Your search keyword '"Mites anatomy & histology"' showing total 1,158 results

1. The Ovary Structure in Terrestrial Parasitengona Mites: The Case of Trombidiidae (Acariformes: Parasitengona).

Author

Derdak A, Jędrzejowska I, and Mąkol J

Subjects

Animals, Female, Oocytes ultrastructure, Ovary ultrastructure, Ovary anatomy & histology, Mites anatomy & histology, Mites ultrastructure

Abstract

Species of mites (Chelicerata: Arachnida) show a great variety of structures of the female gonads. In both evolutionary lines, Acariformes and Parasitiformes, the panoistic ovary, in which all germline cysts differentiate into oocytes, and the meroistic ovary, in which the oocytes grow supported by the nurse cells, have been documented. A less pronounced variation in the gonad structure could be expected at lower systematic levels, hence, we ask about the degree of differences within the family that is subordinate to Acariformes and represents the cohort Parasitengona. Based on the members of Trombidiidae (Acariformes: Trombidiformes, Parasitengona, Trombidioidea), we test the hypothesis that the general ovary type is constant at the family level. Our previous research on the female gonad in Allothrombium fuliginosum revealed that the meroistic ovary occurs in these mites. Here, we proceed with a detailed insight into the ovary structure in A. fuliginosum and examine the structure of the female gonad in other members of Trombidiidae, focusing on the following representatives of its nominotypical genus Trombidium: Trombidium brevimanum, Trombidium holosericeum, Trombidium heterotrichum, and Trombidium latum. For all species, studied with light, fluorescence, and transmission electron microscopy, we could confirm the presence of the meroistic ovary that is highly similar with respect to general architecture. The germline cysts show similarities in general morphology and the mode of germline cell differentiation; they consist of a few nurse cells and one oocyte. The connection between the nurse cells and oocytes is maintained by trophic cords that serve for the transport of organelles and macromolecules. Our results confirm the constancy of the structure of the female gonad at the intrageneric level and provide further support for the hypothesis on the lack of differences at the intrafamily level., (© 2024 Wiley Periodicals LLC.)

Published

2024

2. A comprehensive molecular phylogeny of the terrestrial Parasitengona (Acariformes, Prostigmata) provides insights into the evolution of their metamorphosis, invasion into aquatic habitats and classification.

Author

Costa SGS, Tolstikov A, Saboori A, Batista-Ribeiro D, Noei J, Harvey MS, Shaw MD, Klimov PB, Zhang ZQ, and Pepato AR

Subjects

Animals, Ecosystem, Biological Evolution, Larva growth & development, Larva classification, Larva genetics, Mites classification, Mites genetics, Mites anatomy & histology, Mites growth & development, Sequence Analysis, DNA, Phylogeny, Metamorphosis, Biological genetics

Abstract

Parasitengona (velvet mites, chiggers and water mites) is a highly diverse and globally distributed mite lineage encompassing over 11,000 described species, inhabiting terrestrial, freshwater and marine habitats. Certain species, such as chiggers (Trombiculidae), have a great medical and veterinary importance as they feed on their vertebrate hosts and vector pathogens. Despite extensive previous research, the classification of Parasitengona is still contentious, particularly regarding the boundaries between superfamilies and families, exacerbated by the absence of a comprehensive phylogeny. The ontogeny of most Parasitengona is distinct by the presence of striking metamorphosis, with parasitic larvae being heteromorphic compared to the predatory free-living deutonymphs and adults. The enigmatic superfamily Allotanaupodoidea is an exception, with larvae and active post-larval stages being morphologically similar, suggesting that the absence of metamorphosis may be either an ancestral state or a secondary reversal. Furthermore, there is disagreement in the literature on whether Parasitengona had freshwater or terrestrial origin. Here, we inferred phylogenetic relationships of Parasitengona (89 species, 36 families) and 307 outgroups using five genes (7,838 nt aligned). This phylogeny suggests a terrestrial origin of Parasitengona and a secondary loss of metamorphosis in Allotanaoupodoidea. We recovered the superfamily Trombidioidea (Trombidioidea sensu lato) as a large, well-supported, higher-level clade including 10 sampled families. We propose a new classification for the terrestrial Parasitengona with three new major divisions (epifamilies) of the superfamily Trombidioidea: Trombelloidae (families Audyanidae, Trombellidae, Neotrombidiidae, Johnstonianidae, Chyzeriidae); Trombidioidae (Microtrombidiidae, Neothrombiidae, Achaemenothrombiidae, Trombidiidae, Podothrombiidae); and Trombiculoidae (=Trombiculidae sensu lato). Adding them to previously recognized superfamilies Allotanaupodoidea, Amphotrombioidea, Calyptostomatoidea, Erythraeoidea, Tanaupodoidae and Yurebilloidae., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

3. Ambulatory dispersal of Typhlodromus (Anthoseius) recki Wainstein (Acari: Phytoseiidae) along Solanceae stem.

Author

Tixier MS, Raeckelboom A, Tabary L, Douin M, Navajas M, and Navia D

Subjects

Animals, Female, Predatory Behavior, Genotype, Mites physiology, Mites anatomy & histology, Animal Distribution, Plant Stems, Solanum lycopersicum

Abstract

Tomato crops are attacked by several pests, including mites. While the main predatory mites are not effective enough to control mite pests, recent studies have shown encouraging results with the European endemic phytoseiid Typhlodromus (Anthoseius) recki. The first objective of the study was to assess the ability of this species to disperse along the tomato stem, considering six genotypes of Solanum lycopersicum, S. peruvianum and S. cheesmaniae with contrasted trichome numbers and types of stem trichomes, accuratetly characterised in a previous study. The second objective was to determine how predator morphological traits can explain dispersal along the tomato stem. For this, ambulatory dispersal ability of females (stem crossing rate success, hesitation and escape behavior, mobility periods) was tested in lab conditions on the eight Solanum genotypes, at four period of time after the predator introduction (10, 25, 55 and 100 min), with a video observation of 5 min at each period. The females were then mounted on slides and body length and width (at the fore hind, middle and back parts) measured. No effect of the tomato genotypes was observed on the dispersal ability of the predator. However, specimens that succeeded in crossing the stem, had a higher percentage of mobility time (79.36%) than those that failed (43.60%). Furthermore, body width at midbody (DSW2) and dorsal shield length (DSL) were negatively correlated with dispersal ability. The mean DSL and DSW2 of the females that succeed to cross were 342.3 and 160.9 μm, respectively vs. 345.6 and 164.9 μm, for females that did not succeed. This suggests that the more slender and relatively small the specimens, the more are mobile and able to successfully cross the stem. The number of glandular trichomes type (GT) VI and to a lesser extent GT I and IV, and non-glandular trichomes (NGT) II&III appear to limit dispersal. The GT VI seems to have a repellent effect. On the opposite, the number of NGT V were positively correlated with high mobility and stem crossing rates. Assuming that the main barrier to biological control efficiency is dispersal along tomato stems, these preliminary results should have implications for biological control success. The proportion of mites with 'optimal dimensions' appears to be low and further studies should be undertaken to better assess the proportion of mites with such ideal dimensions in different populations and also to determine whether these morphological traits are associated with different feeding abilities and/or abiotic conditions., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

4. New taxa of quill mites (Acariformes: Syringophilidae) parasitising aquatic birds of the Faroe Islands.

Author

Skoracki M and Haarder S

Subjects

Animals, Female, Denmark, Birds parasitology, Male, Islands, Mites classification, Mites anatomy & histology, Species Specificity

Abstract

The paper presents descriptions of new taxa and new records of quill mites of the family Syringophilidae Lavoipierre, 1953 (Acari: Prostigmata: Cheyletoidea) parasitising aquatic birds in the Faroe Islands, Denmark. Sulisyringophilus jenskjeldi n. gen., n. sp., is described from the northern gannet, Morus bassanus (Linnaeus) (Suliformes: Sulidae). The new genus, Sulisyringophilus, is new genus differs from the morphologically similar genus Procellariisyringophilus Schmidt and Skoracki, 2007 by the presence of lateral hypostomal teeth and leg setae vsII in females, the features which are absent in the latter. A new species Charadriphilus lymnocryptes n. sp. is described from the jack snipe, Lymnocryptes minimus (Brünnich) (Charadriiformes: Scolopacidae). Additionally, two rarely recorded species, Niglarobia ereuneti Kethley, 1970, and Creagonycha lara Kethley, 1970, are reported from two charadriiform hosts: the semipalmated sandpiper, Calidris pusilla (Linnaeus) and the black-legged kittiwake, Rissa tridactyla (Linnaeus), respectively., (© 2024. The Author(s).)

Published

2024

5. Morphological and molecular characterization of Dermanyssus gallinae (Acari: Gamasida: Dermanyssidae) isolates of Al- Baha province.

