Two new species of the genus Neoribates, N. (Neoribates) conflatus sp. nov. and N. (N.) fusiformis sp. nov., are proposed and described based on adult material collected from central China, and N. (N.) similis Fujikawa, 2007 is reported in China for the first time. A key to the known members of Neoribates from China is provided.

This study presents a checklist and a key encompassing 11 species of Typhlodromus Scheuten (Acari: Phytoseiidae) from Syria, derived from materials collected in this study as well as previous reports. A brief redescription, including setal measurements and some other important characters used to discriminate phytoseiid species, is provided for each species examined. Notably, the species Typhlodromus (Anthoseius) intercalaris Livshitz & Kuznetsov is reported for the first time in Syria, and redescribed based on adult specimens collected from Quercus cerris L. and Quercus infectoria G. Olivier (Fagaceae) trees in Latakia governorate. The examined specimens of this species demonstrated variation in the presence or absence of preanal pores: (1) absent on both sides; (2) present on both sides; (3) present on the left side; and (4) present on the right side. This species was considered a junior synonym of T. (A.) invectus Chant in an earlier study without examination of their type materials. We tried to find the holotype T. (A.) invectus without success. However, according to their original description, T. (A.) intercalaris is distinguishable from T. (A.) invectus by having two pairs of setae on the sternal shield, as opposed to three pairs in the latter species. Therefore, the reason for the redescription provided here is to improve diagnosis and minimize any confusion regarding the species status of the Syrian specimens. This discovery holds significant implications for understanding the biodiversity of phytoseiids in the country.

The physiological changes in Tetranychus urticae selected with spiromesifen+abamectin (S+A) mixture formulation were demonstrated by biochemical and molecular methods. The susceptible (GSS) population of T. urticae, was selected with S+A and made resistant with increasing doses of the mixture formulation. The resistant population was divided into two, and selection pressure was terminated in one population which is named IR (Interrupt resistant). In the other population, the selection with S+A was continued and the population named IR2. Activities of some detoxification enzymes (esterase, glutathione-S-transferase (GST) and cytochrome P450) were investigated in the GSS and IR populations. The activity of esterase, GST and P450 enzymes were increased by 1.77, 2.57 and 2.58-fold, respectively, in the IR population compared to the GSS population. Also, investigation of synergistic effects with esterase inhibitor (TTP), GST inhibitor (DEM) and P450 inhibitor (PBO) in this population revealed that all three synergists showed significant synergistic effects in IR population. In molecular studies, when the population was screened for the presence of two previously identified glutamate channel mutations (G314D and G326E) by qPCR with TaqMan probes no mutations could be detected in glutamate channels. and the CTD domain of acetyl coenzyme-A carboxylase (ACCase). Furthermore, possible genetic mutations in the biotin carboxylase domain (BCD) and carboxyl transferase domain (CTD) of the ACCase target sites were determined by sequencing. Although a single amino acid mutation G37D in the BCD of the ACCase gene of the IR and IR2 populations was detected, its association with spiromesifen resistance was not confirmed. The results indicated that increased detoxification and possible target site mutation may be responsible for the S+A resistance in the IR and IR2 populations.

Environmental influences experienced by organisms are known to influence the phenotype of offspring through transgenerational plasticity or parental effects, and recent studies have revealed the significance of diet stress experienced by parents in shaping the life course of their progeny. In this laboratory study using a predatory mite, Phytoseiulus persimilis Athias-Henriot, we investigated the influence of parental diet restriction on offspring life history traits. We found that parental mites exposed to food reductions of 50% (Low diet) during both immature development and adult stages produced F₁ offspring with reduced survival rates and fecundity compared to those from parents on abundant (High) diets. Sexually dimorphic responses emerged in response to parental diet restriction, whereby a reduced diet led to extended developmental periods for both male and female offspring while simultaneously reducing male size at maturity and increasing female size at maturity. We also found that diet restriction experienced by F₀ individuals at both immature and adult stages manifested as reduced egg volumes and a less female-biased sex ratio in the F₁'s offspring (i.e. the F₂). There were additional significant interactions between the dietary history of parents and the dietary experiences of P. persimilis offspring themselves on various traits, including post-oviposition period, fecundity, and individual egg volume. These findings suggest that the dietary experiences of parents can modulate their offspring's response when facing diet restriction. This study provided insights into non-genetic inheritance and transgenerational plasticity, highlighting the intricate interplay between environmental stressors and phenotypic responses.

