A record of juvenile Paragonimus skrjabini miyazakii from the urinary bladder of the Japanese toad,Bufo japonicus formosus

We found juveniles of Paragonimus in the urinary bladder of a Japanese toad (Bufo japonicus formosus) captured in Kyoto. These were molecularly identified as Paragonimus skrjabini miyazakii Kamo, Nishida, Hatsushika et Tomimura 1961. This is the first report of P. s. miyazakii found in anuran hosts in Japan, indicating that anurans can be paratenic hosts of P. s. miyazakii, as is also the case for Paragonimus skrjabini skrjabini in China. This finding suggests that definitive hosts of P. s. miyazakii can be infected by eating not only crabs or mammal paratenic hosts, but also anurans.     

并殖吸虫成虫形态结构特征排序

对9种并殖吸虫成虫形态特征进行主成分分析及聚类分析,结果表明:在并殖吸虫成虫的6项主要特征中,体形因素及卵巢类型是重要的分类依据。在被分析的9个种中,怡乐村并殖吸虫、斯氏狸殖吸虫、巨睾狸殖吸虫、三平正并殖吸虫、异盘并殖吸虫、陈氏并殖吸虫与卫氏并殖吸虫7个种具有种的独立地位,而泡囊狸殖吸虫和扁囊并殖吸虫未能分别从斯氏狸殖吸虫和卫氏并殖吸虫中分开。     

The taxonomy of the family Paramphistomidae Fischoeder, 1901 with special reference to the morphology of species occurring in ruminants. III. Revision of the genus Calicophoron Näsmark, 1937

Summary The genus Calicophoron N?smark, 1937 is redefined. Only the following species originally assigned by N?smark to the genus are considered valid: C. calicophorum (Fischoeder, 1901) N?smark, 1937 (type species); C. papillosum (Stiles & Goldberger, 1910) N?smark, 1937; and C. raja N?smark, 1937. The following species previously assigned to the genus Paramphistomum Fischoeder, 1901 are considered valid but moved to the genus Calicophoron N?smark, 1937 in new combinations: C. bothriophoron (Braun, 1892); C. microbothrium (Fischoeder, 1901); C. papilligerum (Stiles & Goldberger, 1910); C. clavula (N?smark, 1937); C. microbothrioides (Price & McIntosh, 1944); C. sukari (Dinnik, 1954); C. phillerouxi (Dinnik, 1961); C. daubneyi (Dinnik, 1962) and C. sukumum (Dinnik, 1964). The genus Bothriophoron (Stiles & Goldberger, 1910) Grétillat 1958 is synoymized with Calicophoron N?smark, 1937. Paramphistomum crassum Stiles & Goldberger, 1910, P. cauliorchis Stiles & Goldberger, 1910, P. ijimai Fukui, 1922, P. (Cauliorchis) skrjabini Popova, 1937, P. erschovi Davydova, 1959, Calicophoron orientalis Mukherjee, 1966, C. wuchengense Wang, 1979 and Cotylophoron skrjabini Mitskevich, 1958 in part are considered synonyms of Calicophoron calicophorum (Fischoeder, 1901) N?smark, 1937. C. zhejiangense Wang, 1979 is regarded a synonym of C. papillosum (Stiles & Goldberger, 1910) N?smark, 1937. P. vangrembergeni Van Strydonck, 1970 and P. togolense Albaret, Bayssade-Dufour, Guilhon, Kulo & Picot, 1978 are considered synonyms of Calicophoron phillerouxi (Dinnik, 1961) n. comb. and Ceylonocotyle petrovi Davydova, 1961 is synonymized with Calicophoron microbothrioides (Price & McIntosh, 1944) n. comb. The species considered valid under the genus are redescribed and illustrated and scanning electron photomicrographs of the tegumental surfaces of some species are provided. A key to the species is given. Part of a thesis approved by the University of London for the award of the Ph.D. degree.     