Author

Alghamdi SQ

Subjects

Animals, Chickens parasitology, Electron Transport Complex IV analysis, Electron Transport Complex IV genetics, Phylogeny, Female, Polymerase Chain Reaction veterinary, DNA, Ribosomal Spacer genetics, Mites classification, Mites anatomy & histology, Mite Infestations veterinary, Mite Infestations parasitology, Mite Infestations epidemiology, Poultry Diseases parasitology, Poultry Diseases epidemiology

Abstract

Background: An ectoparasite known as Dermanyssus gallinae feeds on infected blood with a high frequency in European chicken farms resulting in significant economic losses., Aim: The objective of the current work was to characterize D. gallinae , which infests laying hens on farms in Southern Al-Baha morphologically, and molecularly, and to determine the evolutionary relationship between the species., Methods: All mites that were morphologically recognized as D. gallinae were submitted to molecular analysis by PCR, which focused on the mitochondrial cytochrome oxidase subunit I (cox1) and internal transcribed spacers (ITS) of ribosomal DNA., Results: Morphological identification of the parasites uncovered three distinct features: a triangular anal shield, a broader than longer sternal shield, and a rounded posterior genitoventral shield. Each D. gallinae sample was amplified using a single band, measuring 550 bp for the cox1-targeting PCR, and 530 bp for the ITS-targeting PCR. The sequences of D. gallinae were added to the GenBank., Conclusion: At the molecular identification level, this research identifies D. gallinae in Al-Baha for the first time. The results collectively provide a foundation for further research to understand the epidemiology and the part of this superfamily in the epidemiology of certain zoonosis., Competing Interests: The author declares that there is no conflict of interest.

Published

2024

6. Do astigmatid teeth matter: a tribological review of cheliceral chelae in co-occuring mites from UK beehives.

Author

Bowman CE

Subjects

Animals, Tooth anatomy & histology, Mastication physiology, United Kingdom, Mites physiology, Mites anatomy & histology

Abstract

The dentition of the chelal moveable digit in cohabiting astigmatids from UK beehives (i.e., Carpoglyphus lactis (Linnaeus), Glycyphagus domesticus (DeGeer), and Tyrophagus putrescentiae (Schrank)) is characterised for the first time using quantitative tribological measures within a 2D mechanical model. The trophic function of astigmatid chelae are reviewed in terms of macroscopic tools used by humans including hooking devices, pliers, shears, rasps and saws. Comparisons to oribatid claws and isopod dactyli are made. The overall pattern of the moveable digit form of T. putrescentiae is not just a uniformly shrunken/swollen version between the other two taxa at either the macro- or micro-scale. Mastication surface macro-roughness values are in the range of international Roughness Grade Numbers N5-N6. The moveable digit of C. lactis has low rugosity values compared to the glycyphagid and acarid (which are topographically more similar and match that roughness typical of some coral reef surfaces). C. lactis has the most plesiomorphic moveable digit form. The mastication surface of all three species as a chewing tool is distinctly ornamented despite the moveable digit of C. lactis looking like a bar-like beam. The latter has more opportunities to be a multifunctional tool behaviourally than the other two species. Little evidence of any differences in the 'spikiness' of any 'toothiness' is found. Some differences with laboratory cultured specimens are found in C. lactis and possibly T. putrescentiae suggesting where selection on the digit may be able to occur. The chelal surface of T. putrescentiae has been deformed morphologically during evolution the most, that of C. lactis the least. Repeated localised surface differentiation is a feature of the moveable digit in G. domesticus compared to the likely more concerted changes over certain nearby locations in T. putrescentiae. An impactful chelal teeth design is present in G. domesticus but this is more equivocal in T. putrescentiae. Pockets within the mastication surface of the glycyphagid (and to some extent for the acarid) may produce foodstuff crunch forces of the scale of the chelal tips of oribatids. The moveable digit dentition of G. domesticus is adapted to shred foodstuff (like a ripsaw) more than that of the grazing/shearing dentition of T. putrescentiae. The collecting 'picker' design of C. lactis posterior teeth matches the size of Bettsia alvei hyphae which attacks hive-stored pollen. Detritus accumulated in chelal digit gullets through a sawing action matches the smallest observed ingested material. The dentition of C. lactis should produce less friction when moving through food material than G. domesticus. C. lactis is the most hypocarnivorous and may 'skim' through fluids when feeding. Astigmatid teeth do matter. The three commensal species can avoid direct competition. Future work is proposed in detail., (© 2024. The Author(s).)

Published

2024

7. Morphological ontogeny of Carinogalumna erciyesi sp. nov. (Acari, Oribatida, Galumnidae) from Turkey, with comments on Carinogalumna Engelbrecht.

Author

Seniczak S and Seniczak A

Subjects

Animals, Turkey, Body Size, Integumentary System, Skin, Larva, Nymph, Mites anatomy & histology

Abstract

The morphological ontogeny of Carinogalumna erciyesi sp. nov. from Turkey is described and illustrated. The adult of this species is most similar to that of C. montana Engelbrecht, 1973 but differs from it mainly by the shape of the bothridial seta and porose areas Aa and A2. The larva of C. erciyesi has 12 pairs of gastronotal setae, including alveolar h3, nymphs have 15 pairs; most setae are of medium size and barbed, except for short p2 and p3, smooth in protonymph; setae p2 and p3 are inserted on unsclerotized integument. In all juveniles the bothridial seta is clavate with long, narrow, barbed head. The gastronotal shield is well-developed with setae of d-, l-series and h1 in the larva, and of d-, l-, h-series and p1 in the nymphs. Setae of c-series of juveniles are inserted on microsclerites, and genital opening is placed on a large sclerite. In all juveniles a humeral organ is present, with porose area above it.

Published

2023

8. Rhinonyssus nenecoi sp. nov. (Mesostigmata: Rhinonyssidae); a new nasal mite from Daption capense (Procellariiformes: Procellariidae).

Author

Gastal SB, Mascarenhas CS, and Bugoni L

Subjects

Animals, Birds, Sensilla, Mites anatomy & histology

Abstract

Parasitic nasal mites have been surveyed in a range of vertebrate hosts, but only two species of Rhinonyssidae have been described from procellariiform seabirds. We here describe Rhinonyssus nenecoi sp. nov., from Cape petrels, Daption capense (Procellariidae), collected in Rio Grande do Sul State, southern Brazil. The new species is morphologically most similar to R. procellaricus and R. pluvialis differing mainly by a strongly sclerotised podosomal shield with four pairs of setae, covering more than half of the idiosoma; a podosomal shield with a V-shaped posteromedial projection; an irregularly-shaped sternal shield; and a ventral opisthosoma with 3-4 pairs of setae.

Published

2023

9. Demodex murilegi and Demodex obliquus, two new specific skin mites from domestic cat Felis catus, with notes on parasitism.

Author

Izdebska JN, Rolbiecki L, and Fryderyk S

Subjects

Humans, Animals, Cats, Mammals, Mite Infestations veterinary, Mite Infestations parasitology, Mites anatomy & histology, Cat Diseases

Abstract

The Demodecidae are skin and tissue parasites of mammals with high host, topical, and topographic specificity. They may cause a demodecosis, typically observed in pets and humans. Numerous mammal species have been found to have several, specific demodecids, which inhabit different microhabitats. Thus far, two species have been known from the domestic cat, namely Demodex cati Megnin, 1877 (Acariformes: Demodecidae) and D. gatoi Desch and Stewart, 1999; however, there have been indications for the presence of other demodecid mites in this host. Presently, two other species are described, D. murilegi sp. nov. associated primarily with the skin from the area of lips and nose, and D. obliquus sp. nov. associated with the skin of the lower part of the limb. They exhibit morphological discreteness in terms of qualitative traits significant for Demodecidae taxonomy. Demodex murilegi sp. nov. is larger than both known species, and D. obliquus sp. nov. is intermediate in length between them. It is likely that infection with different Demodex species may result in variable symptoms and courses of demodecosis; however, a correct identification of the species causing the parasitosis is needed to confirm this. Thus, the present study compares the taxonomic traits of four cat demodecid mites., (© 2022 Royal Entomological Society.)

Published

2023

10. Redescription and new record of Odontoscirus nipponicus Shiba, 1985 (Bdellidae: Odontoscirinae) from China with a description of its ontogeny.

Author

Wu YF, Jin DC, Yi TC, and Guo JJ

Subjects

Animals, Male, Body Size, China, Larva, Mites anatomy & histology, Mites growth & development

Abstract

Odontoscirus nipponicus Shiba, 1985 is recorded from China and is redescribed; male, tritonymph, deutonymph, protonymph, and larva are described and illustrated for the first time. Morphological observations on the ontogeny of this species are also provided.

Published

2022

11. Morphological changes and ontogenetic development of Amblyseius eharai Amitai & Swirski (Acari: Phytoseiidae).

Author

Li DD, Yi TC, Guo JJ, and Jin DC

Subjects

Animals, Female, Male, Larva, Sensilla, Mites anatomy & histology, Mites growth & development

Abstract

This paper describes the immature and mature characteristics of Amblyseius eharai Amitai & Swirski in detail to determine its morphological ontogeny based on laboratory-reared specimens. The main changes during ontogeny are as follows: the pronotal shield extends to j6 level and opisthosoma is unsclerotized in the larva; the dorsum has two shields in the protonymph, pronotal shield slightly expended comparing to that of the larva, and the opisthonotal shield smooth and weakly sclerotized. The podonotal and opisthonotal shields in the deutonymph are partially fused, and the dorsal shield is complete, covering almost the entire opisthonotum in adults in both sexes. There are nine pairs of dorsal setae in the larva, 14 pairs in the protonymph, and 19 pairs in both deutonymph and adult. In deutonymphs, gender could be distinguished by the number of setae in the area around the anal valves. In protonymphs, all dorsal, hypostomal setae, and the macrosetae of leg IV appear and are consistent with the subsequent stages. The development of morphological traits in the ontogeny of A. eharai may provide some basic knowledge to distinguish it from closely related species.

Published

2022

12. Morphological ontogeny of Hermanniella septentrionalis (Acari, Oribatida, Hermanniellidae) and comments on Hermanniella Berlese.

