Field-evolved resistance to the pesticide spinetoram is an increasing problem in the chemical control of this pest. Here, we examined changes in the frequency of a genetic mutation associated with spinetoram resistance, the G275E mutation in the acetylcholine receptor Foα6, in 62 field populations collected from 2009 to 2021 across areas of China invaded by this pest. We found a low frequency of the G275E mutation in populations collected at the early invasion stage, in contrast to a high frequency in native USA populations. However, the frequency of the G275E mutation has increased to a high level in recently collected populations, with the mutation becoming fixed in some populations. There was a correlation between the frequency of the G275E mutation and resistance to spinetoram as characterized by median lethal concentration, although two populations were outliers. These results showed that G275E mutation is one of the mechanisms conferring spinetoram resistance in many invading populations in China. Ongoing dispersal of the WFT may have facilitated a rapid increase in the G275E mutation across China. Our study highlights the rapid evolution of pesticide resistance in an invasive species and points to a useful marker for molecular diagnostics of spinetoram resistance.

Published

2022

76. Multiple refugia from penultimate glaciations in East Asia demonstrated by phylogeography and ecological modelling of an insect pest

Author

Wei Song, Li-Jun Cao, Bing-Yan Li, Ya-Jun Gong, Ary Anthony Hoffmann, and Shu-Jun Wei

Subjects

Approximate Bayesian computation, Eastern Asia, Endemic population, Glacial refugia, Quaternary climate, Evolution, QH359-425

Abstract

Abstract Background Refugial populations in Quaternary glaciations are critical to understanding the evolutionary history and climatic interactions of many extant species. Compared with the well-studied areas of Europe and Northern America, refugia of species in eastern Asia remain largely unknown. Here, we investigated the phylogeographic history of a globally important insect pest, the oriental fruit moth Grapholita molesta, in its native range of China. Results Genetic structure analyses unveiled three distinct groups and a set of populations with admixture. Approximate Bayesian Computation (ABC) analyses support range expansion of this moth from southwest groups of Yunnan and Sichuan to northern and eastern China. A set of admixed populations was found around these two ancestral groups. This pattern of genetic structure points to two refugia located in the Yunnan region and Sichuan Basin. The split of the two refugia was dated to 329.2 thousand years ago in the penultimate glacial period. One of the lineages was exclusively found around the Sichuan Basin, indicating the formation of endemic populations in this refugium. Ecological niche model analysis suggested a shrinking distribution from the LIG period to the MID period in the Sichuan lineage but a wide and stable distribution in the other lineage. Conclusions Our results for the first time suggest that Yunnan and Sichuan jointly served as two large-scale refugia in eastern Asia in Quaternary glaciations, helping to maintain genetic diversity overall.

Published

2018

77. Small females prefer small males: size assortative mating in Aedes aegypti mosquitoes

Author

Ashley G. Callahan, Perran A. Ross, and Ary A. Hoffmann

Subjects

Aedes aegypti, Assortative mating, Body size, Wolbachia, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background With Aedes aegypti mosquitoes now being released in field programmes aimed at disease suppression, there is interest in identifying factors influencing the mating and invasion success of released mosquitoes. One factor that can increase release success is size: released males may benefit competitively from being larger than their field counterparts. However, there could be a risk in releasing only large males if small field females avoid these males and instead prefer small males. Here we investigate this risk by evaluating mating success for mosquitoes differing in size. Results We measured mating success indirectly by coupling size with Wolbachia-infected or uninfected mosquitoes and scoring cytoplasmic incompatibility. Large females showed no evidence of a mating preference, whereas small males were relatively more successful than large males when mating with small females, exhibiting an advantage of around 20–25%. Conclusions Because field females typically encompass a wide range of sizes while laboratory reared (and released) males typically fall into a narrow size range of large mosquitoes, these patterns can influence the success of release programmes which rely on cytoplasmic incompatibility to suppress populations and initiate replacement invasions. Releases could include some small males generated under low food or crowded conditions to counter this issue, although this would need to be weighed against issues associated with costs of producing males of various size classes.

Published

2018

78. Life‐history traits and physiological limits of the alpine fly Drosophila nigrosparsa (Diptera: Drosophilidae): A comparative study

Author

Martin‐Carl Kinzner, Patrick Krapf, Martina Nindl, Carina Heussler, Stephanie Eisenkölbl, Ary A. Hoffmann, Julia Seeber, Wolfgang Arthofer, Birgit C. Schlick‐Steiner, and Florian M. Steiner

Subjects

Alpine species, Drosophila, laboratory experiments, life‐history traits, physiological limits, Ecology, QH540-549.5

Abstract

Abstract Interspecific variation in life‐history traits and physiological limits can be linked to the environmental conditions species experience, including climatic conditions. As alpine environments are particularly vulnerable under climate change, we focus on the montane‐alpine fly Drosophila nigrosparsa. Here, we characterized some of its life‐history traits and physiological limits and compared these with those of other drosophilids, namely Drosophila hydei, Drosophila melanogaster, and Drosophila obscura. We assayed oviposition rate, longevity, productivity, development time, larval competitiveness, starvation resistance, and heat and cold tolerance. Compared with the other species assayed, D. nigrosparsa is less fecund, relatively long‐living, starvation susceptible, cold adapted, and surprisingly well heat adapted. These life‐history characteristics provide insights into invertebrate adaptations to alpine conditions which may evolve under ongoing climate change.

