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Journal articles on the topic 'Siboglinidae'

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1

Karaseva, N. P., M. M. Gantsevich, A. I. Obzhirov, et al. "Siboglinids (Annelida, Siboglinidae) as possible indicators of carbohydrates on the case of the Sea of Okhotsk." Доклады Академии наук 486, no. 1 (2019): 127–30. http://dx.doi.org/10.31857/s0869-56524861127-130.

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Siboglinids (Annelida, Siboglinidae) as possible indicators of carbohydrates on the case of the Sea of Okhotsk Geographical and bathymetric distribution of siboglinides in the sea of Okhotsk was studied. More than 75% of all siboglinides were found at a depth of 400 m. These findings were mainly concentrated in the North-Western part of the shelf. A comparison of the distribution of siboglinides in the Sea of Okhotsk and generalized geological data on the distribution of hydrocarbons showed that siboglinides in the sea of Okhotsk were mostly found in the areas of hydrocarbon manifestations and
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2

Portnova, Daria, Vadim Mokievsky, and Thomas Soltwedel. "Nematode species distribution patterns at the Ha°kon Mosby Mud Volcano (Norwegian Sea)." Marine ecology 32, no. 1 (2010): 24–41. https://doi.org/10.1111/j.1439-0485.2010.00403.x.

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The Ha°kon Mosby Mud Volcano (HMMV) is a methane seep that is densely populated by the bacteria Beggiatoa spp. as well as by tubeworms of the Family Siboglinidae. Analyses of samples from seven stations located in five different habitats (bare sediments, bacterial mats, siboglinid fields, sediments with small patches of siboglinids and areas of ‘normal’ sea floor) revealed differences in the density and species-level diversity of nematode communities. Total densities increased from stations inside the mud volcano and on its rim towards the ‘normal’ areas outside the volcano. Nematode species d
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3

Karaseva, N. P., N. N. Rimskaya-Korsakova, V. N. Kokarev, et al. "DISCOVERY OF SIBOGLINIDS (ANNELIDA, SIBOGLINIDAE) IN THE ESTUARIES OF THE LARGEST ARCTIC RIVERS ARE ASSOCIATED WITH PERMAFROST GAS HYDRATES." Доклады Российской академии наук. Науки о жизни 509, no. 1 (2023): 133–36. http://dx.doi.org/10.31857/s2686738922600832.

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In the estuaries of the largest Arctic rivers, namely, the Yenisei, Lena and Mackenzie, marine worms of the family Siboglinidae have been found. Their metabolism is provided by symbiotic chemoautotrophic bacteria. The strong salinity stratification characteristic of the estuaries of the largest Arctic rivers ensures high salinity at depths of 25–36 m, where siboglinids were found. High concentrations of methane necessary for the metabolism of siboglinids arise because of dissociation of permafrost gas hydrates under the influence of river runoff in the conditions of Arctic warming
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Karaseva, N. P., N. N. Rimskaya-Korsakova, V. N. Kokarev, et al. "DISTRIBUTION OF SIBOGLINIDS (ANNELIDA, SIBOGLINIDAE) IN THE LAPTEV SEA AND ADJACENT AREAS OF THE ARCTIC BASIN." Доклады Российской академии наук. Науки о жизни 509, no. 1 (2023): 143–46. http://dx.doi.org/10.31857/s2686738922700081.

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The purpose of the article is to assess the biodiversity of gutless marine worms of the family Siboglinidae (Annelida), whose metabolism is provided by symbiotic bacteria that oxidize hydrogen sulfide and methane. Within the geographical boundaries of the Laptev Sea, 7 species of siboglinids were found, another 1 species was found in the adjacent sector of the Arctic basin. The largest number of finds and the greatest biological diversity of siboglinids were found in the eastern part of the Laptev Sea in the field of numerous methane. One find was noted in the estuary area of the Lena River at
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5

Moczydłowska, Małgorzata, Frances Westall, and Frédéric Foucher. "Microstructure and Biogeochemistry of the Organically Preserved Ediacaran MetazoanSabellidites." Journal of Paleontology 88, no. 2 (2014): 224–39. http://dx.doi.org/10.1666/13-003.

