Your search keyword '"Brasero, N"' showing total 17 results

1. Distant but related: genetic structure in the circum-boreal bumblebee Bombus jonellus (Kirby, 1802)

Author

Martinet, B., Ghisbain, G., Przybyla, K., Zambra, E., Brasero, N., Kondakov, A. V., Tomilova, A. A., Kolosova, Y. S., Bolotov, I. N., Rasmont, P., and Potapov, G.

Published

2021

2. 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

3. 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

4. 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

5. 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

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

Subjects

Pollinator, Bombus monticola, Integrated taxonomy, DNA barcoding, Bumblebee, Endemism

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

7. An integrative taxonomic approach to assess the status of Corsican bumblebees: implications for conservation

Author

Lecocq, T., Brasero, N., De Meulemeester, T., Michez, D., Dellicour, S., Lhomme, P., de Jonghe, R., Valterová, I., Urbanová, K., Rasmont, P., Unité de Recherches Animal et Fonctionnalités des Produits Animaux (URAFPA), Université de Lorraine (UL)-Institut National de la Recherche Agronomique (INRA), Laboratoire de Zoologie [Mons], University of Mons [Belgium] (UMONS), Abeilles et Environnement (AE), Institut National de la Recherche Agronomique (INRA)-Avignon Université (AU), Avignon Université (AU)-Institut National de la Recherche Agronomique (INRA), and Institut National de la Recherche Agronomique (INRA)-Université de Lorraine (UL)

Subjects

[SDE.BE]Environmental Sciences/Biodiversity and Ecology, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2015

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

Author

MARTINET, B. A. P. T. I. S. T. E., LECOCQ, T. H. O. M. A. S., BRASERO, N. I. C. O. L. A. S., BIELLA, P. A. O. L. O., URBANOVÁ, KLÁRA, VALTEROVÁ, I. R. E. N. A., CORNALBA, M. A. U. R. I. Z. I. O., GJERSHAUG, J. A. N. O. V. E., MICHEZ, D. E. N. I. S., and RASMONT, P. I. E. R. R. E.

Subjects

SPECIES distribution, DISPERSAL (Ecology), SYMPATRIC speciation, BIODIVERSITY, MITOCHONDRIAL DNA

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. [ABSTRACT FROM AUTHOR]

Published

2018

9. An integrative taxonomic approach to assess the status of Corsican bumblebees: implications for conservation

Author

Lecocq, T., primary, Brasero, N., additional, De Meulemeester, T., additional, Michez, D., additional, Dellicour, S., additional, Lhomme, P., additional, de Jonghe, R., additional, Valterová, I., additional, Urbanová, K., additional, and Rasmont, P., additional

Published

2014

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

Author

Baptiste Martinet, Irena Valterová, Paul H. Williams, Pierre Rasmont, Paolo Biella, Denis Michez, Nicolas Brasero, Thomas Lecocq, Guillaume Ghisbain, Alireza Monfared, Brasero, N, Ghisbain, G, Lecocq, T, Michez, D, Valterova, I, Biella, P, Monfared, A, Williams, P, Rasmont, P, Martinet, B, Laboratoire de Zoologie [Mons], University of Mons [Belgium] (UMONS), Unité de Recherches Animal et Fonctionnalités des Produits Animaux (URAFPA), Université de Lorraine (UL)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences (IOCB / CAS), Czech Academy of Sciences [Prague] (CAS), Czech University of Life Sciences Prague (CZU), Dipartimento di Biotecnologie e Bioscienze = Department of Biotechnology and Biosciences [Milano-Bicocca] (BTBS), Università degli Studi di Milano-Bicocca = University of Milano-Bicocca (UNIMIB), Yasouj university, The Natural History Museum [London] (NHM), Biologie environnementale et évolutive (URBE), Département de Biologie, Université de Namur [Namur] (UNamur)-Université de Namur [Namur] (UNamur), and European Project: 244090,EC:FP7:ENV,FP7-ENV-2009-1,STEP(2010)

Subjects

Species complex, [SDE.MCG]Environmental Sciences/Global Changes, DNA sequence, Zoology, [SDV.SA.ZOO]Life Sciences [q-bio]/Agricultural sciences/Zootechny, DNA sequences, Biology, male marking secretion, [SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics, Phylogenetics and taxonomy, DNA sequencing, Bombu, [SDV.EE.ECO]Life Sciences [q-bio]/Ecology, environment/Ecosystems, [SDV.BA.ZV]Life Sciences [q-bio]/Animal biology/Vertebrate Zoology, Genetics, Molecular Biology, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, integrative taxonomy, cryptic species, [SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], %22">Bombus , Bombus, [SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, [SDV.SA.SPA]Life Sciences [q-bio]/Agricultural sciences/Animal production studies, [SDV.SA.STP]Life Sciences [q-bio]/Agricultural sciences/Sciences and technics of fishery, cryptic specie, Animal Science and Zoology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