Published

2018

79. Urban population structure and dispersal of an Australian mosquito (Aedes notoscriptus) involved in disease transmission

Author

Véronique Paris, Rahul V. Rane, Peter T. Mee, Stacey E. Lynch, Ary A. Hoffmann, and Thomas L. Schmidt

Subjects

Genetics, Genetics (clinical)

Abstract

Dispersal is a critical parameter for successful pest control measures as it determines the rate of movement across target control areas and influences the risk of human exposure. We used a fine-scale spatial population genomic approach to investigate the dispersal ecology and population structure of Aedes notoscriptus, an important disease transmitting mosquito at the Mornington Peninsula, Australia. We sampled and reared Ae. notoscriptus eggs at two time points from 170 traps up to 5 km apart and generated genomic data from 240 individuals. We also produced a draft genome assembly from a laboratory colony established from mosquitoes sampled near the study area. We found low genetic structure (Fst) and high coancestry throughout the study region. Using genetic data to identify close kin dyads, we found that mosquitoes had moved distances of >1 km within a generation, which is further than previously recorded. A spatial autocorrelation analysis of genetic distances indicated genetic similarity at >1 km separation, a tenfold higher distance than for a comparable population of Ae. aegypti, from Cairns, Australia. These findings point to high mobility of Ae. notoscriptus, highlighting challenges of localised intervention strategies. Further sampling within the same area 6 and 12 months after initial sampling showed that egg-counts were relatively consistent across time, and that spatial variation in egg-counts covaried with spatial variation in Wright’s neighbourhood size (NS). As NS increases linearly with population density, egg-counts may be useful for estimating relative density in Ae. notoscriptus. The results highlight the importance of acquiring species-specific data when planning control measures.

Published

2022

80. A comprehensive assessment of insecticide resistance mutations in source and immigrant populations of the diamondback moth Plutella xylostella (L.)

Author

Xiu‐Jing Shen, Li‐Jun Cao, Jin‐Cui Chen, Li‐Jun Ma, Jia‐Xu Wang, Ary A. Hoffmann, and Shu‐Jun Wei

Subjects

Insect Science, General Medicine, Agronomy and Crop Science

Abstract

The diamondback moth (DBM) Plutella xylostella has developed resistance to almost all insecticides used to control it. Populations of DBM in temperate regions mainly migrate from annual breeding areas. However, the distribution pattern of insecticide resistance of DBM within the context of long-distance migration remains unclear.In this study, we examined the frequency of 14 resistance mutations for 52 populations of DBM collected in 2010, 2011, 2017 and 2018 across China using a high-throughput KASP genotyping method. Mutations L1041F and T929I conferring pyrethroid resistance, and mutations G4946E and E1338D conferring chlorantraniliprole resistance were near fixation in most populations, whereas resistant alleles of F1020S, M918I, A309V and F1845Y were uncommon or absent in most populations. Resistance allele frequencies were relatively stable among different years, although the frequency of two mutations decreased. Principal component analysis based on resistant allele frequencies separated a southern population as an outlier, whereas the immigrants clustered with other populations, congruent with the migration pattern of northern immigrants coming from the Sichuan area of southwestern China. Most resistant mutations deviated from Hardy-Weinberg equilibrium due to a lower than expected frequency of heterozygotes. The deviation index of heterozygosity for resistant alleles was significantly higher than the index obtained from single nucleotide polymorphisms across the genome. These findings suggest heterogeneous selection pressures on resistant mutations.Our results provide a picture of resistant mutation patterns in DBM shaped by insecticide usage and migration of this pest, and highlight the widespread distribution of resistance alleles in DBM. © 2022 Society of Chemical Industry.

Published

2022

81. Fitness costs of Wolbachia shift in locally‐adapted Aedes aegypti mosquitoes

Author

Perran A, Ross and Ary A, Hoffmann

Subjects

Microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

Aedes aegypti mosquito eggs can remain quiescent for many months before hatching, allowing populations to persist through unfavourable conditions. A. aegypti infected with the Wolbachia strain wMel have been released in tropical and subtropical regions for dengue control. wMel reduces the viability of quiescent eggs, but this physiological cost might be expected to evolve in natural mosquito populations that frequently experience stressful conditions. We found that the cost of wMel infection differed consistently between mosquitoes collected from different locations and became weaker across laboratory generations, suggesting environment-specific adaptation of mosquitoes to the wMel infection. Reciprocal crossing experiments show that differences in the cost of wMel to quiescent egg viability were mainly due to mosquito genetic background and not Wolbachia origin. wMel-infected mosquitoes hatching from long-term quiescent eggs showed partial loss of cytoplasmic incompatibility and female infertility, highlighting additional costs of long-term quiescence. Our study provides the first evidence for a shift in Wolbachia phenotypic effects following deliberate field release and establishment and it highlights interactions between Wolbachia infections and mosquito genetic backgrounds. The unexpected changes in fitness costs observed here suggest potential tradeoffs with undescribed fitness benefits of the wMel infection.

