Abstract
Abyssal polychaetes are usually difficult to be identified because they are small, their body patterns differ from their shallow water relatives, their delicate bodies are often damaged during sampling and sieving, and their taxonomy is in need of revision. Members of the family Fauveliopsidae Hartman, 1971 are widespread in deep ocean basins and they follow the above statements. In this contribution, we present a revision of all available type and non-type material for the family. Our objective is to provide keys to identify genera and species, as well as standardized diagnoses, and illustrations for most species, excluding those described since 2011, or where type material was not available. One genus, Riseriopsis n. gen., is proposed and four species are newly described. The Fauveliopsidae now includes 24 species in three genera: Fauveliopsis McIntosh, 1922 (13 species), Laubieriopsis Petersen, 2000 (8 species), and Riseriopsis n. gen. (3 species). Fauveliopsis includes species usually living inside gastropod or scaphopod shells or foraminiferan tubes, Laubieriopsis and Riseriopsis include species commonly regarded as free living, although some species of the latter have very long bodies and have been found inside soft tubes. Fauveliopsis includes: F. adriatica Katzmann & Laubier, 1974, F. armata Fauchald & Hancock, 1981, F. brattegardi Fauchald, 1972a, F. brevipodus Hartman, 1971, F. challengeriae McIntosh, 1922, F. glabra (Hartman in Hartman & Barnard, 1960), F. jameoaquensis Núñez in Núñez, Ocaña & Brito, 1997, F. levensteinae n. sp., F. magalhaesi n. sp., F. magna Fauchald & Hancock, 1981, F. olgae Hartmann-Schröder, 1983, F. rugosa Fauchald, 1972b, and F. scabra Hartman & Fauchald, 1971. Laubieriopsis includes: L. arenicola (Riser, 1987), L. blakei n. sp., L. brevis (Hartman, 1965), L. cabiochi (Amoureux, 1982), L. fauchaldi (Katzmann & Laubier, 1974) n. comb., L. hartmanae (Levenstein, 1970) reinst., L. norvegica Zhadan & Atroshchenko, 2012, and L. petersenae Magalhães, Bailey-Brock & Rizzo, 2014. Riseriopsis includes: R. arabica (Hartman, 1976) n. comb., R. confusa (Thiel, Purschke & Böggemann, 2011) n. comb., and R. santosae n. sp.
Keywords. Deep-sea species, taxonomy, genital papillae, genera, species
Introduction
The family-group name Fauveliopsidae was established by Hartman (1971) and derived from Fauveliopsis McIntosh, 1922. The genus-group name was dedicated to Pierre Fauvel, famous French polychaetologist, and the type species, F. challengeriae McIntosh, 1922, was described based on specimens collected during the HMS Challenger expedition. The phylogenetic affinities of fauveliopsids are unsettled in part due to the fact that only a few species have been included in past analyses; after the analysis of morphological and molecular characters (Zrzavý et al. 2009, figure 6), Fauveliopsidae groups with Cossuridae and Paraonidae, as a sister group to what has been regarded as Cirratuliformia (Cirratulidae, Acrocirridae, Flabelligeridae).
This family includes benthic species that are rarely abundant, and they tend to prefer silty bottoms. Most species have been described from deep-sea locations including trenchs (Menzies & George 1967); however, a few shallow water species were described from the Canary Islands (5 m), New Zealand (20 m), and the Adriatic Sea (60 m). Members of the family are free living or find shelter in tubes of cemented silt grains (Blake & Petersen 2000, Petersen 2000); they can also be found inside scaphopod, or gastropod mollusk shells, or inside tubular foraminiferans (Bathysiphon Sars, 1872). It should be noted, however, that typical Bathysiphon tests include sponge spicules, and that Psammosiphonella Avnimelech, 1952 was proposed for those agglutinated foraminiferans whose tests do not include sponge spicules; this latter genus has been regarded as distinct (Rögl 1995; Kaminski 2004; Kaminski et al. 2009). This is relevant because at least in some cases, as we show below, fauveliopsid tubes have a complex organization, such that other interpretations might be involved. Another interesting issue is that Małecki (1973) regarded these foraminiferan tests (Bathysiphon and Psammosiphonella) as polychaete tubes, because they lack the characteristic basal embryonic chamber, proloculus, which define foraminiferans. This idea was not followed and the above genera are still regarded as foraminiferans (Kaminski 2004).
