Search

Your search keyword '"Rasmont P"' showing total 78 results
Start Over Author "Rasmont P" Search Limiters Full Text
78 results on '"Rasmont P"'

5. Resolving the species status of overlooked West-Palaearctic bumblebees

Author

Brasero, N, Ghisbain, G, Lecocq, T, Michez, D, Valterova, I, Biella, P, Monfared, A, Williams, P, Rasmont, P, Martinet, B, Brasero N., Ghisbain G., Lecocq T., Michez D., Valterova I., Biella P., Monfared A., Williams P. H., Rasmont P., Martinet B., Brasero, N, Ghisbain, G, Lecocq, T, Michez, D, Valterova, I, Biella, P, Monfared, A, Williams, P, Rasmont, P, Martinet, B, Brasero N., Ghisbain G., Lecocq T., Michez D., Valterova I., Biella P., Monfared A., Williams P. H., Rasmont P., and Martinet B.

Abstract

Multisource approaches in taxonomy gather different lines of evidence in order to draw strongly supported taxonomic conclusions and constitute the basis of integrative taxonomy. In the case of overlooked taxa with disjunct distributions for which sampling is more challenging, integrative approaches help to propose stable hypotheses at the species and subspecies levels. Here, based on genetic and semio-chemical traits, we performed an integrative taxonomic analysis to evaluate species delimitation hypotheses within a monophyletic group of bumblebees (Hymenoptera, Apidae, Bombus) including the formerly recognised subgenera Eversmannibombus, Laesobombus and Mucidobombus which are now included in the subgenus Thoracobombus. Our results demonstrate the conspecificity of several polytypic taxa, and we formally recognise the subspecies Bombus laesus aliceae comb. nov. Cockerell, 1931, endemic to North Africa, based on its allopatry, unique mitochondrial haplotype and divergent cephalic labial gland secretions. This highlights the need to maintain studying polytypic complexes of bumblebee taxa for which phylogenetic relationships could be still entangled and eventually implement conservation strategies for taxonomically differentiated lineages.

Published
2021

6. Millimeter-Wave Interferometry for Opaque Particle-Laden Flows

Author

Rasmont, Nicolas, Al-Rashdan, Hussein Tatal, Elliott, Gregory, Rovey, Joshua Lucas, and Villafane, Laura

Abstract

A novel method to measure the concentration of particles in optically opaque particle-laden flows is presented. This method is based on the principle of millimeter wave interferometry, using a fully-integrated frequency modulated continuous-wave (FMCW) radar operating between 77 and 81 GHz to measure path-integrated particle concentrations between the radar and a reflector. The instrument is capable of quantitative, high-speed (20 kHz) path-integrated concentration measurements in dispersed multiphase flows with concentrations one to two orders of magnitude higher than those at reach with state-of-the-art optical methods. The interferometer was demonstrated and calibrated for path-integrated number concentrations up to $(4.36 \pm 0.24) \times 10^8 \mathrm{~m}^{-2}$ using glass microspheres with a mean diameter of $109.2 \mu \mathrm {m}$ . Two independent measurements of particle size distribution (PSD) were performed using X-ray microtomography and dry sieving. The calibration setup relied on high-resolution particle shadowgraphy applied to individual thin particle streams and used multistreams superposition to reproduce large optical depths in a controlled particle-air mixture. The instrument exhibited excellent linearity and low error during the calibration, with a phase shift-to-number concentration slope of $(1.378 \pm 0.043) \times 10^{-7} \mathrm{~m}^2$ , validating the measurement concept and paving the way for practical applications. The leading uncertainties are discussed, providing guidelines for exploiting the measurement concept without necessarily performing a direct calibration.

Published
2023
Full Text
View/download PDF

7. Too strict or too loose? Integrative taxonomic assessment of Bombus lapidarius complex (Hymenoptera: Apidae)

Author

Lecocq, T, Biella, P, Martinet, B, Rasmont, P, Lecocq T., Biella P., Martinet B., Rasmont P., Lecocq, T, Biella, P, Martinet, B, Rasmont, P, Lecocq T., Biella P., Martinet B., and Rasmont P.

Abstract

The latest progress of the taxonomy is the use of integrative approach for species delimitation based on a multisource dataset. However, the taxonomic decision that should be made when convergence between the different lines of evidence is not observed remains debated. Here, we investigate the consequences of the application of an ‘integration by cumulation’ approach on the taxonomic statuses within the Bombus lapidarius complex when using an integrative taxonomic framework (i.e. nuclear and mitochondrial markers along with reproductive traits) compared with a strict ‘integration by congruence’ method. Our results show similar taxonomic conclusions whatever the decision-making approach used except for one taxon. According to the differentiation observed in our integrative taxonomic framework, recent divergence time and other field observations for this taxon, we assume that a too strict decision-making method could fail to detect recently diverged species. This is exemplified by the new species Bombus bisiculus sp. n. occurring in South Italy and Sicily.

Published
2020

11. Projected decline in European bumblebee populations in the twenty-first century

Author

Ghisbain, Guillaume, Thiery, Wim, Massonnet, François, Erazo, Diana, Rasmont, Pierre, Michez, Denis, and Dellicour, Simon

Abstract

Habitat degradation and climate change are globally acting as pivotal drivers of wildlife collapse, with mounting evidence that this erosion of biodiversity will accelerate in the following decades1–3. Here, we quantify the past, present and future ecological suitability of Europe for bumblebees, a threatened group of pollinators ranked among the highest contributors to crop production value in the northern hemisphere4–8. We demonstrate coherent declines of bumblebee populations since 1900 over most of Europe and identify future large-scale range contractions and species extirpations under all future climate and land use change scenarios. Around 38–76% of studied European bumblebee species currently classified as ‘Least Concern’ are projected to undergo losses of at least 30% of ecologically suitable territory by 2061–2080 compared to 2000–2014. All scenarios highlight that parts of Scandinavia will become potential refugia for European bumblebees; it is however uncertain whether these areas will remain clear of additional anthropogenic stressors not accounted for in present models. Our results underline the critical role of global change mitigation policies as effective levers to protect bumblebees from manmade transformation of the biosphere.

Published
2023
Full Text
View/download PDF

17. The cephalic labial gland secretions of two socially parasitic bumblebees Bombus hyperboreus (Alpinobombus) and Bombus inexspectatus (Thoracobombus) question their inquiline strategy

Author

Brasero, N, Martinet, B, Lecocq, T, Lhomme, P, Biella, P, Valterova, I, Urbanova, K, Cornalba, M, Hines, H, Rasmont, P, Brasero N., Martinet B., Lecocq T., Lhomme P., Biella P., Valterova I., Urbanova K., Cornalba M., Hines H., Rasmont P., Brasero, N, Martinet, B, Lecocq, T, Lhomme, P, Biella, P, Valterova, I, Urbanova, K, Cornalba, M, Hines, H, Rasmont, P, Brasero N., Martinet B., Lecocq T., Lhomme P., Biella P., Valterova I., Urbanova K., Cornalba M., Hines H., and Rasmont P.

