Seven mite species belonging to the genus Syringophilopsis Kethley, 1970 (Acari: Prostigmata: Cheyletoidea) are recorded from 10 passeriform host species from the USA. Three new species are described and illustrated: Syringophilopsis polioptilus sp. n. from Polioptila caerulea (Linnaeus) (Polioptilidae); S. empidonax sp. n. from Empidonax hammondii (Vesey) and Empidonax wrightii Baird (Tyrannidae); and S. sialiae sp. n. from Sialia mexicana Swainson (Turdidae). In addition, records of new hosts are given: Turdus migratorius Linnaeus (Turdidae) for Syringophilopsis turdus (Fritsch, 1958); three tyrannid species (Tyrannidae), Myiarchus crinitus (Linnaeus), M. cinerascens (Lawrence) and Tyrannus verticalis Say for S. tyranni Bochkov et Galloway, 2004; Euphagus cyanocephalus (Wagler) (Icteridae) for S. elongatus (Ewing, 1911); and two parulid species (Parulidae), Dendroica graciae Baird and Wilsonia pusilla (Wilson) for S. dendroicae Bochkov et Galloway, 2001. All known species of the genus Syringophilopsis from the Nearctic Region are summarized in tabular form. Syringophilopsis porzanae Bochkov et Galloway, 2004 is reassigned to the genus Ascetomylla Kethley, 1970.
Many factors contribute to the 'invasive potential' of species or populations. It has been suggested that the rate of genetic evolution of a species and the amount of genetic diversity upon which selection can act may play a role in invasiveness. In this study, we examine whether invasive species have a higher relative pace of molecular evolution as compared with closely related non-invasive species, as well as examine the genetic diversity between invasive and closely related species. To do this, we used mitochondrial cytochrome c oxidase subunit I sequences of 35 species with a European native range that are invasive in North America. Unique to molecular rate studies, we permuted across sequences when comparing each invasive species with its sister clade species, incorporating a range of recorded genetic variation within species using 405,765 total combinations of invasive, sister, and outgroup sequences. We observed no significant trend in relative molecular rates between invasive and non-invasive sister clade species, nor in intraspecific genetic diversity, suggesting that differences in invasive status between closely related lineages are not strongly determined by the relative overall pace of genetic evolution or molecular genetic diversity. We support previous observations of more often higher genetic diversity in native than invaded ranges using available data for this genetic region.
A new diagnosis of Paronychiurus Bagnall, 1948 is given. P. ramosus (Folsom, 1917) and P. eous (Christiansen & Bellinger, 1980) comb. nov. are redescribed on the basis of the types and new specimens. Two new species are described: P. probus sp. n., P. hubbardi sp. n. A key to the species in this genus is presented.
The species of Lampetis (Spinthoptera) Casey, 1909 of Central America, North America and the West Indies are revised and 31 species are recognized. Six species from the West Indies [L. aurata (Saunders, 1871), L. aurifera (Olivier, 1790), L. bahamica (Fisher, 1925), L. guildini (Laporte & Gory, 1836), L. straba (Chevrolat, 1867), and L. torquata (Dalman, 1823)], eight species from Mexico [L. auropunctata (Kerremans, 1893) (new record for the USA), L. chalconota (Waterhouse, 1882), L. christophi Théry, 1923, L. dilaticollis (Waterhouse, 1882), L. geniculata (Waterhouse, 1889), L. granulifera (Laporte & Gory, 1837), L. mexicana Théry, 1923, and L. obscura Thomson, 1879], three species from Mexico and Central America [L. cortesi (Laporte & Gory, 1837), L. monilis (Chevrolat, 1834), L. simplex (Waterhouse, 1882)], and three from Central America [L. hirtomaculata (Herbst, 1801) = L. insularis (Casey, 1909) syn. n.; L. lesnei (Kerremans, 1910); and L. srdinkoana (Obenberger, 1924)] are redescribed. Seven new species (L. chamela sp. n., L. colima sp. n., L. cyanitarsis sp. n., L. hondurensis sp. n., L. tigrina sp. n., L. viridicolor sp. n., and L. viridimarginalis sp. n.) are described. Three species from Mexico and the United States [L. cupreopunctata (Schaeffer, 1905), L. drummondi (Laporte & Gory, 1836), and L. webbii (LeConte, 1858)], and one species from Mexico (L. chiapaneca Corona, 2004) are not described here, because they were (re)described recently. The diagnosis, distribution, host plants and phenology data of L. chiapaneca, L. cupreopunctata, L. drummondi, and L. webbii are given. Lampetis famula Chevrolat, 1838 and L. variolosa (Fabricius, 1801) are not recognized herein as Mexican species, because they are from South America according to the literature and specimens studied. Information on variation, distribution, and host plants are given for each species. Photographs of dorsal habitus and male genitalia are included.
