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  1. Macgowan I
    Zootaxa, 2023 Jun 26;5307(1):1-96.
    PMID: 37518661 DOI: 10.11646/zootaxa.5307.1.1
    A catalogue of world species of Lonchaeidae is provided. Ten valid genera and 611 valid species in two subfamilies are listed. For each valid species the list includes author, year of publication, full publication name, page number of original description and, where known, type locality and type depository. All validly named taxa described before 1 January 2023 are included and for species where there are issues relating to taxonomy, distribution, type status or type depositories, 84 supplementary notes are provided. Colour plates are provided showing a representative species of each genus. The world distribution of Lonchaeidae is tabulated by genus, species and biogeographical realm. Details on species that occur in more than one realm and information on online maps that are available for each species is provided. A synopsis of the fauna of each realm is given that includes references to the key literature sources. The use of following nominal genus as valid is necessary due to the previously used nominal genus not meeting ICZN publication standards: Priscoearomyia Morge, 1963a (previously considered a junior synonym of Protearomyia McAlpine, 1962), new status. The following is a new genus authority necessary due to the previously used authority not meeting ICZN publication standards: Neosilba Waddill & Weems: 1978 (for Neosilba McAlpine, 1962). The following four genus names are new synonyms: Dasyops Bezzi, 1891 (= Dasiops Rondani, 1856), Lonchaba Korytkowski & Ojeda 1971(= Lonchaea Fallén, 1820), Protearomyia Hennig, 1967 (= Priscoearomyia Morge, 1963a) and Togocesa Koçak & Kemal, 2010 (= Lonchaea Fallén, 1820). The following five names represent new species authority details necessary due to the previously used names not meeting ICZN publication standards, or previous mistakes or uncertainties: Priscoearomyia cordillerensis (McAlpine, 1983) (for Protearomyia cordillerensis McAlpine, 1962), Priscoearomyia greciana (McAlpine, 1983) (for Protearomyia greciana McAlpine, 1962), Priscoearomyia martinia (McAlpine, 1983) (for Protearomyia martinia McAlpine, 1962). Lonchaea orientalis MacGowan, 2013 (for Lonchaea orientalis MacGowan, 2007). Neosilba certa (Walker, 1853) (for Neosilba certa (Walker, 1850-1856), Neosilba certa (Walker, 1850) and Neosilba certa (Walker, 1852)). The following four species names are new synonyms: Lonchaea angustitarsis Malloch, 1920a (= Lonchaea deutschi Zetterstedt, 1837), Lonchaea avida McAlpine, 1960 (= Lonchaea choreoides Bezzi, 1923), Lonchaea palpata Czerny, 1934 (= Lonchaea peregrina Becker, 1895), Silba malaysia MacGowan, 2007 (= Silba kuantani MacGowan, this work). The following 12 species names are new combinations: Priscoearomyia cordillerensis (McAlpine, 1983; Protearomyia McAlpine, 1962), Priscoearomyia greciana (McAlpine, 1983: Protearomyia McAlpine, 1962), Priscoearomyia hermonensis (MacGowan & Freidberg, 2008: Protearomyia McAlpine, 1962), Priscoearomyia iberica (MacGowan 2014a: Protearomyia McAlpine, 1962), Priscoearomyia jonesi (MacGowan & Reimann, 2021: Protearomyia McAlpine, 1962), Priscoearomyia mallochi (McAlpine, 1983: Protearomyia McAlpine, 1962), Priscoearomyia martinia (McAlpine, 1983: Protearomyia McAlpine, 1962), Priscoearomyia occidentalis (MacGowan 2016: Protearomyia McAlpine, 1962), Priscoearomyia rameli (MacGowan, 2014a: Protearomyia McAlpine, 1962), Priscoearomyia trichopleura (McAlpine, 1983: Protearomyia McAlpine, 1962), Priscoearomyia withersi (MacGowan, 2014a: Protearomyia McAlpine, 1962), Silba malaysia (MacGowan 2005a; Lonchaea Fallen, 1820) The following new replacement name was necessary due to homonymy: Silba kuantani MacGowan (for Silba malaysia MacGowan, 2007), The following three species are removed from the Lonchaeidae: Lonchaea albimanus Walker, 1858, Lonchaea brasiliensis Walker, 1853 and Lonchaea discrepans Walker, 1861. A First Reviser action was taken on Neosilba laura and N. lauraea Strikis, 2011 with N. laura being chosen here as the correct original spelling.