Fauveliopsid bodies are subcylindrical, wider medially, or club-shaped; in the latter, the anterior region is the narrower one. Parapodia are displaced dorsally with notopodia being clearly dorsolateral, whereas neuropodia are lateral and chaetae are directed anteriorly, usually along anterior region, and it is related to free living species. The combination of a usually posterior wider region and the parapodial disposition, together with the presence of some anal papillae has made it difficult to assess body polarity and for some descriptions the body ends were incorrectly characterized (Laubier 1972:698; Hartman 1976:236, Fig. 12a). There are four morphological traits of typical polychaete body patterns that can explain this difficulty: 1) anterior region is wider than the rest of the body; 2) segments are less clear cut anteriorly; 3) chaetal bundles are displaced to the anterior border of each chaetiger, being displaced to the median region and eventually towards the posterior region in median to posterior chaetigers; and 4) chaetae are directed anteriorly in a few anterior chaetigers, and towards the posterior region in the rest of the body.
Surprisingly, these patterns are reversed among fauveliopsids because many have evolved to live within tubes, bending their bodies obliquely or ventrally, and by directing their chaetal bundles anteriorly (originally noticed by McIntosh 1922:6). These modifications could provide better anchoring for chaetae and parapodia. Inside gastropod shells, there are different conditions for what lies dorsally or ventrally; this might have selected for body modifications. For example, parapodia become dorsally displaced and this would enlarge ventral and lateral surface areas to be in close contact with the shell.
Katzmann & Laubier (1974:10, Fig. 3C) showed that in some fauveliopsids the narrower region is exposed through the shell aperture. Blake & Petersen (2000) clarified the body end confusion, standardized concepts about morphological features, and redescribed some species. However, earlier descriptions deserve re-evaluation because of a potential confusion of body ends. Riser (1987) provided some histological details and indicated that stomach contents consisted of foraminiferans and silt, whereas Purschke (1997) made SEM illustrations of nuchal organs.
Hartman (1971:1411) proposed Fauveliopsidae to include four genera that she regarded as flabelligerid-like: Bruunilla Hartman, 1971, Fauveliopsis, Flabelligella Hartman, 1965, and Flota Hartman, 1967. In a subsequent publication, Hartman (1974:199, 235) apparently changed her perspective and transferred Fauveliopsis to the Flabelligeridae; however, in a posthumous publication (Hartman 1978:175) she used the family as originally proposed.
The composition of the Fauveliopsidae has been modified over the years, with Orensanz (1974) transferring Flabelligella to Acrocirridae, Pettibone (1979) indicating that Bruunilla belongs in Polynoidae, and Buzhinskaja (1996) proposing an independent family for Flota. For the latter genus group name, Salazar-Vallejo & Zhadan (2007) regarded it as a junior synonym of Buskiella McIntosh, 1885. The family was thus restricted to Fauveliopsis but it now also includes Laubieriopsis Petersen, 2000 and Riseriopsis n. gen.
Three major publications have addressed identification problems in Fauveliopsis. Katzmann & Laubier (1974) prepared a key to species based upon the number of chaetigers, integument features and type of chaetae throughout body. Amoureux (1982) compiled the known species and pointed out their number of chaetigers. Hartmann-Schröder (1983) had a different approach and relied more on chaetal patterns than on number of chaetigers.
Because body ends were confused in some of the original descriptions, the species deserve reinterpretation. In order to standardize the morphological features, the diagnoses below combine these approaches and additional observations based upon specimens with some remarks about the match between previous descriptions and these standardized diagnoses, as made elsewhere for tropical American species (Salazar-Vallejo 2009).
