Your search keyword '"Menz MHM"' showing total 15 results

1. Insecticide exposure alters flight-dependent gene-expression in honey bees, Apis mellifera.

Author

Christen V, Jeker L, Lim KS, Menz MHM, and Straub L

Subjects

Animals, Bees drug effects, Bees physiology, Neonicotinoids toxicity, Nitro Compounds toxicity, Gene Expression drug effects, Thiamethoxam, Insecticides toxicity, Flight, Animal drug effects

Abstract

The increased reports of wild bee declines and annual losses of managed bees pose a significant threat to biodiversity and agricultural productivity. While these losses and declines are likely driven by various factors, the exposure of bees to agrochemicals has raised significant concern due to their ubiquitous use and potential adverse effects. Despite numerous studies suggesting neonicotinoids can negatively affect bees at the behavioral and molecular level, data linking these two factors remains sparse. Here we provide data on the impact of an acute dose of the neonicotinoid thiamethoxam on the flight performance and molecular transcription profiles of foraging honey bees (Apis mellifera). Using a controlled experimental design with tethered flight mills, we measured flight distance, duration, and speed, alongside the expression of genes involved in energy metabolism, hormone regulation, and biosynthesis. Acute thiamethoxam exposure resulted in hyperactive flight behavior but led to significant dysregulation of genes associated with oxidative phosphorylation, indicating potential disruptions in cellular energy production. These molecular changes were particularly evident when bees engaged in flight activities, suggesting that the combined stress of pesticide exposure and physical exertion exacerbates negative outcomes. Our study provides new insights into the molecular mechanisms underlying neonicotinoid-induced impairments in bee physiology that can help understand the potential long-term consequences of xenobiotic exposure on the foraging abilities of bees and ultimately fitness., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Insect communities under skyglow: diffuse night-time illuminance induces spatio-temporal shifts in movement and predation.

Author

Dyer A, Ryser R, Brose U, Amyntas A, Bodnar N, Boy T, Franziska Bucher S, Cesarz S, Eisenhauer N, Gebler A, Hines J, Kyba CCM, Menz MHM, Rackwitz K, Shatwell T, Terlau JF, and Hirt MR

Subjects

Animals, Predatory Behavior, Invertebrates, Light, Insecta, Ecosystem, Light Pollution

Abstract

Artificial light at night (ALAN) is predicted to have far-reaching consequences for natural ecosystems given its influence on organismal physiology and behaviour, species interactions and community composition. Movement and predation are fundamental ecological processes that are of critical importance to ecosystem functioning. The natural movements and foraging behaviours of nocturnal invertebrates may be particularly sensitive to the presence of ALAN. However, we still lack evidence of how these processes respond to ALAN within a community context. We assembled insect communities to quantify their movement activity and predation rates during simulated Moon cycles across a gradient of diffuse night-time illuminance including the full range of observed skyglow intensities. Using radio frequency identification, we tracked the movements of insects within a fragmented grassland Ecotron experiment. We additionally quantified predation rates using prey dummies. Our results reveal that even low-intensity skyglow causes a temporal shift in movement activity from day to night, and a spatial shift towards open habitats at night. Changes in movement activity are associated with indirect shifts in predation rates. Spatio-temporal shifts in movement and predation have important implications for ecological networks and ecosystem functioning, highlighting the disruptive potential of ALAN for global biodiversity and the provision of ecosystem services. This article is part of the theme issue 'Light pollution in complex ecological systems'.

Published

2023

3. Emerging technologies revolutionise insect ecology and monitoring.

Author

van Klink R, August T, Bas Y, Bodesheim P, Bonn A, Fossøy F, Høye TT, Jongejans E, Menz MHM, Miraldo A, Roslin T, Roy HE, Ruczyński I, Schigel D, Schäffler L, Sheard JK, Svenningsen C, Tschan GF, Wäldchen J, Zizka VMA, Åström J, and Bowler DE

Subjects

Animals, Ecology methods, Insecta

Abstract

Insects are the most diverse group of animals on Earth, but their small size and high diversity have always made them challenging to study. Recent technological advances have the potential to revolutionise insect ecology and monitoring. We describe the state of the art of four technologies (computer vision, acoustic monitoring, radar, and molecular methods), and assess their advantages, current limitations, and future potential. We discuss how these technologies can adhere to modern standards of data curation and transparency, their implications for citizen science, and their potential for integration among different monitoring programmes and technologies. We argue that they provide unprecedented possibilities for insect ecology and monitoring, but it will be important to foster international standards via collaboration., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