Author

Seniczak A, Seniczak S, and Kowalski J

Subjects

Animals, Integumentary System, Skin, Body Size, Larva, Nymph, Mites anatomy & histology

Abstract

The morphological ontogeny of Pilogalumna tenuiclava (Berlese, 1908) is redescribed and illustrated. The prodorsal setae of juveniles are of medium size or long and barbed, and bothridial seta is fusiform, with thick, barbed head. Larva has 11 pairs of gastronotal setae, including h2, most are short and smooth, except for longer and barbed c2, c3, dp, h1 and h2. The nymphs have 15 pairs of these setae, most are short and smooth, except for longer and barbed c3. Gastronotal shield of juveniles is poorly developed, with setae of d-, l-series, and h1 in the larva, and d-, l-, h-series and p1 in the nymphs, setae of c-series, p2 and p3 are inserted on unsclerotized integument. In all juveniles, a humeral organ is present.

Published

2022

13. Morphological Identification and Phylogenetic Analysis of Laelapin Mite Species (Acari: Mesostigmata: Laelapidae) from China.

Author

Yang H, Yang Z, and Dong W

Subjects

Animals, China, Cyclooxygenase 1 genetics, Mites anatomy & histology, Mites genetics, Phylogeny

Abstract

Laelapinae mites are involved in transmission of microbial diseases between wildlife and humans, with an impact on public health. In this study, 5 mite members in the subfamily Laelapinae (laelapin mites; LM) were morphologically identified by light microscopy, and the phylogenetic relationship of LM was analyzed in combination with the sequence information of part of the LM cytochrome oxidase subunit I (cox1) gene. The morphological identification revealed that 5 mites belonged to the genera Laelaps and Haemolaelaps, respectively. Sequence analysis showed that the ratio of non-synonymous mutation rate to synonymous mutation rate of LM was less than 1, indicating that the LM cox1 gene had undergone purifying selection. Phylogenetic analysis showed that the Laelapinae is a monophyletic group. The genera Haemolaelaps and Hyperlaelaps did not separated into distinct clades but clustered together with species of the genus Laelaps. Our morphological and molecular analyses to describe the phylogenetic relationships among different genera and species of Laelapinae provide a reference for the improvement and revision of the LM taxonomy system.

Published

2022

14. DNA barcoding uncovers cryptic diversity in minute herbivorous mites (Acari, Eriophyoidea).

Author

Yin Y, Yao LF, Hu Y, Shao ZK, Hong XY, Hebert PDN, and Xue XF

Subjects

Animals, DNA, DNA Barcoding, Taxonomic, Host Specificity genetics, Humans, Plants genetics, Mites anatomy & histology, Mites genetics

Abstract

Eriophyoid mites (Acari: Eriophyoidea) are among the smallest of terrestrial arthropods and the most species-rich group of herbivorous mites with a high host specificity. However, knowledge of their species diversity has been impeded by the difficulty of their morphological differentiation. This study assembles a DNA barcode reference library that includes 1850 mitochondrial COI sequences which provides coverage for 45% of the 930 species of eriophyoid mites known from China, and for 37 North American species. Sequence analysis showed a clear barcode gap in nearly all species, reflecting the fact that intraspecific divergences averaged 0.97% versus a mean of 18.51% for interspecific divergences (minimum nearest-neighbour distances) in taxa belonging to three families. Based on these results, we used DNA barcoding to explore the species diversity of eriophyoid mites as well as their host interactions. The 1850 sequences were assigned to 531 barcode index numbers (BINs). Analyses examining the correspondence between these BINs and species identifications based on morphology revealed that members of 45 species were assigned to two or more BINs, resulting in 1.16 times more BINs than morphospecies. Richness projections suggest that over 2345 BINs occurred at the sampled locations. Host plant analysis showed that 89% of these mites (BINs) attack only one or two congeneric host species, but the others have several hosts. Furthermore, host-mite network analyses demonstrate that eriophyoid mites are high host-specific, and modularity is high in plant-mite networks. By creating a highly effective identification system for eriophyoid mites in the Barcode of Life Data Systems database (BOLD), DNA barcoding will advance our understanding of the diversity of eriophyoid mites and their host interactions., (© 2022 John Wiley & Sons Ltd.)

Published

2022

15. A closer look reveals hidden diversity in the intertidal Caribbean Fortuyniidae (Acari, Oribatida).

Author

Pfingstl T, Schäffer S, Bardel-Kahr I, and Baumann J

Subjects

Animals, Barbados, Caribbean Region, Haplotypes, Phylogeny, Mites anatomy & histology, Mites genetics

Abstract

A molecular genetic and morphometric investigation revealed the supposedly widespread Caribbean and Western Atlantic intertidal oribatid mite species Fortuynia atlantica to comprise at least two different species. Although there are no distinct morphological differences separating these taxa, COI and 18S sequence divergence data, as well as different species delimitation analyses, clearly identify the two species. Fortuynia atlantica is distributed in the northern Caribbean and the Western Atlantic and the new Fortuynia antillea sp. nov. is presently endemic to Barbados. Vicariance is supposed to be responsible for their genetic diversification and stabilizing selection caused by the extreme intertidal environment is suggested to be the reason for the found morphological stasis. The genetic structure of Fortuynia atlantica indicates that Bermudian populations are derived from the northern Caribbean and thus support the theory of dispersal by drifting on the Gulf Stream. Haplotype network data suggest that Bermudian and Bahamian populations were largely shaped by colonization, expansion and extinction events caused by dramatic sea level changes during the Pleistocene. A preliminary phylogenetic analysis based on 18S gene sequences indicates that the globally distributed genus Fortuynia may be a monophyletic group, whereas Caribbean and Western Atlantic members are distinctly separated from the Indo-Pacific and Western Pacific species., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

16. First report of a hawfinch (Coccothraustes coccothraustes) parasitized by Harpirhynchus nidulans in the Iberian Peninsula.

Author

Muñoz C, Gonzálvez M, Buendía AJ, Lara L, Escribano F, and Martínez-Carrasco C

Subjects

Animals, Animals, Wild parasitology, Birds, Skin pathology, Bird Diseases parasitology, Mite Infestations parasitology, Mite Infestations veterinary, Mites anatomy & histology

Abstract

Some avian Harpirhynchidae mites live under the skin and develop cutaneous cysts. Despite the obvious lesions that these parasites can produce, little is currently known about the behavioural disturbances that cyst-forming mites may cause in infected wild birds. We report an infection by Harpirhynchidae mites in a hawfinch (Coccothraustes coccothraustes) in southeast Spain. The bird was easily captured due to its inability to fly. During clinical examination it was found to have multiple severe traumatic injuries, possibly due to a blow or a fall, as result of which the bird was euthanized. At necropsy, the hawfinch was found to be in good body condition. Two yellowish and friable mite-filled cysts were detected in the subalar region of both wings. Mites were morphologically identified as Harpirhynchus nidulans, and histological analysis of the cystic lesions was also performed. This is the first time that the occurrence of a hawfinch infected by H. nidulans in the Iberian Peninsula has been reported., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

17. New records of water mites (Acari, Hydrachnidia) from Iran with the description of one new species based on morphology and DNA barcodes.

Author

Pei V, Zawal A, Saboori A, and Smit H

Subjects

Animals, DNA, DNA Barcoding, Taxonomic, Iran, Water, Mites anatomy & histology, Mites genetics

Abstract

In this study, based on morphology and DNA barcodes, new records of water mites (Acari, Hydrachnidia) collected in August 2017 in North Iran are presented. Hydrodroma golestanica n. sp. (Hydrodromidae) is described as new for science. We also resurrect three previously synonymized species: Sperchon amuzgari Bader Sepasgosarian, 1979 (Sperchontidae), Monatractides persicus Pei Saboori, 2004 and Torrenticola baueri Bader Sepasgozarian, 1987 (Torrenticolidae).

Published

2021

18. Re-description of seven predatory mite species of family Phytoseiidae (Acari: Mesostigmata) sourced from Florida citrus groves.

Author

Demard EP, Döker I, and Qureshi JA

Subjects

Animals, Florida, Female, Male, Species Specificity, Citrus parasitology, Mites classification, Mites anatomy & histology, Mites physiology, Predatory Behavior, Pest Control, Biological methods

Abstract

Predatory mites in the family Phytoseiidae (Acari: Mesostigmata) are of great importance as biological control agents of pest mites and other arthropods. Correct identification of species is crucial to implement effective biological control of target pests. Here, we provide re-descriptions of seven phytoseiid mite species collected from citrus orchards in Florida. The several important morphological features including dorsal setae lengths, dorsal solenostomes, shape of calyx of spermatheca, chelicera dentition, measurements, and shape of macrosetae on legs currently used to discriminate phytoseiid species were missing in the original descriptions and re-descriptions of these species. Additionally, we observed the presence of a previously unnoted taxonomically important character on Proprioseius meridionalis Chant. Therefore, the re-description was essential for further diagnosis of this species. Accordingly, the validity of the presence/absence of this structure as a diagnostic character to separate species groups in the genus Proprioseius should be re-considered. Furthermore, Typhlodromalus peregrinus, a species for which a series of morphological variations are reported in previous descriptions, is re-described and illustrated from Clermont, Florida, a location very close (10 km) to its type location (Minneola), and the leaves of type host citrus. The macrosetae StIV was knobbed apically in all our specimens of T. peregrinus indicating invalidity of sharp-pointed or knobbed StIV to separate this species from a closely related species, T. aripo De Leon. These re-descriptions and species are important to utilizing authentic and promising candidates for biological control., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

19. Size, shape, and direction matters: Matching secondary genital structures in male and female mites using multiple microscopy techniques and 3D modeling.