In this contribution, we have dealt with all material available of fauveliopsid genera and species. We propose a new genus, Riseriopsis n. gen., to include two species of Fauveliopsis provided with long, posteriorly swollen bodies, with long segments along median region, and two known species are newly combined. Further, four species are newly described, and another one, Laubieriopsis hartmanae (Levenstein, 1970), is redescribed and reinstated.
References
Amoureux, L. (1982) Annélides polychètes recueillies sur la pente continentale de la Bretagne a l’Irlande, Campagne 1973 de la “Thalassa” (suite et fin) avec la description de quatre nouvelles espèces pour la Science, 2. Inventaire taxonomique annoté de toutes les polychètes sédentaires. Cahiers de Biologie Marine, 23, 179–214. Available from: http://application.sb-roscoff.fr/cbm/article.htm?execution=e6s1 (Accessed 10 Jul. 2019)
Amoureux, L. (1986) Annélides polychètes abyssaux de la campagne Abyplaine au large de Madère. Bulletin du Muséum National d’Histoire Naturelle, Paris, 4e Série, Section A, 8, 591–615. Available from: http://bibliotheques.mnhn.fr/EXPLOITATION/infodoc/ged/viewportalpublished.ashx?eid=IFD_FICJOINT_BMAZO_S004_1986_T008_N003_1 (Accessed 10 Jul. 2019)
Avnimelech, M. (1952) Revision of the tubular Monothalamia. Contributions from the Cushman Foundation for Foraminiferal Research, 3 (2), 60–68. Available from: https://cushmanfoundation.allenpress.com/portals/_default/files/pubarchive/CCFFR/03ccffr2.pdf (Accessed 10 Jul. 2019)
Barker, R.W. (1960) Taxonomic notes on the species figures by H.B. Brady in his Report on the Foraminifera dredged by H.M.S. Challenger during the years 1873–1876. Society of Economic Paleontologists and Mineralogists, Special Publication, 9, i–xxiv + 1–238 pp., 115 pls. Available from: https://www.biodiversitylibrary.org/item/126114#page/7/mode/1up (Accessed 10 Jul. 2019)
Bellan, G. (1969) Annélides polychètes recueillies dans l’Archipel de Madère au cours de la Campagne Scientifique du naviere océanographique “Jean Charcot” (juillet 1966). Cahiers de Biologie Marine, 10, 35–57. Available from: http://application.sb-roscoff.fr/cbm/article.htm?execution=e4s1 (Accessed 10 Jul. 2019)
Blake, J.A. & Petersen, M.E. (2000) Family Fauveliopsidae Hartman, 1971. In: Blake, J.A, Hilbig, B. & Scott, P.V. (Eds.), Taxonomic Atlas of the Benthic Fauna of the Santa Maria Basin and the Western Santa Barbara Channel. The Annelida 4. Polychaeta: Flabelligeridae to Sternaspidae. 7 Vols. Santa Barbara Museum of Natural History, Santa Barbara, pp. 31–45.
Brady, H.B. (1878) On the reticularian and radiolarian Rhizopoda (Foraminifera and Polycistina) of the North-Polar Expedition of 1875–76. Annals and Magazine of Natural History, Series 5, 1, 425–440, pls. 20–21.
https://doi.org/10.1080/00222937808682361
Buzhinskaja, G.N. (1996) Unique morphological features of certain deep-water pelagic polychaetes. Doklady Biological Sciences, 347, 139–141.
Chardy, P., Laubier, L., Reyss, D. & Sibuet, M. (1973) Données preliminaries sur les resultants biologiques de la camapgne Polymède, 1. Dragages profonds. Rapport de la Commission internationale de l’Exploration de la mer Méditerranée, Monaco, 21, 621–625.