4. Individual tracking reveals long-distance flight-path control in a nocturnally migrating moth.

Author

Menz MHM, Scacco M, Bürki-Spycher HM, Williams HJ, Reynolds DR, Chapman JW, and Wikelski M

Subjects

Animals, Insecta, Wind, Animal Migration, Flight, Animal physiology, Moths physiology

Abstract

Each year, trillions of insects make long-range seasonal migrations. These movements are relatively well understood at a population level, but how individual insects achieve them remains elusive. Behavioral responses to conditions en route are little studied, primarily owing to the challenges of tracking individual insects. Using a light aircraft and individual radio tracking, we show that nocturnally migrating death's-head hawkmoths maintain control of their flight trajectories over long distances. The moths did not just fly with favorable tailwinds; during a given night, they also adjusted for head and crosswinds to precisely hold course. This behavior indicates that the moths use a sophisticated internal compass to maintain seasonally beneficial migratory trajectories independent of wind conditions, illuminating how insects traverse long distances to take advantage of seasonal resources.

Published

2022

5. Hoverflies use a time-compensated sun compass to orientate during autumn migration.

Author

Massy R, Hawkes WLS, Doyle T, Troscianko J, Menz MHM, Roberts NW, Chapman JW, and Wotton KR

Subjects

Animals, Cues, Ecosystem, Seasons, Sunlight, Animal Migration, Orientation

Abstract

The sun is the most reliable celestial cue for orientation available to daytime migrants. It is widely assumed that diurnal migratory insects use a 'time-compensated sun compass' to adjust for the changing position of the sun throughout the day, as demonstrated in some butterfly species. The mechanisms used by other groups of diurnal insect migrants remain to be elucidated. Migratory species of hoverflies (Diptera: Syrphidae) are one of the most abundant and beneficial groups of diurnal migrants, providing multiple ecosystem services and undergoing directed seasonal movements throughout much of the temperate zone. To identify the hoverfly navigational strategy, a flight simulator was used to measure orientation responses of the hoverflies Scaeva pyrastri and Scaeva selenitica to celestial cues during their autumn migration. Hoverflies oriented southwards when they could see the sun and shifted this orientation westward following a 6 h advance of their circadian clocks. Our results demonstrate the use of a time-compensated sun compass as the primary navigational mechanism, consistent with field observations that hoverfly migration occurs predominately under clear and sunny conditions.

Published

2021

6. Adaptive strategies of high-flying migratory hoverflies in response to wind currents.

Author

Gao B, Wotton KR, Hawkes WLS, Menz MHM, Reynolds DR, Zhai BP, Hu G, and Chapman JW

Subjects

Animal Migration, Animals, Insecta, Orientation, Spatial, Wind, Diptera physiology, Flight, Animal

Abstract

Large migrating insects, flying at high altitude, often exhibit complex behaviour. They frequently elect to fly on winds with directions quite different from the prevailing direction, and they show a degree of common orientation, both of which facilitate transport in seasonally beneficial directions. Much less is known about the migration behaviour of smaller (10-70 mg) insects. To address this issue, we used radar to examine the high-altitude flight of hoverflies (Diptera: Syrphidae), a group of day-active, medium-sized insects commonly migrating over the UK. We found that autumn migrants, which must move south, did indeed show migration timings and orientation responses that would take them in this direction, despite the unfavourability of the prevailing winds. Evidently, these hoverfly migrants must have a compass (probably a time-compensated solar mechanism), and a means of sensing the wind direction (which may be determined with sufficient accuracy at ground level, before take-off). By contrast, hoverflies arriving in the UK in spring showed weaker orientation tendencies, and did not correct for wind drift away from their seasonally adaptive direction (northwards). However, the spring migrants necessarily come from the south (on warm southerly winds), so we surmise that complex orientation behaviour may not be so crucial for the spring movements.

Published

2020

7. Pollination by hoverflies in the Anthropocene.

Author

Doyle T, Hawkes WLS, Massy R, Powney GD, Menz MHM, and Wotton KR

Subjects

Animals, Crops, Agricultural, Ecosystem, Flowers, Pollen, Diptera, Pollination

Abstract

Pollinator declines, changes in land use and climate-induced shifts in phenology have the potential to seriously affect ecosystem function and food security by disrupting pollination services provided by insects. Much of the current research focuses on bees, or groups other insects together as 'non-bee pollinators', obscuring the relative contribution of this diverse group of organisms. Prominent among the 'non-bee pollinators' are the hoverflies, known to visit at least 72% of global food crops, which we estimate to be worth around US$300 billion per year, together with over 70% of animal pollinated wildflowers. In addition, hoverflies provide ecosystem functions not seen in bees, such as crop protection from pests, recycling of organic matter and long-distance pollen transfer. Migratory species, in particular, can be hugely abundant and unlike many insect pollinators, do not yet appear to be in serious decline. In this review, we contrast the roles of hoverflies and bees as pollinators, discuss the need for research and monitoring of different pollinator responses to anthropogenic change and examine emerging research into large populations of migratory hoverflies, the threats they face and how they might be used to improve sustainable agriculture.

