Your search keyword '"Molfini, M."' showing total 20 results

1. A preliminary prioritized list of Italian alien terrestrial invertebrate species

Author

Molfini, M., Zapparoli, M., Genovesi, P., Carnevali, L., Audisio, P., Di Giulio, A., and Bologna, M. A.

Published

2020

2. Exploring the canthariphilous species of the Tolfa Mountains (Latium, Central Italy): taxonomic diversity, phenology, and putative sources of cantharidin

Author

Molfini, M., primary, Nardi, G., additional, Gwizdalska-Kentzer, M., additional, Mancini, E., additional, Di Giulio, A., additional, Szadziewski, R., additional, and Bologna, M. A., additional

Published

2023

3. A new canthariphilous species of the genus Atrichopogon Kieffer, 1906 from central Italy (Diptera: Ceratopogonidae)

Author

Szadziewski, R., primary, Gwizdalska-Kentzer, M., additional, Bologna, M. A., additional, and Molfini, M., additional

Published

2022

4. A new canthariphilous species of the genus AtrichopogonKieffer, 1906 from central Italy (Diptera: Ceratopogonidae)

Author

Szadziewski, R., Gwizdalska-Kentzer, M., Bologna, M. A., and Molfini, M.

Abstract

AbstractThe new species Atrichopogon(Atrichopogon) tolfensisn. sp. from Tolfa Mountains (Italy, Latium, and Rome) is described and illustrated. Both sexes of the species were collected using cantharidin-baited traps from June 2020 to January 2021. The new species is an atypical member of the genus Atrichopogon.https://urn:lsid:zoobank.org:pub:3A012331-57D7-4532-B3F9-FDEE7C988FFD

Published

2022

5. A first assessment of genetic variability in the longhorn beetleRosalia alpina(Coleoptera: Cerambycidae) from the Italian Apennines

Author

Molfini, M., primary, Redolfi de Zan, L., additional, Campanaro, A., additional, Rossi de Gasperis, S., additional, Mosconi, F., additional, Chiari, S., additional, Cini, A., additional, Antonini, G., additional, Solano, E., additional, Audisio, P. A., additional, Roversi, P. F., additional, Sabbatini Peverieri, G., additional, Carpaneto, G. M., additional, Mason, F., additional, Bologna, M. A., additional, and Mancini, E., additional

Published

2018

6. A first assessment of genetic variability in the longhorn beetle Rosalia alpina (Coleoptera: Cerambycidae) from the Italian Apennines.

Author

Molfini, M., Redolfi de Zan, L., Campanaro, A., Rossi de Gasperis, S., Mosconi, F., Chiari, S., Cini, A., Antonini, G., Solano, E., Audisio, P. A., Roversi, P. F., Sabbatini Peverieri, G., Carpaneto, G. M., Mason, F., Bologna, M. A., and Mancini, E.

Subjects

*INSECT genetics, *CERAMBYCIDAE, *MICROSATELLITE repeats, *CYTOCHROME oxidase, *MITOCHONDRIAL DNA, *GENETIC markers

Abstract

The Rosalia longicorn (Rosalia alpina) is a strictly protected saproxylic beetle, widely distributed in Central and Southern Europe and mainly associated with ancient beech forests. To improve knowledge about the conservation status of R. alpina in Italy, available molecular markers (microsatellites and mitochondrial cytochrome c oxidase I(COI)) were tested for the first time on Italian populations. The study was performed in four sampling sites distributed in two areas placed in Northern ("Foreste Casentinesi" National Park) and Central Apennines ("Abruzzo, Lazio and Molise" National Park) where populational data about Rosalia longicorn were collected in the framework of the European LIFE MIPP Project. The genetic relationship among Apennine and Central/South-eastern European populations was explored by a comparison with mitochondrial DNA (mtDNA) data from literature. Microsatellite markers were only partially informative when applied to R. alpina Italian individuals, although providing some preliminary indication on an extensive gene flow among populations from the Apennines and local ongoing processes of genetic erosion. Genetic data are consistent with previous ecological data suggesting that the maintenance of variability in this species could be related to both habitat continuity and preservation of large senescent or standing dead trees in forests. Finally, a peculiar origin of the Apennine populations of R. alpina from a putative "Glacial Refugium" in Italy was inferred through COI data. The high genetic distance scored among the analysed populations and those from Central and South-eastern Europe indicates that the R. alpina deme from Apennine Mountains might represent a relevant conservation unit in Europe. Further genetic analyses will allow assessing other possible conservation units of R. alpina and, thus, defining large-scale conservation strategies to protect this endangered longhorn beetle in Europe. [ABSTRACT FROM AUTHOR]