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Metazoans (multicellular animals) evolved during the Ediacaran Period as shown by the record of their imprints, carbonaceous compressions, trace fossils, and organic bodies and skeletal fossils. Initial evolutionary experiments produced unusual bodies that are poorly understood or conceived of as non-metazoan. It is accepted that sponges, ctenophorans, cnidarians, placozoans, and bilaterians were members of the Ediacaran fauna, many of which have uncertain affinities. The fossilSabellidites cambriensisYanishevsky, 1926, derived from the terminal Ediacaran strata, is the earliest known organica
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6

Karaseva, Nadezda P., Nadezhda N. Rimskaya-Korsakova, Roman V. Smirnov, et al. "Distribution of Gutless Siboglinid Worms (Annelida, Siboglinidae) in Russian Arctic Seas in Relation to Gas Potential." Diversity 14, no. 12 (2022): 1061. http://dx.doi.org/10.3390/d14121061.

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In the Russian Arctic seas and adjacent areas of the Arctic basin, 120 sites of siboglinid records are currently known. Individuals belonging to 15 species have been collected. The largest number (49.2%) of records were made in the Barents Sea, followed by the Laptev Sea (37.5%) and the Arctic basin (10 records; 8.3%). No siboglinids have been reported from the Chukchi Sea. The largest number of species has been identified in both the Laptev Sea and Arctic basin (seven species each). Seventy-eight percent of the records were discovered at water depths down to 400 m. Many of the siboglinid reco
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7

Karaseva, Nadezda, Madina Kanafina, Mikhail Gantsevich, et al. "Distribution of Nereilinum murmanicum (Annelida, Siboglinidae) in the Barents Sea in the Context of Its Oil and Gas Potential." Journal of Marine Science and Engineering 9, no. 12 (2021): 1339. http://dx.doi.org/10.3390/jmse9121339.

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Frenulate siboglinids are a characteristic component of communities living in various reducing environments, including sites with hydrocarbon seeps. High concentrations of hydrocarbons in the sediments of the Arctic basin seas, including the Barents Sea, suggest the presence of a rich siboglinid fauna there. This reflects the fact that microbiological oxidation of methane occurs under reducing conditions, generating high concentrations of hydrogen sulfide in the sediment. This hydrogen sulfide acts as an energy source for the sulfide-oxidizing symbionts of siboglinids. Here we report on the fi
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8

Pleijel, Fredrik, Thomas G. Dahlgren, and Greg W. Rouse. "Progress in systematics: from Siboglinidae to Pogonophora and Vestimentifera and back to Siboglinidae." Comptes Rendus Biologies 332, no. 2-3 (2009): 140–48. http://dx.doi.org/10.1016/j.crvi.2008.10.007.

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9

Skalon, Elizaveta K., Zinaida I. Starunova, Sergey A. Petrov, Roman V. Smirnov, Olga V. Zaitseva, and Viktor V. Starunov. "The Mitochondrial Genomes of Siboglinum plumosum and Oligobrachia dogieli (Annelida: Siboglinidae) and Their Phylogenetic Analysis." Genes 15, no. 1 (2024): 77. http://dx.doi.org/10.3390/genes15010077.

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Frenulates are a group of sedentary Annelida within the family Siboglinidae that inhabit the ocean floor and present a unique challenge for comprehensive molecular and phylogenetic investigations. In this study, we focused on the frenulates, specifically assembling the mitochondrial genomes of Siboglinum plumosum and Oligobrachia dogieli. The phylogenetic reconstruction placed S. plumosum as a sister taxon to S. ekmani, and O. dogieli as a sister taxon to S. fiordicum, supporting the non-monophyletic nature of the genus Siboglinum. Overall, this study supports the phylogeny of the family Sibog
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10

Karaseva, N. P., M. M. Gantsevich, A. I. Obzhirov, et al. "Siboglinids (Annelida, Siboglinidae) as Possible Hydrocarbon Indicators as Exemplified by the Sea of Okhotsk." Doklady Biological Sciences 486, no. 1 (2019): 72–75. http://dx.doi.org/10.1134/s0012496619030025.

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11

Mccowin, Marina F., and Greg W. Rouse. "A new Lamellibrachia species and confirmed range extension for Lamellibrachia barhami (Siboglinidae, Annelida) from Costa Rica methane seeps." Zootaxa 4504, no. 1 (2018): 1–22. https://doi.org/10.11646/zootaxa.4504.1.1.

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Mccowin, Marina F., Rouse, Greg W. (2018): A new Lamellibrachia species and confirmed range extension for Lamellibrachia barhami (Siboglinidae, Annelida) from Costa Rica methane seeps. Zootaxa 4504 (1): 1-22, DOI: 10.11646/zootaxa.4504.1.1
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12

Karaseva, N. P., N. N. Rimskaya-Korsakova, V. N. Kokarev, et al. "Distribution of Siboglinids (Annelida, Siboglinidae) in the Laptev Sea and Adjacent Areas of the Arctic Basin." Doklady Biological Sciences 509, no. 1 (2023): 124–27. http://dx.doi.org/10.1134/s0012496623700217.