Eimer, G.H.T. & Fickert, C. (1899) Die Artbildung und Verwandtschaft bei den Foraminiferen. Entwurf einer natürlichen Eintheilung derselben. Zeitschrift für Wissenschaftliche Zoologie, 65, 599–708. [http://www.biodiversitylibrary.org/item/138509#page/615/ (Accessed 10 Jul. 2019)
Eisenack, A. (1937) Neue Mikrofossilien des baltischen Silurs.IV. Paläon tologische Zeitschrift, 19, 217–242.
https://doi.org/10.1007/BF03042242
Fauchald, K. (1972a) Some polychaetous annelids from the deep basins in Sognefjorden, Western Norway. Sarsia, 49, 89–106.
https://doi.org/10.1080/00364827.1972.10411211
Fauchald, K. (1972b) Benthic polychaetous annelids from deep water off Western Mexico and adjacent areas in the Eastern Pacific Ocean. Allan Hancock Monographs in Marine Biology, 7, 1–575. Available from: https://repository.si.edu/handle/10088/6207 (Accessed 10 Jul. 2019)
Fauchald, K. (1977) The polychaete worms: Definitions and keys to the orders, families and genera. Natural History Museum of Los Angeles County, Science Series, 28, 1–190. Available from: https://repository.si.edu/handle/10088/3435 (Accessed 10 Jul. 2019)
Fauchald, K. & Hancock, D.R. (1981) Deep-water polychaetes from a transect off central Oregon. Allan Hancock Foundation Monographs in Marine Biology, 11, 1–73. https://repository.si.edu/handle/10088/3445
Gooday, A.J. & Smart, C.W. (2000) Wall structure and test morphology in three large deep-sea agglutinated Foraminifera, Rhabdammina parabyssorum Stschedrina, 1952, R. abyssorum Sars, 1869 and Astrorhiza granulosa (Brady, 1879) (Foraminiferida, Textulariina). In: Hart, M.B., Kaminski, M.A. & Smart, C.W. (Eds.), Proceedings of the Fifth International Workshop on Agglutinated Foraminifera. Grzybowski Foundation Special Publication, 7, 105–115. Available from: http://gf.tmsoc.org/Documents/IWAF-5/Gooday+Smart-IWAF5-1997.pdf (Accessed 10 Jul. 2019)
Habe, T. (1964) Fauna Japonica. Scaphopoda (Mollusca). Biogeographical Society of Japan, Electrical Engineers College Press, Tokyo, 63 pp., pls. 1–5.
Hartman, O. (1960) Systematic account of some marine invertebrate animals from the deep basins of Southern California. In: Hartman, O. & Barnard, J.L., The Benthic Fauna of the Deep Basins off Southern California. Part 2. Allan Hancock Pacific Expeditions, 22 (2), pp. 69–215.
Hartman, O. (1965) Deep-water benthic polychaetous annelids off New England to Bermuda and other North Atlantic areas. Allan Hancock Foundation Publications, Occasional Papers, 28, 1–378.
Hartman, O. (1966) Polychaeta Myzostomidae and Sedentaria of Antarctica. Antarctic Research Series, 7, 1–158.
Hartman, O. (1967) Polychaetous annelids collected by the USNS Eltanin and Staten Island cruises, chiefly from Antarctic Seas. Allan Hancock Monographs in Marine Biology, 2, 1–387.
Hartman, O. (1969) Atlas of the Sedentariate Polychaetous Annelids from California. Allan Hancock Foundation, University of Southern California, Los Angeles, 812 pp.
Hartman, O. (1971) Abyssal polychaetous annelids from the Mozambique Basin off Southeast Africa, with a compendium of abyssal polychaetous annelids from world-wide areas. Journal of the Fisheries Research Board of Canada, 28, 1407–1428.
https://doi.org/10.1139/f71-219
Hartman, O. (1976) Polychaetous annelids of the Indian Ocean including an account of species collected by members of the International Indian Ocean Expeditions, 1963–’64 and a catalogue and bibliography of the species from India. Journal of the Marine Biological Association, India, 16, 191–252. Available from: http://mbai.org.in/php/journaldload.php?id=817&bkid=48 (Accessed 10 Jul. 2019)
Hartman, O. (1978) Polychaeta from the Weddell Sea Quadrant, Antarctica. Antarctic Research Series, 26 (4), 125–222.
https://doi.org/10.1029/AR026p0125
Hartman, O. & Barnard, J.L. (1960) The Benthic Fauna of the Deep Basins off Southern California, Part 2. Allan Hancock Pacific Expeditions, 22 (2), 65–297.