Published

2018

7. A first assessment of genetic variability in the longhorn beetle Rosalia alpina(Coleoptera: Cerambycidae) from the Italian Apennines

Author

Molfini, M., Redolfi de Zan, L., Campanaro, A., Rossi de Gasperis, S., Mosconi, F., Chiari, S., Cini, A., Antonini, G., Solano, E., Audisio, P. A., Roversi, P. F., Sabbatini Peverieri, G., Carpaneto, G. M., Mason, F., Bologna, M. A., and Mancini, E.

Abstract

AbstractThe Rosalia longicorn (Rosalia alpina) is a strictly protected saproxylic beetle, widely distributed in Central and Southern Europe and mainly associated with ancient beech forests. To improve knowledge about the conservation status of R. alpinain Italy, available molecular markers (microsatellites and mitochondrial cytochrome c oxidase I(COI)) were tested for the first time on Italian populations. The study was performed in four sampling sites distributed in two areas placed in Northern (“Foreste Casentinesi” National Park) and Central Apennines (“Abruzzo, Lazio and Molise” National Park) where populational data about Rosalia longicorn were collected in the framework of the European LIFE MIPP Project. The genetic relationship among Apennine and Central/South-eastern European populations was explored by a comparison with mitochondrial DNA (mtDNA) data from literature. Microsatellite markers were only partially informative when applied to R. alpinaItalian individuals, although providing some preliminary indication on an extensive gene flow among populations from the Apennines and local ongoing processes of genetic erosion. Genetic data are consistent with previous ecological data suggesting that the maintenance of variability in this species could be related to both habitat continuity and preservation of large senescent or standing dead trees in forests. Finally, a peculiar origin of the Apennine populations of R. alpinafrom a putative “Glacial Refugium” in Italy was inferred through COI data. The high genetic distance scored among the analysed populations and those from Central and South-eastern Europe indicates that the R. alpinademe from Apennine Mountains might represent a relevant conservation unit in Europe. Further genetic analyses will allow assessing other possible conservation units of R. alpinaand, thus, defining large-scale conservation strategies to protect this endangered longhorn beetle in Europe.

Published

2018

8. A new canthariphilous species of the genus Atrichopogon Kieffer, 1906 from central Italy (Diptera: Ceratopogonidae)

Author

R. Szadziewski, M. Gwizdalska-Kentzer, M. A. Bologna, M. Molfini, Szadziewski, R., Kentzer-Gwizdalska, M., Bologna, M. A., and Molfini, M.

Subjects

Atrichopogon tolfensis, cantharidin, biting midges, species description, Italian fauna, European fauna, Animal Science and Zoology

Abstract

The new species Atrichopogon (Atrichopogon) tolfensis n. sp. from Tolfa Mountains (Italy, Latium, and Rome) is described and illustrated. Both sexes of the species were collected using cantharidin-baited traps from June 2020 to January 2021. The new species is an atypical member of the genus Atrichopogon.

Published

2022

9. Larval features illuminating adult taxonomy? Case study in the European cardinal beetle species of the genus Pyrochroa (Coleoptera: Pyrochroidae: Pyrochroinae)

Author

Andrea Di Giulio, Marco Alberto Bologna, Emiliano Mancini, Marco Molfini, Molfini, M, DI GIULIO, A, Mancini, E, and Bologna, Ma

Subjects

Insecta, Arthropoda, Zoology, Biology, Larval morphology, Time based, Cardinal beetle, P. coccinea, Pyrochroidae, larva, Tenebrionoidea, cardinal beetle, P. coccinea, P. serraticornis, larval morphology, urogomphi, Genus, Animalia, Ecology, Evolution, Behavior and Systematics, P. serraticornis, Tenebrionoidea, Urogomphi, animals, Coleoptera, Europe, Taxonomy, Larva, Biodiversity, biology.organism_classification, Animal Science and Zoology, Taxonomy (biology)

Abstract

Larvae of the two European species of the genus Pyrochroa (P. coccinea and P. serraticornis) are redescribed, for the first time based on Italian samples, and new relevant and distinctive characters have emerged from P. serraticornis. Particularly, the presence of a single urogomphal pit between urogomphi (representing a new condition for the entire family), and new characters of mandibles, open new questions about the current taxonomic status of the European species.