Abstract

Social parasitic Hymenopterans have evolved morphological, chemical, and behavioral adaptations to overcome the sophisticated recognition and defense systems of their social host to invade host nests and exploit their worker force. In bumblebees, social parasitism appeared in at least 3 subgenera independently: in the subgenus Psithyrus consisting entirely of parasitic species, in the subgenus Alpinobombus with Bombus hyperboreus, and in the subgenus Thoracobombus with B. inexspectatus. Cuckoo bumblebee males utilize species-specific cephalic labial gland secretions for mating purposes that can impact their inquiline strategy. We performed cephalic labial gland secretions in B. hyperboreus, B. inexspectatus and their hosts. Males of both parasitic species exhibited high species specific levels of cephalic gland secretions, including different main compounds. Our results showed no chemical mimicry in the cephalic gland secretions between inquilines and their host and we did not identify the repellent compounds already known in other cuckoo bumblebees.

Published
2018

18. Following the cold: geographical differentiation between interglacial refugia and speciation in the arcto-alpine species complex Bombus monticola (Hymenoptera: Apidae)

Author

Martinet, B, Lecocq, T, Brasero, N, Biella, P, Urbanova, K, Valterova, I, Cornalba, M, Gjershaug, J, Michez, D, Rasmont, P, Martinet B., Lecocq T., Brasero N., Biella P., UrbanovA K., ValterovA I., Cornalba M., Gjershaug J. O., Michez D., Rasmont P., Martinet, B, Lecocq, T, Brasero, N, Biella, P, Urbanova, K, Valterova, I, Cornalba, M, Gjershaug, J, Michez, D, Rasmont, P, Martinet B., Lecocq T., Brasero N., Biella P., UrbanovA K., ValterovA I., Cornalba M., Gjershaug J. O., Michez D., and Rasmont P.

Abstract

Cold-adapted species are expected to have reached their largest distribution range during a part of the Ice Ages whereas postglacial warming has led to their range contracting toward high-latitude and high-altitude areas. This has resulted in an extant allopatric distribution of populations and possibly to trait differentiations (selected or not) or even speciation. Assessing inter-refugium differentiation or speciation remains challenging for such organisms because of sampling difficulties (several allopatric populations) and disagreements on species concept. In the present study, we assessed postglacial inter-refugia differentiation and potential speciation among populations of one of the most common arcto-alpine bumblebee species in European mountains, Bombus monticola Smith, 1849. Based on mitochondrial DNA/nuclear DNA markers and eco-chemical traits, we performed integrative taxonomic analysis to evaluate alternative species delimitation hypotheses and to assess geographical differentiation between interglacial refugia and speciation in arcto-alpine species. Our results show that trait differentiations occurred between most Southern European mountains (i.e. Alps, Balkan, Pyrenees, and Apennines) and Arctic regions. We suggest that the monticola complex actually includes three species: B. konradini stat.n. status distributed in Italy (Central Apennine mountains), B. monticola with five subspecies, including B. monticola mathildis ssp.n. distributed in the North Apennine mountains; and B. lapponicus. Our results support the hypothesis that post-Ice Age periods can lead to speciation in cold-adapted species through distribution range contraction. We underline the importance of an integrative taxonomic approach for rigorous species delimitation, and for evolutionary study and conservation of taxonomically challenging taxa.

Published
2018

19. Adding attractive semio-chemical trait refines the taxonomy of Alpinobombus (Hymenoptera: Apidae)

Author

Martinet, B, Brasero, N, Lecocq, T, Biella, P, Valterova, I, Michez, D, Rasmont, P, Martinet B., Brasero N., Lecocq T., Biella P., Valterova I., Michez D., Rasmont P., Martinet, B, Brasero, N, Lecocq, T, Biella, P, Valterova, I, Michez, D, Rasmont, P, Martinet B., Brasero N., Lecocq T., Biella P., Valterova I., Michez D., and Rasmont P.

Abstract

Species taxonomy of bumblebees (Bombus Latreille, 1802) is well known to be problematic due to a potentially high intra-specific variability of morphological traits while different species can converge locally to the same color pattern (cryptic species). Assessing species delimitation remains challenging because it requires to arbitrarily select variable traits whose accuracy continues to be debated. Integrative taxonomic approach seems to be very useful for this group as different independent traits are assessed to propose a rational taxonomic hypothesis. Among operational criteria to assess specific status, the reproductive traits involved in the pre-mating recognition (i.e., the male cephalic labial gland secretions, CLGS) have been premium information. Since these secretions are supposed to be species-specific, these chemical traits can bring essential information where species delimitation is debated. Here, we describe and compare the CLGS of 161 male specimens of nine Alpinobombus taxa: alpinus, balteatus, helleri, hyperboreus, kirbiellus, natvigi, neoboreus, polaris, and pyrrhopygus. We aim also to test the congruence between this new information (reproductive traits) and published genetic dataset. Our results emphasized six distinct groups with diagnostic major compounds: (a) alpinus + helleri with hexadec-9-en-1-ol; (b) polaris + pyrrhopygus with two major compounds hexadec-9-en-1-ol and hexadec-9-enal; (c) balteatus with tetradecyl acetate; (d) kirbiellus with geranyl geranyl acetate; (e) hyperboreus + natvigi with octadec-11-en-1-ol; (f) neoboreus with octadec-9-en-1-ol. Based on this new information, we can confirm the species status of B. alpinus, B. balteatus, B. hyperboreus, B. kirbiellus, B. neoboreus, and B. polaris. We also confirm the synonymy of helleri (Alps) with alpinus (Sweden). However, the specific status of natvigi (Alaska) and pyrrhopygus (Sweden) is questionable and these taxa do not have specific CLGS composition.

Published
2018

20. Distribution patterns of the cold adapted bumblebee Bombus alpinus in the Alps and hints of an uphill shift (Insecta: Hymenoptera: Apidae)

Author

Biella, P, Bogliani, G, Cornalba, M, Manino, A, Neumayer, J, Porporato, M, Rasmont, P, Milanesi, P, Biella P., Bogliani G., Cornalba M., Manino A., Neumayer J., Porporato M., Rasmont P., Milanesi P., Biella, P, Bogliani, G, Cornalba, M, Manino, A, Neumayer, J, Porporato, M, Rasmont, P, Milanesi, P, Biella P., Bogliani G., Cornalba M., Manino A., Neumayer J., Porporato M., Rasmont P., and Milanesi P.