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13

Kobayashi, Genki, Tomoyuki Miura, and Shigeaki Kojima. "Lamellibrachia sagami sp. nov., a new vestimentiferan tubeworm (Annelida: Siboglinidae) from Sagami Bay and several sites in the northwestern Pacific Ocean." Zootaxa 4018, no. 1 (2015): 97–108. https://doi.org/10.11646/zootaxa.4018.1.5.

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Kobayashi, Genki, Miura, Tomoyuki, Kojima, Shigeaki (2015): Lamellibrachia sagami sp. nov., a new vestimentiferan tubeworm (Annelida: Siboglinidae) from Sagami Bay and several sites in the northwestern Pacific Ocean. Zootaxa 4018 (1): 97-108, DOI: 10.11646/zootaxa.4018.1.5
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14

Rouse, Greg W., Shana K. Goffredi, Shannon B. Johnson, and Robert C. Vrijenhoek. "An inordinate fondness for Osedax (Siboglinidae: Annelida): Fourteen new species of bone worms from California." Zootaxa 4377, no. 4 (2018): 451–89. https://doi.org/10.11646/zootaxa.4377.4.1.

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Rouse, Greg W., Goffredi, Shana K., Johnson, Shannon B., Vrijenhoek, Robert C. (2018): An inordinate fondness for Osedax (Siboglinidae: Annelida): Fourteen new species of bone worms from California. Zootaxa 4377 (4): 451-489, DOI: 10.11646/zootaxa.4377.4.1
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15

Salvini-Plawen, Monika Bright Irmgard Eichinger Luitfried von. "The metatrochophore of a deep-sea hydrothermal vent vestimentiferan (Polychaeta: Siboglinidae)." Organisms Diversity & Evolution 13, no. 2 (2012): 163–88. https://doi.org/10.1007/s13127-012-0117-z.

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Salvini-Plawen, Monika Bright Irmgard Eichinger Luitfried von (2013): The metatrochophore of a deep-sea hydrothermal vent vestimentiferan (Polychaeta: Siboglinidae). Organisms Diversity & Evolution 13 (2): 163-188, DOI: 10.1007/s13127-012-0117-z, URL: http://dx.doi.org/10.1007/s13127-012-0117-z
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16

Berman, Gabriella H., Avery S. Hiley, Geoffrey B. Read, and Greg W. Rouse. "New Species of Osedax (Siboglinidae: Annelida) from New Zealand and the Gulf of Mexico." Zootaxa 5443, no. 3 (2024): 337–52. https://doi.org/10.11646/zootaxa.5443.3.2.

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Berman, Gabriella H., Hiley, Avery S., Read, Geoffrey B., Rouse, Greg W. (2024): New Species of Osedax (Siboglinidae: Annelida) from New Zealand and the Gulf of Mexico. Zootaxa 5443 (3): 337-352, DOI: 10.11646/zootaxa.5443.3.2, URL: http://dx.doi.org/10.11646/zootaxa.5443.3.2
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17

Малахов, В. В., Н. Н. Римская-Корсакова та М. М. Ганцевич. "СТРОЕНИЕ И ПРОИСХОЖДЕНИЕ ТРОФОСОМЫ ВЕСТИМЕНТИФЕР (ANNELIDA, SIBOGLINIDAE)". Доклады Российской академии наук. Науки о жизни 502, № 1 (2022): 100–103. http://dx.doi.org/10.31857/s2686738922010176.

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18

Rimskaya-Korsakova, N. N., N. P. Karaseva, E. N. Temereva, and V. V. Malakhov. "Protonephridial Excretory System in Vestimentifera (Siboglinidae, Annelida)." Doklady Biological Sciences 478, no. 1 (2018): 22–25. http://dx.doi.org/10.1134/s0012496618010064.

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19

Karaseva, N., M. Gantsevich, A. Obzhirov, et al. "Correlation of the siboglinid (Annelida: Siboglinidae) distribution to higher concentrations of hydrocarbons in the Sea of Okhotsk." Marine Pollution Bulletin 158 (September 2020): 111448. http://dx.doi.org/10.1016/j.marpolbul.2020.111448.