Published

2022

82. High Incidence of Related Wolbachia across Unrelated Leaf-Mining Diptera

Author

Xuefen Xu, Peter M. Ridland, Paul A. Umina, Alex Gill, Perran A. Ross, Elia Pirtle, and Ary A. Hoffmann

Subjects

leaf-mining diptera, agromyzidae, Wolbachia, wsp, MLST, cytoplasmic incompatibility, Science

Abstract

The maternally inherited endosymbiont, Wolbachia pipientis, plays an important role in the ecology and evolution of many of its hosts by affecting host reproduction and fitness. Here, we investigated 13 dipteran leaf-mining species to characterize Wolbachia infections and the potential for this endosymbiont in biocontrol. Wolbachia infections were present in 12 species, including 10 species where the Wolbachia infection was at or near fixation. A comparison of Wolbachia relatedness based on the wsp/MLST gene set showed that unrelated leaf-mining species often shared similar Wolbachia, suggesting common horizontal transfer. We established a colony of Liriomyza brassicae and found adult Wolbachia density was stable; although Wolbachia density differed between the sexes, with females having a 20-fold higher density than males. Wolbachia density increased during L. brassicae development, with higher densities in pupae than larvae. We removed Wolbachia using tetracycline and performed reciprocal crosses between Wolbachia-infected and uninfected individuals. Cured females crossed with infected males failed to produce offspring, indicating that Wolbachia induced complete cytoplasmic incompatibility in L. brassicae. The results highlight the potential of Wolbachia to suppress Liriomyza pests based on approaches such as the incompatible insect technique, where infected males are released into populations lacking Wolbachia or with a different incompatible infection.

Published

2021

83. Patterns of genetic variation among geographic and host-plant associated populations of the peach fruit moth Carposina sasakii (Lepidoptera: Carposinidae)

Author

You-Zhu Wang, Bing-Yan Li, Ary Anthony Hoffmann, Li-Jun Cao, Ya-Jun Gong, Wei Song, Jia-Ying Zhu, and Shu-Jun Wei

Subjects

Carposina sasakii, Microsatellite, Mitochondrial gene, Host-associated differentiation, Population genetic structure, Evolution, QH359-425

Abstract

Abstract Background Populations of herbivorous insects may become genetically differentiated because of local adaptation to different hosts and climates as well as historical processes, and further genetic divergence may occur following the development of reproductive isolation among populations. Here we investigate the population genetic structure of the orchard pest peach fruit moth (PFM) Carposina sasakii (Lepidoptera: Carposinidae) in China, which shows distinct biological differences when characterized from different host plants. Genetic diversity and genetic structure were assessed among populations from seven plant hosts and nine regions using 19 microsatellite loci and a mitochondrial sequence. Results Strong genetic differentiation was found among geographical populations representing distinct geographical regions, but not in host-associated populations collected from the same area. Mantel tests based on microsatellite loci indicated an association between genetic differentiation and geographical distance, and to a lesser extent environmental differentiation. Approximate Bayesian Computation analyses supported the scenario that PFM likely originated from a southern area and dispersed northwards before the last glacial maximum during the Quaternary. Conclusions Our analyses suggested a strong impact of geographical barriers and historical events rather than host plants on the genetic structure of the PFM; however, uncharacterized environmental factors and host plants may also play a role. Studies on adaptive shifts in this moth should take into account geographical and historical factors.

Published

2017

84. Genetic rescue increases fitness and aids rapid recovery of an endangered marsupial population

Author

Andrew R. Weeks, Dean Heinze, Louise Perrin, Jakub Stoklosa, Ary A. Hoffmann, Anthony van Rooyen, Tom Kelly, and Ian Mansergh

Subjects

Science

Abstract

Genetic rescue can be valuable for the conservation of small populations threatened by low genetic diversity, but it carries the perceived risk of outbreeding depression. Here, Weeks et al. report increased hybrid fitness in a rescued population of the mountain pygmy possum, which likely contributed to population growth following genetic rescue.