Abstract

Climate change is threatening species and habitats. Altitudinal shifts uphill and negative population trends are commonly observed in altitude-related taxa. The bumblebee Bombus alpinus (Linnaeus, 1758) has a disjoint distribution restricted to Fennoscandia and the Alps, and is considered threatened. We studied the ecology and distribution of B. alpinus in the Alps, where the endemic subspecies Bombus alpinus helleri Dalla Torre 1882 is found, as a case-model because of its rarity, habitat, and mutual dependence with the ecosystem for pollination and resources. We developed species distribution models including both climatic and habitat variables to obtain the surface suitable for this subspecies and quantified its protected portion. Our analyses indicate that this bumblebee is restricted to the upper altitudes and has a narrow niche mainly related to the presence of glaciers, the cool temperature, a low temperature variation, and a specific range of precipitation. A strong altitudinal shift is also taking place probably due to climate change. After years of no changes in altitudinal distribution, its lowest altitudinal limit has moved up 479 m since the year 1984, while its upper altitudinal limit has remained unchanged. Over half of the suitable area in the Alps is included within protected areas, but conservation has not been planned yet. However, rare species with narrow niche, such as B. alpinus, are highly threatened by climate change. Potential short-term mitigation actions are discussed, including exchange of males between locations and integral protection of prairies in the vicinity of glaciers.

Published
2017

21. Morphometric analysis of fossil bumble bees (Hymenoptera, Apidae, Bombini) reveals their taxonomic affinities

Author

Dehon M, Engel MSAUID- ORCID: 0000-0003-3067-077X, Gérard M, Aytekin AM, Ghisbain G, Williams PH, Rasmont P, and Michez DAUID- ORCID: 0000-0001-8880-1838

Abstract

Bumble bees (Bombus spp.) are a widespread corbiculate lineage (Apinae: Corbiculata: Bombini), mostly found among temperate and alpine ecosystems. Approximately 260 species have been recognized and grouped recently into a simplified system of 15 subgenera. Most of the species are nest-building and primitively eusocial. Species of Bombus have been more intensely studied than any other lineages of bees with the exception of the honey bees. However, most bumble bee fossils are poorly described and documented, making their placement relative to other Bombus uncertain. A large portion of the known and presumed bumble bee fossils were re-examined in an attempt to better understand their affinities with extant Bombini. The taxonomic affinities of fossil specimens were re-assessed based on morphological features and previous descriptions, and for 13 specimens based on geometric morphometrics of forewing shape. None of the specimens coming from Eocene and Oligocene deposits were assigned within the contemporary shape space of any subgenus of Bombus. It is shown that Calyptapis florissantensis Cockerell, 1906 (Eocene-Oligocene boundary, Florissant shale, Colorado, USA) and Oligobombus cuspidatus Antropov, 2014 (Late Eocene, Bembridge Marls) likely belong to stem-group Bombini. Bombus anacolus Zhang, 1994, B. dilectus Zhang, 1994, B. luianus Zhang, 1990 (Middle Miocene, Shanwang Formation), as well as B. vetustus Rasnitsyn & Michener, 1991 (Miocene, Botchi Formation) are considered as species inquirenda. In the Miocene, affinities of fossils with derived subgenera of Bombus s. l. increased, and some are included in the shape space of contemporary subgenera: Cullumanobombus (i.e., B. pristinus Unger, 1867, B. randeckensis Wappler & Engel, 2012, and B. trophonius Prokop, Dehon, Michez & Engel, 2017), Melanobombus (i.e., B. cerdanyensis Dehon, De Meulemeester & Engel, 2014), and Mendacibombus (i.e., B. beskonakensis (Nel & Petrulevičius, 2003), new combination), agreeing with previous estimates of diversification.

Published
2019

22. Integrating intraspecific differentiation in species distribution models: Consequences on projections of current and future climatically suitable areas of species

Author

Lecocq, T., Harpke, Alexander, Rasmont, P., Schweiger, Oliver, Lecocq, T., Harpke, Alexander, Rasmont, P., and Schweiger, Oliver

Abstract

Aim Conventional species distribution models (SDMs) usually focus on the species level but disregard intraspecific variability. Phylogeographic structure and evolutionary significant units (ESU) have been proposed as pragmatic proxies to incorporate intraspecific differentiation in SDMs. Nevertheless, the efficiency of using these proxies in SDMs has been poorly investigated. We analysed how the projections of current and future climatically suitable areas can be affected when using ESU‐based or lineage‐based models compared to a species‐level model. Location West‐Palaearctic region. Methods As examples, we used three bumblebee species (133,787 observations). We assessed potential climatic niche differentiation between species level, lineages and ESUs, by determining the niche position and niche breadth for each classification level by outlying mean index analyses. Subsequently, we developed SDMs for each species and classification level separately using boosted regression trees prior to a comparison of their performances. Finally, we used the alternative models to project the extent of climatically suitable areas in 2070. Results We found that in spite of highly similar overall model accuracy, integrating intraspecific variability significantly increases model sensitivity (i.e., better predicting presences) while decreased model specificity (i.e., over‐predicting the range). Consequently, both predictions of current and projections of future suitable conditions differed among the three approaches. Main conclusions We showed that although integrating lineage or ESU information did not improve the accuracy of conventional species‐level SDMs, it led to considerably different conclusions. As SDM‐based climatic risk assessments are increasingly used to help and improve conservation plans, divergences and limitations of each modelling approach should be taken into account for developing efficient biodiversity management strategies. Lineage and ESU‐based SDMs offer the ad

Published
2019

23. Minimising risks of global change by enhancing resilience of pollinators in agricultural systems

Author

Schröter, M., Bonn, A., Klotz, S., Seppelt, R., Baessler, C., Schweiger, Oliver, Franzén, M., Frenzel, Mark, Galpern, P., Kerr, J., Papanikolaou, Alexandra, Rasmont, P., Schröter, M., Bonn, A., Klotz, S., Seppelt, R., Baessler, C., Schweiger, Oliver, Franzén, M., Frenzel, Mark, Galpern, P., Kerr, J., Papanikolaou, Alexandra, and Rasmont, P.