    Matched MeSH terms: Polychaeta*
  2. Molina-Acevedo IC, Idris I
    Zootaxa, 2020 Jul 15;4816(1):zootaxa.4816.1.1.
    PMID: 33055711 DOI: 10.11646/zootaxa.4816.1.1
    Marphysa sanguinea Montagu, 1813, the type species of genus Marphysa, was described with few characteristics and subsequently reported in tropical and temperate waters as a cosmopolitan species. Recent comparative studies have shown that M. sanguinea has a limited distribution to the Northeast Atlantic. As a result, species from the tropical and subtropical zones are now being redescribed as new species. However, this issue is not completely resolved because of the taxonomic status of seven nominal species, considered as junior synonymies of M. sanguinea. Herein, we examined the type and additional materials from five species in synonymy M. sanguinea and performed a compared analysis with the neotype of M. sanguinea. Additionally, we reviewed specimens from two localities in the mid-Pacific Ocean and the Adriatic Sea, where M. sanguinea was previously reported. As a result of this study, three species were reinstated (M. californica Moore, 1909, M. leidii de Quatrefages, 1866, and M. parishii Baird, 1869) and two subspecies, are now raised to species level (M. americana n. status and M. brevibranchiata n. status). In addition, two new species from Hawaii and Croatia are described: M. baileybrockae n. sp. and M. birgeri n. sp., respectively. Morphological comparisons with most species currently assigned to the M. sanguinea complex are presented. This work provides more support for rejecting the hypothesis that M. sanguinea is a cosmopolitan species and we encourage the use of novel and traditional morphological characters to differentiate species within the complex.
    Matched MeSH terms: Polychaeta*
  3. Sivananthan GD, Shantti P, Kupriyanova EK, Quek ZBR, Yap NWL, Teo SLM
    Zootaxa, 2021 Sep 20;5040(1):33-65.
    PMID: 34811055 DOI: 10.11646/zootaxa.5040.1.2
    The intertidal serpulid polychaete Spirobranchus kraussii was originally described from South Africa and has since been reported in numerous sub (tropical) localities around the world. Recently, however, S. kraussii was uncovered as a complex of morphologically similar and geographically restricted species, raising the need to revise S. cf. kraussii populations. We formally describe S. cf. kraussii from Singapore mangroves as Spirobranchus bakau sp. nov. based on morphological and molecular data. Despite their morphological similarities, Maximum Likelihood and Bayesian Inference analyses of 18S and Cyt b DNA sequence data confirm that S. bakau sp. nov. is genetically distinct from S. kraussii and other known species in the complex. Both analyses recovered S. bakau sp. nov. as part of a strongly supported clade (96% bootstrap, 1 posterior probability), comprising S. sinuspersicus, S. kraussii and S. cf. kraussii from Australia and Hawaii. Additionally, paratypes of S. kraussii var. manilensis, described from Manila Bay in the Philippines, were examined and elevated to the full species S. manilensis. Finally, we tested the hypothesis that fertilisation and embryonic development of S. bakau sp. nov. can occur under the wide range of salinities (19.630.9 psu) and temperatures (2531C) reported in the Johor Strait. Fertilisation success of ≥70% was achieved across a temperature range of 2532C and a salinity range of 2032 psu. Embryonic development, however, had a narrower salinity tolerance range of 2732 psu. Clarifying the taxonomic status of S. cf. kraussii populations reported from localities elsewhere in Singapore and Southeast Asia will be useful in establishing the geographical distribution of S. bakau sp. nov. and other members of the S. kraussii-complex.
    Matched MeSH terms: Polychaeta*
  4. Taylor A, Mortimer K, Jimi N
    Zootaxa, 2022 Oct 21;5196(4):451-491.
    PMID: 37045067 DOI: 10.11646/zootaxa.5196.4.1
    Whilst seven species of magelonids have been originally described from the North-Western Pacific Ocean, only two have been from Japanese waters. Given the often high diversity of magelonid species within relatively small regions, the number of Japanese Magelona species is likely to be higher. The validity of several recorded species from the region has been additionally called into question, and the urgent need for a review of magelonids of Japan highlighted. Newly collected samples of magelonids have emphasised the presence of three species new to science occurring off Japan, herein described: Magelona alba sp. nov., Magelona armatis sp. nov., and Magelona boninensis sp. nov. A redescription of Magelona japonica is additionally provided, along with notes on a fifth species, which approaches Magelona cornuta. A dichotomous identification key to magelonid species of the North-Western Pacific Ocean, along with a table of characters for all five observed species is provided.