Published

2021

10. Unraveling the role of male reproductive tract and haemolymph in cantharidin-exuding Lydus trimaculatus and Mylabris variabilis (Coleoptera: Meloidae): a comparative transcriptomics approach

Author

Veronica D’Ezio, Manuela Cervelli, Marco Molfini, Silvia Gisondi, Maurizio Muzzi, Fabrizio Lombardo, Elia Roma, Marco Alberto Bologna, Andrea Di Giulio, Emiliano Fratini, Tecla Gasperi, Marco Salvemini, Tiziana Persichini, Emiliano Mancini, Paolo Mariottini, Fratini, Emiliano, Salvemini, Marco, Lombardo, Fabrizio, Muzzi, Maurizio, Molfini, Marco, Gisondi, Silvia, Roma, Elia, D'Ezio, Veronica, Persichini, Tiziana, Gasperi, Tecla, Mariottini, Paolo, DI GIULIO, Andrea, Bologna, Marco Alberto, Cervelli, Manuela, Mancini, Emiliano, Fratini, E., Salvemini, M., Lombardo, F., Muzzi, M., Molfini, M., Gisondi, S., Roma, E., D'Ezio, V., Persichini, T., Gasperi, T., Mariottini, P., Di Giulio, A., Bologna, M. A., Cervelli, M., and Mancini, E.

Subjects

Male, Toxic terpene, Autohaemorrhaging, Blister beetle, Cantharidin, clotting, defensive behaviour, detoxification, drug-delivery, reflex-bleeding, toxic terpene, animals, genitalia, male, hemolymph, male, transcriptome, Coleoptera, Zoology, QH426-470, Genitalia, Male, Transcriptome, chemistry.chemical_compound, Hemolymph, Gene expression, Genetics, Animals, Reflex-bleeding, Gene, biology, Defensive behaviour, Animal, Clotting, genitalia, biology.organism_classification, Drug-delivery, Cantharidin, Blister beetle, Toxic terpene, Reflex-bleeding, Autohaemorrhaging, Clotting, Detoxification, Defensive behaviour, Drug-delivery, chemistry, Integument, Detoxification, TP248.13-248.65, Biotechnology, Research Article

Abstract

Background Meloidae (blister beetles) are known to synthetize cantharidin (CA), a toxic and defensive terpene mainly stored in male accessory glands (MAG) and emitted outward through reflex-bleeding. Recent progresses in understanding CA biosynthesis and production organ(s) in Meloidae have been made, but the way in which self-protection is achieved from the hazardous accumulation and release of CA in blister beetles has been experimentally neglected. To provide hints on this pending question, a comparative de novo assembly transcriptomic approach was performed by targeting two tissues where CA is largely accumulated and regularly circulates in Meloidae: the male reproductive tract (MRT) and the haemolymph. Differential gene expression profiles in these tissues were examined in two blister beetle species, Lydus trimaculatus (Fabricius, 1775) (tribe Lyttini) and Mylabris variabilis (Pallas, 1781) (tribe Mylabrini). Upregulated transcripts were compared between the two species to identify conserved genes possibly involved in CA detoxification and transport. Results Based on our results, we hypothesize that, to avoid auto-intoxication, ABC, MFS or other solute transporters might sequester purported glycosylated CA precursors into MAG, and lipocalins could bind CA and mitigate its reactivity when released into the haemolymph during the autohaemorrhaging response. We also found an over-representation in haemolymph of protein-domains related to coagulation and integument repairing mechanisms that likely reflects the need to limit fluid loss during reflex-bleeding. Conclusions The de novo assembled transcriptomes of L. trimaculatus and M. variabilis here provided represent valuable genetic resources to further explore the mechanisms employed to cope with toxicity of CA in blister beetle tissues. These, if revealed, might help conceiving safe and effective drug-delivery approaches to enhance the use of CA in medicine.