Cervicaprastrongylus,a new genus proposed for the nematode species Ostertagia skrjabini Singh & Pande, 1963 (Trichostrongyloidea,Trichostrongylidae)

Summary A new genus, Cervicaprastrongylus, is proposed for Ostertagia (Grosspiculagia) skrjabini Singh & Pande, 1963, previously renamed Ostertagia (Grosspiculagia) malviyai by Chaturvedi & Kansal in 1977. The new genus is distinguished from Hyostrongylus by the structure of the spicules, the branching of the dorsal ray, the structure of the genital cone and the arrangement of the rays of the lateral lobe of the bursa. Other species transferred to the new genus in new combinations are Hyostrongylus gabonensis Durette-Desset & Chabaud, 1974 and H. moreli Durette-Desset & Denke, 1978. The genera Bergheia, Hyostrongylus and Parostertagia are discussed and the present position of the four separate species named Ostertagia skrjabini is reviewed.     

Parapharyngodon osteopili n.sp. (Pharyngodonidae: Oxyuroidea) and a revision of Parapharyngodon and Thelandros

Summary Parapharyngodon osteopili n.sp. is described from the Cuban treefrog Osteopilus septentrionalis (Hylidae; Anura). Parapharyngodon Chatterji, 1933 and Thelandros Wedl, 1862 are redefined and distinguished on the basis of male and female caudal morphology and egg structure. Parapharyngodon spp. are found in insectivorous reptiles and amphibians whereas Thelandros spp. are essentially parasites of herbivorous and omnivorous reptiles. The following species are transferred to Parapharyngodon from Thelandros and represent new combinations: Parapharyngodon echinatus (Rudolphi, 1819), P. hemidactylus (Patwardhan, 1935), P. khartana (Johnston & Mawson, 1941), P. trachysauri (Johnston & Mawson, 1947), P. californiensis (read & Amrein, 1952), P. meridionalis (chabaud & Brygoo, 1962), P. mabouia (Rao & Hiregaudar, 1962), P. iguanae (Telford, 1965), P. calotis (Johnson, 1966), P. maculatus (Caballero, 1968) and P. garciae (Schmidt & Whittaker, 1975). Thelandros awokoyai (Babero & Okpala, 1962) n.comb., is transferred from Parapharyngodon. P. megaloon (Linstow, 1906) n.comb., P. seurati (Sandground, 1936) Freitas, 1957, P. waltoni (Read & Amrein, 1952) n.comb., P. cameroni (Belle, 1957) n.comb., P. aspiculus Khera, 1961, T. cinctus (Lonstow, 1897) and T. kuntzi Belle, 1957 are considered species inquirendae. ac]19810406     

Molecular phylogeny of the deep‐sea penaeid shrimp genus Parapenaeus (Crustacea: Decapoda: Dendrobranchiata)

The commercial deep‐sea penaeid shrimp genus Parapenaeus contains 15 species, three subspecies and two forms in the Indo‐West Pacific and the Atlantic. Novel nucleotide sequence data from five different genes (COI, 16S, 12S, NaK and PEPCK) were collected to estimate phylogenetic relationships and taxonomic status amongst all but one subspecies in this genus. The phylogenetic results only support two of the four species groups previously proposed for this genus and indicate an evolution direction of the genital organs from simple to complex. The present results suggest that Parapenaeus originated in the shallow waters of the West Pacific with subsequent migration to the deep sea and the Atlantic. The molecular data reveal that there was probably misidentification of females between Parapenaeus australiensis and Parapenaeus ruberoculatus, with females previously assigned as P. australiensis likely being the females of P. ruberoculatus, while material identified as P. australiensis forma nodosa being the true P. australiensis females. On the other hand, Parapenaeus longipes forma denticulata truly represents a variation of the same species, while the subspecies Parapenaeus fissuroides indicus warrants a specific rank.     

Six new species of the subgenera Alloparadisa and Ashima (Diptera: Drosophilidae: Phortica) from Yunnan,China, with DNA barcoding information

Six new species of the genus Phortica are described from Yunnan, Southwest China: P. (Alloparadisa) kaibangya n. sp., P. (Ashima) semiannulata n. sp., P. (Ashima) dianmianensis n. sp., P. (Ashima) idiasta n. sp., P. (Ashima) menglian n. sp. and P. (Ashima) zhangyuanae n. sp. The 22 new DNA sequences of the mitochondrial COI gene with BOLD Process ID and GenBank accession numbers are provided for the six new species and six related known species from southern China: P. (Ashima) glabra, Chen & Toda, 2005 P. (Ashima) nudiarista Cheng & Chen, 2008, P. (Ashima) saltiaristula Chen & Wen, 2005, P. (Ashima) spinosa, Chen & Toda, 2005 P. (Ashima) symmetria Chen & Toda, 2005 and P. (Ashima) yiqini Zhu & Chen, 2017. The pairwise interspecific K-2P COI distances among all Chinese species of the subgenera Alloparadisa and Ashima are summarized. An identification key to males of all Chinese species of the subgenera Alloparadisa and Ashima is provided.     