    Matched MeSH terms: Polychaeta*
  5. Khairun Waheeda AI, Teh JC, Arshad A, Wong NLWS
    Mar Pollut Bull, 2023 Jul;192:115111.
    PMID: 37295254 DOI: 10.1016/j.marpolbul.2023.115111
    This study investigated the impacts of the removal of sand bund on the macrobenthos community structure, seagrass cover, and sediment particle size in Merambong Shoal, Malaysia. The reclamation project deposited sand bund in the middle of Merambong seagrass shoal, resulting in its division into northern (NS) and southern (SS) halves. Ecosystem changes were monitored over a 31-month period using the transect lines method. Bi-monthly samples were collected for assessment. The results revealed a substantial decline in macrobenthos densities compared to previous studies. However, after the removal of the sand bund, there was a significant increase in macrobenthos density, specifically Polychaeta and Malacostraca, at NS. Seagrass cover at NS was initially lower than SS but showed an increase after the complete removal of the sand blockage. Sediment particle analysis reported a higher silt percentage at NS, indicating greater sedimentation at NS, which was partially sheltered from wave actions.
    Matched MeSH terms: Polychaeta*
  6. Kara J, Molina-Acevedo IC, Zanol J, Simon C, Idris I
    PeerJ, 2020;8:e10076.
    PMID: 33150064 DOI: 10.7717/peerj.10076
    A vast polychaete fauna is hidden behind complexes of cryptic and pseudo-cryptic species, which has greatly hindered our understanding of species diversity in several regions worldwide. Among the eunicids, Marphysa sanguinea Montagu, 1813 is a typical example, recorded in three oceans and with various species considered its junior synonyms. In South Africa, specimens previously misidentified as M. sanguinea are now known as Marphysa elityeni Lewis & Karageorgopoulos, 2008. Of the six Marphysa Quatrefages, 1865a species recorded from the same region, three have their distributions restricted to South Africa while the others are considered to have worldwide distributions. Here, we evaluated the taxonomic status of the indigenous M. elityeni and investigated the presence of the widespread species Marphysa macintoshi Crossland, 1903 and Marphysa depressa Schmarda, 1861 in South Africa using morphological and molecular data. Our results reveal that M. elityeni is a junior synonym of Marphysa haemasoma, a species previously described from South Africa which is herein reinstated as a valid species. Both M. macintoshi and M. depressa are not present in South Africa and their status as being distributed worldwide deserves further investigation. Marphysa durbanensis Day, 1934 and the new species described here, M. sherlockae n. sp., had been misidentified as M. macintoshi and M. depressa respectively. Thus, the number of Marphysa species with distributions restricted to South Africa increased from three to five. This study reiterates the importance of implementing an integrated taxonomic framework to unravel local biodiversity.
    Matched MeSH terms: Polychaeta
  7. Jimi N, Fujimoto S, Fujiwara Y, Oguchi K, Miura T
    PeerJ, 2022;10:e13044.
    PMID: 35282276 DOI: 10.7717/peerj.13044
    Four new species of annelids, Ctenodrilus japonicus sp. nov., Raphidrilus misakiensis sp. nov., Raphidrilus okinawaensis sp. nov., and Raricirrus anubis sp. nov., are described based on specimens collected from Japanese waters. Ctenodrilus japonicus sp. nov. inhabits the interstitial environment and can be distinguished from the other congeners by the following features: (i) total of 16 chaetigers, (ii) chaetigers 1-3 with stout hooks, (iii) minute body (approximately 1 mm in length), (iv) all parapodia with the same number of chaetae (two notochaetae; two neurochaetae), and (v) presence of dorsal and ventral papillae. Raphidrilus misakiensis sp. nov. lives under intertidal stones and can be distinguished from other congeners by having pectinate neurochaetae. Raphidrilus okinawaensis sp. nov. inhabits the interstitial environment and can be distinguished from other congeners by: (i) absence of annulation on the peristomium and achaetous segment and (ii) presence of a heart body in chaetigers 4-5. Raricirrus anubis sp. nov. inhabits whale bones and can be distinguished from other congeners by the following features: (i) presence of a heart body in chaetigers 9-14, (ii) presence of capillary neurochaetae on chaetiger 1, and (iii) presence of simple curved spines. A phylogenetic tree based on partial sequences of cytochrome c oxidase subunit I and 16S rRNA from the new species and other cirratulid worms showed that Raphidrilus is included in Cirratuliformia. This is the first record of Raphidrilus and Raricirrus from Japanese waters.