Author

Cómbita-Heredia O, Gulbronson CJ, Ochoa R, Quintero-Gutiérrez EJ, Bauchan G, and Klompen H

Subjects

Animals, Female, Genitalia, Female ultrastructure, Genitalia, Male ultrastructure, Male, Organ Size, Reproduction physiology, Genitalia, Female anatomy & histology, Genitalia, Male anatomy & histology, Imaging, Three-Dimensional, Microscopy, Confocal, Mites anatomy & histology

Abstract

Studies of female genital structures have generally lagged behind comparable studies of male genitalia, in part because of an assumption of a lower level of variability, but also because internal genitalia are much more difficult to study. Using multiple microscopy techniques, including video stereomicroscopy, fluorescence microscopy, low-temperature scanning electron microscopy (LT-SEM), and confocal laser scanning microscopy (CLSM) we examined whether the complex sperm transfer structures in males of Megalolaelaps colossus (Acari: Mesostigmata) are matched by similarly complex internal structures in the female. While both LT-SEM and CLSM are well suited for obtaining high-quality surface images, CLSM also proved to be a valuable technique for observing internal anatomical structures. The long and coiled sperm transfer organ on the chelicera of the males (spermatodactyl) largely matches an equally complex, but internal, spiral structure in the females in shape, size, and direction. This result strongly suggests some form of genital coevolution. A hypothesis of sexual conflict appears to provide the best fit for all available data (morphology and life history)., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

20. Global distribution and host range of the endoparasitic mite genus Locustacarus (Acari: Podapolipidae) with description of a new species from Iran parasitizing grasshoppers (Orthoptera: Acrididae).

Author

Rahmatzaei B, Hajiqanbar H, Mortazavi A, and Husemann M

Subjects

Animals, Iran, Mites anatomy & histology, Species Specificity, Grasshoppers parasitology, Host Specificity, Mites classification

Abstract

Mites (Acari) represent important parasites for a diverse range of hosts. Within the Acari, the Prostigmata represent a diverse suborder of the order Trombidiformes with about 20 000 species, including parasitic forms on both vertebrates and invertebrates. Within the Prostigmata, the genus Locustacarus (Heterostigmata: Podapolipidae) is particularly known as an intratracheal parasite of bumblebees and grasshoppers. In a survey on prostigmatic mites (Acari: Trombidiformes: Prostigmata) associated with insects in the eastern parts of Iran, one new species of the endoparasitic Locustacarus was collected associated to the grasshopper Aiolopus thalassinus (Fabricius) (Orthoptera: Acrididae). This new species, Locustacarus aiolopi Rahmatzaei & Hajiqanbar n. sp., is described here and compared morphologically with other species of the genus. This new species represents the first record of a grasshopper-associated Locustacarus species in the Palearctic. We further provide a comprehensive review of the global distribution of this genus as well as its host range., (© 2021. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2021

21. Malgacheliodes martensi spec. nov. (Acari, Oribatida, Licnodamaeidae) from South Africa.

Author

Ermilov SG, Hugo-Coetzee EA, and Khaustov AA

Subjects

Animals, Body Size, Forests, Soil, South Africa, Mites anatomy & histology, Mites classification

Abstract

The genus Malgacheliodes is recorded in South Africa for the first time. Malgacheliodes martensi spec. nov. is described from soil of Hogsback State Forest, Eastern Cape Province. Adults of the new species differ from those of Malgacheliodes guillaumeti by the presence of ribs and furrows in the aggenital region, bacilliform leg tracheae, rounded ventral keel on leg I femur and four pairs of notogastral setae (h1 absent); while its tritonymph differs from that of M. guillaumeti by the presence of five pairs of gastronotic setae (c1 absent). The generic diagnosis of Malgacheliodes is updated. The differences in morphology of the tritonymphal instar in Malgacheliodes and other genera of Licnodamaeidae are presented.

Published

2021

22. New feather mites of the Nycteridocaulus generic group (Acariformes: Proctophyllodidae) from passerines (Passeriformes) in Panama.

Author

Mironov SV and Bermúdez S

Subjects

Animals, Female, Male, Panama, Species Specificity, Mite Infestations parasitology, Mites anatomy & histology, Mites classification, Passeriformes parasitology

Abstract

Three new feather mite species of the Nycteridocaulus generic group (Proctophyllodidae: Proctophyllodinae) are described from passerines in Panama: Atrichophyllodes myrmotherulae sp. n. from the Slaty Antwren, Myrmotherula schisticolor (Lawrence) (Thamnophilidae), Nycteridocaulus apanaskevichi sp. n. from the Grey-breasted Wood Wren, Henicorhina leucophrys (Tschudi) (Troglodytidae), and N. empidonicus sp. n. from the Yellowish Flycatcher Empidonax flavescens Lawrence (Tyrannidae). Nycteridocaulus apanaskevichi, presenting the second record of the genus from a host of oscine passerines, differs from N. guaratubensis Hernandes, 2014 in having the anterolateral extensions of the prodorsal shield rounded and the hysteronotal shield lacking any ornamentation. Males of N. empidonicus differ from N. myiobius Mironov, 2017 in having the supranal concavity open posteriorly and tarsus IV with rounded apical process; and females are distinguished by macrosetae h2 having long filiform apices. Males of A. myrmotherulae most clearly differ from A. mentalis Hernandes et al. 2007 in having the terminal lamellae rectangular and tarsus IV with triangular ventral process, and females are distinguished in having a noticeably longer idiosoma, 400-430 μm long. Comments on systematics and host associations of the genera Atrichophyllodes and Nycteridocaulus are provided.

Published

2021

23. A new water mite species of the Hygrobates fluviatilis-complex from Russia (Acari, Hydrachnidia, Hygrobatidae).

Author

Tuzovskij PV

Subjects

Animals, Russia, Water, Mites anatomy & histology, Mites classification

Abstract

The Hygrobates fluviatilis-complex includes the following ten species:H. fluviatilis (Ström, 1768), H.arenarius Smit Pešić, 2017, H.corsicus Pešić Smit, 2017, H. marezaensis Pešić Dabert, 2017,H. turcicus Pešić, Esen Dabert, 2017, H. persicus Pešić Asadi, 2017, H. grabowskii Pešić, Saboori, Zawal Dabert, 2019,H. ulii Pešić, Saboori, Zawal Dabert, 2019, H. balcanicus Pešić, 2020 and H. mediterraneus Pešić, 2020 (Pešić et al. 2017, 2019, 2020, respectively).This paper gives the description of one further new species of the genus, based on material collected by the author in running waters of the European part of Russia. The material was sampled with a hand net with 250 μm mesh side. Specimens were not fixed in Koenike liquid, but slides were made from fresh material. Idiosomal setae are named according to Tuzovskij (1987). The following abbreviations are used: H-height, L-length; ml-medial length, n-number of specimens measured; P-1-5, pedipalp segments (trochanter, femur, genu, tibia and tarsus); W-width; I-IV-Leg-16, first leg, segments 16 (trochanter, basifemur, telofemur, genu, tibia and tarsus) i.e. III-Leg-3 = genu of third leg.All measurements are given in micrometers(μm), length of appendage segments is given as dorsal length. The type material is deposited in the collection of the Papanin Institute for Biology of Inland Waters (Borok, Russia).

Published

2021

24. Spatial and temporal variation of compositional, functional, and phylogenetic diversity in ectoparasite infracommunities harboured by small mammals.

Author

Krasnov BR, Vinarski MV, Korallo-Vinarskaya NP, Shenbrot GI, and Khokhlova IS

Subjects

Animals, Ecosystem, Ectoparasitic Infestations parasitology, Host-Parasite Interactions, Mites anatomy & histology, Mites genetics, Mites physiology, Phylogeny, Rodentia, Siphonaptera anatomy & histology, Siphonaptera genetics, Siphonaptera physiology, Spatial Analysis, Time Factors, Biodiversity, Ectoparasitic Infestations veterinary, Mites classification, Rodent Diseases parasitology, Shrews parasitology, Siphonaptera classification

Abstract

We studied patterns of compositional, functional, and phylogenetic α- and β-diversity in flea and gamasid mite infracommunities of small Siberian mammals, taking into account host-associated (species) and environmental (biome or sampling period) factors. We asked: (a) How do these factors and their interactions affect infracommunity diversity? (b) Does infracommunity composition, in terms of species, traits, and phylogenetic lineages, deviate from random? (c) Are species, traits, and phylogenetic lineages in infracommunities clustered or overdispersed?, and (d) Do patterns of diversity differ between the three diversity facets and/or the two ectoparasite taxa? We found that the α-diversity of infracommunities was strongly affected by host species, biome, and sampling period. The highest proportion of infracommunity diversity in both taxa was associated with the interaction between either host species and biome or host species and sampling period. Infracommunities of both taxa within, as well as between, host species, biomes, and sampling periods were characterized by the clustering of species, traits and lineages. The patterns of the effects of host species, biome, and sampling period on infracommunity diversity were congruent among the three diversity facets in both fleas and mites. We conclude that the assembly patterns in ectoparasite infracommunities mirror those characteristics of component and compound communities.

Published

2021

25. Hogsbackia africaensis/ gen. nov., sp. nov. (Acari, Oribatida, Ceratozetoidea, Punctoribatidae), from Afromontane forest of South Africa.