Hartman, O. & Fauchald, K. (1971) Deep-water benthic polychaetous annelids off New England to Bermuda and other North Atlantic Areas, Part 2. Allan Hancock Monographs in Marine Biology, 6, 1–327. Available from: https://repository.si.edu/handle/10088/3458 (Accessed 10 Jul. 2019)
Hartmann-Schröder, G. (1975) Polychaeten der Iberische Tiefsee, gesammelt auf 3. Reise der Meteor im Jahre 1966. Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut, 72, 47–73.
Hartmann-Schröder, G. (1983) Zur Kenntnis einigern Foraminiferengehäuse bewohnender Polychaeten aus dem Nordosatlantik. Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut, 80, 169–176.
Imajima, M. (2009) Deep-sea benthic polychaetes off Pacific coast of the northern Honshu, Japan. Monographs, National Museum of Nature and Science, Tokyo, 39, 39–192.
ICZN [International Commission on Zoological Nomenclature] (1999) International Code of Zoological Nomenclature. 4th Edition. International Trust for Zoological Nomenclature (The Natural History Museum), London, 306 pp. Available from: https://www.iczn.org/iczn/index.jsp (Accessed 10 Jul. 2019)
Jeffreys, J.G. (1876) Preliminary report of the biological results of a cruise in H.M.S. Valorous to Davis Strait in 1875. Proceedings of the Royal Society of London, 25, 177–237.
https://doi.org/10.1098/rspl.1876.0043
Kaminski, M.A. (2004) The new and reinstated genera of agglutinated Foraminifera published between 1996 and 2000. In: Bubik, M. & Kaminski, M.A. (Eds.), Proceedings of the Sixth International Workshop on Agglutinated Foraminifera. Grzybowski Foundation Special Publication, 8, pp. 257–272. Available from: http://gf.tmsoc.org/Documents/Library/1996.pdf (Accessed 10 Jul. 2019)
Kaminski, M.A., Silye, L. & Kender, S. (2009) Miocene deep-water agglutinated Foraminifera from the Lomonosov Ridge and the opening of the Fram Strait. Micropaleontology, 55, 117–135. Available from: http://discovery.ucl.ac.uk/18962/1/18962.pdf (Accessed 10 Jul. 2019)
Katzmann, W. & Laubier, L. (1974) Le genre Fauveliopsis (polychète sédentaire) en Méditerranée. Mikrofauna Meeresbodens, 50, 529–42. Available from: https://archimer.ifremer.fr/doc/00000/5449/ (Accessed 10 Jul. 2019)
Kender, S. & Kaminski, M.A. (2017) Modern deep-water agglutinated Foraminifera from IODP Expedition 323, Bering Sea: ecological and taxonomic implications. Journal of Micropalaeontology, 36, 195–218
https://doi.org/10.1144/jmpaleo2016-026
Kudenov, J.D. (1985) Four new species of Scalibregmatidae (Polychaeta) from the Gulf of Mexico, with comments on the familial placement of Mucibregma Fauchald and Hancock, 1981. Proceedings of the Biological Society of Washington, 98, 332–340. Available from: https://www.biodiversitylibrary.org/item/107750#page/356/mode/1up (Accessed 10 Jul. 2019)
Kudenov, J.D. & Blake, J.A. (1978) A review of the genera and species of the Scalibregmidae (Polychaeta) with descriptions of one new genus and three new species from Australia. Journal of Natural History, 12, 427–444.