Abstract

Pollination of wild and crop plants by animal pollinators is a key ecosystem service that is important to human welfare. Across Europe, climatic conditions are the most important drivers of occurrence and richness of pollinators followed by land cover and soil conditions. However, the example of recent range shifts of important pollinators such as the bumblebees shows that northern range expansions can be limited while southern range contractions can be considerable, leading to severe consequences under future scenarios. The way we utilize our landscape is a likely reason for such strong effects since the response to changing temperature conditions strongly depends on the amount of semi-natural area available in a landscape. In particular, the number of bee species is less sensitive to increasing temperatures when the amount of semi-natural habitat is high, while species richness drastically declines in intensively used agricultural landscapes and even more so with increasing temperatures. Such interactive effects of major drivers of global change bear a big chance for enhancing resilience in pollinator communities and thus in food production systems, e.g. by increasing the amount of semi-natural habitat as is the goal of the EU strategy for Green Infrastructure and some of the regulations in the EU Common Agricultural Policy (CAP).

Published
2019

24. Patterns of size variation in bees at a continental scale: does Bergmann’s rule apply?

Author

Gérard, M., Vanderplanck, M., Franzén, Markus, Kuhlmann, M., Potts, S.G., Rasmont, P., Schweiger, Oliver, Michez, D., Gérard, M., Vanderplanck, M., Franzén, Markus, Kuhlmann, M., Potts, S.G., Rasmont, P., Schweiger, Oliver, and Michez, D.

Abstract

Body size latitudinal clines have been widley explained by the Bergmann’s rule in homeothermic vertebrates. However, there is no general consensus in poikilotherms organisms in particular in insects that represent the large majority of wildlife. Among them, bees are a highly diverse pollinators group with high economic and ecological value. Nevertheless, no comprehensive studies of species assemblages at a phylogenetically larger scale have been carried out even if they could identify the traits and the ecological conditions that generate different patterns of latitudinal size variation. We aimed to test Bergmann’s rule for wild bees by assessing relationships between body size and latitude at continental and community levels. We tested our hypotheses for bees showing different life history traits (i.e. sociality and nesting behaviour). We used 142 008 distribution records of 615 bee species at 50 x 50 km (CGRS) grids across the West Palearctic. We then applied generalized least squares fitted linear model (GLS) to assess the relationship between latitude and mean body size of bees, taking into account spatial autocorrelation. For all bee species grouped, mean body size increased with higher latitudes, and so followed Bergmann’s rule. However, considering bee genera separately, four genera were consistent with Bergmann’s rule, while three showed a converse trend, and three showed no significant cline. All life history traits used here (i.e. solitary, social and parasitic behaviour; ground and stem nesting behaviour) displayed a Bergmann’s cline. In general there is a main trend for larger bees in colder habitats, which is likely to be related to their thermoregulatory abilities and partial endothermy, even if a ‘season length effect’ (i.e. shorter foraging season) is a potential driver of the converse Bergmann’s cline particularly in bumblebees.

Published
2018

25. Plant-insect interactions in a changing world

Author

Pincebourde, S., van Baaren, J., Rasmann, S., Rasmont, P., Rodet, G., Martinet, B., Calatayud, Paul-André, Sauvion, N. (ed.), Thiéry, D. (ed.), and Calatayud, Paul-André (ed.)

Subjects
fungi, food and beverages, sense organs, skin and connective tissue diseases
Abstract

Global change is resetting the spatial and ecological equilibrium of complex co-evolutionary relationships between plants and their insect herbivores. We review the mechanisms at play in the responses of planteinsect interactions to global changes, including increased temperature and atmospheric CO2 concentrations, modification of land use and pollution. We distinguish between the direct effects of global changes on each partner from the indirect impacts on insects via the responses of plants. The indirect effects include a change in the nutritional quality of the plant tissues for herbivore insects, as well as a change in the microclimatic conditions at the leaf surface. Pollinators are involved in a close symbiotic relationship with their favourite plants, and any depression caused by climate stress can lead to pollination deficit. Pollinators are, indeed, quite sensitive to global changes. Furthermore, although species are connected by trophic links, all species respond differently to global changes. We highlight that more research is needed to elucidate the plant-mediated indirect effects of climate change on insects. Then, other human activities, such as land transformations and release of pollutants, are likely to modulate these links between climate and plant-insect relationships. We argue that predicting the net effect of global change on planteinsect relationships requires a comprehensive understanding of the mechanisms that modulate the interaction strength between the plants and the insects, rather than on focusing on each partner individually.

Published
2017

26. Ecological niche modelling and coalescent simulations to explore the recent geographical range history of five widespread bumblebee species in Europe

Author

Dellicour, Simon, Kastally, Cheldy, Varela, Sara, Michez, Denis, Rasmont, P., Mardulyn, Patrick, Lecoq, Thomas, Dellicour, Simon, Kastally, Cheldy, Varela, Sara, Michez, Denis, Rasmont, P., Mardulyn, Patrick, and Lecoq, Thomas

Abstract

Aim: Studying the changes in species ranges during the last glaciation event is an important step towards the understanding of the observed patterns of intra-specific genetic variability. We focused on bumblebees, an interesting biological model to address these questions because cold-adapted species are likely to have experienced different geographical range histories during the last glacial period compared to more commonly studied, strictly temperate, species. We investigated and compared historical hypotheses regarding the geographical range of five common and co-distributed West Palaearctic bumblebee species. Location: Europe, West Palaearctic. Methods: For each species, we inferred present and past (Last Glacial Maximum) distributions from species occurrence records, and present and past climatic data, using the ecological niche modelling (ENM) approach implemented in Maxent. Based on genetic data previously obtained from the sequencing of three gene fragments (mitochondrial locus COI and two nuclear loci EF-1α and PEPCK), we then compared global and local patterns of genetic variation using several summary statistics as well as a visual mapping of genetic variation. Finally, we used a spatially explicit model of DNA sequence coalescence to test and compare four evolutionary scenarios derived from ENM results and patterns of genetic diversity. Results: Ecological niche modelling results based on climatic data clearly suggested a range continuum in Europe during the last glaciation. Yet, the related evolutionary scenario involving such continuum was less supported than alternative scenarios involving a more fragmented distribution. Indeed, for the three out of five species for which genetic data allowed discriminating among tested scenarios, the scenario that included a fragmented range during the last glaciation was identified as the most likely. Main conclusions: Although ENM suggested that bumblebees would have maintained a range continuum across Europe durin, SCOPUS: ar.j, FLWIN, info:eu-repo/semantics/published