福建苦竹属一新种

描述了中国福建苦竹属（竹亚科）一新种,即罗公竹(Pleioblastus guilongshanensis M. M. Lin)。本新种与宜兴苦竹（P. yixingensis）相近似,区别在于前者节间较长（15~30 cm）,幼时被微柔毛,仅节下有一圈白粉;竿箨上部无焦边;叶鞘被开展的刚毛等特征,易于区别。     

New species and new records of the subgenus Amiota s. str. Loew (Diptera: Drosophilidae) from North America,East Asia and Oceania

Fifteen known and five new species of the subgenus Amiota (s. str.) from North America, East Asia and Oceania were surveyed and described: A. leucostoma Loew, A. minor (Malloch), A. subtusradiata quadrata Takada & Toda and A. communis Chen & Steyskal, n. sp. from North America; A. aquilotaurinternatta Takada et a/., A. delta Takada et al., A. dentata Okada, A. elongata Okada, A. flagellata Okada, A. kamui Chen & Toda, A. palpitera Okada, A. spinata Chen & Toda, A. subturcata Okada, A. angulisternita Chen & Liu, n. sp. and A. kitamura Chen & Liu, n. sp. from Liaoning and Taiwan, China; biturcata Chen, n. sp. and A. vulnerabla Chen & Zhang, n. sp. each from Hokkaido and Kyushu, Japan, A. sinuata Okada, A. kimurai Chen & Toda and A. nagatai Okada from Papua New Guinea.     

A revision of the <Emphasis Type="Italic">Heterospathe elegans</Emphasis> (<Emphasis Type="Italic">Arecaceae</Emphasis>) complex in New Guinea

Summary  Three closely affiliated species of Heterospathe Scheff. (H. elegans (Becc.) Becc., H. humilis Becc. and H. versteegiana Becc.) from New Guinea are revised. They are reduced to a single species which is divided into two subspecies, and the new combination H. elegans subsp. humilis (Becc.) M. S. Trudgen & W. J. Baker is made. The subspecies can be readily distinguished by their growth habit. Epitypes are designated for the three previously published names, as informative material on the habit is not included in the existing type specimens. A new, potentially related species is described as H. pullenii M. S. Trudgen & W. J. Baker.     

Reproductive Isolation Among Geographical Populations of <Emphasis Type="Italic">Drosophila Bipectinata</Emphasis> Duda (Diptera,Drosophilidae) with Recognition of Three Subspecies

Among D. bipectinata Duda, 1923, three subspecies, bipectinata from Southeast Asia (SEA) and Okinawa (OKN), szentivanii stat. nov. from Papua New Guinea (PNG) (Mather & Dobzhansky, 1962) and pacificiae ssp. nov. from South Pacific Ocean (SPO), are recognized. The external morphology of the reproductive organs and the numbers of teeth per row in the sex combs are different between the three subspecies. Furthermore, the sterility of hybrid males between strains from the different regions confirms the subspecies status of each population from SEA, PNG and SPO, together with different gene arrangements in the geographical populations. Although males of the strains from OKN (Okinawa), the northernmost population, show significant differences in the number of teeth of sex combs from males of SEA (Southeast Asia) strains, hybrid males between them are fertile.     