Author

Ermilov SG, Hugo-Coetzee EA, and Behan-Pelletier VM

Subjects

Animals, Body Size, South Africa, Species Specificity, Forests, Mites anatomy & histology, Mites classification

Abstract

A new oribatid mite genus, Hogsbackia gen. nov. (Oribatida, Punctoribatidae), with type species Hogsbackia africaensis sp. nov., is proposed and described from the indigenous Afromontane forest of South Africa. The new genus is closely related to Scotiazetes, from which it is most easily distinguished by body size ratio, number of notogastral and genital setae, type of humeral porose area Ah, position of dorsophragmata, and leg setation. The redescription of Scotiazetes bidens Wallwork, 1966 is presented, based on material from South Georgia (Antarctic region). The generic diagnosis of Scotiazetes is revised, and the genus is transferred from Ceratozetidae to Punctoribatidae. Relationships between the genera Hogsbackia gen. nov., Scotiazetes and other punctoribatid genera are discussed.

Published

2021

26. A new species of emTyphlodromus/em (Anthoseius) De Leon and redescription of emT. (A.)/em emmontanus/em Chant amp; Yoshida-Shaul from Russia.

Author

Döker I, Khaustov VA, and Joharchi O

Subjects

Animals, Classification, Female, Russia, Sensilla, Mites anatomy & histology, Mites classification

Abstract

Typhlodromus (Anthoseius) tetraporus sp. nov., collected on grasses in Crimea, is proposed as a new species for science. The new species can be separated from all known species of Typhlodromus (Anthoseius) by the combination of following characters; peritreme extending almost to level of setae j1, four pairs of solenostomes on dorsal shield, two pairs of setae on sternal shield, a sclerotised v-shaped plate posterior to sternal shield, four pairs of pre-anal setae, a pair of small rounded pre-anal solenostomes, differentiated and larger atrium of spermatheca and eight setae on genu II. In addition, T. (A.) montanus Chant Yoshida-Shaul (Acari: Phytoseiidae), a species only known based on its original description from Canada is reported for the first time in Russia. The new record is redescribed and illustrated based on female specimens collected from Prunus padus L. (Rosaceae) where it was associated with eriophyid mites in Pereval Seminskiy, Altai Republic. This species may be an important predator as a potential biological control agent of eriophyid mites.

Published

2021

27. Redescription of Brennanacarus annereauxi (Trombidiformes: Trombiculidae) With New Records for Uruguay.

Author

Bassini-Silva R, Huang-Bastos M, Welbourn C, Ochoa R, Barros-Battesti DM, and de Castro Jacinavicius F

Subjects

Animals, Larva anatomy & histology, Larva classification, Mites anatomy & histology, Uruguay, Animal Distribution, Mites classification

Abstract

Brennanacarus annereauxi (Brennan and Yunker, 1969) was described from Venezuela parasitizing the greater spear-nosed bat. The monotypic genus Brennanacarus Goff, Yunker and Wheeler, 1987 is a replacement name for Nasicola Brennan and Yunker, 1969, which was preoccupied by Nasicola Yamaguti, 1968. Here, we redescribe the genus Brennanacarus and the type species B. annereauxi. Also, this is the first record of this species, as well as the second record of any chigger, for Uruguay., (© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

28. Molecular and Morphological Identification of Dermanyssoid Mites (Parasitiformes: Mesostigmata: Dermanyssoidea) Causatives of a Parasitic Outbreak on Captive Snakes.

Author

Alfonso-Toledo JA and Paredes-León R

Subjects

Animals, Mexico epidemiology, Mite Infestations classification, Mite Infestations epidemiology, Mite Infestations parasitology, Mites anatomy & histology, Mites genetics, Mites physiology, Disease Outbreaks veterinary, Mite Infestations veterinary, Mites classification, Snakes

Abstract

A parasitic outbreak caused by dermanyssoid mites in a herpetarium of the Metropolitan area of the Valley of Mexico is revealed. This outbreak was caused by Hemilaelaps triangulus (Ewing), but a second mite species, Ophionyssus natricis (Gervais), was found in low abundance. The parasitic load is analyzed, and the morphological and molecular diagnostic characters to identify each of the two species involved are given. A barcode analysis is presented, and two more molecular markers are presented and analyzed. Hemilaelaps triangulus is recorded for the first time in Mexico, and this is the first record of massive infestation on captive snakes caused by ixodorhynchid mites, and DNA sequences of ixodorhynchid mites are publicly available for the first time., (© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

29. Three new species of Laelapidae mites (Mesostigmata) parasitic of species of Akodon (Rodentia: Cricetidae: Sigmodontinae) on the basis of female, male and deutonymph specimens.

Author

Lareschi M

Subjects

Animals, Female, Male, Mites anatomy & histology, Mites classification, Sigmodontinae parasitology

Abstract

Three new species of Androlaelaps (Mesostigmata: Laelapidae) are described on the basis of the female and male specimens, and deutonymph for two of them. Each of the new species parasitizes a different species of Akodon (Rodentia: Cricetidae: Sigmodontinae). Diagnostic characteristics support that the three new species are included in the Androlaelaps rotundus species group, and may be differentiated between them because of the length of proximal seta in coxa I; distances j5-j5, j6-j6 and z5-z5 setae in males and females; and length of st3, and st1 setae in females. Out of the seven species included in A. rotundus species-group, only the males of three of them are known, while immature stages are unknown. The new information herein provided contributes to a better knowledge of the laelapid mites and is essential to further investigate the epidemiological role of these mites as vectors of pathogens., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

30. Two new species of Leptus Latreille, 1796 (Trombidiformes: Erythraeidae) from the Canary Islands, parasitising Curculionidae (Insecta: Coleoptera), with new metrical data for some Leptus spp.

Author

Haitlinger R and Šundić M

Subjects

Animals, Spain, Species Specificity, Coleoptera parasitology, Mites anatomy & histology, Mites classification

Abstract

Leptus (Leptus) grancanaricus n. sp. and L. (L.) machadoi n. sp. are described from Gran Canaria and Fuerteventura (Canary Islands). They were collected from new hosts for the genus Leptus: Herpisticus guanarteme Machado and Laparocerus maxorata Machado (Coleoptera: Curculionidae). New metrical data for Leptus (Leptus) andae, L. (L.) akkus, L. (L.) hammameticus, L. (L.) horiacus and L. (L.) tammuzi based on examination on the type-material are provided.

Published

2020

31. Stylostome formation by parasitic larvae of Allothrombium fuliginosum (Trombidiformes: Trombidiidae): morphology of feeding tubes and factors affecting their size.

Author

Felska M, Mąkol J, and Shatrov AB

Subjects

Animals, Host Specificity, Host-Parasite Interactions, Larva, Microscopy, Electron, Transmission, Aphids parasitology, Mites anatomy & histology

Abstract

The morphology and formation of stylostomes (feeding tubes) in hosts' body during the parasitic phase of Allothrombium fuliginosum (Hermann) larvae were studied for the first time with light microscopy (LM) and transmission electron microscopy (TEM). The stylostomes were observed in three aphids species-Acyrthosiphon pisum (Harris), Elatobium abietinum (Walker), and Macrosiphum rosae (L.)-parasitized by mites under laboratory conditions. They consisted of 2-6 main branches, preliminarily unbranched, then producing secondary and sometimes also tertiary branches as finally formed structures. Their walls were uniformly electron-dense, without any longitudinal and transverse stratifications and showed rather irregular outlines. Distally, the stylostome branches revealed transparent pores and cavities in their walls, connecting the stylostome canal with surrounding haemocoelic space. The total length of stylostomes at the end of the parasitic phase was on average 16× greater than that recorded in the youngest stylostomes. No differences in the overall shape of feeding tubes between host species were stated. The stylostomes formed in different host species did not differ significantly, except their total length, which attained the highest value in tissues of Ac. pisum.

Published

2020

32. On some morphological and ultrastructural features of the insemination system in five species of the genus Brevipalpus (Acari: Tenuipalpidae).

Author

Di Palma A, Tassi AD, and Kitajima EW

Subjects

Animals, Female, Insemination, Mites ultrastructure, Mites anatomy & histology, Mites physiology

Abstract

The genus Brevipalpus (Tenuipalpidae) includes 291 described species commonly found in the tropical and subtropical regions. Morphological characters considered in the taxonomy of Brevipalpus species are difficult to discern, which often leads to erroneous identifications and the presence of cryptic species within species is suspected. New morphological characters are now considered relevant for identification of Brevipalpus species; among them, the morphology of the seminal receptacle (spermatheca) of the female insemination system. This feature has not been considered relevant until now; thus, there is little information about the insemination system in the available species descriptions. Hence, in the present study, ultrastructural details are provided for the insemination system in five species of Brevipalpus, representing different morphological groups. The seminal receptacle (spermatheca) and the insemination duct are illustrated using light, transmission and scanning electron microscopy. The spermatheca proved to have specific morphological features that can be useful for taxonomic purposes. On the other hand, its appearance within a population might be variable in a way that needs to be ascertained and evaluated.

Published

2020

33. Morphometric variation of Androlaelaps fahrenholzi (Mesostigmata: Laelapidae) associated with three Sigmodontinae (Rodentia: Cricetidae) from the north of Chile.

Author

Silva-de la Fuente MC, Moreno Salas L, Casanueva ME, Lareschi M, and González-Acuña D

Subjects

Animals, Chile, Geography, Mites anatomy & histology, Sigmodontinae parasitology

Abstract

Androlaelaps fahrenholzi is a mite with a large distribution and associated with a wide range of hosts. To assess morphometric variation of A. fahrenholzi associated with different host species (Phyllotis xanthopygus and Akodon albiventer, both from Putre, Chile) and localities (Las Chinchillas National Reserve, Fray Jorge National Park, and Llanos de Challe National Park, all in Chile and all from the host Phyllotis darwini), 41 morphological characters of each specimen were measured, and principal component analysis and discriminant analysis were used. Both analyses showed two groups separated for species of rodents. Mites associated with P. xanthopygus are smaller than those of A. albiventer. The analysis by location indicates two groups: group 1 comprises all mites collected from Fray Jorge National Park and Las Chinchillas National Reserve, and group 2 comprises only mites from Llanos de Challe National Park. These results indicate that A. fahrenholzi population can vary between hosts and geographical areas. Molecular analysis would be necessary to validate these results and determine whether they are subspecies or different species.