Published

2017

85. Orthonome – a new pipeline for predicting high quality orthologue gene sets applicable to complete and draft genomes

Author

Rahul V. Rane, John G. Oakeshott, Thu Nguyen, Ary A. Hoffmann, and Siu F. Lee

Subjects

Orthologue, Inparalogue, Gene duplication, Gene birth, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Distinguishing orthologous and paralogous relationships between genes across multiple species is essential for comparative genomic analyses. Various computational approaches have been developed to resolve these evolutionary relationships, but strong trade-offs between precision and recall of orthologue prediction remains an ongoing challenge. Results Here we present Orthonome, an orthologue prediction pipeline, designed to reduce the trade-off between orthologue capture rates (recall) and accuracy of multi-species orthologue prediction. The pipeline compares sequence domains and then forms sequence-similar clusters before using phylogenetic comparisons to identify inparalogues. It then corrects sequence similarity metrics for fragment and gene length bias using a novel scoring metric capturing relationships between full length as well as fragmented genes. The remaining genes are then brought together for the identification of orthologues within a phylogenetic framework. The orthologue predictions are further calibrated along with inparalogues and gene births, using synteny, to identify novel orthologous relationships. We use 12 high quality Drosophila genomes to show that, compared to other orthologue prediction pipelines, Orthonome provides orthogroups with minimal error but high recall. Furthermore, Orthonome is resilient to suboptimal assembly/annotation quality, with the inclusion of draft genomes from eight additional Drosophila species still providing >6500 1:1 orthologues across all twenty species while retaining a better combination of accuracy and recall than other pipelines. Orthonome is implemented as a searchable database and query tool along with multiple-sequence alignment browsers for all sets of orthologues. The underlying documentation and database are accessible at http://www.orthonome.com . Conclusion We demonstrate that Orthonome provides a superior combination of orthologue capture rates and accuracy on complete and draft drosophilid genomes when tested alongside previously published pipelines. The study also highlights a greater degree of evolutionary conservation across drosophilid species than earlier thought.

Published

2017

86. Antiviral effect of the cotton plant-derived gossypol against tomato yellow leaf curl virus

Author

Huifang Guo, Yufeng Qu, Shuai Sun, Kaili Zhang, Zhichun Zhang, Dongxiao Zhao, Hongtao Niu, Xiangdong Liu, Jichao Fang, and Ary A. Hoffmann

Subjects

Ecology, Insect Science, Plant Science, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Published

2022

87. Fungicides have transgenerational effects on Rhopalosiphum padi but not their endosymbionts

Author

Evatt Chirgwin, Qiong Yang, Paul A Umina, Alex Gill, Safi Soleimannejad, Xinyue Gu, Perran Ross, and Ary A Hoffmann

Subjects

Aphids, Insect Science, Nitriles, Animals, Imines, General Medicine, Acetates, Strobilurins, Agronomy and Crop Science, Anti-Bacterial Agents, Fungicides, Industrial

Abstract

While several agricultural fungicides are known to directly affect invertebrate pests, including aphids, the mechanisms involved are often unknown. One hypothesis is that fungicides with antibacterial activity suppress bacterial endosymbionts present in aphids which are important for aphid survival. Endosymbiont-related effects are expected to be transgenerational, given that these bacteria are maternally inherited. Here, we test for these associations using three fungicides (chlorothalonil, pyraclostrobin and trifloxystrobin) against the bird cherry-oat aphid, Rhopalosiphum padi, using a microinjected strain that carried both the primary endosymbiont Buchnera and the secondary endosymbiont Rickettsiella.We show that the fungicide chlorothalonil did not cause an immediate effect on aphid survival, whereas both strobilurin fungicides (pyraclostrobin and trifloxystrobin) decreased survival after 48 h exposure. However, chlorothalonil substantially reduced the lifespan and fecundity of the F1 generation. Trifloxystrobin also reduced the lifespan and fecundity of F1 offspring, however, pyraclostrobin did not affect these traits. None of the fungicides consistently altered the density of Buchnera or Rickettsiella in whole aphids.Our results suggest fungicides have sublethal impacts on R. padi that are not fully realized until the generation after exposure, and these sublethal impacts are not associated with the density of endosymbionts harbored by R. padi. However, we cannot rule out other effects of fungicides on endosymbionts that might influence fitness, like changes in their tissue distribution. We discuss these results within the context of fungicidal effects on aphid suppression across generations and point to potential field applications. © 2022 Society of Chemical Industry.

Published

2022

88. Hybridization as a conservation management tool

Author

Wing Yan Chan, Ary A. Hoffmann, and Madeleine J. H. vanOppen

Subjects

adaptive potential, conservation policy, genetic rescue, hybridization, inbreeding depression, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract The recent extensive loss of biodiversity raises the question of whether organisms will adapt in time to survive the current era of rapid environmental change, and whether today's conservation practices and policies are appropriate. We review the benefits and risks of inter‐ and intraspecific hybridization as a conservation management tool aimed at enhancing adaptive potential and survival, with particular reference to coral reefs. We conclude that hybridization is underutilized and that many of its perceived risks are possibly overstated; the few applications of hybridization in conservation to date have already shown positive outcomes. Moreover, perceptions of potential risk change significantly when the focus of conservation is on preserving the adaptive potential of a species/population, instead of preserving the species in its original state. Further, we suggest that the uncertain legal status of hybrids as entities of protection can be costly to society and ecosystems, and that a legislative revision of hybrids and hybridization is overdue. We present a decision tree to help assess when and where hybridization can be a suitable conservation tool, and whether inter‐ or intraspecific hybridization is the preferred option.