Published

2020

8. Author Correction: A global database for metacommunity ecology, integrating species, traits, environment and space.

Author

Jeliazkov A, Mijatovic D, Chantepie S, Andrew N, Arlettaz R, Barbaro L, Barsoum N, Bartonova A, Belskaya E, Bonada N, Brind'Amour A, Carvalho R, Castro H, Chmura D, Choler P, Chong-Seng K, Cleary D, Cormont A, Cornwell W, de Campos R, de Voogd N, Doledec S, Drew J, Dziock F, Eallonardo A, Edgar MJ, Farneda F, Hernandez DF, Frenette-Dussault C, Fried G, Gallardo B, Gibb H, Gonçalves-Souza T, Higuti J, Humbert JY, Krasnov BR, Saux EL, Lindo Z, Lopez-Baucells A, Lowe E, Marteinsdottir B, Martens K, Meffert P, Mellado-Díaz A, Menz MHM, Meyer CFJ, Miranda JR, Mouillot D, Ossola A, Pakeman R, Pavoine S, Pekin B, Pino J, Pocheville A, Pomati F, Poschlod P, Prentice HC, Purschke O, Raevel V, Reitalu T, Renema W, Ribera I, Robinson N, Robroek B, Rocha R, Shieh SH, Spake R, Staniaszek-Kik M, Stanko M, Tejerina-Garro FL, Braak CT, Urban MC, Klink RV, Villéger S, Wegman R, Westgate MJ, Wolff J, Żarnowiec J, Zolotarev M, and Chase JM

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

9. A global database for metacommunity ecology, integrating species, traits, environment and space.

Author

Jeliazkov A, Mijatovic D, Chantepie S, Andrew N, Arlettaz R, Barbaro L, Barsoum N, Bartonova A, Belskaya E, Bonada N, Brind'Amour A, Carvalho R, Castro H, Chmura D, Choler P, Chong-Seng K, Cleary D, Cormont A, Cornwell W, de Campos R, de Voogd N, Doledec S, Drew J, Dziock F, Eallonardo A, Edgar MJ, Farneda F, Hernandez DF, Frenette-Dussault C, Fried G, Gallardo B, Gibb H, Gonçalves-Souza T, Higuti J, Humbert JY, Krasnov BR, Saux EL, Lindo Z, Lopez-Baucells A, Lowe E, Marteinsdottir B, Martens K, Meffert P, Mellado-Díaz A, Menz MHM, Meyer CFJ, Miranda JR, Mouillot D, Ossola A, Pakeman R, Pavoine S, Pekin B, Pino J, Pocheville A, Pomati F, Poschlod P, Prentice HC, Purschke O, Raevel V, Reitalu T, Renema W, Ribera I, Robinson N, Robroek B, Rocha R, Shieh SH, Spake R, Staniaszek-Kik M, Stanko M, Tejerina-Garro FL, Braak CT, Urban MC, Klink RV, Villéger S, Wegman R, Westgate MJ, Wolff J, Żarnowiec J, Zolotarev M, and Chase JM

Subjects

Animals, Biodiversity, Ecology, Plants, Biota

Abstract

The use of functional information in the form of species traits plays an important role in explaining biodiversity patterns and responses to environmental changes. Although relationships between species composition, their traits, and the environment have been extensively studied on a case-by-case basis, results are variable, and it remains unclear how generalizable these relationships are across ecosystems, taxa and spatial scales. To address this gap, we collated 80 datasets from trait-based studies into a global database for metaCommunity Ecology: Species, Traits, Environment and Space; "CESTES". Each dataset includes four matrices: species community abundances or presences/absences across multiple sites, species trait information, environmental variables and spatial coordinates of the sampling sites. The CESTES database is a live database: it will be maintained and expanded in the future as new datasets become available. By its harmonized structure, and the diversity of ecosystem types, taxonomic groups, and spatial scales it covers, the CESTES database provides an important opportunity for synthetic trait-based research in community ecology.