Published

2020

34. New Species of the Genus Periglischrus (Acari: Spinturnicidae) from Monophyllus Bats (Chiroptera: Phyllostomidae) in the West Indies, Including a Morphometric Analysis of Its Intraspecific Variation.

Author

Morales-Malacara JB, Castaño-Meneses G, Klompen H, and Mancina CA

Subjects

Animals, Chiroptera, Cuba, Dominica, Dominican Republic, Female, Guadeloupe, Haiti, Host Specificity, Jamaica, Male, Mite Infestations parasitology, Mites anatomy & histology, Mites growth & development, Nymph anatomy & histology, Nymph classification, Nymph growth & development, Mite Infestations veterinary, Mites classification

Abstract

The discovery of a new species, Periglischrus empheresotrichus, was determined through a review of museum collections, as well as a field survey of ectoparasites of island bats. This new species parasitizes on two bat species of the genus Monophyllus Leach, the Greater Antillean Long-tongued bat Monophyllus redmani Leach and the Lesser Antillean Long-tongued bat Monophyllus plethodon Miller. The female, male, deuthonymphs, and protonymph are described and illustrated. P. empheresotrichus n. sp. has an insular distribution, we evaluated the morphological variation of the adult populations, and concluded that intra-specific variation is correlated both with host species and locality (island) in the West Indies., (© The Author(s) 2019. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

35. Two New Species and New Records of Mites of the Genus Parichoronyssus (Acari: Macronyssidae) From South American Bats (Chiroptera), With a Key to the Known Species of the Genus.

Author

Morales-Malacara JB and Guerrero R

Subjects

Animals, Female, Male, Mite Infestations parasitology, Mites anatomy & histology, Mites physiology, South America, Animal Distribution, Chiroptera, Host-Parasite Interactions, Mite Infestations veterinary, Mites classification

Abstract

Derived from exhaustive search of mites of the genus Parichoronyssus associated with South American Bats, we found two new species associated with Phyllostomid, Emballonurid, and Noctiniolid bats: Parichoronyssus alexanderfaini n. sp. associated with Rhinophylla pumilio Peters; Parichoronyssus gettingeri n. sp. associated with Rhynchonycteris naso Wied-Newied, and Noctilio leporinus Linneo. Herein we give the description of those new species, and additionally is included several new records for Parichoronyssus from the region, as well as providing a key to the 11 species of Parichoronyssus., (© The Author(s) 2019. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

36. Morphological and molecular characterization of the Colomerus vitis erineum strain (Trombidiformes: Eriophyidae) from grapevine erinea and buds.

Author

Valenzano D, Tumminello MT, Gualandri V, and de Lillo E

Subjects

Animals, Female, Italy, Mites virology, Plant Leaves parasitology, Mites anatomy & histology, Mites genetics, Vitis parasitology

Abstract

The grapevine erineum mite strain (GEM) of Colomerus vitis (Pagenstecher) has spread throughout the main viticultural areas worldwide and was recently demonstrated to be a vector of Grapevine pinot gris virus (GPGV) and Grapevine inner necrosis virus (GINV). Its females mainly overwinter under the outer bud scales as winter morphs (deutogynes). Goals of this study were to characterize the morphology of protogynes (spring-summer morphs) and deutogynes (winter morphs), to confirm their genetic similarity, and to establish the seasonal period of the deutogyne occurrence. Buds or leaves from a single vineyard (cv. Luisa), Bari area, Apulia, Italy, infested with GEM were sampled 6 × from December 2015 to January 2017. Sixty-six traits commonly used for taxonomic identification were analysed on females. The length of the tibial setae l' on leg I and the tarsal setae ft' on leg II, as well as the number of smooth dorsal semiannuli differed significantly between protogynes and deutogynes, and were easier to detect than other significantly distinctive traits. ITS1 was investigated in individuals collected from buds and erinea, and the sequences confirmed that these two morphs have identical ITS1 fragments. The 1-year study demonstrated the simultaneous presence of protogynes and deutogynes in July and September 2016, whereas only protogynes were found in April and May 2016, and only deutogynes in December 2015 and January 2017.

Published

2020

37. New record of Cheyletiella parasitivorax (Mégnin, 1878) (Trombidiformes: Cheyletidae) from Brazil with an illustrated key to species for the genus.

Author

Barros-Battesti DM, Bassini-Silva R, Jacinavicius FC, André MR, Ochoa R, Ramos RV, and Allegretti SM

Subjects

Animal Distribution, Animals, Brazil, Classification methods, Female, Male, Mite Infestations parasitology, Mite Infestations veterinary, Mites anatomy & histology, Rabbits parasitology, Species Specificity, Animals, Domestic parasitology, Mite Infestations diagnosis, Mites classification

Abstract

The cheyletid mites that parasitize mammals have been neglected for a long time in Brazil, although they can be common on pets and cause injury to their hosts. Recently, Cheyletiella parasitivorax was found parasitizing a rabbit in Brazil which represents a new host and distribution record for the mite species. An illustrated dichotomous key for the identification of the species in this genus and data from the literature are provided.

Published

2020

38. Unravelling the phylogeny, cryptic diversity and morphological evolution of Diptilomiopus mites (Acari: Eriophyoidea).

Author

Liu Q, Yuan YM, Lai Y, Wang GQ, and Xue XF

Subjects

Animals, Cell Nucleus genetics, Genes, Mitochondrial, Biological Evolution, Mites anatomy & histology, Mites classification, Phylogeny

Abstract

The Eriophyoidea, notable for specific morphological characters (four-legged mites) and gall-formation in host plants (gall mites), is one of the most species-rich superfamilies of Acari. Monophyly of the superfamily Eriophyoidea is accepted by all acarologists; however, monophyly of most genera has not been evaluated in a molecular phylogenetic network. Furthermore, most eriophyoid mites, especially species in the genus Diptilomiopus, are morphologically similar, challenging their identification. Here we test the phylogeny and cryptic diversity of Diptilomiopus species using fragments of two mitochondrial (COI and 12S) and two nuclear (18S and 28S) genes. Our results revealed the monophyly of Diptilomiopus. Sequence distance, barcode gap, and species delimitation analyses of the COI gene allowed us to resolve cryptic diversity of Diptilomiopus species. Additionally, we supposed that characteristics of genu fused with femur on both legs and seta ft' absent on leg II evolved only once within Diptilomiopus, which are potential morphological synapomorphies. In contrast, characteristics of both setae ft' and ft″ divided into a short branch and a long branch were supposed evolving multiple times independently. Our findings contribute to the understanding of phylogeny and morphological evolution of Diptilomiopus species and provide a DNA-based approach for species delimitation of Diptilomiopus mites.

Published

2019

39. Description of Leptus (Leptus) haitlingeri n. sp. (Trombidiformes: Erythraeidae), parasitising horse flies (Diptera: Tabanidae), and a key to the larvae of Leptus spp. in Brazil.

Author

de Castro Jacinavicius F, Bassini-Silva R, Soares JF, Virginio F, Welbourn C, and Barros-Battesti DM

Subjects

Animals, Larva, Mites anatomy & histology, Species Specificity, Diptera parasitology, Mites classification

Abstract

The genus Leptus Latreille, 1796 (Trombidiformes: Erythraeidae) is represented by more than 250 species worldwide, and the larval stages of these mites are ectoparasites of many arthropod orders. In Brazil, there are 12 species of Leptus, some of which have been reported parasitising representatives of the orders Opiliones, Araneae, Coleoptera, Heteroptera, Hymenoptera and Diptera. This paper describes Leptus (Leptus) haitlingeri n. sp. collected from horse flies (Diptera: Tabanidae) in the state of Sao Paulo, Brazil. The new species is distinguished from L. (L.) adaminae Haitlinger, 2004 and L. (L.) fozicus Haitlinger, 2004 by the presence of 4 branched setae on palptarsus (vs 2 branched setae). A key to the larvae of Leptus spp. in Brazil is provided.

Published

2019

40. Oribatid mites show that soil food web complexity and close aboveground-belowground linkages emerged in the early Paleozoic.

Author

Schaefer I and Caruso T

Subjects

Animals, Body Size, Evolution, Molecular, Fossils, History, Ancient, Mites anatomy & histology, Mites genetics, Phylogeny, Ecosystem, Food Chain, Mites classification, Soil

Abstract

The early evolution of ecosystems in Palaeozoic soils remains poorly understood because the fossil record is sparse, despite the preservation of soil microarthropods already from the Early Devonian (~410 Mya). The soil food web plays a key role in the functioning of ecosystems and its organisms currently express traits that have evolved over 400 my. Here, we conducted a phylogenetic trait analysis of a major soil animal group (Oribatida) to reveal the deep time story of the soil food web. We conclude that this group, central to the trophic structure of the soil food web, diversified in the early Paleozoic and resulted in functionally complex food webs by the late Devonian. The evolution of body size, form, and an astonishing trophic diversity demonstrates that the soil food web was as structured as current food webs already in the Devonian, facilitating the establishment of higher plants in the late Paleozoic., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2019.)