Published

2019

89. Establishment of wMel Wolbachia in Aedes aegypti mosquitoes and reduction of local dengue transmission in Cairns and surrounding locations in northern Queensland, Australia [version 1; peer review: 2 approved]

Author

Peter A. Ryan, Andrew P. Turley, Geoff Wilson, Tim P. Hurst, Kate Retzki, Jack Brown-Kenyon, Lauren Hodgson, Nichola Kenny, Helen Cook, Brian L. Montgomery, Christopher J. Paton, Scott A. Ritchie, Ary A. Hoffmann, Nicholas P. Jewell, Stephanie K. Tanamas, Katherine L. Anders, Cameron P. Simmons, and Scott L. O’Neill

Subjects

Medicine

Abstract

Background: The wMel strain of Wolbachia has been successfully introduced into Aedes aegypti mosquitoes and subsequently shown in laboratory studies to reduce transmission of a range of viruses including dengue, Zika, chikungunya, yellow fever, and Mayaro viruses that cause human disease. Here we report the entomological and epidemiological outcomes of staged deployment of Wolbachia across nearly all significant dengue transmission risk areas in Australia. Methods: The wMel strain of Wolbachia was backcrossed into the local Aedes aegypti genotype (Cairns and Townsville backgrounds) and mosquitoes were released in the field by staff or via community assisted methods. Mosquito monitoring was undertaken and mosquitoes were screened for the presence of Wolbachia. Dengue case notifications were used to track dengue incidence in each location before and after releases. Results: Empirical analyses of the Wolbachia mosquito releases, including data on the density, frequency and duration of Wolbachia mosquito releases, indicate that Wolbachia can be readily established in local mosquito populations, using a variety of deployment options and over short release durations (mean release period 11 weeks, range 2-22 weeks). Importantly, Wolbachia frequencies have remained stable in mosquito populations since releases for up to 8 years. Analysis of dengue case notifications data demonstrates near-elimination of local dengue transmission for the past five years in locations where Wolbachia has been established. The regression model estimate of Wolbachia intervention effect from interrupted time series analyses of case notifications data prior to and after releases, indicated a 96% reduction in dengue incidence in Wolbachia treated populations (95% confidence interval: 84 – 99%). Conclusion: Deployment of the wMel strain of Wolbachia into local Ae. aegypti populations across the Australian regional cities of Cairns and most smaller regional communities with a past history of dengue has resulted in the reduction of local dengue transmission across all deployment areas.

Published

2019

90. Genomic variation predicts adaptive evolutionary responses better than population bottleneck history.

Author

Michael Ørsted, Ary Anthony Hoffmann, Elsa Sverrisdóttir, Kåre Lehmann Nielsen, and Torsten Nygaard Kristensen

Subjects

Genetics, QH426-470

Abstract

The relationship between population size, inbreeding, loss of genetic variation and evolutionary potential of fitness traits is still unresolved, and large-scale empirical studies testing theoretical expectations are surprisingly scarce. Here we present a highly replicated experimental evolution setup with 120 lines of Drosophila melanogaster having experienced inbreeding caused by low population size for a variable number of generations. Genetic variation in inbred lines and in outbred control lines was assessed by genotyping-by-sequencing (GBS) of pooled samples consisting of 15 males per line. All lines were reared on a novel stressful medium for 10 generations during which body mass, productivity, and extinctions were scored in each generation. In addition, we investigated egg-to-adult viability in the benign and the stressful environments before and after rearing at the stressful conditions for 10 generations. We found strong positive correlations between levels of genetic variation and evolutionary response in all investigated traits, and showed that genomic variation was more informative in predicting evolutionary responses than population history reflected by expected inbreeding levels. We also found that lines with lower genetic diversity were at greater risk of extinction. For viability, the results suggested a trade-off in the costs of adapting to the stressful environments when tested in a benign environment. This work presents convincing support for long-standing evolutionary theory, and it provides novel insights into the association between genetic variation and evolutionary capacity in a gradient of diversity rather than dichotomous inbred/outbred groups.

Published

2019

91. A change in the bacterial community of spider mites decreases fecundity on multiple host plants

Author

Yu‐Xi Zhu, Yue‐Ling Song, Ary A. Hoffmann, Peng‐Yu Jin, Shi‐Mei Huo, and Xiao‐Yue Hong

Subjects

16S rRNA, fecundity, host plant, spider mite, symbiotic bacterial, Microbiology, QR1-502

Abstract

Abstract Bacterial symbionts may influence the fitness of their herbivore hosts, but such effects have been poorly studied across most invertebrate groups. The spider mite, Tetranychus truncatus, is a polyphagous agricultural pest harboring various bacterial symbionts whose function is largely unknown. Here, by using a high‐throughput 16S rRNA amplicon sequencing approach, we characterized the bacterial diversity and community composition of spider mites fed on five host plants after communities were modified following tetracycline exposure. We demonstrated that spider mite bacterial diversity and community composition were significantly affected by host plants and antibiotics. In particular, the abundance of the maternally inherited endosymbionts Wolbachia and Spiroplasma significantly differed among spider mites that were reared on different plant species and were completely removed by antibiotics. There was an overall tendency for daily fecundity to be lower in the mites with reduced bacterial diversity following the antibiotic treatment. Our data suggest that host plants and antibiotics can shape spider mite bacterial communities and that bacterial symbionts improve mite performance.