Published
2017

27. Impact of pollen resources drift on common bumblebees in NW Europe

Author

Roger, Nathalie N.R., Moerman, Romain, Carvalheiro Gigante, Luisa, Aguirre - Guitiérrez, Jesus, jacquemart, anne-laure, Kleijn, David, Lognay, Georges C., Moquet, Laura, Quinet, Muriel, Rasmont, P., Richel, A., Vanderplanck, Maryse, Michez, Denis, Roger, Nathalie N.R., Moerman, Romain, Carvalheiro Gigante, Luisa, Aguirre - Guitiérrez, Jesus, jacquemart, anne-laure, Kleijn, David, Lognay, Georges C., Moquet, Laura, Quinet, Muriel, Rasmont, P., Richel, A., Vanderplanck, Maryse, and Michez, Denis

Abstract

Several bee species are experiencing significant population declines. As bees exclusively rely on pollen for development and survival, such declines could be partly related to changes in their host plant abundance and quality. Here, we investigate whether generalist bumblebee species, with stable population trends over the past years, adapted their diets in response to changes in the distribution and chemical quality of their pollen resources. We selected five common species of bumblebee in NW Europe for which we had a precise description of their pollen diet through two time periods (‘prior to 1950’ and ‘2004–2005’). For each species, we assessed whether the shift in their pollen diet was related with the changes in the suitable area of their pollen resources. Concurrently, we evaluated whether the chemical composition of pollen resources changed over time and experimentally tested the impact of new major pollen species on the development of B. terrestris microcolonies. Only one species (i.e. B. lapidarius) significantly included more pollen from resources whose suitable area expanded. This opportunist pattern could partly explain the expansion of B. lapidarius in Europe. Regarding the temporal variation in the chemical composition of the pollen diet, total and essential amino acid contents did not differ significantly between the two time periods while we found significant differences among plant species. This result is driven by the great diversity of resources used by bumblebee species in both periods. Our bioassay revealed that the shift to new major pollen resources allowed microcolonies to develop, bringing new evidence on the opportunist feature of bumblebee in their diets. Overall, this study shows that the response to pollen resource drift varies among closely related pollinators, and a species-rich plant community ensures generalist species to select a nutrient-rich pollen diet., FLWIN, info:eu-repo/semantics/published

Published
2017

28. Potential for climate change driven spatial mismatches between apple crops and their wild bee pollinators at a continental scale.

Author

Marshall, Leon, Leclercq, Nicolas, Weekers, Timothy, El Abdouni, Insafe, Carvalheiro, Luísa G., Kuhlmann, Michael, Michez, Denis, Rasmont, Pierre, Roberts, Stuart P.M., Smagghe, Guy, Vandamme, Peter, Wood, Thomas, and Vereecken, Nicolas J.

Subjects
APPLE orchards, POLLINATORS, CLIMATE change, BEES, APPLE growing, GREEN infrastructure, ORCHIDS, APPLES
Abstract

• Key apple pollinating species contract their ranges under projected climate changes. • Widespread contractions are only projected under worst-case scenarios (RCP8.5). • Pollinator overlap with suitable apple growing conditions decreases. • Many species track suitable apple conditions, except under worst-case scenarios. • Range and overlap losses may reduce apple production in key producing nations. Visitation by wild bee species alongside managed pollinators is necessary to ensure consistent yields and fruit quality in apple fields. Wild bee species are vulnerable to several environmental changes. Climate change is expected to lead to broad-scale changes to wild bee distributions that will impact the service they provide as crop pollinators. We modelled selected wild bee species known to be important for apple production in Europe and we quantified the shifts in distribution range for these key apple-pollinating bee species (KABS) under three climate‌ change scenarios (RCP 2.6, 4.5 and 8.5) for 2041–2060 and 2061–2080. We compared species distribution maps (after the expected range changes) to the distribution of areas with suitable habitat for apple orchards and with national apple production statistics to estimate potential pollination service at the landscape scale. Overall, ‌KABS are widespread species found across Europe and while most species have projected range contractions, these contractions are limited (∼10% loss). Only under the worst-case climate change scenario (RCP8.5) do we project range contractions over 50% and only under RCP8.5 is the average loss of overlap between suitable apple conditions and KABS likely to decrease by over 10%. However, range contractions at the southern limit of many species' ranges mean that the potential impact of climate change on apple pollination is not evenly shared between apple producing countries; France and Italy for example are projected to have high range loss of KABS and loss in potential pollination service. Climate change is not the only threat to apple pollination and future pollination deficits will also depend on local orchard intensification and ecological infrastructure. Key changes to intensive, commercial apple orchards towards a more agroecological approach are needed to maintain a diverse wild bee community and apple production in areas that may become climatically unsuitable in the future. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

29. Ecological networks are more sensitive to plant than to animal extinction under climate change

Author

Schleuning, M., Fründ, J., Schweiger, Oliver, Welk, E., Albrecht, J., Albrecht, M., Beil, M., Benadi, G., Blüthgen, N., Bruelheide, H., Böhning-Gaese, K., Dehling, D.M., Dormann, Carsten, Exeler, N., Farwig, N., Harpke, Alexander, Hickler, T., Kratochwil, A., Kuhlmann, M., Kühn, Ingolf, Michez, D., Mudri-Stojnić, S., Plein, M., Rasmont, P., Schwabe, A., Settele, Josef, Vujić, A., Vujic, A., Weiner, C.N., Wiemers, Martin, Hof, Christian, Schleuning, M., Fründ, J., Schweiger, Oliver, Welk, E., Albrecht, J., Albrecht, M., Beil, M., Benadi, G., Blüthgen, N., Bruelheide, H., Böhning-Gaese, K., Dehling, D.M., Dormann, Carsten, Exeler, N., Farwig, N., Harpke, Alexander, Hickler, T., Kratochwil, A., Kuhlmann, M., Kühn, Ingolf, Michez, D., Mudri-Stojnić, S., Plein, M., Rasmont, P., Schwabe, A., Settele, Josef, Vujić, A., Vujic, A., Weiner, C.N., Wiemers, Martin, and Hof, Christian

Abstract

Impacts of climate change on individual species are increasingly well documented, but we lack understanding of how these effects propagate through ecological communities. Here we combine species distribution models with ecological network analyses to test potential impacts of climate change on >700 plant and animal species in pollination and seed-dispersal networks from central Europe. We discover that animal species that interact with a low diversity of plant species have narrow climatic niches and are most vulnerable to climate change. In contrast, biotic specialization of plants is not related to climatic niche breadth and vulnerability. A simulation model incorporating different scenarios of species coextinction and capacities for partner switches shows that projected plant extinctions under climate change are more likely to trigger animal coextinctions than vice versa. This result demonstrates that impacts of climate change on biodiversity can be amplified via extinction cascades from plants to animals in ecological networks.