Pleistocene speciation of freshwater crabs (Crustacea: Potamidae: Geothelphusa) from northern Taiwan and southern Ryukyus, as revealed by phylogenetic relationships

The phylogenetic relationship among freshwater crab species of Geothelphusa from northern Taiwan and the Yaeyama Group of islands (including Iriomote and Ishigaki) in the southern Ryukyus was studied using the mitochondrial genes 16S rRNA and COI. Our results support the hypothesis that speciation of Geothelphusa among these islands was the result of cyclic glaciations and interglaciations during the Pleistocene. Two main clades, one the Taiwan Group (containing several clades, including most Taiwanese Geothelphusa species except Geothelphusa miyazakii but including Geothelphusa minei from Yaeyama), was estimated to be separated from its sister group, the southern Ryukyus-northern Taiwan (SRN) clade (including G. miyazakii, Geothelphusa shokitai, Geothelphusa fulva and G. marginata from northern Taiwan, the Pinnacle Islands [=Diaoyutai Islands or Senkaku Islands] and Yaeyama) at about 5.3 million years ago (mya). G. shokitai was separated from others within the SRN clade at 2.4 mya, but was probably derived from G. miyazakii in northern Taiwan. The ancestor of G. miyazakii is hypothesised to have dispersed from ancestors in Yaeyama and then isolated at 2.0 mya during the Pleistocene interglaciations. This is similar to the speciation of G. minei in Yaeyama at 1.5 mya, except that its ancestors originated from north-eastern Taiwan. Four clades of freshwater crabs are present in the Fushan Botanical Garden, located in the mountainous area of north-eastern Taiwan, which might be due to the historical rearrangements of the drainage and proximity of the various river origins.     

Two new species of an atypical group of Pseudobranchiomma Jones (Polychaeta: Sabellidae)

The genus Pseudobranchiomma Jones, 1962 can be divided into three groups: (A) those with paired serrated flanges along all or most of the crown radioles, as in the type species P. emersoni Jones, 1962; (B) those with such flanges only on the distal parts of the radioles; (C) those with flanges reduced or absent (without serrations) as in two new species described here from Florida and Italy. Group C also contains Pseudobranchiomma longa (Kinberg, 1867), P. punctata (Treadwell, 1906) and P. minima (Nogueira & Knight-Jones, 2002). Lists of species (and their synonyms) in the other two groups are given, and scissiparity, thoracic length, chaetal arrangements and types of radiolar eyes are discussed.     

New discoveries of cycads and advancement of conservation of cycads in China

From 1997 to 1999Cycas debaoensis Y. C. Zhong & C. J. Chen andC. changjiangensis N. Liu were described from South China. The wild populations ofCycas szechuanensis were discovered in Fujian.Cycas guizhouensis K. M. Lan & R. F. Zou at the higher elevations andC. segmentifida D. Y. Wang & C. Y. Deng at the lower elevations along the Nanpanjiang River should be good species, which were treated by Chen and Wang (1995) and Chen and Stevenson (1999) as synonyms forC. szechuanensis. However, 11 other new species have been reduced by Chen and Stevenson (1999) and the present authors. They areC. longlinensis Huang T. Chang & Y. C. Zhong,C. xilinensis Huang T. Chang & Y. C. Zhong, C.multifida Huang T. Chang & Y. C. Zhong, C.longiconifera Huang T. Chang & Y. C. Zhong, andC. acuminatissima Huang T. Chang & Y. C. Zhong, all treated as synonyms ofC. segmentifida. Cycas spiniformis J. Y. Liang,C. longisporophylla F. N. Wei,C. septermsperma Huang T. Chang & H. X. Zhang,C. brevipinnata Huang T. Chang et al. should be synonyms forC. exseminifera F. N. Wei.Cycas miquelii Warb, andEpicycas miquelii (Warb.) de Laub, should be the synonyms forC revoluta because their “stype” specimens are somewhat likeC. revoluta. The Honghe Nature Cycad Reserve forCycas multipinnata andC. hongheensis was recently established in Yunnan. The Debao Cycad Reserve will be established soon. However, most existing cycad reserves in China have not been so successful because of shortages of funding and poor management. In ex situ conservation the Qingxiushan Cycad Garden in Nanning, Guangxi, was established. Cycad nurseries have begun to appear in some villages in South China.     

Scottish bracken (Pteridium): New taxa and a new combination

Summary

In advance of two forthcoming works in which the names will be used, one new species of Pteridium (P. pinetorum C.N. Page & R.R. Mill) and one new subspecies (P. aquilinum (L.) Kuhn subsp. fulvum C.N. Page) are formally described, and one new combination made (P. pinetorum C.N. Page & R .R. Mill subsp. osmundaceum (Christ) C. N. Page, comb, et stat. nov.).     