International audience; 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

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

Author

Thomas Lecocq, Paolo Biella, Denis Michez, Pierre Rasmont, Nicolas Brasero, Baptiste Martinet, Irena Valterová, Laboratoire de Zoologie [Mons], University of Mons [Belgium] (UMONS), Unité de Recherches Animal et Fonctionnalités des Produits Animaux (URAFPA), Institut National de la Recherche Agronomique (INRA)-Université de Lorraine (UL), University of South Bohemia, Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences (IOCB / CAS), Czech Academy of Sciences [Prague] (CAS), European Union's Horizon 2020 project INTERACT (730938), Czech Science Foundation (GACR GP14-10035P), University of South Bohemia (GA JU 152/2016/P), European Project: 0730938(2007), Université de Mons (UMons), Université de Lorraine (UL)-Institut National de la Recherche Agronomique (INRA), laboratoire de Zoologie, Université de Mons-Hainaut, Institute of Organic Chemistry and Biochemistry, Czech Academy of Sciences [Prague] (ASCR), Martinet, B, Brasero, N, Lecocq, T, Biella, P, Valterova, I, Michez, D, and Rasmont, P

Subjects

0106 biological sciences, 0301 basic medicine, Entomology, Species complex, taxonomie, [SDV]Life Sciences [q-bio], trait fonctionnel, Zoology, species, Hymenoptera, [SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics, Phylogenetics and taxonomy, 010603 evolutionary biology, 01 natural sciences, chemical trait, specie, bumblebees, species, cephalic labial gland secretions, arcto-alpine distribution, chemical trait, Alpinobombus, taxonomy, apidae, 03 medical and health sciences, apidae, taxonomie, trait fonctionnel, sécrétion glandulaire, taxonomy, cephalic labial gland secretions, cephalic labial gland secretion, Invertebrate Zoology, bumblebees, arcto-alpine distribution, Alpinobombus, sécrétion glandulaire, biology, Apidae, bumblebee, biology.organism_classification, Zoologie des invertébrés, 030104 developmental biology, Taxon, Insect Science, Trait, Taxonomy (biology)

Abstract

International audience; AbstractSpecies 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

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

Author

Brasero, Nicolas, Martinet, Baptiste, Lecocq, Thomas, Lhomme, Patrick, Biella, Paolo, Valterova, Irena, Urbanová, Klára, Cornalba, Maurizio, Hines, Heather, Rasmont, Pierre, Université de Mons (UMons), Unité de Recherches Animal et Fonctionnalités des Produits Animaux (URAFPA), Institut National de la Recherche Agronomique (INRA)-Université de Lorraine (UL), Laboratoire de Zoologie (Research Institute of Biosciences), University of South Bohemia, Institute of Organic Chemistry and Biochemistry, Czech Academy of Sciences [Prague] (ASCR), Università di Pavia, laboratoire de Zoologie, Université de Mons-Hainaut, Laboratoire de Zoologie [Mons], University of Mons [Belgium] (UMONS), Pennsylvania State University (Penn State), Penn State System, Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences (IOCB / CAS), Czech Academy of Sciences [Prague] (CAS), Università degli Studi di Pavia, Brasero, N, Martinet, B, Lecocq, T, Lhomme, P, Biella, P, Valterova, I, Urbanova, K, Cornalba, M, Hines, H, Rasmont, P, Università degli Studi di Pavia = University of Pavia (UNIPV), and European Project: 244090,EC:FP7:ENV,FP7-ENV-2009-1,STEP(2010)

Subjects

Male, Social parasitism, Animal, Bombus inexspectatus, [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], inquiline strategy, bumblebee, Bees, Bombus hyperboreus, Bombus inexspectatu, Animal Communication, bumblebees, Exocrine Glands, cephalic labial gland secretions, cephalic labial gland secretion, Animals, Female, Bombus hyperboreu, Social Behavior, Bee, ComputingMilieux_MISCELLANEOUS, Exocrine Gland

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

13. Sexual attraction: a review of bumblebee male pheromones.

Author

Valterová I, Martinet B, Michez D, Rasmont P, and Brasero N

Subjects

Animals, Bees genetics, Bees physiology, Evolution, Molecular, Female, Male, Sex Attractants chemistry, Bees metabolism, Sex Attractants metabolism, Sexual Behavior, Animal

Abstract

Males of many bumblebee species exhibit a conspicuous pre-mating behavior with two distinct behavioral components: scent marking and patrol flying. The marking pheromone is produced by the cephalic part of the labial gland (CLG). As far as is known, the CLG secretion is species specific, and it usually consists of two types of compounds: (i) straight-chain aliphatic alcohols, aldehydes or esters, and (ii) acyclic mono-, sesqui- and diterpenes (alcohols or acetates). Here, we summarize data from the literature reporting chemical composition of the CLG secretions of more than 80 bumblebee species. Similarities and differences within and between subgenera are discussed in the context of biosynthetic pathways and evolution.