Published
2016

30. Improving international trade regulation by considering intraspecific variation for invasion risk assessment of commercially traded species: The Bombus terrestris case

Author

Lecocq, T., Rasmont, P., Harpke, Alexander, Schweiger, Oliver, Lecocq, T., Rasmont, P., Harpke, Alexander, and Schweiger, Oliver

Abstract

International trade of species facilitates the establishment of nonnative organisms. Highlighting areas potentially suitable for invasive species (risk areas) allows for effective importation regulations to prevent the spread of and the potential damage caused by such species. Species distribution models (SDMs) are commonly used to predict risk areas but they usually disregard intraspecific differentiation and corresponding differences in climatic requirements. We used Bombus terrestris as an example of a commonly traded species and developed SDMs at the species- and subspecies-level to assess the value of subspecific information for risk area predictions. We show that species-level models are less efficient than subspecies-based SDMs and that risk areas differ considerably between subspecies. Therefore, the invasive potential of a species can depend on the subspecies imported and the particular climatic condition of the target area. This paves the way to novel policy-relevant guidelines to legislate for smart regulations instead of complete import interdictions.

Published
2015

31. Climate change impacts on bumblebees converge across continents

Author

Kerr, J.T., Pindar, A., Galpern, P., Packer, L., Potts, S.G., Roberts, S.M., Rasmont, P., Schweiger, Oliver, Colla, S.R., Richardson, L.L., Wagner, D.L., Gall, L.F., Sikes, D.S., Pantoja, A., Kerr, J.T., Pindar, A., Galpern, P., Packer, L., Potts, S.G., Roberts, S.M., Rasmont, P., Schweiger, Oliver, Colla, S.R., Richardson, L.L., Wagner, D.L., Gall, L.F., Sikes, D.S., and Pantoja, A.

Abstract

For many species, geographical ranges are expanding toward the poles in response to climate change, while remaining stable along range edges nearest the equator. Using long-term observations across Europe and North America over 110 years, we tested for climate change–related range shifts in bumblebee species across the full extents of their latitudinal and thermal limits and movements along elevation gradients. We found cross-continentally consistent trends in failures to track warming through time at species’ northern range limits, range losses from southern range limits, and shifts to higher elevations among southern species. These effects are independent of changing land uses or pesticide applications and underscore the need to test for climate impacts at both leading and trailing latitudinal and thermal limits for species.

Published
2015

32. Relocation risky for bumblebee colonies—Response. Letters

Author

Kerr, J.T., Pindar, A., Galpern, P., Packer, L., Potts, S.G., Roberts, S.M., Rasmont, P., Schweiger, Oliver, Colla, S.R., Richardson, L.L., Wagner, D.L., Gall, L.F., Sikes, D.S., Pantoja, A., Kerr, J.T., Pindar, A., Galpern, P., Packer, L., Potts, S.G., Roberts, S.M., Rasmont, P., Schweiger, Oliver, Colla, S.R., Richardson, L.L., Wagner, D.L., Gall, L.F., Sikes, D.S., and Pantoja, A.

Abstract

no abstract

Published
2015

35. Species richness declines and biotic homogenisation have slowed down for NW-European pollinators and plants

Author

Carvalheiro, L.G., Kunin, W.E., Keil, P., Aguirre-Gutiérrez, J., Ellis, W.N., Fox, R., Groom, Q., Hennekens, S.M., Van Landuyt, W., Maes, D., Van de Meutter, F., Michez, D., Rasmont, P., Ode, B., Potts, S.G., Reemer, M., Roberts, S.P.M., Schaminée, J., WallisDeVries, M.F., Biesmeijer, J.C., Carvalheiro, L.G., Kunin, W.E., Keil, P., Aguirre-Gutiérrez, J., Ellis, W.N., Fox, R., Groom, Q., Hennekens, S.M., Van Landuyt, W., Maes, D., Van de Meutter, F., Michez, D., Rasmont, P., Ode, B., Potts, S.G., Reemer, M., Roberts, S.P.M., Schaminée, J., WallisDeVries, M.F., and Biesmeijer, J.C.

Abstract

Item does not contain fulltext

Published
2013

36. Insect pollinators: linking research and policy

Author

Vanbergen, A.J., Ambrose, N., Aston, D., Biesmeijer, J.C., Bourke, A., Breeze, T., Brotherton, P., Brown, M., Chandler, D., Clook, M., Connolly, C.N., Costigan, P., Coulson, M., Cresswell, J., Dean, R., Dicks, L., Feliciolli, A., Foit, O., Gallai, N., Genersch, E., Gadfray, C., Grieg-Gran, M., Halstead, A., Harding, D., Harris, B., Hartfield, C., Heard, M.S., Herren, B., Howarth, J., Ings, T., Kleijn, D., Klein, A., Kunin, W.E., Lewis, G., MacEwen, A., Maus, C., McIntosh, L., Millar, N.S., Neumann, P., Ollerton, J., Olschewski, R., Osborne, J.L., Paxton, R.J., Pettis, J., Phillipson, B., Potts, S.G., Pywell, R., Rasmont, P., Roberts, S., Salles, J-M., Schweiger, O., Sima, P., Thompson, H., Titera, D., Vaissiere, B., van der Sluijs, J.P., Webster, S., Wentworth, J., Wright, G.A., Vanbergen, A.J., Ambrose, N., Aston, D., Biesmeijer, J.C., Bourke, A., Breeze, T., Brotherton, P., Brown, M., Chandler, D., Clook, M., Connolly, C.N., Costigan, P., Coulson, M., Cresswell, J., Dean, R., Dicks, L., Feliciolli, A., Foit, O., Gallai, N., Genersch, E., Gadfray, C., Grieg-Gran, M., Halstead, A., Harding, D., Harris, B., Hartfield, C., Heard, M.S., Herren, B., Howarth, J., Ings, T., Kleijn, D., Klein, A., Kunin, W.E., Lewis, G., MacEwen, A., Maus, C., McIntosh, L., Millar, N.S., Neumann, P., Ollerton, J., Olschewski, R., Osborne, J.L., Paxton, R.J., Pettis, J., Phillipson, B., Potts, S.G., Pywell, R., Rasmont, P., Roberts, S., Salles, J-M., Schweiger, O., Sima, P., Thompson, H., Titera, D., Vaissiere, B., van der Sluijs, J.P., Webster, S., Wentworth, J., and Wright, G.A.