Published

2020

11. Comparative morphology of myrmecophilous immature stages of European Microdon species (Diptera: Syrphidae): updated identification key and new diagnostic characters

Author

Giulia Scarparo, Marco Molfini, Robert Wolton, Luigi Cao Pinna, Andrea Di Giulio, Scarparo, G, Wolton, R, Molfini, M, Pinna, Lc, and Di Giulio, A

Subjects

0106 biological sciences, Species complex, Insecta, Arthropoda, 010607 zoology, Identification key, Zoology, Morphology (biology), Biology, 010603 evolutionary biology, 01 natural sciences, Hoverflie, Cryptic Specie, Genus, Phylogenetics, Animals, Animalia, Syrphidae, Ecology, Evolution, Behavior and Systematics, Myrmecophile, Taxonomy, Larva, Ants, Diptera, fungi, Biodiversity, biology.organism_classification, Adaptation, Physiological, Myrmecophily, Microdon, Social Parasite, Microscopy, Electron, Scanning, Animal Science and Zoology, Scrophulariaceae

Abstract

Hoverflies (Diptera: Syrphidae) of the genus Microdon Meigen have larvae that live in ant nests where they are predatory on ant larvae. Reflecting the exceptional challenges of this very specialized lifestyle, Microdon eggs, larvae and puparia are highly distinctive in their morphology. Detailed descriptions of these immature stages is, however, lacking for all but a very few species, and much of this has been limited through the sole use of light microscopes. Here, using Scanning Electron Microscopy (SEM), we present detailed, comparative descriptions of the immature stages of three European Microdon species: M. analis, M. devius and M. myrmicae. Given that many adult Microdon species are very similar to each other in their outward appearance, we demonstrate that the morphology of their immature stages can improve our understanding of the phylogeny of the genus. We also discuss how particular adaptations of the immature morphology may allow their myrmecophilous life within ant nests. In this paper new diagnostic features are also presented to distinguish M. myrmicae from its sibling species M. mutabilis—the two are morphologically indistinguishable as adults.

Published

2020

12. A preliminary prioritized list of Italian alien terrestrial invertebrate species

Author

L. Carnevali, Marzio Zapparoli, Paolo Audisio, A. Di Giulio, Piero Genovesi, Marco Alberto Bologna, Marco Molfini, Molfini, M., Zapparoli, M., Genovesi, P., Carnevali, L., Audisio, P., Di Giulio, A., and Bologna, M. A.

Subjects

0106 biological sciences, Ecology, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Biodiversity, Distribution (economics), Legislature, Alien, Biology, 010603 evolutionary biology, 01 natural sciences, Invasive species, Species of concern, Work (electrical), business, Invasive species, EU IAS regulation, Conservation policy implementation, Species of concern, Invasive, Consensus building, Ecology, Evolution, Behavior and Systematics, Invertebrate

Abstract

Invasive alien species (IAS) are considered one of the largest drivers of biodiversity loss worldwide and the negative impacts of IAS can also affect human health and economy. More than 12,000 alien species occur in Europe. Terrestrial invertebrate species are the largest proportion of alien animal species and represents one of the most impacting groups in Europe. The most important European policy against alien species is the EU Regulation 1143/2014, which provides for the development of priority lists of IAS of relevant concern aimed to allow the optimization of intervention measures. Italian policy implemented the EU Regulation with the Legislative Decree No 230/2017 that provides the adoption of a list of IAS of national concern. Aim of this work is to present a preliminary prioritized list of alien terrestrial invertebrate species (ATIS) present in Italy, thus providing an useful tool to identify species to be included in the list of IAS of national concern. We defined criteria for assessing the species and ranking them in a prioritized list on the basis of the magnitude of their potential impact on wild native biodiversity. We identify 233 relevant ATIS, among the 1126 species included in the Italian Alien Terrestrial Invertebrate Database, on which the evaluation process started. After the evaluation process, 109 ATIS with considerable impacts on biodiversity were selected and prioritized. We ranked the species in four priority categories by matching their distribution in Italy with the magnitude of their possible impact on biodiversity.

Published

2020

13. A first assessment of genetic variability in the longhorn beetle Rosalia alpina (Coleoptera: Cerambycidae) from the Italian Apennines

Author

Alessandro Cini, Paolo Audisio, G. Sabbatini Peverieri, Fabio Mosconi, Marco Molfini, Gloria Antonini, Marco Alberto Bologna, Emanuela Solano, S. Rossi de Gasperis, Emiliano Mancini, Alessandro Campanaro, Giuseppe M. Carpaneto, Pio Federico Roversi, L Redolfi De Zan, Franco Mason, Stefano Chiari, Molfini, M., Redolfi de Zan, L., Campanaro, A., Rossi de Gasperis, Sarah, Mosconi, F., Chiari, S., Cini, A., Antonini, G., Solano, E., Audisio, P. A., Roversi, P. F., Sabbatini Peverieri, G., Carpaneto, Giuseppe, Mason, F., Bologna, M. A., and Mancini, E.