https://doi.org/10.1080/00222937800770291
Kuhn, T., Wegorzewski, A., Rühlemann, C. & Vink, A. (2017) Composition, formation, and occurrence of polymetallic nodules. In: Sharma, R. (Ed.), Deep-Sea Mining: Resource Potential, Technical and Environmental Considerations. Springer, Basel, pp 23–63.
https://doi.org/10.1007/978-3-319-52557-0_2
Laubier, L. (1972) Découverte du genre abyssal Fauveliopsis (annélide polychète) en Méditerranée occidentale. Compte Rendu de l’Academie des Sciences, Paris, 274, 697–700. Available from: https://archimer.ifremer.fr/doc/00000/4897/ (Accessed 10 Jul. 2019)
Levenstein, R.Y. (1970) Novi i redkie vidi mnogoshchetinkovikh chervei glubokovodnogo roda Fauveliopsis i osobennosti ikh rasprostraneniya. Trudy Instituta Okeanologii, Akademiya Nauk SSSR, 88, 227–235.
Levenstein, R.Y. (1972) Ecology and zoogeography of some Polychaeta representatives of the abyssal Pacific. Proceedings of the Royal Society of Edinburgh, Section B (Biology), 73, 171–181.
https://doi.org/10.1017/S0080455X0000223X
Levenstein, R.Y. (1975) Mnogoschetinkov’e chervi (Polychaeta) glubokovodn’kh Tschelogov Atlantischeskogo Sektora Antarktiki. Trudy Instituta Okeanologii, Adademiya Nauk, SSSR, 103, 119–142.
Levinsen, G.M.R. (1885) Spolia atlantica. Om nogle pelagiske Annulata. Det Kongelige Danske videnskabernes selskabs skrifter, Naturvidenskabelig og mathematisk afdeling, Series 6, 3 (2), 321–344., pl. 3. Available from: http://biodiversitylibrary.org/page/34738282 (Accessed 10 Jul. 2019)
Linnaeus, C. (1758) Systema Naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Editio decima, reformata. Laurentius Salvius, Holmiae, 824 pp.
https://doi.org/10.5962/bhl.title.542
López, E. (2011) Occurrence of Fauveliopsis glabra (Fauveliopsidae: Annelida: Polychaeta) in a rhodolith bed off the south-eastern coast of Spain (western Mediterranean Sea). Marine Biodiversity Records, 4 (e38), 1–4. https://doi.org/10.1017/S1755267211000418
Magalhães, W.F, Bailey-Brock, J.H. & Rizzo, A.E. (2014) Laubieriopsis petersenae n. sp. and L. cf. cabiochi (Amoureux, 1982) (Polychaeta: Fauveliopsidae) from dredge disposal sites off Honolulu, Hawaii. Zootaxa, 3893 (1), 143–150. https://doi.org/10.11646/zootaxa.3893.1.7
Małecki, J. (1973) Bathysiphons from the Eocene of the Carpathian Flysch, Poland. Acta Palaeontologica Polonica, 18, 163–172. https://www.app.pan.pl/archive/published/app18/app18-163.pdf
Malmgren, A.J. (1867) Annulata Polychaeta Spetsbergiae, Groenlandiae, Islandiae et Scandinaviae: Hactenus Cognita. Frenckelliana, Helsingforslae, 127 pp., 14 pls.
https://doi.org/10.5962/bhl.title.13358
Martínez, J. & Adarraga, I. (2012) Primer registro de Laubieriopsis brevis (Hartman, 1965) para la fauna de la península Ibérica. Munibe, Ciencias Naturales, 60, 1–12. Available from: http://www.aranzadi.eus/fileadmin/docs/Munibe/2012039050CN.pdf]
Maurer, D. & Williams, S. (1988) Deep-sea polychaetous annelids from Central America to the Antarctic Peninsula and South Sandwich Islands. Internationale Revue der Gesamten Hydrobiologie, 73, 659–701.