A review of the genus Parahemiurus Vaz & Pereira, 1930 (Digenea: Hemiuridae)

The genus Parahemiurus Vaz & Pereira, 1930 (syn.: Daniella Sahai & Srivastava, 1977) is defined, its major morphological characters discussed and a key to species given. The species P. merus (Linton, 1910) (syns: P. parahemiurus Vaz & Pereira, 1930, P. sardiniae Yamaguti, 1934, P. seriolae Yamaguti, 1934, P. platichthyi Lloyd, 1938, P. atherinae Yamaguti, 1938, P. harengulae Yamaguti, 1938, P. noblei King, 1962) and P. anchoviae Pereira & Vaz, 1930 are described. Other species recognized are P. clupeae Yamaguti, 1953, P. [originally Daniella] madrasensis (Sahai & Srivastava, 1977) n. comb. (syns: P. dussumieriai Hafeezullah, 1981, P. indicus Ahmad, 1981), P. ecuadori Manter, 1940, P. engraulisi Gupta & Jahan, 1977 (syns: P. cameroni Gupta & Ahmad, 1977, P. puriensis Ahmad, 1981, P. simhai Gupta & Gupta, 1978, P. tricanthusi Gupta & Puri, 1984) and P. yanamense Hafeezullah, 1980. Forms considered species inquirendae are P. arripidis Lebedev, 1971, P. clupeae of King (1964), P. dogieli Skrjabin & Guschanskaya, 1953, P. pseudosciaenae Shen, 1985 and P. trachichthodi Lebedev, 1968. Host and locality information is given in detail for all species. The complete life-cycle is not known, but metacercariae are reported in chaetognaths and teleosts. The definitive hosts of Parahemiurus spp. most frequently reported belong in the families Clupeidae and Carangidae and the genus is most commonly reported in temperate and subtropical waters.     

Mammalakis n. g. and Mammalakinae n. subfam. (Nematoda: Heterakoidea: Kiwinematidae): parasites of mole rats (Rodentia: Bathyergidae and spalacidae)

Heterakis macrospiculum Ortlepp, 1939 is redescribed as the type species of Mammalakis n. g., known only from mole rats, and characterised by an absence of cheilostomal flanges to the lips, and the presence of caudal expansions of the lateral alae on males and of massive spicules. H. spalacis Marcu, 1930 and H. spalaxi Kozlov & Jangolenko, 1962 are also referred to the new genus for which the Mammalakinae n. subfam. of the Kiwinematidae is erected. The new evidence, while not clarifying phylogenetic relationships within the Heterakoidea, supports the view that that superfamily had its origins before the separation of Laurasia and Gondwanaland.     

Molecular survey of morphological subspecies reveals new mitochondrial lineages in Podarcis muralis (Squamata: Lacertidae) from the Tuscan Archipelago (Italy)

Recent analyses of molecular markers have significantly revised the traditional taxonomy of Podarcis species (Squamata: Lacertidae), leading to critically reconsider the taxonomic value of several subspecies described only on morphological bases. In fact, lizards often exhibit high morphological plasticity both at the intra‐specific and the intra‐population level, especially on islands, where phenotypic divergences are mainly due to local adaptation, rather than to evolutionary differentiation. The Common wall lizard Podarcis muralis exhibits high morphological variability in biometry, pholidosis values and colour pattern. Molecular analyses have confirmed the key role played by the Italian Peninsula as a multi‐glacial refuge for P. muralis, pointing out the lack of congruence between mitochondrial lineages and the four peninsular subspecies currently recognized. Here, we analyse a portion of the protein‐encoding cytochrome b gene in the seven subspecies described for the Tuscan Archipelago (Italy), in order to test whether the mitochondrial haplotypes match the morphologically based taxonomy proposed for Common wall lizard. We also compare our haplotypes with all the others from the Italian Peninsula to investigate the presence of unique genetic lineages in insular populations. Our results do not agree completely with the subspecific division based on morphology. In particular, the phylogenetic analyses show that at least four subspecies are characterized by very similar haplotypes and fall into the same monophyletic clade, whereas the other three subspecies are closer to peninsular populations from central Italy. From these results, we conclude that at least some subspecies could be better regarded as simple eco‐phenotypes; in addition, we provide an explanation for the distinctiveness of exclusive lineages found in the archipelago, which constituted a refuge for this species during last glacial periods.