Subjects

0106 biological sciences, 0301 basic medicine, Biogeography, Population genetics, Saproxylic insect, 010603 evolutionary biology, 01 natural sciences, Rosalia alpina, 03 medical and health sciences, Rosalia longicorn, lcsh:Zoology, lcsh:QL1-991, Genetic variability, Beech, biogeography, population genetic, biology, Ecology, conservation, population genetics, biology.organism_classification, Saproxylic insects, Habitats Directive, population genetics, biogeography, conservation, Saproxylic insects, Habitats Directive, 030104 developmental biology, Animal Science and Zoology, Longhorn beetle

Abstract

The Rosalia longicorn (Rosalia alpina) is a strictly protected saproxylic beetle, widely distributed in Central and Southern Europe and mainly associated with ancient beech forests. To improve knowledge about the conservation status of R. alpina in Italy, available molecular markers (microsatellites and mitochondrial cytochrome c oxidase I(COI)) were tested for the first time on Italian populations. The study was performed in four sampling sites distributed in two areas placed in Northern (“Foreste Casentinesi” National Park) and Central Apennines (“Abruzzo, Lazio and Molise” National Park) where populational data about Rosalia longicorn were collected in the framework of the European LIFE MIPP Project. The genetic relationship among Apennine and Central/South-eastern European populations was explored by a comparison with mitochondrial DNA (mtDNA) data from literature. Microsatellite markers were only partially informative when applied to R. alpina Italian individuals, although providing some preliminary indication on an extensive gene flow among populations from the Apennines and local ongoing processes of genetic erosion. Genetic data are consistent with previous ecological data suggesting that the maintenance of variability in this species could be related to both habitat continuity and preservation of large senescent or standing dead trees in forests. Finally, a peculiar origin of the Apennine populations of R. alpina from a putative “Glacial Refugium” in Italy was inferred through COI data. The high genetic distance scored among the analysed populations and those from Central and South-eastern Europe indicates that the R. alpina deme from Apennine Mountains might represent a relevant conservation unit in Europe. Further genetic analyses will allow assessing other possible conservation units of R. alpina and, thus, defining large-scale conservation strategies to protect this endangered longhorn beetle in Europe.

Published

2018

14. Is Lycorma delicatula (Hemiptera: Fulgoridae) a blooming threat to citrus?

Author

Molfini M, West M, Gómez-Marco F, Torres JB, and Hoddle M

Subjects

Animals, Citrus sinensis growth & development, Herbivory, Hemiptera growth & development, Nymph growth & development, Nymph physiology, Introduced Species

Abstract

Examining the host range of emerging invasive insects is essential to assess their invasion potential and to anticipate the negative impacts of their spread. The ongoing North American invasion of spotted lanternfly (SLF) [Lycorma delicatula (White, 1845)] threatens agricultural, urban, and natural areas. The survival and development of SLF nymphs on Washington navel orange [Citrus sinensis (L.) Osbeck (Sapindales: Rutaceae)] trees were assessed in a quarantine facility. Results indicated that SLF nymphs can develop to at least the third instar by feeding exclusively on Washington navel orange. This finding suggests that, at least up to the third stage of nymphal development, Washington navel orange might be a suitable host for SLF, highlighting the possibility that this invasive pest represents an unrecognized threat to this globally important crop and possibly to other Citrus species., (© The Author(s) 2024. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2024

15. The cranial apparatus glands of the canthariphilous Pyrochroa coccinea (Coleoptera: Pyrochroidae: Pyrochroinae), and their implications in sexual behaviour.