https://doi.org/10.1002/iroh.19880730607
McIntosh, W.C. (1922) Notes from the Gatty Marine Laboratory, St. Andrews, 44: 1. On new and rare Polychaeta, Gephyrea, etc., from various regions; 2. Recent additions to the British marine Polychaeta (continued). Annals and Magazine of Natural History, Series 9, 9, 1–30.
https://doi.org/10.1080/00222932208632638
Méndez, N. (2006) Deep-water polychaetes (Annelida) from the southeastern Gulf of California, Mexico. Revista de Biología Tropical, 54, 773–785. http://www.scielo.sa.cr/pdf/rbt/v54n3/3864.pdf
https://doi.org/10.15517/rbt.v54i3.12776
Menzies, R.J. & Chin, E. (1966) Cruise Report, Research Vessel Anton Bruun, Cruise 11. Texas A&M University, Marine Laboratory Special Report, 1, 1–16.
Menzies, R.J. & George, R.Y. (1967) A re-evaluation of the concept of hadal or ultra-abyssal fauna. Deep Sea Research and Oceanographic Abstracts, 14, 703–704.
https://doi.org/10.1016/S0011-7471(67)80008-1
Norenburg, J.L. (1993) Riserius pugettensis gen. n., sp. n. (Nemertina: Anopla), a new mesopsammic species, and comments on phylogenetics of some anoplan characters. Hydrobiologia, 266, 203–205. Available from: https://link.springer.com/article/10.1007/BF00013369
https://doi.org/10.1007/978-94-011-2052-4_15
Núñez, J., Ocaña, O. & Brito, M.C. (1997) Two new species (Polychaeta: Fauveliopsidae and Nerillidae) and other polychaetes from the marine lagoon cave of Jameos del Agua, Lanzarote (Canary Islands). Bulletin of Marine Science, 60, 252–260. Available from: https://www.ingentaconnect.com/content/umrsmas/bullmar/1997/00000060/00000002/art00007#]
Orensanz, J.M. (1974) Poliquetos de la provincia biogeográfica argentina, 10. Acrocirridae. Neotropica, 20, 113–118.
Petersen, M.E. (2000) A new genus of Fauveliopsidae (Annelida Polychaeta), with a review of its species and redescription of some described taxa. Bulletin of Marine Science, 67, 491–515. https://www.ingentaconnect.com/content/umrsmas/bullmar/2000/00000067/00000001/art00041?crawler=true
Pettibone, M.H. (1979) Redescription of Bruunilla natalensis Hartman (Polychaeta: Polynoidae), originally referred to Fauveliopsidae. Proceedings of the Biological Society of Washington, 92, 384–388. https://archive.org/details/biostor-83131
Philippi, R.A. (1844) Enumeratio molluscorum Siciliae cum viventium tum in tellure tertiaria fossilium, quae in itinere suo observavit. Vol. 2. Eduard Anton, Halle (Halis Saxorum), 303 pp., pls. 13–28. Available from: https://www.biodiversitylibrary.org/item/180011#page/339/mode/1up]
Pilsbry, H.A. & Sharp, B. (1897) Scaphopoda. Manual of Conchology, (1)17, 1–144, pls. 1–26. Available from: http://www.biodiversitylibrary.org/item/41487]
Purschke, G. (1997) Ultrastructure of nuchal organs in polychaetes (Annelida)—New results and review. Acta Zoologica, 78, 123–143.
https://doi.org/10.1111/j.1463-6395.1997.tb01133.x
Riser, N.W. (1987) A new interstitial polychaete (Family Fauveliopsidae) from the shallow subtidal of New Zealand with observations on related species. Bulletin of the Biological Society of Washington, 7, 211–216.
