Occurrence, ecological function and medical importance of dermestid beetle hastisetae

Hastisetae are a specific group of detachable setae characterizing the larvae of Megatominae (Coleoptera: Dermestidae), commonly known as carpet and khapra beetles. These setae are located on both thoracic and abdominal tergites and they are the primary defense of the larva against invertebrate predators. According to previous studies, the main purpose of hastisetae is to work as a mechanical obstacle, but they are also capable to block and kill a predator. Hastisetae, single or aggregate, function as an extremely efficient mechanical trap, based on an entangling mechanism of cuticular structures (spines and hairs) and body appendages (antennae, legs and mouthparts). It is believed that this defensive system evolved primarily to contrast predation by invertebrates, however it has been observed that hastisetae may affect vertebrates as well. Although information on the impacts of vertebrate predators of the beetles is lacking, hastisetae have been shown to be a possible threat for human health as an important contaminant of stored products (food and fabric), work and living environment. Review of past and recent literature on dermestid larvae has revealed that despite these structures indicated as one of the distinctive characters in species identification, very little is known about their ultrastructure, evolution and mechanism of action. In the present work, we will provide the state of knowledge on hastisetae in Dermestidae and we will present and discuss future research perspectives intended to bridge the existing knowledge gaps

First record of the invasive Lagria villosa (Fabricius, 1781) (Coleoptera: Tenebrionidae: Lagriinae) in Europe

The lagriid beetle Lagria villosa (Fabricius, 1781), an invasive species of African origin, is recorded for the first time in Europe. A single specimen was found in November 2020 in Turku (Finland) inside a box of table grapes from a local supermarket. This species, included in the EPPO Global Database and in the CABI Invasive Species Compendium, is widely recognized as a significant pest of crops</p

Hammerhead flatworms (Platyhelminthes, Geoplanidae, Bipaliinae): mitochondrial genomes and description of two new species from France, Italy, and Mayotte

Background: New records of alien land planarians are regularly reported worldwide, and some correspond to undescribed species of unknown geographic origin. The description of new species of land planarians (Geoplanidae) should classically be based on both external morphology and histology of anatomical structures, especially the copulatory organs, ideally with the addition of molecular data. Methods: Here, we describe the morphology and reproductive anatomy of a species previously reported as Diversibipalium “black”, and the morphology of a species previously reported as Diversibipalium “blue”. Based on next generation sequencing, we obtained the complete mitogenome of five species of Bipaliinae, including these two species. Results: The new species Humbertium covidum n. sp. (syn: Diversibipalium “black” of Justine et al., 2018) is formally described on the basis of morphology, histology and mitogenome, and is assigned to Humbertium on the basis of its reproductive anatomy. The type-locality is Casier, Italy, and other localities are in the Department of Pyrénées-Atlantiques, France; some published or unpublished records suggest that this species might also be present in Russia, China, and Japan. The mitogenomic polymorphism of two geographically distinct specimens (Italy vs France) is described; the cox1 gene displayed 2.25% difference. The new species Diversibipalium mayottensis n. sp. (syn: Diversibipalium “blue” of Justine et al., 2018) is formally described on the basis of external morphology and complete mitogenome and is assigned to Diversibipalium on the basis of an absence of information on its reproductive anatomy. The type- and only known locality is the island of Mayotte in the Mozambique Channel off Africa. Phylogenies of bipaliine geoplanids were constructed on the basis of SSU, LSU, mitochondrial proteins and concatenated sequences of cox1, SSU and LSU. In all four phylogenies, D. mayottensis was the sister-group to all the other bipaliines. With the exception of D. multilineatum which could not be circularised, the complete mitogenomes of B. kewense, B. vagum, B. adventitium, H. covidum and D. mayottensis were colinear. The 16S gene in all bipaliine species was problematic because usual tools were unable to locate its exact position. Conclusion: Next generation sequencing, which can provide complete mitochondrial genomes as well as traditionally used genes such as SSU, LSU and cox1, is a powerful tool for delineating and describing species of Bipaliinae when the reproductive structure cannot be studied, which is sometimes the case of asexually reproducing invasive species. The unexpected position of the new species D. mayottensis as sister-group to all other Bipaliinae in all phylogenetic analyses suggests that the species could belong to a new genus, yet to be described

Investigating beetle communities in and around entry points can improve surveillance at national and international scale