Author

Molfini M, Muzzi M, Mancini E, Bologna MA, and Di Giulio A

Subjects

Humans, Female, Male, Animals, Copulation, Sexual Behavior, Cantharidin metabolism, Terpenes, Coleoptera anatomy & histology

Abstract

Some Pyrochroidae species are known as "canthariphilous" for their attraction to cantharidin (CTD), a toxic terpene with anti-predatory effects, produced in nature by only two beetle families (Meloidae and Oedemeridae). It has been demonstrated that males of Neopyrochroa flabellata ingesting CTD are positively selected by females. Indeed, the compound is re-emitted from a glandular cranial apparatus as secretions that are licked up by females during courtship behaviour, inducing copulation. Herein, we provide the first description of the glands associated to the cranial apparatus of male Pyrochroinae using the European species Pyrochroa coccinea as a model. Morphological analyses show that the cranial apparatus consists of a concave pit lined with short setae retaining secretions emitted through numerous glandular pores. Ultrastructural investigations reveal the presence of two different class 3 glands (Gl.A and Gl.B), intermixed at the level of the pit but exhibiting distinct features. Gl.A are mainly characterised by short conducting canals, rounded nuclei and electrondense vesicles while Gl.B are characterised by long conducting canals, irregular nuclei, vesicles containing a particulate substance and a multifolded plasma membrane. Observations of sexual behaviour are also reported for P. coccinea and compared to N. flabellata, confirming the involvement of cranial apparatus secretions in courtship behaviour., Competing Interests: Declaration of competing interest All the authors declare that they have read and approved this final version of the manuscript and also declare they have no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

16. Larval features of the Italian endemic Pyrochroa serraticornis kiesenwetteri Fairmaire, 1849 (Coleoptera: Pyrochroidae: Pyrochroinae) solve taxonomic uncertainties.

Author

Molfini M and Bologna MA

Subjects

Animals, Larva anatomy & histology, Coleoptera

Abstract

Recent findings rearranged the taxonomy of the European species of the genus Pyrochroa Geoffroy (Coleoptera: Pyrochroidae), and to date three species are recognized: P. bifoveata Molfini et al., 2022 and P. coccinea (Linnaeus, 1761) with cryptic adults and distinctive larvae, and the polytypic P. serraticornis (Scopoli, 1763), including the subspecies kiesenwetteri Fairmaire, 1849. Incongruences between molecular and morphological analyses questioned the recognition of P. s. serraticornis and P. s. kiesenwetteri as taxa of the same species. In the present paper, observations of larval characters of P. s. kiesenwetteri confirm this taxon as a subspecies of P. serraticornis. Moreover, new characters of P. s. serraticornis larvae are offered by analysing specimens from a new European locality.

Published

2023

17. New Evidence of Canthariphily: Tilloidea transversalis (Coleoptera: Cleridae) Sequestering Cantharidin From Lydus trimaculatus (Coleoptera: Meloidae).

Author

Molfini M, Stefanuto L, Gisondi S, Gasperi T, Di Giulio A, Mancini E, and Bologna MA

Subjects

Animals, Hemolymph, Cantharidin, Coleoptera chemistry

Abstract

Cantharidin (CTD) is a defensive compound autogenously and exclusively produced by two phylogenetically related beetle families: Meloidae and Oedemeridae. Although this molecule usually acts as a strong deterrent against potential predators and parasites, some arthropod species, collectively named 'canthariphilous species', are attracted to CTD. Some species can sequester CTD from the CTD-producing species, using it as a chemical defense against enemies. The present paper focuses on the first-ever description of canthariphilous interactions between a checkered beetle species (Coleoptera: Cleridae) and a CTD -producing species. Field observations revealed individuals of the phytophagous beetle Tilloidea transversalis (Charpentier, 1825) (Coleoptera: Cleridae) biting individuals of the blister beetle Lydus trimaculatus (Fabricius, 1775) (Coleoptera: Meloidae). Laboratory behavioral experiments followed to verify if this peculiar behavior of T. transversalis also occurs on other co-occurring species. Moreover, chemical analyses were performed to assess whether T. transversalis can sequester CTD. Our results show that T. transversalis only attacks CTD-producing species. However, while chemical analyses prove that T. transversalis can sequester CTD from the hemolymph of L. trimaculatus, some clues (based on a CTD-baited traps sampling) suggest that this beetle, contrarily to other canthariphilous species, does not appear to show a high attraction to pure synthetic CTD. Thus, other unknown signals, alone or in combination with CTD, could be implicated in triggering the canthariphilous behaviors of T. transversalis., (© The Author(s) 2022. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2022

18. Unraveling the role of male reproductive tract and haemolymph in cantharidin-exuding Lydus trimaculatus and Mylabris variabilis (Coleoptera: Meloidae): a comparative transcriptomics approach.