Published

2020

10. Mass Seasonal Migrations of Hoverflies Provide Extensive Pollination and Crop Protection Services.

Author

Wotton KR, Gao B, Menz MHM, Morris RKA, Ball SG, Lim KS, Reynolds DR, Hu G, and Chapman JW

Subjects

Animals, Ecosystem, England, Animal Migration, Crop Protection, Crops, Agricultural, Diptera, Pollination

Abstract

Despite the fact that migratory insects dominate aerial bioflows in terms of diversity, abundance, and biomass [1-6], the migration patterns of most species, and the effects of their annual fluxes between high- and low-latitude regions, are poorly known. One important group of long-range migrants that remain understudied is a suite of highly beneficial species of hoverfly in the tribe Syrphini, which we collectively term "migrant hoverflies." Adults are key pollinators [7-10] and larvae are significant biocontrol agents of aphid crop pests [11], and thus, it is important to quantify the scale of their migrations and the crucial ecosystem services they provide with respect to energy, nutrient, and biomass transport; regulation of crop pests; and pollen transfer. Such assessments cannot be made by sporadic observations of mass arrivals at ground level, because hoverflies largely migrate unnoticed high above ground. We used insect-monitoring radars [12] to show that up to 4 billion hoverflies (80 tons of biomass) travel high above southern Britain each year in seasonally adaptive directions. The long-range migrations redistribute tons of essential nutrients (nitrogen [N] and phosphorus [P]) and transport billions of pollen grains between Britain and Europe, and locally produced populations consume 6 trillion aphids and make billions of flower visits. Migrant hoverfly abundance fluctuated greatly between years, but there was no evidence of a population trend during the 10-year study period. Considering that many beneficial insects are seriously declining [7, 10, 13-19], our results demonstrate that migrant hoverflies are key to maintaining essential ecosystem services., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

11. Larval and phenological traits predict insect community response to mowing regime manipulations.

Author

van Klink R, Menz MHM, Baur H, Dosch O, Kühne I, Lischer L, Luka H, Meyer S, Szikora T, Unternährer D, Arlettaz R, and Humbert JY

Subjects

Agriculture, Animals, Larva, Poaceae, Biodiversity, Insecta

Abstract

For the restoration of biodiversity in agricultural grasslands, it is essential to understand how management acts as an ecological filter on the resident species. Mowing constitutes such a filter: only species that possess functional traits enabling them to withstand its consequences can persist in the community. We investigated how the timing of mowing modulates this filtering effect for insects. We predicted that two traits drive species responses. Species with larval development within the meadow vegetation will suffer more from mowing than species whose larvae develop in or on the ground, or outside the meadows, while species with a later phenology should benefit from later mowing. We conducted a five-year experiment, replicated at 12 sites across the Swiss lowlands, applying three different mowing regimes to low-intensity hay meadows: (1) first cut of the year not earlier than 15 June (control regime); (2) the first cut delayed until 15 July; and (3) leaving an uncut grass refuge on 10-20% of the meadow area (after earliest first cut on 15 June). Before the first cut in years 4 or 5, we sampled larvae of Lepidoptera and sawflies, and adults of moths, parasitoid wasps, wild bees, hoverflies, ground beetles, and rove beetles. Overall, before the first cut of the year, abundances of species with vegetation-dwelling larvae were higher in meadows with delayed mowing or an uncut grass refuge, with some taxon-specific variation. In contrast, species whose larval development is independent of the meadow vegetation showed no differences in abundance between mowing regimes. Species richness did not differ among regimes. For species with vegetation-dwelling larvae, a fourth-corner analysis showed an association between early phenology and the control regime. No associations were found for the other functional groups. Our results show that slight modifications of mowing regimes, easily implementable in agri-environmental policy schemes, can boost invertebrate abundance, potentially benefitting insectivorous vertebrates., (© 2019 by the Ecological Society of America.)