Published
2012

37. Insect pollinators: linking research and policy

Author

Environmental Sciences, Dep Biologie, Section Environmental Sciences, Vanbergen, A.J., Ambrose, N., Aston, D., Biesmeijer, J.C., Bourke, A., Breeze, T., Brotherton, P., Brown, M., Chandler, D., Clook, M., Connolly, C.N., Costigan, P., Coulson, M., Cresswell, J., Dean, R., Dicks, L., Feliciolli, A., Foit, O., Gallai, N., Genersch, E., Gadfray, C., Grieg-Gran, M., Halstead, A., Harding, D., Harris, B., Hartfield, C., Heard, M.S., Herren, B., Howarth, J., Ings, T., Kleijn, D., Klein, A., Kunin, W.E., Lewis, G., MacEwen, A., Maus, C., McIntosh, L., Millar, N.S., Neumann, P., Ollerton, J., Olschewski, R., Osborne, J.L., Paxton, R.J., Pettis, J., Phillipson, B., Potts, S.G., Pywell, R., Rasmont, P., Roberts, S., Salles, J-M., Schweiger, O., Sima, P., Thompson, H., Titera, D., Vaissiere, B., van der Sluijs, J.P., Webster, S., Wentworth, J., Wright, G.A., Environmental Sciences, Dep Biologie, Section Environmental Sciences, Vanbergen, A.J., Ambrose, N., Aston, D., Biesmeijer, J.C., Bourke, A., Breeze, T., Brotherton, P., Brown, M., Chandler, D., Clook, M., Connolly, C.N., Costigan, P., Coulson, M., Cresswell, J., Dean, R., Dicks, L., Feliciolli, A., Foit, O., Gallai, N., Genersch, E., Gadfray, C., Grieg-Gran, M., Halstead, A., Harding, D., Harris, B., Hartfield, C., Heard, M.S., Herren, B., Howarth, J., Ings, T., Kleijn, D., Klein, A., Kunin, W.E., Lewis, G., MacEwen, A., Maus, C., McIntosh, L., Millar, N.S., Neumann, P., Ollerton, J., Olschewski, R., Osborne, J.L., Paxton, R.J., Pettis, J., Phillipson, B., Potts, S.G., Pywell, R., Rasmont, P., Roberts, S., Salles, J-M., Schweiger, O., Sima, P., Thompson, H., Titera, D., Vaissiere, B., van der Sluijs, J.P., Webster, S., Wentworth, J., and Wright, G.A.

Published
2012

38. Developing European conservation and mitigation tools for pollination services: approaches of the STEP (Status and Trends of European Pollinators) project

Author

Potts, S.G., Biesmeijer, J.C., Bommarco, R., Felicioli, A., Fischer, M., Jokinen, P., Kleijn, D., Klein, A.-M., Kunin, W.E., Neumann, P., Penev, L.D., Petanidou, T., Rasmont, P., Roberts, S.P.M., Smith, H.G., Sørensen, P.B., Steffan-Dewenter, I., Vaissière, B.E., Vilà, M., Vujić, A., Woyciechowski, M., Zobel, M., Settele, Josef, Schweiger, Oliver, Potts, S.G., Biesmeijer, J.C., Bommarco, R., Felicioli, A., Fischer, M., Jokinen, P., Kleijn, D., Klein, A.-M., Kunin, W.E., Neumann, P., Penev, L.D., Petanidou, T., Rasmont, P., Roberts, S.P.M., Smith, H.G., Sørensen, P.B., Steffan-Dewenter, I., Vaissière, B.E., Vilà, M., Vujić, A., Woyciechowski, M., Zobel, M., Settele, Josef, and Schweiger, Oliver

Abstract

Pollinating insects form a key component of European biodiversity, and provide a vital ecosystem service to crops and wild plants. There is growing evidence of declines in both wild and domesticated pollinators, and parallel declines in plants relying upon them. The STEP project (Status and Trends of European Pollinators, 2010-2015, www.stepproject.net) is documenting critical elements in the nature and extent of these declines, examining key functional traits associated with pollination deficits, and developing a Red List for some European pollinator groups. Together these activities are laying the groundwork for future pollinator monitoring programmes. STEP is also assessing the relative importance of potential drivers of pollinator declines, including climate change, habitat loss and fragmentation, agrochemicals, pathogens, alien species, light pollution, and their interactions. We are measuring the ecological and economic impacts of declining pollinator services and floral resources, including effects on wild plant populations, crop production and human nutrition. STEP is reviewing existing and potential mitigation options, and providing novel tests of their effectiveness across Europe. Our work is building upon existing and newly developed datasets and models, complemented by spatially-replicated campaigns of field research to fill gaps in current knowledge. Findings are being integrated into a policy-relevant framework to create evidence-based decision support tools. STEP is establishing communication links to a wide range of stakeholders across Europe and beyond, including policy makers, beekeepers, farmers, academics and the general public. Taken together, the STEP research programme aims to improve our understanding of the nature, causes, consequences and potential mitigation of declines in pollination services at local, national, continental and global scales.

Published
2011

40. Pheromonal and enzyme genetic characteristics of the Bombus lucorum species complex in northern Europe

Author

Pamilo, P, Tengö, J, Rasmont, P, Pirhonen, K, Pekkarinen, A, Kaarnama, E, Pamilo, P, Tengö, J, Rasmont, P, Pirhonen, K, Pekkarinen, A, and Kaarnama, E

Abstract

Spatial and temporal distribution of the species in the Bombus lucorum species complex, B. lucorum (L.), B. cryptarum (Fabricius) and B. magnus Vogt, were studied in Finland. Morphological distinction between the species is not as clear as in Central Euro, Addresses: Pamilo P, UPPSALA UNIV, DEPT GENET, BOX 7003, S-75007 UPPSALA, SWEDEN.

Published
1997

42. A failed invasion? Commercially introduced pollinators in Southern France.

Author

Thomas Ings, Nicola Ings, Lars Chittka, and Pierre Rasmont

Abstract

The natural diversity of Bombus terrestris subspecies could be under threat from the commercialisation of bumblebees. Therefore, to determine whether commercially imported bumblebees are able to establish and spread, we carried out long-term observations of bumblebees in southern France. Our surveys occurred before, during, and after the importation (between 1989 and 1996) of thousands of colonies of the Sardinian subspecies B.?t. sassaricus. Queens and males of B.?t. sassaricus were observed foraging outside commercial greenhouses in 1991, 1993, and 1994 and feral workers were observed foraging on native vegetation nearly two years after the importation of B.?t. sassaricus ceased. However, no B.?t. sassaricus, or F1 hybrids were observed after 1998. We conclude that B.?t. sassaricus remains inconspicuous in France and competition from the three native subspecies may have prevented it from becoming invasive. However, genetic interference through introgression cannot be ruled out. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