Published

2019

92. Loss of cytoplasmic incompatibility in Wolbachia-infected Aedes aegypti under field conditions.

Author

Perran A Ross, Scott A Ritchie, Jason K Axford, and Ary A Hoffmann

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Wolbachia bacteria are now being introduced into Aedes aegypti mosquito populations for dengue control. When Wolbachia infections are at a high frequency, they influence the local transmission of dengue by direct virus blocking as well as deleterious effects on vector mosquito populations. However, the effectiveness of this strategy could be influenced by environmental temperatures that decrease Wolbachia density, thereby reducing the ability of Wolbachia to invade and persist in the population and block viruses. We reared wMel-infected Ae. aegypti larvae in the field during the wet season in Cairns, North Queensland. Containers placed in the shade produced mosquitoes with a high Wolbachia density and little impact on cytoplasmic incompatibility. However, in 50% shade where temperatures reached 39°C during the day, wMel-infected males partially lost their ability to induce cytoplasmic incompatibility and females had greatly reduced egg hatch when crossed to infected males. In a second experiment under somewhat hotter conditions (>40°C in 50% shade), field-reared wMel-infected females had their egg hatch reduced to 25% when crossed to field-reared wMel-infected males. Wolbachia density was reduced in 50% shade for both sexes in both experiments, with some mosquitoes cleared of their Wolbachia infections entirely. To investigate the critical temperature range for the loss of Wolbachia infections, we held Ae. aegypti eggs in thermocyclers for one week at a range of cyclical temperatures. Adult wMel density declined when eggs were held at 26-36°C or above with complete loss at 30-40°C, while the density of wAlbB remained high until temperatures were lethal. These findings suggest that high temperature effects on Wolbachia are potentially substantial when breeding containers are exposed to partial sunlight but not shade. Heat stress could reduce the ability of Wolbachia infections to invade mosquito populations in some locations and may compromise the ability of Wolbachia to block virus transmission in the field. Temperature effects may also have an ecological impact on mosquito populations given that a proportion of the population becomes self-incompatible.

Published

2019

93. Is temperature preference in the laboratory ecologically relevant for the field? The case of Drosophila nigrosparsa

Author

Magdalena Tratter Kinzner, Martin-Carl Kinzner, Rüdiger Kaufmann, Ary A. Hoffmann, Wolfgang Arthofer, Birgit C. Schlick-Steiner, and Florian M. Steiner

Subjects

Ecology, QH540-549.5

Abstract

Ectotherms are sensitive to temperature change, and predictions about a species' vulnerability to thermal change require an understanding of its thermal responses. The preferred temperature in laboratory assays is a widely used measure commonly taken as an indicator of the temperature at which ectotherms' physiological functions are optimised. The ecological relevance of laboratory-measured temperature preference has been evaluated for vertebrate ectotherms but to our knowledge not for Drosophila. Here, we assessed the links between laboratory thermal preference and habitat temperature in the alpine fly Drosophila nigrosparsa. We found that (i) in the laboratory, D. nigrosparsa preferred a temperature of about 10 °C. In the field, (ii) macrohabitat temperatures ranged from 17 to 22 °C, and (iii) microhabitat temperatures exceeded those of the macrohabitat with up to 35 °C at full sun exposure. (iv) Isotope-tracked flies were localised, among others, at nearly the maximum temperature conditions measured in the microhabitats. (v) Operative environmental temperature models revealed that air temperature has the highest impact on the flies’ experienced temperature, followed by global solar radiation and wind. These findings highlight that the preferred temperature in the laboratory differed strongly from that in the field and that different approaches lead to different conclusions about the preferred and experienced temperatures. Keywords: Field-lab dichotomy, Microhabitat, Operative environmental temperature, Preferred temperature, Thermal preference, Thermobiology

Published

2019

94. Does membrane feeding compromise the quality of Aedes aegypti mosquitoes?

Author

Perran A Ross, Meng-Jia Lau, and Ary A Hoffmann

Subjects

Medicine, Science

Abstract

Modified Aedes aegypti mosquitoes are being mass-reared for release in disease control programs around the world. Releases involving female mosquitoes rely on them being able to seek and feed on human hosts. To facilitate the mass-production of mosquitoes for releases, females are often provided blood through artificial membrane feeders. When reared across generations there is a risk that mosquitoes will adapt to feeding on membranes and lose their ability to feed on human hosts. To test adaptation to membrane feeding, we selected replicate populations of Ae. aegypti for feeding on either human arms or membrane feeders for at least 8 generations. Membrane-selected populations suffered fitness costs, likely due to inbreeding depression arising from bottlenecks. Membrane-selected females had higher feeding rates on membranes than human-selected ones, suggesting adaptation to membrane feeding, but they maintained their attraction to host cues and feeding ability on humans despite a lack of selection for these traits. Host-seeking ability in small laboratory cages did not differ between populations selected on the two blood sources, but membrane-selected females were compromised in a semi-field enclosure where host-seeking was tested over a longer distance. Our findings suggest that Ae. aegypti may adapt to feeding on blood provided artificially, but this will not substantially compromise field performance or affect experimental assessments of mosquito fitness. However, large population sizes (thousands of individuals) during mass rearing with membrane feeders should be maintained to avoid bottlenecks which lead to inbreeding depression.