Taxonomy of the predatory mite family Phytoseiidae (Acari: Mesostigmata) is essentially based on morphological observations, and only a few studies use integrative approaches that include mainly morphological and molecular analysis. Species of the genus Euseius Wainstein (Acari: Phytoseiidae) are pollen feeding generalist predators belonging to “Type IV” group. There are more than 200 species of the genus that are considered to be valid. However, there could be a series of synonyms among these valid species. Euseius gallicus Kreiter & Tixier is one of the recently described species and its natural populations have been reported from a total of 10 countries. There are some molecular studies showing that E. gallicus represents a different lineage and separated adequately from the other well-known and common species, E. stipulatus in the Western Palearctic region. However, it shows great morphological similarities with E. amissibilis Meshkov, a species previously described from Tajikistan. According to its original description, these two species can be separated based on a few differences in their setal lengths, but doubts remain regarding the similarities between them. Therefore, we examined the type material of E. amissibilis, and newly collected materials from various localities including the type locality. We conducted molecular analyses, using two gene markers (ITS and Cox1) to determine whether these two species are conspecific. Results show that all morphological characters and measurements of the type and the newly collected materials of E. amissibilis fall within the range indicated in the original description of E. gallicus. Moreover, zero and low levels (≤6% previously considered as variation for phytoseiid mites) of genetic distances were detected among the specimens of these two species from different populations based on ITS and Cox1 gene markers, respectively. As conclusion, this study confirms that E. gallicus is a junior synonym of E. amissibilis. In addition, based on our best knowledge, a ventral pore-like structure located on ambulacral stalk of the first leg is observed for the first time in a species of the family Phytoseiidae, probably even in the order Mesostigmata.

Three new species of eriophyoid mites from Dabashan Nature Reserve, Chongqin City, China are described and illustrated. They are Epitrimerus pleiospermae sp. nov. infesting Euptelea pleiosperma Hook. f. & Thomson (Eupteleaceae); Vittacus orientalis sp. nov. infesting Debregeasia orientalis C. J. Chen (Urticaceae); Diptacus regius sp. nov. infesting Juglans regia L. (Juglandaceae) and two marker genes (COI, 28S) were obtained, OR780123-OR780125 (COI, Vittacus orientalis sp. nov.); OR785980-OR785981 (28S, Vittacus orientalis sp. nov.); OR878054-OR878055 (28S, Epitrimerus pleiospermae sp. nov.). All three new species are vagrants causing no apparent damages to their host plants.

The tick species that comprise the Amblyomma maculatum group (Acari: Ixodidae) are widely distributed in the Nearctic and Neotropical regions, ranging from the United States of America (USA) to Argentina. This group includes three species: Amblyomma maculatum, Amblyomma tigrinum, and Amblyomma triste, which parasitize a high number of vertebrates, including domestic mammals and humans, where they are the main vectors of Rickettsia parkeri s.s. The identification, distribution, and validity of the three species within the group have been controversial and continue to raise questions. Previous studies have mostly focused on the analysis of partial nuclear and mitochondrial genes, highlighting the need for new integrative analyses that contribute to clarifying their systematics and ecology. In this investigation, we obtained the first mitochondrial genome of A. triste (14,808 bp), which, upon comparison with the reported mitochondrial genomes of A. maculatum, exhibits a genetic distance of 4.2%, providing new evidence for the validity of the former species. The order, composition, and structure of the mitogenome of A. triste are consistent with the characteristics reported for most Metastriata including taxa within Amblyomma, that count with several mitochondrial genomes published in the last few years. The attributes of the mitogenomes, such as the absence of paralogs and a small genome, confirm the utility in studies involving complexes of cryptic species as it also serves as a robust tool for inferring phylogenies. Furthermore, we reported new molecular markers at the mitochondrial level which can be used in phylogenetic studies for other tick species, especially those with controversial or challenging taxonomy. We highlight the need of sequencing the mitochondrial genome of A. tigrinum, which is part of the A. maculatum group, as well as experimental crosses of populations from different places in the Americas to obtain additional evidence for species recognition.

The members of the families Rhodacaridae and Laelapidae are free-living mites, found mainly in litter and the first few centimeters of the soil surface, and sometimes near plant roots, where they feed on insect larvae, springtails, nematodes, and phytophagous mites. At present some members of these families have been considered for use in biological control programs of Rhizoglyphus mite species (Acari: Acaridae). The development and fecundity of Gaeolaelaps aculeifer (Canestrini) and Protogamasellopsis rhizoglyphusi Amin & Khanjani, feeding on the astigmatic mites Rhizoglyphus echinopus (Fumouze & Robin) (Acaridae) and Carpoglyphus lactis (L.) (Carpoglyphidae) were studied at 25 ± 1 °C, 60 ± 10%, and in the darkness. The results showed that both predatory mites can feed and thrive on the two preys. Each predator species had a similar duration of the immature phase on both preys, and the duration was slightly longer for G. aculeifer (11.1–12.1 days) than for P. rhizoglyphusi (9.1–9.2). The oviposition time and life span were also similar for both species on both prey (respectively 17.7–19.8 and 35.9–39.8). However, the mean daily oviposition per female G. acullifer increased from about 2.9 eggs on R. echinopus to about 4.0 eggs on C. lactis. Also, the mean daily oviposition per female P. rhizoglyphusi decreased from about 3.8 eggs on R. echinopus to about 3.6 eggs on C. lactis. The net reproductive rate (R₀) ranged between 29.9 and 36.3 ♀/♀, except for G. aculeifer on R. echinopus, only 19.0 ♀/♀. The values of intrinsic rate of increase (r_m) ranged from about 0.136 ♀/♀/day (G. aculeifer feeding on R. echinopus) to about 0.230 (P. rhizoglyphusi feeding on C. lactis). Stage duration increased in starved specimens, G. aculeifer and P. rhizoglyphus adult females survived without food for a mean of 18 and 16.5 days, respectively. The results showed that mass rearing of both predators can be performed using C. lactis as prey, and also, both predators are able to develop and reproduce on R. ehinopus, a serious pest species in different countries, as prey. These data provide significant information for the practical application of predatory soil mites in the management of agricultural pests.