A comparative study of the scoleces of monozoic tapeworms (Cestoda: Caryophyllidea), parasites of catostomid and cyprinid fishes (Teleostei: Cypriniformes) in the Nearctic Region, was carried out using light and scanning electron microscopy. Scoleces of 22 genera of North American caryophyllideans were characterised and their importance for taxonomy, classification and phylogenetic studies was critically reviewed. Nearctic genera exhibit a much higher variation in the shape and form of scoleces compared with taxa in other biogeographical regions. The following basic scolex types can be recognised in Nearctic caryophyllideans: monobothriate (Promonobothrium Mackiewicz, 1968), loculotruncate (Promonobothrium, Dieffluvium Williams, 1978), bothrioloculodiscate (Archigetes Leuckart, 1878, Janiszewskella Mackiewicz et Deutsch, 1976, Penarchigetes Mackiewicz, 1969, Pseudoglaridacris Oros, Uhrovič et Scholz, 2018), fixomegabothriate (Capingens Hunter, 1927), bulbate and bulboacuminate (Atractolytocestus Anthony, 1958), cuneiloculate (Hypocaryophyllaeus Hunter, 1927, Rowardleus Mackiewicz et Deutsch, 1976, Spartoides Hunter, 1929), biacetabulate, bulboloculate, bothrioloculodiscate (Biacetabulum Hunter, 1927), tholate (Hunterella Mackiewicz et McCrae, 1962), cuneifimbriate (Khawia Hsü, 1935), cuneiform (Calentinella Mackiewicz, 1974, Caryophyllaeides Nybelin, 1922, Edlintonia Mackiewicz, 1970), hastate (Pseudolytocestus Hunter, 1929), loculotholate (Bialovarium Fischthal, 1953, Pliovitellaria Fischthal, 1951), and cuneiformoloculate (Glaridacris Cooper, 1920, Isoglaridacris Mackiewicz, 1965). The same type of scolex may be shared by species of different genera or families and species of the same genus can have a scolex of conspicuously different morphology, e.g. in Promonobothrium. Scolex morphology may be therefore of limited use in generic designation.
Spermiogenesis and ultrastructure of mature spermatozoon of the caryophyllidean cestode Hunterella nodulosa, a parasite of suckers (Catostomidae), have been studied by transmission electron microscopy. This monozoic tapeworm is unique in its mode of attachment and represents the second North American species studied. The process of spermiogenesis of H. nodulosa follows the general pattern already described in other caryophyllideans. The most characteristic feature is the presence of a slight rotation of the flagellar bud, which seems to be a typical character of spermiogenesis in this cestode group. The mature spermatozoon of H. nodulosa is characterized by the presence of one axoneme of 9 + ''1'' type of the trepaxonematan flatworms surrounded by a semi-arc of cortical microtubules in its anterior extremity, parallel nucleus and cortical microtubules arranged in a parallel pattern, which corresponds to the Type III pattern of cestode spermatozoa according to Levron et al. (2010). Comparison of the present data with those available for other caryophyllideans did not reveal substantial differences, even though they belong to different families, infect different hosts (catostomid, cyprinid and siluriform fishes) and occur in distant zoogeographical regions. This indicates uniformity of the process of sperm formation and spermatozoon ultrastructure in one of the evolutionarily most ancient groups of tapeworms.