    Matched MeSH terms: Polychaeta*
  8. Cejp B, Jimi N, Aguado MT
    Zootaxa, 2023 Feb 21;5244(4):341-360.
    PMID: 37044457 DOI: 10.11646/zootaxa.5244.4.2
    The phylogenetic relationships of Syllidae have been analyzed in several studies during the last decades, resulting in highly congruent topologies. Most of the subfamilies were found to be monophyletic, while other groups (Eusyllinae and several genera) have been reorganized attending their phylogenetic relationships. However, there are still several enigmatic genera, which could not be assigned to any of the established subgroups. These enigmatic genera usually show a combination of characters indicating relationships with several different groups, and some show morphological traits unique to Syllidae. One of the most intriguing genera, still unclassified within Syllidae is Clavisyllis Knox. Herein, we provide a complete description of a new species Clavisyllis tenjini n. sp. from Japan. We sequence the complete mitochondrial genome, compare with the available data from other syllids, and perform a phylogenetic analysis of three genes (18S, 16S, COI), traditionally used in previous studies. Clavisyllis shows a unique combination of characters within Syllidae, such as nuchal lappets and large ovoid dorsal cirri. The new species has additional anterior appendages that have not been found in any other syllid. Our results show the genus is a member of Eusyllinae, closely related to Pionosyllis Malmgren. The mitochondrial gene order agrees with the considered plesiomorphic gene order in Annelida, which is present in all members of Eusyllinae investigated so far. Clavisyllis reproduces by epigamy, the reproductive mode of members of Eusyllinae. The present study contributes to the systematics of Syllidae, a complex group with a large number of species and striking reproductive modes.
    Matched MeSH terms: Polychaeta*
  9. Jimi N, Nakajima H, Sato T, Gonzalez BC, Woo SP, Rouse GW, et al.
    PeerJ, 2023;11:e16346.
    PMID: 37927790 DOI: 10.7717/peerj.16346
    Two new species of Hesionidae, Parahesione pulvinata sp. nov. and Parahesione apiculata sp. nov. are described based on materials collected at tidal flats in Okinawa (Japan) from burrows of the ghost shrimps Neocallichirus jousseaumei and Glypturus armatus. The two new species are characterized by having eight enlarged cirri, dorsal cirrophores with dorsal foliose lobe and biramous parapodia, and by lacking median antenna. Parahesione apiculata sp. nov. has digitate lobes on the posterior margin of the dorsal foliose lobe (absent in P. pulvinata sp. nov.). The two new species were never found outside the ghost shrimp burrows, suggesting they are obligate symbionts. Phylogenetic analyses based on four concatenated genes suggest that the symbiotic lifestyle has evolved several times in Hesionidae.
    Matched MeSH terms: Polychaeta*
  10. Nishi E, Matsuo K, Capa M, Tomioka S, Kajihara H, Kupriyanova EK, et al.
    Zootaxa, 2015;4052(5):555-68.
    PMID: 26701452 DOI: 10.11646/zootaxa.4052.5.3
    A new species of the genus Sabellaria Lamarck, 1818 (Annelida: Polychaeta: Sabellariidae) is described from the intertidal zone of Jeram, Selangor, Malaysia. Sabellaria jeramae n. sp. is a gregarious species that constructs large reefs several hundreds of meters long and 50-200 m wide. The new species is distinguished from other congeners by the character combination of the presence of a single kind of middle paleae with conspicuous morphology, and outer paleae with long frayed teeth. Morphological features of the species are described and compared to those of all congeneric species. We also compare the reef structure and geographical distribution of the new species to those of the members of the family Sabellariidae around the world, demonstrating the ecological traits of the reefs.
    Matched MeSH terms: Polychaeta
  11. Fazne Ibrahim N, Shuaib Ibrahim Y, Sato M
    Zookeys, 2019;831:81-94.
    PMID: 31337948 DOI: 10.3897/zookeys.831.28588
    An estuarine species of Nereididae (Annelida), Neanthesglandicincta (Southern, 1921) has been newly recorded on the eastern coast of Peninsular Malaysia located in the South China Sea based on 23 specimens collected from three estuaries (Tumpat, Kelantan Delta, Kelantan; Setiu Lagoon, Terengganu; Kuala Ibai, Terengganu). The morphological characteristics of the Malaysian specimens agree well with those of the previous original description and the redescription of N.glandicincta based on Indian, Myanmar and Singapore specimens. The number of paragnaths in all groups on the proboscis of our Malaysian specimens is within the range of the intraspecific variation of N.glandicincta as shown in the previous descriptions. An identification key to species of the Neanthesglandicincta species complex, which includes two morphologically similar species, is provided.
