Three new species of chigger mites are described from two species of iguana endemic to the Galápagos Islands. Odontacarus cruzi sp. nov. and Schoengastia galapa sp. nov. are found on the marine iguana, Amblyrhynchus cristatus Bell, and Eutrombicula pachytrichia sp. nov. is found on the Santa Fe land iguana, Conolophus pallidus Heller. All these mite species were collected, identified, and named by P.H. Vercammen-Grandjean, but remained undescribed until the present.

Spider mites, especially members of Schizotetranychus represent a common and dominant group of bamboo pests, enjoying worldwide distribution. The present paper highlights the feeding attributes of a notorious species of bamboo spider mite, viz. Schizotetranychus schizopus (Zacher, 1913) infesting the Indian Thorny Bamboo, Bambusa bambos (L.) Voss. Observations on feeding behavior of the mite were completed in the laboratory by collecting mite specimens from infested leaves of bamboo plants grown in Calicut University Botanical Garden. The species showed initial colonization on the abaxial surface of bamboo leaves, adjacent to the midrib and feeding activity of the members of the colony resulted in the development of damage symptoms like chlorotic spots, white patches, yellowing etc. Comparative analysis of the biochemical constituents of mite infested and uninfested leaves of B. bambos revealed significant alterations. Mite infested bamboo leaves presented significantly reduced values of chlorophyll fluorescence (30.10% loss in Fv/Fm ratio) thereby indicating a decline of photosynthetic efficiency. Significant reduction in total carbohydrate (58.87%) and total protein (21.02%) contents also could be accounted in mite infested leaves. Meanwhile, mite infestation was found to enhance the production of stress compounds such as Total Phenol (22.86%) and Proline (69.05%). An increase in the uptake of micro and macronutrients like Potassium (18.87%), Calcium (36.66%), Copper (48.76%) and Zinc (19.62%) was also observed in mite infested leaves. Despite this, the uptake of nutrients such as Phosphorus (8.22%), Magnesium (3.55%), Sulphur (1.54%), Iron (11.46%), Manganese (13.64%) and Boron (30.09%) significantly decreased owing to mite infestation. Significant decrease in moisture content also was evident in the mite infested bamboo leaves. The results of the study helped to evidence the biotic stress induced by the mite on its bamboo host, by promoting enhanced production of Total Phenol, Proline, Potassium, Calcium, Copper and Zinc which would play a substantial role in the defense mechanism of the plant.

During a field survey in 2019, three new species of eriophyoid mites were collected from Melicope pteleifolia, in Rongan county, Guangxi Zhuang Autonomous Region, China. Aceria melicopesp. nov. causes blister-like galls on the upper side of the leaves, forming thickened, wrinkled and distorted leaves. Phyllocoptruta pteleifoliaesp. nov. and Diptilomiopus ronganensissp. nov. are vagrant on the leaves and no apparent symptom was observed.

Dermacentor marginatus is a known vector of Rickettsia slovaca and Anaplasma ovis distributed across Eurasia. A total of 300 D. marginatus adult male ticks were collected, removed from sheep in East Azerbaijan province, northwestern Iran. The DNA of Rickettsia and Anaplasma were found in 10 (two pools) ticks by PCR amplifying parts of ompA and msp4 genes, respectively. Our study describes the first PCR detection of tickborne pathogens, R. slovaca and A. ovis, show that they are spread in D. marginatus of Iran highlight their risk for human and animal hosts. Different patterns (ornamentation) were observed. The identity of different patterns in this study was evaluated with cytb, 16S rRNA and ITS2 genes. BLAST analysis of the cytb, 16S rRNA, ITS2 nucleotide sequence was showed 99%, 98%–100% and 98% sequence identity to sequences of D. marginatus, respectively. It was found that all different patterns of this study are in fact a polymorphic species, D. marginatus. These data increase our knowledge of tick and tick-borne microbial agents in Iran.