Published

2019

95. A LAMP assay for the rapid and robust assessment of Wolbachia infection in Aedes aegypti under field and laboratory conditions.

Author

Moshe E Jasper, Qiong Yang, Perran A Ross, Nancy Endersby-Harshman, Nicholas Bell, and Ary A Hoffmann

Subjects

Medicine, Science

Abstract

With Wolbachia-based arbovirus control programs being scaled and operationalised around the world, cost effective and reliable detection of Wolbachia in field samples and laboratory stocks is essential for quality control. Here we validate a modified loop-mediated isothermal amplification (LAMP) assay for routine scoring of Wolbachia in mosquitoes from laboratory cultures and the field, applicable to any setting. We show that this assay is a rapid and robust method for highly sensitive and specific detection of wAlbB Wolbachia infection within Aedes aegypti under a variety of conditions. We test the quantitative nature of the assay by evaluating pooled mixtures of Wolbachia-infected and uninfected mosquitoes and show that it is capable of estimating infection frequencies, potentially circumventing the need to perform large-scale individual analysis for wAlbB infection status in the course of field monitoring. These results indicate that LAMP assays are useful for routine screening particularly under field conditions away from laboratory facilities.

Published

2019

96. Matching the genetics of released and local Aedes aegypti populations is critical to assure Wolbachia invasion.

Author

Gabriela de Azambuja Garcia, Gabriel Sylvestre, Raquel Aguiar, Guilherme Borges da Costa, Ademir Jesus Martins, José Bento Pereira Lima, Martha T Petersen, Ricardo Lourenço-de-Oliveira, Marion F Shadbolt, Gordana Rašić, Ary A Hoffmann, Daniel A M Villela, Fernando B S Dias, Yi Dong, Scott L O'Neill, Luciano A Moreira, and Rafael Maciel-de-Freitas

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BackgroundTraditional vector control approaches such as source reduction and insecticide spraying have limited effect on reducing Aedes aegypti population. The endosymbiont Wolbachia is pointed as a promising tool to mitigate arbovirus transmission and has been deployed worldwide. Models predict a rapid increase on the frequency of Wolbachia-positive Ae. aegypti mosquitoes in local settings, supported by cytoplasmic incompatibility (CI) and high maternal transmission rate associated with the wMelBr strain.Methodology/principle findingsWolbachia wMelBr strain was released for 20 consecutive weeks after receiving >87% approval of householders of the isolated community of Tubiacanga, Rio de Janeiro. wMelBr frequency plateued~40% during weeks 7-19, peaked 65% but dropped as releases stopped. A high (97.56%) maternal transmission was observed. Doubling releases and deploying mosquitoes with large wing length and low laboratory mortality produced no detectable effects on invasion trend. By investigating the lab colony maintenance procedures backwardly, pyrethroid resistant genotypes in wMelBr decreased from 68% to 3.5% after 17 generations. Therefore, we initially released susceptible mosquitoes in a local population highly resistant to pyrethroids which, associated with the over use of insecticides by householders, ended jeopardizing Wolbachia invasion. A new strain (wMelRio) was produced after backcrossing wMelBr females with males from field to introduce mostly pyrethroid resistance alleles. The new strain increased mosquito survival but produced relevant negative effects on Ae. aegypti fecundity traits, reducing egg clutche size and egg hatch. Despite the cost on fitness, wMelRio successful established where wMelBr failed, revealing that matching the local population genetics, especially insecticide resistance background, is critical to achieve invasion.Conclusions/significanceLocal householders support was constantly high, reaching 90% backing on the second release (wMelRio strain). Notwithstanding the drought summer, the harsh temperature recorded (daily average above 30°C) did not seem to affect the expression of maternal transmission of wMel on a Brazilian background. Wolbachia deployment should match the insecticide resistance profile of the wild population to achieve invasion. Considering pyrethroid-resistance is a widely distributed phenotype in natural Ae. aegypti populations, future Wolbachia deployments must pay special attention in maintaining insecticide resistance in lab colonies for releases.