    Matched MeSH terms: Polychaeta
  12. AMIRAH IDRIS, WAN IRYANI WAN ISMAIL, IZWANDY IDRIS, IZWANDY IDRIS
    MyJurnal
    The distinctive regenerative ability of local marine worm (polychaete),Diopatra claparediiGrube, 1878, has the potential as a cellular growth agent. In this study, the growth effect was investigatedin normal cellsand cancer cells. Different concentrations (0-100
    Matched MeSH terms: Polychaeta
  13. Chee, Su Yin, Sim, Yee Kwang
    Trop Life Sci Res, 2016;27(11):39-44.
    MyJurnal
    Land reclamation in Penang began two decades ago and is still rampant with
    large reclamation projects planned to be executed in the near future. The present study
    provides the first information on effects of land reclamation in Penang towards the coastal
    macroinvertebrates. This study assessed the abundance, diversity, and evenness of
    coastal invertebrates assumed to be the foremost affected when land is reclaimed. Three
    kinds of areas were focused on: reclaimed, unclaimed (adjacent to reclaimed), and
    undisturbed. A total of 53 species of macroinvertebrates from 10 classes (Gastropoda,
    Bivalvia, Polychaeta, Malacostraca, Maxillopoda, Echinoidea, Polyplacophora,
    Branchiopoda, Scaphopoda, and Holothuroidea) were sampled. Reclaimed areas were
    moderately rich in species averaging 11 species compared to 7 species in adjacent and
    14 in undisturbed areas. Species richness was the highest in Teluk Aling (an undisturbed
    area) with 22 species, and was the lowest in Gurney Drive (an adjacent area) with 2
    species. The average species diversity and evenness on reclaimed land was the lowest
    with values of 1.9974 and 0.5787, respectively. The diversity was higher by 5.07% in
    adjacent areas and by 22.92% in undisturbed areas compared to reclaimed areas.
    Species evenness was 29.75% higher in unreclaimed areas and 17.87% higher in
    undisturbed areas compared to reclaimed areas. Land reclamation reduces species
    diversity and evenness, and to a lesser extent, species richness.
    Matched MeSH terms: Polychaeta
  14. Nur Aqilah Muhamad Darif, Nur Shakila Abdul Samad, Sazlina Salleh, Mahadi Mohammad, Noor Alia Ahmad Nordin, Aysha Mariam Mohamed Javeed, et al.
    Trop Life Sci Res, 2016;27(11):71-77.
    MyJurnal
    Benthic faunal communities are important components in the intertidal zones.
    The diversity and abundance of the benthic communities are subjected to different natural
    and anthropogenic disturbances. The study was conducted as one off sampling on 6th
    November 2013 (1) to investigate the abundance and distribution of soft sediment
    communities in relation to environmental variables and (2) investigate the changes of
    population structure and diversity using spatial scales of 1 m, 10 m, and 100 m. Results
    indicated a total of 110 individuals of macrobenthos consisting of 7 different groups
    (Annelida, Bivalvia, Crustacea, Gastropoda, Nematoda, Nemertea, Polychaeta) and 4
    different groups of meiobenthos (Copepoda, Nematoda, Ostracoda, Polychaeta)
    consisting 920 individuals were recorded. Dissolved oxygen played the most significant
    role in affecting the distribution of soft sediment communities while ammonia
    concentrations only affected marcobenthic organisms. However, sediment grain size did
    not show significant correlation (p>0.05) on soft sediment communities. Hence,
    understanding how different properties of benthos respond to changes in environmental
    variables is crucial in determining how the impacts on the sediment are tolerated by the
    benthic organisms.
    Matched MeSH terms: Polychaeta
  15. Shaharudin Abdul Razak, Saisho T
    Sains Malaysiana, 2011;40:1179-1186.
    Zooplankton were sampled in Lake Ikeda at a fixed station every month with the aid of a plankton net in order to observe whether cyclomorphism was exhibited by the neonates of Bosmina longirostris. In Lake Ikeda the relative sizes of the antennules and mucrones of B. longrostris neonates decreased in relation to carapace length from 65% in winter to 50% in summer. Mucrone lengths also decreased from 30% in winter to 20% in summer. Both appendages were inversely correlated with surface temperature of the lake. Predation seems to be one of the reasons why neonates of B. longirostris exhibited seasonal cyclomorphism in their antennule and mucrone.
    Matched MeSH terms: Polychaeta
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