Published

2019

41. Hidden biodiversity revealed by integrated morphology and genetic species delimitation of spring dwelling water mite species (Acari, Parasitengona: Hydrachnidia).

Author

Blattner L, Gerecke R, and von Fumetti S

Subjects

Animals, Austria, Bayes Theorem, Cyclooxygenase 1 genetics, DNA chemistry, DNA isolation & purification, Fresh Water parasitology, Germany, Likelihood Functions, Mites anatomy & histology, Mites genetics, Phylogeny, Polymerase Chain Reaction, RNA, Ribosomal, 28S genetics, Sequence Alignment, Switzerland, Biodiversity, Mites classification, Natural Springs parasitology

Abstract

Background: Water mites are among the most diverse organisms inhabiting freshwater habitats and are considered as substantial part of the species communities in springs. As parasites, Hydrachnidia influence other invertebrates and play an important role in aquatic ecosystems. In Europe, 137 species are known to appear solely in or near springheads. New species are described frequently, especially with the help of molecular species identification and delimitation methods. The aim of this study was to verify the mainly morphology-based taxonomic knowledge of spring-inhabiting water mites of central Europe and to build a genetic species identification library., Methods: We sampled 65 crenobiontic species across the central Alps and tested the suitability of mitochondrial (cox1) and nuclear (28S) markers for species delimitation and identification purposes. To investigate both markers, distance- and phylogeny-based approaches were applied. The presence of a barcoding gap was tested by using the automated barcoding gap discovery tool and intra- and interspecific genetic distances were investigated. Furthermore, we analyzed phylogenetic relationships between different taxonomic levels., Results: A high degree of hidden diversity was observed. Seven taxa, morphologically identified as Bandakia concreta Thor, 1913, Hygrobates norvegicus (Thor, 1897), Ljania bipapillata Thor, 1898, Partnunia steinmanni Walter, 1906, Wandesia racovitzai Gledhill, 1970, Wandesia thori Schechtel, 1912 and Zschokkea oblonga Koenike, 1892, showed high intraspecific cox1 distances and each consisted of more than one phylogenetic clade. A clear intraspecific threshold between 5.6-6.0% K2P distance is suitable for species identification purposes. The monophyly of Hydrachnidia and the main superfamilies is evident with different species clearly separated into distinct clades. cox1 separates water mite species but is unsuitable for resolving higher taxonomic levels., Conclusions: Water mite species richness in springs is higher than has been suggested based on morphological species identification alone and further research is needed to evaluate the true diversity. The standard molecular species identification marker cox1 can be used to identify species but should be complemented by a nuclear marker, e.g. 28S, to resolve taxonomic relationships. Our results contribute to the taxonomical knowledge on spring inhabiting Hydrachnida, which is indispensable for the development and implementation of modern environment assessment methods, e.g. metabarcoding, in spring ecology.

Published

2019

42. Feeding by Tropilaelaps mercedesae on pre- and post-capped brood increases damage to Apis mellifera colonies.

Author

Phokasem P, de Guzman LI, Khongphinitbunjong K, Frake AM, and Chantawannakul P

Subjects

Animals, Behavior, Animal, Larva, Pupa, Bees parasitology, Feeding Behavior, Mite Infestations, Mites anatomy & histology, Mites ultrastructure

Abstract

Tropilaelaps mercedesae parasitism can cause Apis mellifera colony mortality in Asia. Here, we report for the first time that tropilaelaps mites feed on both pre- and post-capped stages of honey bees. Feeding on pre-capped brood may extend their survival outside capped brood cells, especially in areas where brood production is year-round. In this study, we examined the types of injury inflicted by tropilaelaps mites on different stages of honey bees, the survival of adult honey bees, and level of honey bee viruses in 4 th instar larvae and prepupae. The injuries inflicted on different developing honey bee stages were visualised by staining with trypan blue. Among pre-capped stages, 4 th instar larvae sustained the highest number of wounds (4.6 ± 0.5/larva) while 2 nd -3 rd larval instars had at least two wounds. Consequently, wounds were evident on uninfested capped brood (5 th -6 th instar larvae = 3.91 ± 0.64 wounds; prepupae = 5.25 ± 0.73 wounds). Tropilaelaps mite infestations resulted in 3.4- and 6-fold increases in the number of wounds in 5 th -6 th instar larvae and prepupae as compared to uninfested capped brood, respectively. When wound-inflicted prepupae metamorphosed to white-eyed pupae, all wound scars disappeared with the exuviae. This healing of wounds contributed to the reduction of the number of wounds (≤10) observed on the different pupal stages. Transmission of mite-borne virus such as Deformed Wing Virus (DWV) was also enhanced by mites feeding on early larval stages. DWV and Black Queen Cell Virus (BQCV) were detected in all 4 th instar larvae and prepupae analysed. However, viral levels were more pronounced in scarred 4 th instar larvae and infested prepupae. The remarkably high numbers of wounds and viral load on scarred or infested developing honey bees may have caused significant weight loss and extensive injuries observed on the abdomen, wings, legs, proboscis and antennae of adult honey bees. Together, the survival of infested honey bees was significantly compromised. This study demonstrates the ability of tropilaelaps mites to inflict profound damage on A. mellifera hosts. Effective management approaches need to be developed to mitigate tropilaelaps mite problems.

Published

2019

43. Phenotypic plasticity more essential to maintaining variation in host-attachment behaviour than evolutionary trade-offs in a facultatively parasitic mite.

Author

Durkin ES and Luong LT

Subjects

Animals, Drosophila parasitology, Fertility, Longevity, Mites anatomy & histology, Muscidae parasitology, Adaptation, Physiological, Behavior, Animal, Biological Evolution, Host-Parasite Interactions, Mites physiology

Abstract

A prevailing hypothesis for the evolution of parasitism posits that the fitness benefits gained from parasitic activity results in selection for and fixation of parasitic strategies. Despite the potential fitness advantage of parasitism, facultative parasites continue to exhibit genetic variation in parasitic behaviour in nature. We hypothesized that evolutionary trade-offs associated with parasitic host-attachment behaviour maintain natural variation observed in attachment behaviour. In this study, we used replicate lines of a facultatively parasitic mite, previously selected for increased host-attachment behaviour to test whether increased attachment trades off with mite fecundity and longevity, as well as the phenotypic plasticity of attachment. We also tested for potential correlated changes in mite morphology. To test for context-dependent trade-offs, mite fecundity and longevity were assayed in the presence or absence of a host. Our results show that selected and control mites exhibited similar fecundities, longevities, attachment plasticities and morphologies, which did not provide evidence for life history trade-offs associated with increased attachment. Surprisingly, phenotypic plasticity in attachment was maintained despite directional selection on the trait, which suggests that phenotypic plasticity likely plays an important role in maintaining attachment variation in natural populations of this facultative parasite.

Published

2019

44. How can Dermanyssus gallinae (De Geer 1778) (Acari: Anactinotrichida: Dermanyssidae) walk upwards on slippery surfaces?

Author

Di Palma A and Mul MF

Subjects

Animals, Feathers parasitology, Female, Male, Microscopy, Electron, Scanning, Mite Infestations parasitology, Mites physiology, Poultry, Walking, Mite Infestations veterinary, Mites anatomy & histology, Poultry Diseases parasitology

Abstract

Scanning electron microscopy observations of the distal leg region of the poultry red mite Dermanyssus gallinae (De Geer 1778) identified the presence of a compound ambulacrum, the part of the leg that contacts the substratum when the mite walks. The ambulacrum is comprised of a praetarsus (the ambulacrum stalk), a pulvillus and two claws. The pulvillus is a weakly sclerotized structure that can be partly expanded or retracted in the praetarsus. When expanded, the pulvillus shows a cushion-like shape which can, as a result of its soft surface, function as a sucker, thus allowing D. gallinae to adhere to a smooth surface. When traversing an irregular surface, or clinging to a soft surface, the mite retracts the pulvillus and uses only its strongly sclerotized movable claws. These observed morphological adaptations explain the ability of D. gallinae to climb upwards on a slippery surface, resist an air flux, walk on smooth and rigid feathers of its avian hosts, and cling to the bird's or human's soft skin. This knowledge is important to better understand the attachment mechanism of this species to its host and to the substratum on which it moves, and also to provide insight into the circumstances under which it is able to move. RESEARCH HIGHLIGHTS The ambulacrum is the distal part of the leg touching the substratum D. gallinae 's ambulacrum consists of a praetarsus, a pulvillus and two claws The weakly sclerotized pulvillus can be part expanded/retracted in the praetarsus The expanded pulvillus functions as a sucker to adhere to smooth surfaces The claws are used to walk on an irregular surface or cling to a soft surface.

Published

2019

45. Inter- and intraspecific variability of morphological and molecular characters in Allothrombium species, with special reference to Allothrombium fuliginosum.

Author

Mąkol J, Saboori A, and Felska M

Subjects

Animals, Arthropod Proteins analysis, Asia, DNA, Ribosomal analysis, Electron Transport Complex IV analysis, Europe, Female, Larva anatomy & histology, Larva classification, Larva genetics, Larva growth & development, Mites anatomy & histology, Mites genetics, Mites growth & development, Nymph anatomy & histology, Nymph classification, Nymph genetics, Nymph growth & development, Phylogeny, Sequence Analysis, DNA, Animal Distribution, Mites classification

Abstract

Morphology-based identification of Allothrombium spp., in view of the limited knowledge of intraspecific variation, hinders the recognition of species borders and affects the views on the actual distribution of species. Therefore, identification will benefit from reference to molecular methods. The separate species identity of specimens putatively representing Allothrombium fuliginosum and A. pulvinum, both reported as widely distributed in the Palaearctic region and considered as potential biological control agents, was checked using morphological and molecular analyses. The representatives of various Allothrombium spp. collected in the Palaearctic were included in the analysis in order to ascertain the distance between species. The results of the morphological examination, supported by statistical inference, along with the comparison of COI and/or ITS2 sequences, weaken the hypothesis of synoccurrence of both species in the Palaearctic region. Hence, we hypothesize that A. fuliginosum is widely distributed in the Palaearctic, whereas A. pulvinum should be regarded a Nearctic species.