43. A survey and review of the status of wild bees in the West-Palaearctic region.

Author

S?bastien Patiny, Pierre Rasmont, and Denis Michez

Abstract

Bees (a.k.a. Apoidea Anthophila) are among the main pollinators in most ecosystems. The yearly value of the ecological services provided worldwide by pollinators reaches more than ? 150 billion. As in many other groups, the erosion of bee diversity is now a well-assessed reality. However, quantification of the phenomenon, including the assessment of its extent and severity has been lacking for a long time. In the West-Palaearctic, the decrease in wild bees has been highlighted in several studies over the last few decades. Specifically, the plight of a few populations of bees in Europe has been measured and assessed. In this paper, we review the state of the knowledge of bee diversity in the West-Palaearctic. We present the available resources usable for estimation of the extinction risk in West-Palaearctic bees. We also point out the work that is needed to outline a holistic picture of West-Palaearctic bee diversity. We conclude by suggesting that former initiatives should be integral in developing the framework of a subregion-wide monitoring program for bees. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

44. Phylogeny and host-plant evolution in Melittidae s.l. (Hymenoptera: Apoidea).

Author

Denis Michez, S?bastien Patiny, Pierre Rasmont, Kim Timmermann, and Nicolas Vereecken

Abstract

Bees and the angiosperms they pollinate have developed intimate and often complex interactions over the past 100?million years. As in other insect-plant interactions, host-plant specificity is variable among taxa. While many solitary bee species display an obvious preference for a narrow spectrum of host-plants (oligolecty), others regularly visit a diversified array of pollen hosts (polylecty). Few studies have examined the patterns of host-plant associations in bees using well-resolved phylogenies at the species level combined with accurate and quantitative data on host-plant preferences. In this study, we examined the evolution of bee-plant relationships in several genera of specialist (oligolectic) bees. We used the Melittidae?s.l. as a model taxon by mapping the preferred pollen hosts onto species-level phylogenies to investigate the frequency and pattern of host-plant switching. Our results suggest that host-plant associations are maintained over time in many lineages, but that host switches to unrelated plant families are also common. We find some evidence that host-switches occur more frequently to morphologically similar, rather than closely-related, host-plants suggesting that floral morphology plays a key role in host-plant evolution in bees. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

45. A simplified subgeneric classification of the bumblebees (genus Bombus).

Author

Paul Williams, Sydney Cameron, Heather Hines, Bjorn Cederberg, and Pierre Rasmont

Abstract

A system of subgenera has been widely used for nearly a century to communicate ideas of relationships among bumblebee species. However, with 38 subgenera in recent lists for about 250 species, the system has come to be seen as too complicated. In this paper we suggest four criteria to guide the process of simplifying the subgeneric system, so that ideally subgenera should become: (1) monophyletic; (2) fewer; (3) diagnosable from morphology; and (4) names for important behavioural and ecological groups. Using a new strongly-supported estimate of phylogeny for almost all bumblebee species, we apply these criteria to reduce the system to 15 subgenera, and we assess the consequences. Ten new subgeneric synonyms are recognised. Keys to identify adult bumblebees to the simplified subgenera are provided for both sexes. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

46. Cephalic secretions of the bumblebee subgenus Sibiricobombus Vogt suggest Bombus niveatus Kriechbaumer and Bombus vorticosus Gerstaecker are conspecific (Hymenoptera, Apidae, Bombus)

Author

Rasmont, Pierre PR, Terzo, Michaël MT, Aytekin, A AMA, Hines, Heather HH, Urbanova, Klara KU, Cahlikova, L LC, and Valterova, Irena IV

Abstract

Three taxa of the subgenus Sibiricobombus live in the Near-East mountain steppes: Bombus niveatus, B. sulfureus and B. vorticosus. The latter is also present in the Balkan. B. niveatus and B. vorticosus can only be distinguished based on color pattern. B. sulfureus differs in coat color and in genitalia. We identified 40 compounds in the secretions of the labial glands of these taxa, among which 7 were detected for the first time in labial cephalic gland secretions of bumblebee males. Whereas the secretions of the male cephalic labial glands of B. sulfureus are very different from those of B. niveatus and B. vorticosus, we found no significant difference between the latter. We conclude that B. sulfureus is a valid species, whereas B. vorticosus is a mere subspecies of B. niveatus: Bombus niveatus ssp. vorticosus Gerstaecker nov. status.

Published
2005
Full Text
View/download PDF

47. Bumblebee inquilinism in Bombus (Fernaldaepsithyrus)</it> sylvestris</it> (Hymenoptera, Apidae): behavioural and chemical analyses of host-parasite interactions

Author

Dronnet, Stéphanie, Simon, Xavier, Verhaeghe, Jean-Claude, Rasmont, Pierre, and Errard, Christine

Abstract

The bumblebee Bombus sylvestris is an obligate social inquiline of B. pratorum and nest-invading females are known to integrate themselves into host colonies, usually without any aggression. We investigated whether cuticular compounds could be involved in discrimination processes in common bumblebees, and whether they play a role in the social integration of inquilines in host nests. We tested nestmate recognition in B. terrestris workers, and analysed cuticular chemical profiles of hairs taken from allocolonial individuals. Bumblebees belonging to the same colony shared a common odour. Then, we investigated how B. sylvestris females integrated into colonies of natural and non-natural hosts, B. pratorum and B. terrestris, respectively. Inquiline females apparently succeeded in entering a host colony by expressing non-aggressive behaviours and had no chemical signature; subsequently, acquisition of a chemical signature similar to the host colony might facilitate their integration into the host nest.

Published
2005

48. Intra and interspecific variability of the cephalic labial glands' secretions in male bumblebees: the case of Bombus (Thoracobombus) ruderarius</it> and B. (Thoracobombus) sylvarum</it> [Hymenoptera, Apidae]

Author

Terzo, Michaël, Urbanova, Klara, Valterova, Irena, and Rasmont, Pierre

Abstract

According to the species recognition concept of Paterson, the analyses of the secretions of the cephalic parts of the male labial glands confirm the conspecificity of Bombus (Thoracobombus) ruderarius ruderarius and B. (T.) r. montanus populations from the Pyrenees. These secretions were compared in B. ruderarius and B. sylvarum. We identified the same 7 major compounds as previously known for these species. We also identified 69 minor compounds. These minor compounds emphasise the close relationship between both species. Principal Component Analyses (PCA) were carried out on standardised peak areas of GC-MS chromatograms. The first PCA component is discriminant and shows no overlap between both species. Their secretions differ mostly by the relative concentration of their compounds rather than by their qualitative composition. On the contrary, PCA is unable to separate montanus from ruderarius. The larger variance in the secretions of B. ruderarius results from the very low concentration of the main compound (9-hexadecenol) in some specimens.

Published
2005

Catalog

Books, media, physical & digital resources
See catalog results