Beetles are commonly moved among continents with international trade. Baited traps set up in and around entry points are commonly used to increase chances of early-detection of incoming species and complement visual inspections. A still underestimated benefit of this surveillance approach is the high number and diversity of collected bycatch species. In this study, we exploited a multiyear surveillance pro-gram carried out with baited traps at five Spanish ports and their surrounding natural areas to investigate i) the importance of identifying bycatch to more promptly detect nonnative species belonging to non-target groups; ii) patterns of native and nonnative species richness and abundance inside the port areas vs. surrounding natural areas; iii) the occurrence of spillover events between natural areas surrounding ports and the port areas, and iv) whether the native species most commonly introduced into other countries are more abundant in port areas than in surrounding natural areas. A total of 23,538 individuals from 206 species representing 33 families were collected. The number and taxonomic diversity of the 26 bycatch nonnative beetle species testified that the identification of these unintentionally trapped species can pro-vide additional information on ongoing invasions. Patterns of spillover and native species richness and abundance in port areas vs. surrounding natural areas highlighted a differential ability of different beetle families to colonize port areas. Finally, native species most commonly introduced into other countries were more abundant in port areas than in their surroundings, while the opposite trend occurred for native species that have not been introduced elsewhere. Our study highlighted that the use of traps baited with generic attractants can aid in early-detection of nonnative beetle species, and that the identification of native species can provide useful information on the risk of introduction in other countrie

Investigating beetle communities in and around entry points can improve surveillance at national and international scale

Beetles are commonly moved among continents with international trade. Baited traps set up in and around entry points are commonly used to increase chances of early-detection of incoming species and complement visual inspections. A still underestimated benefit of this surveillance approach is the high number and diversity of collected bycatch species. In this study, we exploited a multiyear surveillance program carried out with baited traps at five Spanish ports and their surrounding natural areas to investigate i) the importance of identifying bycatch to more promptly detect nonnative species belonging to non-target groups; ii) patterns of native and nonnative species richness and abundance inside the port areas vs. surrounding natural areas; iii) the occurrence of spillover events between natural areas surrounding ports and the port areas, and iv) whether the native species most commonly introduced into other countries are more abundant in port areas than in surrounding natural areas. A total of 23,538 individuals from 206 species representing 33 families were collected. The number and taxonomic diversity of the 26 bycatch nonnative beetle species testified that the identification of these unintentionally trapped species can provide additional information on ongoing invasions. Patterns of spillover and native species richness and abundance in port areas vs. surrounding natural areas highlighted a differential ability of different beetle families to colonize port areas. Finally, native species most commonly introduced into other countries were more abundant in port areas than in their surroundings, while the opposite trend occurred for native species that have not been introduced elsewhere. Our study highlighted that the use of traps baited with generic attractants can aid in early-detection of nonnative beetle species, and that the identification of native species can provide useful information on the risk of introduction in other countries.The study was funded by the Servei d’Ordenació i Gestió Forestal (Conselleria d’Agricultura, Desenvolupament Rural, Emergència Climàtica i Transició Ecològica) of Generalitat Valenciana. Davide Rassati was partially supported by the CRUI-CARE Agreement. 2019 STARS Grants programme (project: MOPI–Microorganisms as hidden players in insect invasions)

cave hygropetric beetles and their feeding behaviour a comparative study of cansiliella servadeii and hadesia asamo coleoptera leiodidae cholevinae leptodirini

Several Leptodirini beetles (Leiodidae) are known to dwell in hygropetric habitats where films of water run down the cave walls, but observations of their behaviour are lacking. The ultra- specialised hygropetricolous beetles belonging to the genera Cansiliella and Hadesia are biogeographically and phylogenetically unrelated leptodirines. As the species of the former genus are known to be associated with the moonmilk deposits our study aimed to obtain data on their foraging behaviour, as well as to compare the feeding strategies of both genera. In situ monitoring of C. servadeii from the cave Grotta della Foos (Italy) and H. asamo from Bravenik Cave (Bosnia and Herzegovina), was complemented by video recordings to ensure accurate results. Mouthparts and tarsi of both species were examined using scanning electron microscopy and compared with H. weiratheri from Montenegro to evaluate potential morphological adaptations to the hygropetricolous ecological niches. The three species had significantly different mouthpart morphologies, likely due to differences in semi-aquatic feeding strategies and overall ecology. A series of new observations on site movement and feeding behaviour are presented, compared and discussed. Key words: Coleoptera, ecology, behaviour, moonmilk, cave hygropetric. Primerjava jamskih higropetricnih hroscev in njihovegaprehranjevanja; Cansiliella servadeii in Hadesia asamo (Coleoptera, Leiodidae, Cholevinae, Leptodirini) Stevilni hrosci iz poddružine Leptodirinae (Leiodidae) so prilagojeni na življenje v posebnem habitatu »jamskem higropetriku «, t.j. tankem sloju tekoce vode, ki tece po sigi. Zaenkrat je njihovo vedenje se precejsnja neznanka. Visoko specializirani higropetricni vrsti Cansiliella servadeii in Hadesia asamo sta geografsko loceni in filogenetsko nesorodni. Ker je prva ocitno vezana na depozite mehke sige (t.i. jamsko mleko), smo želeli raziskati iskanje hrane pri tej vrsti ter primerjati strategijo hranjenja obeh vrst. Da bi povecali zanesljivost rezultatov, smo poleg in situ opazovanja C. servadeii iz jame Grotta della Foos (Italija) in H. asamo iz jame Bravenik (Bosna in Hercegovina), njuno vedenje tudi posneli. Z vrsticnim elektronskim mikroskopom smo raziskali obustne okoncine in stopalca obeh vrst in jih primerjali s H. weiratheri iz Crne gore, da bi preverili potencialne morfoloske prilagoditve na specificno ekolosko niso. Bistvene razlike v zgradbi ustnega aparata so najverjetneje posledica razlik v strategiji hranjenja, kot tudi razlicne splosne ekologije omenjenih vrst. V prispevku predstavljamo, primerjamo in razpravljamo o novih opažanjih povezanih z gibanjem in prehranjevanjem higropetricnih hroscev. Kljucne besede: Coleoptera, ekologija, vedenje, jamsko mleko, jamski higropetrik