Published

2019

46. Insight into the species diversity of the quill mite genus Betasyringophiloidus Skoracki, 2011 (Prostigmata: Syringophilidae) on the basis of the DNA barcodes.

Author

Glowska E, Broda L, and Dabert M

Subjects

Animals, Arthropod Proteins analysis, DNA Barcoding, Taxonomic veterinary, Electron Transport Complex IV analysis, Female, Mites anatomy & histology, Sequence Analysis, DNA veterinary, Biodiversity, Birds parasitology, Feathers parasitology, Host-Parasite Interactions, Mites classification, Phylogeny

Abstract

Betasyringophiloidus Skoracki, 2011 is a genus of quill mites (Prostigmata: Syringophilidae) that is believed to contain mono-, steno- and polyxenous parasites associated with a wide range of passerine birds (Passeriformes) across the world. In this work we applied the DNA-barcode marker (mitochondrial cytochrome c oxidase subunit I gene fragment, COI) to verify whether Betasyringophiloidus schoeniclus (Skoracki, 2002) and Betasyringophiloidus seiuri (Clark, 1964) are actual steno- and polyxenous species associated with the currently recognised host ranges, or their populations are highly host-specific, cryptic species. Our results revealed that a population living on the Tristram's bunting Emberiza tristrami Swinhoe (Emberizidae) in Russia, so far classified as B. schoeniclus, is a new cryptic species Betasyringophiloidus emberizae sp. nov. Both topologies of the neighbor-joining and maximum likelihood phylogenetic trees as well as genetic distance (11.9% Kimura 2-parameter distance) (K2P) support species status of the mite population from E. tristrami. The same data support previously established conspecific status of B. seiuri found on the ovenbird Seiurus aurocapilla (Linnaeus) (Parulidae) (type host) and the northern waterthrush Parkesia noveboracensis (Gmelin) (Parulidae) and expand its range with a population found on a new host species Icterus pustulatus (Wagler) (Icteridae) with intraspecific K2P distance up to 1.9% and interpopulation distances ranging from 1.3 to 3.1%.

Published

2019

47. A new, sensitive and efficient method for taxonomic placement in the Eriophyoidea and virus detection in individual eriophyoids.

Author

Druciarek T, Lewandowski M, and Tzanetakis I

Subjects

Animals, Arthropod Vectors anatomy & histology, Female, Mites anatomy & histology, Reverse Transcriptase Polymerase Chain Reaction methods, Sensitivity and Specificity, Arboviruses isolation & purification, Arthropod Vectors classification, Arthropod Vectors virology, Classification methods, Mites classification, Mites virology, Reverse Transcriptase Polymerase Chain Reaction veterinary

Abstract

Eriophyoids affect crops around the globe directly or indirectly as virus vectors. Eriophyoid systematics initiated over a century ago, yet more than 90% of their fauna remain undescribed. Morphological identification is challenging because of a limited number of traits, cryptic speciation and complex life cycle reported for many species in the group. Nucleic acids extraction for mite identification is challenging due to their microscopic size with researchers using pooled samples leading to polymorphisms and inconclusive results. Identification of mite virus vectors is a tiresome task that could be simplified with a protocol that allows for the detection of viruses in the individual specimen. This communication describes an innovative, highly efficient extraction and detection pipeline. Direct Reverse Transcriptase - Polymerase Chain Reaction (Drt-PCR) assays were implemented in the molecular identification of eriophyoids and detection of viruses present in their bodies. The reverse transcription step allows for amplification from a single mite or egg, as in addition to the genomic DNA, it incorporates the abundant transcripts of targeted genes, whereas it also allows for the amplification of viruses. This communication provides an efficient, sensitive and cost-effective alternative that can be implemented in pest identification and detection as well as biological and ecological studies.

Published

2019

48. A description of the male of Geckobiella donnae Paredes-León, Klompen et Pérez, 2012 (Acari: Pterygosomatidae) from captive iguanas in Honduras.

Author

Kaluz S and Literak I

Subjects

Animals, Honduras epidemiology, Male, Mite Infestations epidemiology, Mite Infestations parasitology, Prevalence, Iguanas, Mite Infestations veterinary, Mites anatomy & histology, Mites physiology

Abstract

Mites of the family Pterygosomatidae are usually infesting lizards, geckos and iguanas. In this family, the genus Geckobiella Hirst, 1917 comprises 12 species including Geckobiella donnae Paredes-León, Klompen et Pérez, 2012. We collected 48 mites of G.donnae from 10 captive iguanas Ctenosaura bakeri Stejneger (Reptilia: Iguanidae) out of 23 examined individuals (prevalence 43% ) in Iguana Research and Breeding Station on Isla de Utila, Islas de la Bahía, Honduras on 1 September 2014. Males of G. donnae occurred together with females. The male of G. donnae is described here for the first time. We speculated that G. donnae is autochthonous on Isla de Utila with C. bakeri as a natural host or that it was transmitted to C. bakeri from Iguana iguana (Linnaeus) native to Utila or introduced to Utila from the North American/Central American mainland by a host kept as a pet.

Published

2019

49. Ultrastructure and functional morphology of dermal glands in the freshwater mite Limnochares aquatica (L., 1758) (Acariformes, Limnocharidae).

Author

Shatrov AB, Soldatenko EV, Stolbov VA, Smirnov PA, and Petukhova OA

Subjects

Animals, Exocrine Glands anatomy & histology, Exocrine Glands ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Mites ultrastructure, Mites anatomy & histology

Abstract

This study is the first attempt to describe the ultrastructure and functional morphology of the dermal glands in Limnochares aquatica (L., 1758). The dermal glands were studied using light-optical, SEM and TEM microscopy methods during different stages of their activity. In contrast to the vast majority of other fresh water mites, dermal glands of the studied species are originally multiplied and scattered freely over the mite body surface. The opening of the glands is saddle-like, formed of several tight cuticular folds and oriented freely to the long axis of the mite body. Either a small cuticular spine or, rarely, a slim sensitive seta is placed on one pole of the opening. On the inside, the central gland portion is provided with a complex cuticular helicoid armature. The glands are composed of prismatic cells situated around the intra-alveolar lumen, variously present, and look like a fig-fruit with the basal surface facing the body cavity. The glands are provided with extremely numerous microtubules, frequently arranged in bundles, and totally devoid of synthetic apparatus such as RER cisterns and Golgi bodies. Three states of the gland morphology depending on their functional activity may be recognized: (i) glands without secretion with highly folded cell walls and numerous microtubules within the cytoplasm, (ii) glands with an electron-dense granular secretion in the expanded vacuoles and (iii) glands with the secretion totally extruded presenting giant empty vacuoles bordered with slim cytoplasmic strips on the periphery. Summer specimens usually show the first gland state, whereas winter specimens, conversely, more often demonstrate the second and the third states. This situation may depend on some factors like changes of the seasonal temperature, pH, or oxygenation of the ambient water. On the assumption of the morphological characters, dermal glands may be classified not as secretory but as a special additional excretory organ system of the body cavity. Despite the glands lack cambial cells, restoration of functions after releasing of 'secretion' looks possible. Organization of dermal glands is discussed in comparison to other water mites studied., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

50. Cox1 barcoding versus multilocus species delimitation: validation of two mite species with contrasting effective population sizes.

Author

Klimov PB, Skoracki M, and Bochkov AV

Subjects

Animals, Electron Transport Complex IV genetics, Female, Male, Mites anatomy & histology, Mites genetics, Multilocus Sequence Typing veterinary, Phylogeny, Population Density, DNA Barcoding, Taxonomic veterinary, Mites classification

Abstract

Background: The cox1-barcoding approach is currently extensively used for high-throughput species delimitation and discovery. However, this method has several limitations, particularly when organisms have large effective population sizes. Paradoxically, most common, abundant, and widely distributed species may be misclassified by this technique., Results: We conducted species delimitation analyses for two host-specific lineages of scab mites of the genus Caparinia, having small population sizes. Cox1 divergence between these lineages was high (7.4-7.8%) while that of nuclear genes was low (0.06-0.53%). This system was contrasted with the medically important American house dust mite, Dermatophagoides farinae, a globally distributed species with very large population size. This species has two distinct, sympatric cox1 lineages with 4.2% divergence. We tested several species delimitation algorithms PTP, GMYC, ABGD, BPP, STACEY and PHRAPL, which inferred different species boundaries for these entities. Notably, STACEY recovered the Caparinia lineages as two species and D. farinae as a single species. BPP agreed with these results when the prior on ancestral effective population sizes was set to expected values, although delimitation of Caparinia was still equivocal. No other cox1 species delimitation algorithms inferred D. farinae as a single species, despite the fact that the nuclear CPW2 gene shows some evidence for introgression between the cox1 groups. This indicates that the cox1-barcoding approach may result in excessive species splitting., Conclusions: Our research highlights the importance of using nuclear genes and demographic characteristics to infer species boundaries rather than relying on a single-gene barcoding approach, particularly for putative species having large effective population sizes.

Published

2019