Published

2019

12. Characterizing animal anatomy and internal composition for electromagnetic modelling in radar entomology.

Author

Mirkovic D, Stepanian PM, Wainwright CE, Reynolds DR, and Menz MHM

Abstract

The use of radar as an observational tool in entomological studies has a long history, and ongoing advances in operational radar networks and radio-frequency technology hold promise for advances in applications such as aerial insect detection, identification and quantification. Realizing this potential requires increasingly sophisticated characterizations of radio-scattering signatures for a broad set of insect taxa, including variability in probing radar wavelength, polarization and aspect angle. Although this task has traditionally been approached through laboratory measurement of radar cross-sections, the effort required to create a comprehensive specimen-based library of scattering signatures would be prohibitive. As an alternative, we investigate the performance of electromagnetic modelling for creating such a database, focusing particularly on the influence of geometric and dielectric model properties on the accuracy of synthesized scattering signatures. We use a published database which includes geometric size measurements and laboratory-measured radar cross-sections for 194 insect specimens. The insect anatomy and body composition were emulated using six different models, and radar cross-sections of each model were obtained through electromagnetic modelling and compared with the original laboratory measurements. Of the models tested, the prolate ellipsoid with an internal dielectric of homogenized chitin and hemolymph mixture best replicates the measurements, providing an appropriate technique for further modelling efforts., Competing Interests: We declare that we have no competing interests., (© 2018 The Authors. Remote Sensing in Ecology and Conservation published by John Wiley & Sons Ltd on behalf of Zoological Society of London.)

Published

2019

13. Quantification of migrant hoverfly movements (Diptera: Syrphidae) on the West Coast of North America.

Author

Menz MHM, Brown BV, and Wotton KR

Abstract

The seasonal migration of huge numbers of hoverflies is frequently reported in Europe from mountain passes or spurs of land. The movement of such large numbers of beneficial insects is thought to provide significant ecosystem services in terms of pollination and pest control. Observations from the East Coast of the USA during the 1920s indicate the presence of migratory life histories among some hoverfly species there, but 90 years have now passed since the last reported observation of hoverfly migration in the USA. Here, we analyse video footage taken during a huge northward migration of hoverflies on 20 April 2017 on the West Coast of California. The quantification of migrant numbers from this footage allows us to estimate the passage of over 100 000 hoverflies in half an hour over a 200 m section of headland in Montaña de Oro State Park (San Luis Obispo County). Field collections and analysis of citizen science data indicate different species from the previously reported Eristalis tenax migrations on the East Coast of the USA and provide evidence for migration among North American hoverflies. We wish to raise awareness of this phenomenon and suggest approaches to advance the study of hoverfly migration in North America and elsewhere., Competing Interests: We have no competing interests.

Published

2019

14. Higher flight activity in the offspring of migrants compared to residents in a migratory insect.

Author

Dällenbach LJ, Glauser A, Lim KS, Chapman JW, and Menz MHM

Subjects

Animals, Diptera genetics, Female, Male, Seasons, Animal Migration, Diptera physiology, Flight, Animal, Phenotype

Abstract

Migration has evolved among many animal taxa and migratory species are found across all major lineages. Insects are the most abundant and diverse terrestrial migrants, with trillions of animals migrating annually. Partial migration, where populations consist of resident and migratory individuals, is ubiquitous among many taxa. However, the underlying mechanisms are relatively poorly understood and may be driven by physiological, behavioural or genetic variation within populations. We investigated the differences in migratory tendency between migratory and resident phenotypes of the hoverfly, Episyrphus balteatus , using tethered flight mills. Further, to test whether migratory flight behaviour is heritable and to disentangle the effects of environment during development, we compared the flight behaviour of laboratory-reared offspring of migrating, overwintering and summer animals. Offspring of migrants initiated more flights than those of resident individuals. Interestingly, there were no differences among wild-caught phenotypes with regard to number of flights or total flight duration. Low activity in field-collected migrants might be explained by an energy-conserving state that migrants enter into when under laboratory conditions, or a lack of suitable environmental cues for triggering migration. Our results strongly suggest that flight behaviour is heritable and that genetic factors influence migratory tendency in E. balteatus These findings support the growing evidence that genetic factors play a role in partial migration and warrant careful further investigation., (© 2018 The Author(s).)

Published

2018

15. Cooperative Extension: A Model of Science-Practice Integration for Ecosystem Restoration.

Author

David E, Dixon KW, and Menz MHM

Subjects

Conservation of Natural Resources, Models, Theoretical, Ecology, Ecosystem

Abstract

Restoration ecology is a science, driven by practical application. Despite the well-recognized disconnect between the science and practice of ecological restoration, there is a lack of practical solutions. In 2014, US agriculture marked the 100th anniversary of the Cooperative Extension Service, providing a timely reminder that the divide between science and practice can be bridged successfully. Major restoration efforts are underway across the globe and integrated science-practice communication is required to avoid project failure and a significant waste of resources. Here, we propose a three-tiered approach, re-emphasizing the integration of science-based practice in restoration utilizing the structure, function, and potential for success of the Cooperative Extension Service of the US Department of Agriculture (USDA) as a model for connecting science and practice in ecosystem restoration., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016