Published

2019

14. 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, Valterová I, Urbanová K, Cornalba M, Hines H, and Rasmont P

Subjects

Animals, Female, Male, Animal Communication, Bees chemistry, Exocrine Glands metabolism, Social Behavior

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., (© 2016 Institute of Zoology, Chinese Academy of Sciences.)

Published

2018

15. Variability in Sexual Pheromones Questions their Role in Bumblebee Pre-Mating Recognition System.

Author

Brasero N, Lecocq T, Martinet B, Valterová I, Urbanová K, de Jonghe R, and Rasmont P

Subjects

Animals, Bees metabolism, Exocrine Glands chemistry, Exocrine Glands metabolism, Female, Gas Chromatography-Mass Spectrometry, Male, Principal Component Analysis, Sex Attractants analysis, Bees chemistry, Sex Attractants chemistry

Abstract

Sex-specific chemical secretions have been widely used as diagnostic characters in chemotaxonomy. The taxonomically confused group of bumblebees has reaped the benefit of this approach through the analyses of cephalic labial gland secretions (CLGS). Most of currently available CLGS descriptions concern species from the West-Palearctic region but few from the New World. Here, the CLGS of four East-Palearctic species Bombus deuteronymus, B. filchnerae, B. humilis, and B. exil (subgenus Thoracobombus) are analysed. Our results show high levels of variability in the major compounds in B. exil. In contrast, we describe a low differentiation in CLGS compounds between B. filchnerae and its phylogenetically closely related taxon B. muscorum. Moreover, the chemical profiles of B. filchnerae and B. muscorum are characterized by low concentrations of the C16 component, which is found in higher concentrations in the other Thoracobombus species. This raises the possibility that courtship behavior as well as environmental constraints could affect the role of the bumblebee males' CLGS.

Published

2018

16. Chemical reproductive traits of diploid Bombus terrestris males: Consequences on bumblebee conservation.

Author

Lecocq T, Gérard M, Maebe K, Brasero N, Dehon L, Smagghe G, Valterová I, De Meulemeester T, Rasmont P, and Michez D

Subjects

Animals, Conservation of Natural Resources, Female, Inbreeding, Male, Sexual Behavior, Animal physiology, Bees genetics, Bees metabolism, Ploidies, Scent Glands metabolism, Sex Attractants chemistry

Abstract

The current bumblebee decline leads to inbreeding in populations that fosters a loss of allelic diversity and diploid male production. As diploid males are viable and their offspring are sterile, bumblebee populations can quickly fall in a vortex of extinction. In this article, we investigate for the first time a potential premating mechanism through a major chemical reproductive trait (male cephalic labial gland secretions) that could prevent monandrous virgin queens from mating with diploid males. We focus our study on the cephalic labial gland secretions of diploid and haploid males of Bombus terrestris (L.). Contrary to initial expectations, our results do not show any significant differentiation of cephalic labial gland secretions between diploid and haploid specimens. Queens seem therefore to be unable to avoid mating with diploid males based on their compositions of cephalic labial gland secretions. This suggests that the vortex of extinction of diploid males could not be stopped through premating avoidance based on the cephalic labial gland secretions but other mechanisms could avoid mating between diploid males and queens., (© 2016 Institute of Zoology, Chinese Academy of Sciences.)

Published

2017

17. First Chemical Analysis and Characterization of the Male Species-Specific Cephalic Labial-Gland Secretions of South American Bumblebees.

Author

Brasero N, Martinet B, Urbanová K, Valterová I, Torres A, Hoffmann W, Rasmont P, and Lecocq T

Subjects

Animals, Male, South America, Species Specificity, Bees metabolism, Scent Glands metabolism, Sex Attractants chemistry

Abstract

The evolution of signals and reproductive traits involved in the pre-mating recognition has been in focus of abundant research in several model species, such as bumblebees (genus Bombus). However, the most-studied bumblebee reproductive trait, the male cephalic labial gland secretions (CLGS), remains unknown among bumblebee species from South America. In this study, the CLGS of five South American bumblebees of the subgenera Thoracobombus (Bombus excellens and B. atratus) and Cullumanobombus (B. rubicundus, B. hortulanus, and B. melaleucus) were investigated, by comparing the chemical compositions of their secretions to those of closely related European species. The results showed an obvious interspecific differentiation in both subgenera. The interspecific differentiation among the species of the Thoracobombus subgenus involved different compounds present at high contents (main compounds), while those of the Cullumanobombus subgenus shared the same main components. This suggests that among the species of the Cullumanobombus subgenus, the differentiation in minor components could lead to species discrimination., (Copyright © 2015 Verlag Helvetica Chimica Acta AG, Zürich.)

Published

2015