Published

2019

97. Holobiont perspectives on tripartite interactions among microbiota, mosquitoes, and pathogens

Author

Ronger Zheng, Qiqi Wang, Runbiao Wu, Prasad N. Paradkar, Ary A. Hoffmann, and Guan-Hong Wang

Subjects

Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2023

98. A transmission chain linkingMycobacterium ulceranswithAedes notoscriptusmosquitoes, possums and human Buruli ulcer cases in southeastern Australia

Author

Peter T. Mee, Andrew H. Buultjens, Jane Oliver, Karen Brown, Jodie C. Crowder, Jessica L. Porter, Emma C. Hobbs, Louise M. Judd, George Taiaroa, Natsuda Puttharak, Deborah A. Williamson, Kim R. Blasdell, Ee Laine Tay, Rebecca Feldman, Mutizwa Odwell Muzari, Chris Sanders, Stuart Larsen, Simon R. Crouch, Paul D. R. Johnson, John R. Wallace, David J. Price, Ary A. Hoffmann, Katherine B. Gibney, Timothy P. Stinear, and Stacey E. Lynch

Abstract

In temperate southeastern Australia over the past two decades there has been a marked progressive increase in human cases of Buruli ulcer, an infection of subcutaneous tissue caused byMycobacterium ulcerans. Native possums are the major local environmental reservoir ofM. ucleransas they not only develop Buruli lesions but they also shedM. ulceransin their excreta. However the way humans acquireM. ulceransfrom possums has not been determined. Previous case-control studies, insect field surveys and vector competence studies have suggested a role for mosquitoes inM. ulceranstransmission between possums and humans. To explore these links we conducted an extensive, 4-month structured mosquito field survey and fourad hocfield surveys across an area of 350km2on the Mornington Peninsula, an area endemic for Buruli ulcer. We then compared spatial and temporal patterns ofM. ulcerans-positive mosquito occurrence withM. ulcerans-positive possums (established by previous possum excreta surveys) and human Buruli ulcer cases across the region. We used metabarcoding to assess mosquito blood-feeding host preference and to reconstructM. ulceransgenomes from positive mosquitoes to test epidemiological inferences. We collected 66,325 mosquitoes spanning 26 different species from 180 repeatedly sampled traps over a 4-month peri oCdul.ex molestusandAedes notoscriptuswere the dominant species (42% and 35% of trapped mosquitoes, respectively). PCR screening 25% of trapped mosquitoes revealed a significant association betweenM. ulceransandAe. notoscriptus(pM. ulceranspositive mosquitoes per 1,000 tested. Using spatial scanning statistics, we also observed significant overlap between clusters ofM. ulcerans-positiveAe. notoscriptus,M. ulcerans-positive possum excreta and human Buruli ulcer cases. Metabarcoding analyses of blood-fedAe. notoscriptusshowed individual mosquitoes had fed both on humans and native possums. Enrichment genome sequencing from PCR-positive mosquitoes confirmed identicalM. ulceransgenome single-nucleotide polymorphism (SNP) profiles between insects, possums and clinical human isolates within the same regions. These findings indicate that certain mosquito species likely transmitM. ulceransin southeastern Australia and highlight mosquito control as a plausible means to control the Buruli ulcer epidemic in our region.

Published

2023

99. A rapidly spreading deleterious aphid endosymbiont that uses horizontal as well as vertical transmission

Author

Xinyue Gu, Perran A. Ross, Alex Gill, Qiong Yang, Eloïse Ansermin, Sonia Sharma, Safieh Soleimannejad, Kanav Sharma, Ashley Callahan, Courtney Brown, Paul A. Umina, Torsten N. Kristensen, and Ary A. Hoffmann

Subjects

Multidisciplinary, aphid, Rickettsiella, horizontal transmission, SDG 6 - Clean Water and Sanitation, endosymbiont, SDG 15 - Life on Land

Abstract

Endosymbiotic bacteria that live inside the cells of insects are typically only transmitted maternally and can spread by increasing host fitness and/or modifying reproduction in sexual hosts. Transinfections of Wolbachia endosymbionts are now being used to introduce useful phenotypes into sexual host populations, but there has been limited progress on applications using other endosymbionts and in asexual populations. Here, we develop a unique pathway to application in aphids by transferring the endosymbiont Rickettsiella viridis to the major crop pest Myzus persicae . Rickettsiella infection greatly reduced aphid fecundity, decreased heat tolerance, and modified aphid body color, from light to dark green. Despite inducing host fitness costs, Rickettsiella spread rapidly through caged aphid populations via plant-mediated horizontal transmission. The phenotypic effects of Rickettsiella were sensitive to temperature, with spread only occurring at 19 °C and not 25 °C. Body color modification was also lost at high temperatures despite Rickettsiella maintaining a high density. Rickettsiella shows the potential to spread through natural M. persicae populations by horizontal transmission and subsequent vertical transmission. Establishment of Rickettsiella in natural populations could reduce crop damage by modifying population age structure, reducing population growth and providing context-dependent effects on host fitness. Our results highlight the importance of plant-mediated horizontal transmission and interactions with temperature as drivers of endosymbiont spread in asexual insect populations.

Published

2023

100. Long‐term biogeographical processes dominate patterns of genetic diversity in a wingless grasshopper despite substantial recent habitat fragmentation

Author

Ary A. Hoffmann, Moshe Jasper, Vanessa L. White, Hiromi Yagui, and Michael R. Kearney

Subjects

Genetics, Ecology, Evolution, Behavior and Systematics

Published

2023