Author

Fratini E, Salvemini M, Lombardo F, Muzzi M, Molfini M, Gisondi S, Roma E, D'Ezio V, Persichini T, Gasperi T, Mariottini P, Di Giulio A, Bologna MA, Cervelli M, and Mancini E

Subjects

Animals, Genitalia, Male, Hemolymph, Male, Transcriptome, Cantharidin toxicity, Coleoptera genetics

Abstract

Background: Meloidae (blister beetles) are known to synthetize cantharidin (CA), a toxic and defensive terpene mainly stored in male accessory glands (MAG) and emitted outward through reflex-bleeding. Recent progresses in understanding CA biosynthesis and production organ(s) in Meloidae have been made, but the way in which self-protection is achieved from the hazardous accumulation and release of CA in blister beetles has been experimentally neglected. To provide hints on this pending question, a comparative de novo assembly transcriptomic approach was performed by targeting two tissues where CA is largely accumulated and regularly circulates in Meloidae: the male reproductive tract (MRT) and the haemolymph. Differential gene expression profiles in these tissues were examined in two blister beetle species, Lydus trimaculatus (Fabricius, 1775) (tribe Lyttini) and Mylabris variabilis (Pallas, 1781) (tribe Mylabrini). Upregulated transcripts were compared between the two species to identify conserved genes possibly involved in CA detoxification and transport., Results: Based on our results, we hypothesize that, to avoid auto-intoxication, ABC, MFS or other solute transporters might sequester purported glycosylated CA precursors into MAG, and lipocalins could bind CA and mitigate its reactivity when released into the haemolymph during the autohaemorrhaging response. We also found an over-representation in haemolymph of protein-domains related to coagulation and integument repairing mechanisms that likely reflects the need to limit fluid loss during reflex-bleeding., Conclusions: The de novo assembled transcriptomes of L. trimaculatus and M. variabilis here provided represent valuable genetic resources to further explore the mechanisms employed to cope with toxicity of CA in blister beetle tissues. These, if revealed, might help conceiving safe and effective drug-delivery approaches to enhance the use of CA in medicine., (© 2021. The Author(s).)

Published

2021

19. Larval features illuminating adult taxonomy? Case study in the European cardinal beetle species of the genus Pyrochroa (Coleoptera: Pyrochroidae: Pyrochroinae).

Author

Molfini M, Giulio AD, Mancini E, and Bologna MA

Subjects

Animals, Europe, Coleoptera classification, Larva anatomy & histology

Abstract

Larvae of the two European species of the genus Pyrochroa (P. coccinea and P. serraticornis) are redescribed, for the first time based on Italian samples, and new relevant and distinctive characters have emerged from P. serraticornis. Particularly, the presence of a single urogomphal pit between urogomphi (representing a new condition for the entire family), and new characters of mandibles, open new questions about the current taxonomic status of the European species.

Published

2021

20. Comparative morphology of myrmecophilous immature stages of European Microdon species (Diptera: Syrphidae): updated identification key and new diagnostic characters.

Author

Scarparo G, Wolton R, Molfini M, Pinna LC, and Giulio AD

Subjects

Adaptation, Physiological, Animals, Larva, Microscopy, Electron, Scanning, Diptera, Scrophulariaceae

Abstract

Hoverflies (Diptera: Syrphidae) of the genus Microdon Meigen have larvae that live in ant nests where they are predatory on ant larvae. Reflecting the exceptional challenges of this very specialized lifestyle, Microdon eggs, larvae and puparia are highly distinctive in their morphology. Detailed descriptions of these immature stages is, however, lacking for all but a very few species, and much of this has been limited through the sole use of light microscopes. Here, using Scanning Electron Microscopy (SEM), we present detailed, comparative descriptions of the immature stages of three European Microdon species: M. analis, M. devius and M. myrmicae. Given that many adult Microdon species are very similar to each other in their outward appearance, we demonstrate that the morphology of their immature stages can improve our understanding of the phylogeny of the genus. We also discuss how particular adaptations of the immature morphology may allow their myrmecophilous life within ant nests. In this paper new diagnostic features are also presented to distinguish M. myrmicae from its sibling species M. mutabilis-the two are morphologically indistinguishable as adults.

Published

2020