Two new species belonging to the genera Daidalotarsonemus De Leon, 1956 and Floridotarsonemus Attiah, 1970 named as Daidalotarsonemus kalyanicus Karmakar & Kayal sp. nov. and Floridotarsonemus boroiae Karmakar & Kayal sp. nov. are described based on the specimens found on the leaves and barks of Indian Ber, Ziziphus mauritiana Lam. from Kalyani, Nadia, West Bengal, India.

The poultry red mite, PRM, Dermanyssus gallinae (De Geer, 1778), is widely regarded as the primary ectoparasite affecting egg-laying hens around the world. Besides direct feeding damage, the transmission of avian pathogens by PRMs is also a significant concern. Therefore, we aimed to screen the presence of 14 common avian pathogens in 32 PRM populations from egg-laying hens in Türkiye. As a result, Salmonella enterica (n=3), Tsukamurella paurometabola (n=18), and Avian fowlpox virus (n=4) (3 of which were wild-type APV) were detected in tested PRM populations. The results showed that the prevalence of avian pathogens in Turkish PRM populations was low. Nevertheless, these findings suggested that PRM can harbor disease-causing agents and may act as a vector in the spread of these pathogens in farms. In addition, four mitochondrial genes (mtDNAs) of D. gallinae, namely ND4, ND5, cytb, and atp6, were amplified, and obtained sequences were submitted to the GenBank database for the first time, which will allow further analyses. The genetic variation within cytb sequences of Turkish PRMs was the highest (1.01%), whereas intra-specific genetic distance was 1.7% when compared to a Chinese population (only available cytb sequence in the GenBank), indicating increasing genetic differentiation by distance. Last, more sequences belonging to mitochondrial genes are required to reveal their potential as molecular markers.

This study aimed to verify the diversity of ticks in wild birds of remnant fragments of the Atlantic Forest biome in the municipality of Piraí, Rio de Janeiro state, and to detect pathogenic agents in the ticks collected. Birds were captured between June 2016 and April 2017. The collected ticks were identified using a specific dichotomous key. Tick DNA was tested using polymerase chain reaction (PCR) for Borrelia spp., Rickettsia spp., Ehrlichia spp., Anaplasma spp., and Babesia spp. In total, 150 birds were captured, including 64 species, 18 families, and 5 orders. Of these, 22 (14.67%) of 18 different species were parasitized by Amblyomma spp. (n=7), Amblyomma longirostre (n=10), Amblyomma sculptum (n=1), and Amblyomma parkeri (n=21). Only one Amblyomma sp. amplified specific DNA fragments for Rickettsia amblyommatis, whereas the others were negative for Borrelia spp., Ehrlichia spp., Anaplasma spp., and Babesia spp. The avifauna play an important role in maintaining the life cycle of ticks, in addition to contributing to the dispersion of arthropods and the microorganisms transmitted by them.

Two new species of Zetorchella (Oribatida, Caloppiidae)—Z. sandori sp. nov. and Z. andasibensis sp. nov.—are described, based on materials collected from Madagascar. An identification key to the known species of Zetorchella is provided.

The reaction paper provides a brief response and critique Khan et al.'s (2023) proposal categorisation about dividing four subgenera of the genus Raphignathus Dugès. The present work contains following nomenclatural recommendation in Raphignathus: (1) Raphignathus bengalensis Modak, 1991 and R. sayedi Gomaa and Hassan, 1986 are considered here as nomina nuda due to no formally publishing. (2) Raphignathus curtipilus Berlese, 1888 is transferred to the genus Eustigmaeus Berlese. (3) Raphignathus striatus Trägardh, 1904 is moved to the genus Prostigmaeus? Kuznetsov in Stigmaeidae based on their original descriptions and illustrations. This paper also presents a current species list for the family Raphignathidae Kramer, with a new country (Türkiye) recorded species and a case of numerical variation in its external suranal setae.