Fosiliferní uloženiny chadronského souvrství z oblasti Badlands v jižní Dakotě obsahují velmi diverzifikované společenství obratlovců. Podstatnou část z nich představují savčí pozůstatky, i když časté jsou i nálezy krokodýlů, želv a ještěrů. Obrovští lichokopytníci brontotéria, náležející mezi nejpůsobivější tvory té doby, tvořili spolu s vyhynulými sudokopytníky oreodonty dominantní komponentu tohoto svrchnoeocenního terestrického ekosystému. Kromě nich zahrnovala chadronská fauna ještě celou řadu dalších skupin licho- a sudokopytníků, například bezrohé nosorožce hyrakodonty a amynodonty, malé tříprsté koně, tapíry, entelodonty, antrakotéria, velbloudy, pekari a leptomerycidy. Početní byli i představitelé dvou řádů masožravých savců, kreodontů a šelem, zastoupení hyenodonty, nimravidy, psovitými a amfikýonidy. Nacházejí se zde i pozůstatky malých savců, především hlodavců, hmyzožravců a vačnatců. Pozoruhodný relikt představují multituberkuláti, jejichž největší rozvoj spadá do období druhohor. Výzkum této lokality tak nabízí jedinečnou příležitost k získání cenných poznatků, týkajících se nejen evoluce jednotlivých čeledí a řádů, ale rovněž i trendů změn životního prostředí v minulosti., The fossiliferous layers called Chadron formation of Badlands area in South Dakota contain a highly diverse assemblage of vertebrates. Numerous species of mammals represent a substantial part of revealed findings. The research of these ancient fossils offers a unique opportunity to obtain valuable information on the evolution of individual orders and families, and also about environmental changes in the past., and Stanislav Knor.
A survey of the species of the Proteocephalus-aggregate from sticklebacks (Actinopterygii: Gasterosteidae) is provided. The occurrence of three species in North America is confirmed: (i) Proteocephalus filicollis (Rudolphi, 1802), which has been reported from the three-spined stickleback, Gasterosteus aculeatus Linnaeus, in the northeastern part of North America (Newfoundland); (ii) Proteocephalus pugetensis Hoff et Hoff, 1929 occurs also in G. aculeatus, but in northwestern North America (British Columbia and Washington); and (iii) Proteocephalus culaeae sp. n., which is described from the brook stickleback, Culaea inconstans (Kirtland), in Manitoba (Canada). Another species, Proteocephalus ambiguus (Dujardin, 1845), a specific parasite of the nine-spined stickleback, Pungitius pungitius (Linnaeus), and type species of the genus, has also been found in North America (Alberta, Canada), but its vouchers are in poor condition and cannot be reliable assigned to this species. Both species reported from three-spined stickleback differ from each other by the shape of the scolex (rounded in P. filicollis versus continuously tapered towards the anterior extremity in P. pugetensis) and the apical sucker (widely oval to subspherical in frontal view in P. filicollis versus flattened in P. pugetensis). Proteocephalus culaeae sp. n. is characterised by a short body composed of a few, continuously widened proglottids, a short scolex narrower than the strobila and devoid of an apical sucker, a short, pyriform cirrus sac, no vaginal sphincter, and few testes. A key to species of the Proteocephalus-aggregate from sticklebacks is provided.
Invaze nepůvodních druhů žížal vede v severoamerických lesích ke komplexním změnám a to především v severních opadavých lesích, které se od posledního zalednění částečně vyvíjely zcela bez přítomnosti žížal. Článek danou problematiku zasazuje do souvislostí a představuje stav poznání z hlediska příčin, postupu a důsledků těchto invazí., Invasions of exotic earthworms into North American forests lead to complex changes, in particular, in northern deciduous forests that have partially developed after the last glaciation without the presence of earthworms. The paper explains the context of these earthworm invasions and presents the state of knowledge in respect to their causes, spread and consequences., and Jiří Schlaghamerský.