Forest leaf litter beetles of Taiwan: first DNA barcodes and first insight into the fauna

We report the publication of 953 DNA barcodes of forest leaf litter beetles from central Taiwan, in total representing 334 spe- cies of 36 beetle families. This is the first bulk of data from the Taiwanese Leaf Litter beetles project focused on uncovering the under-explored diversity of leaf litter beetles across Taiwan. Based on these data, we provide the first records of the following taxa for Taiwan: family Sphindidae (genus Aspidiphorus Ziegler, 1821); tribes Trichonychini, Ctenistini, and Bythinoplectini (all Staphylinidae: Pselaphinae); genera Gyrelon Hinton, 1942, Thyroderus Sharp, 1885, Cautomus Sharp, 1885 (all Cerylonidae), Dermatohomoeus Hlisnikovský, 1963 (Leiodidae), Paraploderus Herman, 1970 (Staphylinidae: Oxytelinae), Thinocharis Kraatz, 1859 (Staphylinidae: Paederinae), Cephennodes Reitter, 1884, Napoconnus Franz, 1957 (both Staphylinidae: Scydmaeninae), Bicava Belon, 1884 (Latridiidae), Otibazo Morimoto, 1961, Seleuca Pascoe, 1871 and Acallinus Morimoto, 1962 (all Curculioni- dae); species Oodes (Lachnocrepis) japonicus (Bates, 1873) (Carabidae: Licininae), Drusilla obliqua (Bernhauer, 1916) (Staphylin- idae: Aleocharinae) and Coccotrypes advena Blandford, 1894 (Curculionidae: Scolytinae). The records of Anapleus Horn, 1873 (Histeridae) and Batraxis Reitter, 1882 (Staphylinidae: Pselaphinae) have been confirmed. The male of Sivacrypticus taiwanicus Kaszab, 1964 (Archeocrypticidae) is described for the first time. Gyrelon jenpani Hu, Fikáček &amp; Matsumoto, sp. nov. (Cerylon- idae) is described, illustrated, and compared with related species. DNA barcodes associated larvae of 42 species with adults, we are concisely illustrating some of these: Oodes japonicus, Perigona cf. nigriceps Dejean, 1831 (both Carabidae), Ptilodactyla sp. (Ptilodactylidae), Maltypus ryukyuanus Wittmer, 1970 (Cantharidae), Drusilla obliqua, Myrmecocephalus brevisulcus (Pace, 2008), Diochus sp., Mimopinophilus sp. (all Staphylinidae), Stelidota multiguttata Reitter, 1877, Lasiodites inaequalis (Grouvelle, 1914) (both Nitidulidae), Lagria scutellaris Pic, 1910, and Anaedus spinicornis Kaszab, 1973 (both Tenebrionidae). We also report the first cases of Rickettsia infections in Scydmaeninae and Pselaphinae. All data (sequences, metadata, and voucher photos) are made public in BOLD database and in a Zenodo Archive

Ecologia ed evoluzione delle setole staccabili nei coleotteri dermestidi: implicazioni nel controllo degli infestanti e nella salute pubblica