Rögl, F. (1995) A Late Cretaceous Flysch-type agglutinated foraminiferal fauna from the Trochamminoides proteus type locality (Wien, Hütteldorf, Austria). In: Kaminski, M.A., Geroch, S. & Gasiński, M.A. (Eds.), Proceedings of the Fourth International Workshop on Agglutinated Foraminifera, Kraków, Poland, September 12–19, 1993. Grzybowski Foundation Special Publication, 3, pp. 249–263. Available from: http://gf.tmsoc.org/Documents/IWAF-4/Rogl-1995-IWAF4.pdf]
Salazar-Vallejo, S.I. (2009) Fauveliopsidae Hartman, 1971. In: de León-González, J.A., Bastida-Zavala, J.R., Carrera-Parra, L.F., García-Garza, M.E., Peña-Rivera, A., Salazar-Vallejo, S.I. & Solís-Weiss, V. (Eds.), Poliquetos (Annelida: Polychaeta) de México y América Tropical. Universidad Autónoma de Nuevo León, Monterrey, México, pp. 191–194.
Salazar-Vallejo, S.I. & Zhadan, A.E. (2007) Revision of Buskiella McIntosh, 1885 (including Flota Hartman, 1967), and description of its trifid organ (Polychaeta, Flotidae). Invertebrate Zoology, 4, 65–82.
https://doi.org/10.15298/invertzool.04.1.06
Sars, G.O. (1872) Undersøgelser over Hardangerfjordens fauna I. Förhadlingar i Videnskabsselskabet i Christiania, 1871, 246–286 http://www.biodiversitylibrary.org/item/150966#page/250/
Sen Gupta, B.K., Lobegeier, M.K. & Smith, L.E. (2009) Foraminiferal communities of bathyal hydrocarbon seeps, Northern Gulf of Mexico: A taxonomic, ecologic, and geologic study. OCS Study MMS 2009-013. U.S. Department of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, New Orleans, LA, 385 pp.
Steiner, G. (1999) A new genus and species of the family Anulidentaliidae (Scaphopoda: Dentaliida) and its systematic implications. Journal of Molluscan Studies, 65 (2), 151–161.
https://doi.org/10.1093/mollus/65.2.151
Swainson W. (1831) Zoological Illustrations, or original figures and descriptions of new, rare, or interesting animals, selected chiefly from the classes of ornithology, entomology, and conchology, and arranged according to their apparent affinities. Series 2. Vol. 2. Baldwin & Cradock, London, 11 pls. pls. 86–96. Available from: https://www.biodiversitylibrary.org/item/92610#page/89/mode/1up (Accessed 10 Jul. 2019)
Thiel, D., Purschke, G. & Böggemann, M. (2011) Abyssal Fauveliopsidae (Annelida) from the South East Atlantic. Journal of Natural History, 45, 923–937.
https://doi.org/10.1080/00222933.2010.540046
Wang, X. & Müller, W.E.G. (2009) Marine biominerals: perspectives and challenges for polymetallic nodules and crusts. Trends in Biotechnology, 27, 375–383.
https://doi.org/10.1016/j.tibtech.2009.03.004
Wolf, P.S. (1984) Family Fauveliopsidae Hartman, 1971. In: Uebelacker, J.M. & Johnson, P.G. (Eds.), Taxonomic Guide to the Polychaete of the Northern Gulf of Mexico. 7 Vols. Barry A. Vittor & Associates, Mobile, Alabama, pp. 1–37.
Zhadan, A. & Atroshchenko, M. (2012) A new species of Fauveliopsidae (Annelida) from the North Sea. ZooKeys, 181, 1–10.
https://doi.org/10.3897/zookeys.181.2712
Zhadan, A. & Salazar-Vallejo, S.I. (2019) Fauveliopsidae Hartman, 1971. In: Purschke, G., Böggemann, M. & Westheide, W. (Eds.), Handbook of Zoology: Annelida, 1: Annelida Basal Groups and Pleistoannelida, Sedentaria I. De Gruyter, Berlin, pp. 313–324.
Zrzavý, J., Říha, P., Piálek, L. & Janouškovec, J. (2009) Phylogeny of Annelida (Lophotrochozoa): total-evidence analysis of morphology and six genes. BMC Evolutionary Biology, 9 (189), 1–14.
https://doi.org/10.1186/1471-2148-9-189