A new species of oribatid mite of the family Galumnidae, Pergalumna sistanbaluchestanicasp. nov., is described and illustrated based on adult specimens from soil in Sistan and Baluchestan province, southeastern Iran. The new species is characterized by dentate rostrum; long interlamellar setae; long, setiform, finely barbed bothridial setae; complete dorsosejugal furrow; large, nearly triangular porose areas Aa; presence of median pore in females and males; large, elongated postanal porose area and large body size. The new species is most similar morphologically to P. seminervosaMahunka & Mahunka-Papp, 2008, however, differs from it in morphology of bothridial setae and notogastral porose areas Aa and also by the surface ornamentation of the pteromorphs and genital plates; localization of setal alveoli la and lyrifissures im and body size. An identification key to known species of Pergalumna from the Palaearctic region is given.

The phytoseiid mites of the Cape Verde archipelago are scarcely known. We report the results of a survey conducted on the islands of Santiago and Santo Antão, where phytoseiids were collected from native, cultivated and invasive plants. Fourteen species were collected, four of which represent new records for the islands. One new species, Typhlodromus (Anthoseius) macrodactylus Ferragut sp. nov., is described and illustrated. We describe the unknown male of Amblyseius neolargoensis van der Merwe, provide a redescription of the male of Euseius fustis (Pritchard & Baker) and additional morphological information for all examined species.

We evaluated the role of communities of small mammals from three distinct areas in a region of Cerrado mixed with Atlantic Forest remains for maintenance of tick fauna. Thirty-nine marsupials (Gracilinanus agilis, n = 34; Marmosa paraguaiana, n = 4; Didelphis albiventris, n = 1) and 33 rodents (Oecomys cleberi, n = 10; Nectomys squamipes, n = 4; Calomys tener, n = 4; Hylaeamys megacephalus, n = 4; Akodon sp., n = 3; Rattus rattus, n = 3; Cerradomys subflavus, n = 2; Mus musculus, n = 2; Rhipidomys macrurus, n = 1) were captured. Solely G. agilis and the four rodent species (N. squamipes, R. macrurus, C. subflavus and Akodon sp.) were infested. Four tick species were collected (Amblyomma dubitatum, Amblyomma sculptum, Ixodes loricatus and Ornithodoros mimon). A. dubitatum was the most abundant tick species on hosts. Capture success was higher in the dry season, but the infestation was similar in both seasons. Forested habitats, particularly riparian forests, resulted in higher number of hosts and ticks collected (from hosts and from vegetation), compared to pastures and anthropized sites. The association between C. subflavus and I. loricatus and between A. dubitatum and N. squamipes observed here is the first recorded in Cerrado biome. Areas with more patches of forest, including the Atlantic Forest fragments, tend to present a richest community of small mammals and associated ticks.

Pimeliaphilus hemidactylisp. nov., a new species of the mite genus Pimeliaphilus Trägårdh (Acariformes: Pterygosomatidae), is described from four host species of Hemidactylus: H. murrayi Gleadow (type host), H. frenatus Duméril & Bibron, H. parvimaculatus Deraniyagala and H. leschenaultii Duméril & Bibron (Sauria: Gekkonidae) from India. P. hemidactylisp. nov. is the most similar to P. sharifiAbdussalam, 1941 and P. insignis (Berlese, 1892); this species can be distinguished from P. sharifi by the presence of 11 dorsal setae on the idiosoma, the absence of leg setae v”GII, v”TrIII and the presence of v'TrIV, and from P. sharifi by the presence of 11 dorsal setae on idiosoma, 1 pair of genital setae and the absence of coxal setae 4c. The standard morphological description of the new species is supplemented with sequencing data for cytochrome c oxidase subunit I (COI) and nuclear ribosomal genes: 18S rDNA and hypervariable region D2 of nuclear 28S rRNA. The present study also addresses specialisation amongst Pimeliaphilus hemidactylisp. nov. using two measures of host specificity: (1) the number of host species used by the mites species at the study area; and (2) a measure that considers the taxonomic distinctness of the hosts used by the mite, weighted for its prevalence in the different hosts. The results of this study indicate that this species is highly host specific (a stenoxenous species) and that, in the presence of coexisting gecko species, it prefers Murray's House gecko (H. murrayi) as a host (prevalence of 41%). A historical review of the genus is presented and a key to the genus is constructed.