Le setole staccabili sono setole che possono essere facilmente rimosse attraverso una semplice stimolazione meccanica e che sono evolute quale struttura difensiva contro la predazione in almeno quattro gruppi di artropodi. Questa categoria di setole è suddivisa in due gruppi morfo-ecologici: peli urticanti in Lepidotteri (Nodotontidae: Thaumetopoeinae, Erebidae, Saturniidae, Zygenidae) e Theraphosidae (sottofamiglia Theraphosinae), e setole “ad ancora” in Polyxenidae millepiedi (Myriapoda): Polyxenidapoda e larve di Dermestidae (Insecta: Coleoptera). Le hastisetae sono un gruppo specifico di setole staccabili che caratterizzano le larve dei Megatominae (Coleoptera: Dermestidae). Queste setole sono presenti sia sui tergiti toracici che addominali della larva e costituiscono una difesa primaria contro predatori invertebrati. Le hastisetae, singole od aggregate, fungono da trappola biomeccanica in grado di intrappolare processi cuticolari (spine e peli) ed appendici (antenne, zampe). Si ritiene che questo sistema difensivo si sia evoluto principalmente per contrastare la predazione da parte di invertebrati, tuttavia è stato osservato come le hastisetae possano riguardare anche i vertebrati. Sebbene le informazioni sugli impatti verso predatori vertebrati siano limitate, le hastisetae si sono dimostrate essere una possibile minaccia per la salute umana in qualità di contaminanti di prodotti (cibi e tessuti), di ambienti lavorativi ed abitazioni; in particolare, l'esposizione alle hastisetae sembrerebbe causare reazioni allergiche e l'insorgenza di eruzioni cutanee, asma, congiuntivite ed infiammazione dell'apparato digerente. Una revisione della letteratura passata e recente sulle larve di dermestidi ha rivelato come, nonostante le hastisetae siano suggerite come uno dei caratteri distintivi nell'identificazione delle specie, si sappia molto poco sulla loro ultrastruttura, evoluzione e meccanismo d'azione. Inoltre, nonostante il loro apparente interesse medico, non si conosce praticamente nulla circa la loro nocività rispetto a quanto noto per le setole urticanti di lepidotteri e tarantole. La presente ricerca definisce lo stato dell’arte circa le conoscenze sulle hastisetae e si prefigge di colmare le lacune conoscitive esistenti. La prima parte del lavoro è dedicata all'indagine della morfologia esterna e microstrutturale delle hastisetae; vengono descritte ed illustrate in dettaglio l'inserzione su tegumento, pedicello, fusto e parte apicale dell’hastiseta; inoltre, per la prima volta vengono documenti comportamenti di difesa attiva delle larve basati su hastisetae.Detachable setae are true setae that can be easily removed with any kind of mechanical stimulation and that evolved as a defensive structure against predation in at least four groups of Arthropoda. The class is subdivided in two main morpho-ecological groups: urticating hairs of Lepidoptera (Nodotontidae: Thaumetopoeinae, Erebidae, Saturniidae, Zygenidae) and the spider family Theraphosidae (subfamily Theraphosinae), and anchor-like setae of Polyxenidae millipedes (Myriapoda: Polyxenida) and larvae of Dermestidae (Insecta: Coleoptera). Hastisetae are a specific group of detachable setae characterizing the larvae of Megatominae (Coleoptera: Dermestidae). These setae are located on both thoracic and abdominal tergites and they are the primary defense of the larva against invertebrate predators. Hastisetae, single or aggregate, function as an extremely efficient mechanical trap, based on an entangling mechanism of cuticular structures (spines and hairs) and body appendages (antennae, legs and mouthparts). It is believed that this defensive system evolved primarily to contrast predation by invertebrates, however it has been observed that hastisetae may affect vertebrates as well. Although information on the impacts of vertebrate predators of the beetles is limited, hastisetae have been shown to be a possible threat for human health as an important contaminant of stored products (food and fabric), work and living environment; in particular, the exposure to hastisetae seems to cause allergic reactions and the insurgence of skin rashes, asthma, conjunctivitis, and digestive system inflammation. A review of past and recent literature on dermestid larvae has revealed that despite these structures are vaguely indicated as one of the distinctive characters in species identification, very little is known about their ultrastructure, evolution, and mechanism of action. Furthermore, despite their apparent medical interest almost nothing is known about their harmfulness in comparison to urticating hairs of lepidoptera and tarantulas. The present work provides the state of knowledge on hastisetae in Dermestidae and develops a research line intended to bridge the existing knowledge gaps. The first part of the research is dedicated to the investigation of the fine morphology of the external microstructure of the hastisetae; the insertion on integument, the pedicel, the shaft, and the apical head are described and illustrated in detail, and the first observations of active defensive behavior based on hastisetae are recorded and presented. The second part is devoted to the ultrastructure investigation of the hastiseta with a major focus on the socket and subcuticular structure with the intent to investigate and shed a light on a possible secretory function associated with hastisetae. Possible implications to the systematics of skin beetles are proposed based on the results of the study. Furthermore, a new morphological and functional interpretation of the hastiseta and the associated cellular is provided, suggesting possible future research developments