A stigmaeid species, Ledermuelleriopsis punicae Khanjani, Mohammadi, Ghiasi, Izadi and Mirmoayedi (Acariformes: Stigmaeidae), originally found in Iran, is newly recorded from Turkey and re-described. The specimens of L. aminiae Nazari and Khanjani and L. aydinensis Akyol and Gül are re-examined, and L. aydinensis Akyol & Gül syn. nov. is proposed as a junior synonym of L. aminiae Nazari & Khanjani. L. aminiae is recorded from new localities, and in its deutonymph a malformation has been observed.

A new predatory mite species, Proprioseiulus ceylonensissp. nov. (Acari: Phytoseiidae) is described and illustrated based on female and male specimens collected from soil-litter in Sri Lanka. The new species can be easily distinguished from all other known species in the genus by the combination of the following characters: absence of ventral setae ZV3, presence of ten macrosetae on legs and saccular calyx of spermatheca. Moreover, an identification key to the world species of the genus is presented.

Dinogamasus saengdaoae Attasopa & Ferrari sp. nov. is described based on adult females from the abdominal pouch of females of Xylocopa tenuiscapa (Westwood) in Chiang Mai Province, Northern Thailand. The new species belongs to the D. perkinsi (Oudemans) group (sensu LeVeque) and can be distinguished from its congeners by the combination of the following characters: (1) dorsal shield covering opisthosoma neither laterally nor posteriorly; (2) opisthonotal soft cuticle with a pair of relatively long setae posteriorly; (3) setae pd1, pd2 on genu I and ad3, pd3, pl1, pl2 on both genu and tibia I conical. Maximum likelihood-based analysis of newly-generated DNA barcodes shows that the sequenced specimens of D. saengdaoaesp. nov. form a monophyletic cluster, and parsimony analysis of a previously available morphological dataset indicates that the species comprises a strongly-supported clade with D. perkinsi and D. piperi LeVeque. We provide an additional couplet for Lundqvist's key for the species of Dinogamasus Kramer to facilitate identification of D. saengdaoaesp. nov..

Typhlodromus recki (Acari: Phytoseiidae) was collected from aubergines, pepper, black nightshade and jimsonweed plants infested with spider mites from a pesticide-free vegetable garden in Denizli, Turkey. The biology and life table parameters for T. recki feeding on Tetranychus urticae (Acari: Tetranychidae) at different temperatures (15, 20, 25, 30 and 35 °C) were determined. The results showed that total preadult periods of T. recki at 15, 20, 25, 30 and 35 °C were 19.6±0.51, 9.4±0.16, 7.6±0.14, 5.7±0.14 and 4.5±0.08 days, respectively. The longest oviposition period was 23.5 days at 20 °C. Total fecundity of T. recki significantly differed between the constant temperatures and the highest was observed at 20 °C (28.6 eggs/female) and 25 °C (23.5 eggs/female). Although females survived for 26 days at 35 °C, only four females laid eggs for 1 day. Thus, 35 °C is not suitable for the reproduction of T. recki. Total longevity of female was the longest at 15 °C (59.5 days) and 20 °C (51.3 days) whereas male total longevity was the longest at 15 °C (53.2 days). The intrinsic rate of increase (r) and finite rate of increase (λ) were numerically the highest at 30 °C (0.17 and 1.18 d^-1), but there was no statistical difference observed between 25 and 30 °C for both r and λ values. The net productive rate was significantly highest at 20, 25 and 30 °C. The longest mean generation time occurred at 15 °C (42.6 days) and the shortest was at 35 °C (8.0 days). After some field trials, Typhlodromus recki could potentially be considered in the biological control agent of T. urticae.