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20

Rimskaya-Korsakova, Nadezhda, Diego Fontaneto, Sergey Galkin, Vladimir Malakhov, and Alejandro Martínez. "Geochemistry drives the allometric growth of the hydrothermal vent tubeworm Riftia pachyptila (Annelida: Siboglinidae)." Zoological Journal of the Linnean Society 193, no. 1 (2021): 281–94. https://doi.org/10.1093/zoolinnean/zlaa148.

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Rimskaya-Korsakova, Nadezhda, Fontaneto, Diego, Galkin, Sergey, Malakhov, Vladimir, Martínez, Alejandro (2021): Geochemistry drives the allometric growth of the hydrothermal vent tubeworm Riftia pachyptila (Annelida: Siboglinidae). Zoological Journal of the Linnean Society 193 (1): 281-294, DOI: 10.1093/zoolinnean/zlaa148, URL: https://academic.oup.com/zoolinnean/article/193/1/281/6048373
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21

KORNICKER, LOUIS S., and ELIZABETH HARRISON-NELSON. "Two new species of Ostracoda from hydrothermal vents of Riftia pachyptila aggregations on the East Pacific Rise (Halocypridina; Cladocopina)." Zootaxa 1071, no. 1 (2005): 19. http://dx.doi.org/10.11646/zootaxa.1071.1.2.

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Two new species of Ostracoda, Archiconchoecia (Archiconchoecia) chavturi (Halocypridina) and Polycopetta pax (Cladocopina), are described from two diffuse flow vent localities (Tica Site and Riftia Field Site) within Riftia pachyptila (Siboglinidae, Vestimentifera) aggregations on the East Pacific Rise, slightly north and west of 9°50' N, 104°17'W, depth 2500 m.
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Schulze, Anja. "Phylogeny of Vestimentifera (Siboglinidae, Annelida) inferred from morphology." Zoologica Scripta 32, no. 4 (2003): 321–42. http://dx.doi.org/10.1046/j.1463-6409.2003.00119.x.

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23

Rouse, Greg W., Nerida G. Wilson, Shana K. Goffredi, et al. "Spawning and development in Osedax boneworms (Siboglinidae, Annelida)." Marine Biology 156, no. 3 (2009): 395–405. http://dx.doi.org/10.1007/s00227-008-1091-z.

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24

Карасева, Н. П., Н. Н. Римская-Корсакова, С. В. Галкин та ін. "Таксономия, географическое и батиметрическое распространение вестиментифер (Annelida, Siboglinidae)". Зоологический журнал 95, № 6 (2016): 624–59. http://dx.doi.org/10.7868/s004451341606012x.

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25

Kubota, Norihiro, Masaaki Kanemori, Yuichi Sasayama, Masato Aida, and Yoshihiro Fukumori. "Identification of Endosymbionts in Oligobrachia mashikoi (Siboglinidae, Annelida)." Microbes and Environments 22, no. 2 (2007): 136–44. http://dx.doi.org/10.1264/jsme2.22.136.

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26

Rincón-Tomás, Blanca, Francisco Javier González, Luis Somoza, et al. "Siboglinidae Tubes as an Additional Niche for Microbial Communities in the Gulf of Cádiz—A Microscopical Appraisal." Microorganisms 8, no. 3 (2020): 367. http://dx.doi.org/10.3390/microorganisms8030367.

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Siboglinids were sampled from four mud volcanoes in the Gulf of Cádiz (El Cid MV, Bonjardim MV, Al Gacel MV, and Anastasya MV). These invertebrates are characteristic to cold seeps and are known to host chemosynthetic endosymbionts in a dedicated trophosome organ. However, little is known about their tube as a potential niche for other microorganisms. Analyses by scanning and transmission electron microscopy showed dense biofilms on the tube in Al Gacel MV and Anastasya MV specimens by prokaryotic cells. Methanotrophic bacteria were the most abundant forming these biofilms as further supported
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27

Karaseva, N. P., N. N. Rimskaya-Korsakova, V. N. Kokarev, et al. "Finds of Siboglinids (Annelida, Siboglinidae) in the Estuaries of the Largest Arctic Rivers Are Associated with Permafrost Gas Hydrates." Doklady Biological Sciences 509, no. 1 (2023): 116–18. http://dx.doi.org/10.1134/s0012496623700229.

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28

Malakhov, V. V., N. N. Rimskaya-Korsakova, and M. M. Gantsevich. "Structure and Origin of the Vestimentiferan Trophosome (Annelida, Siboglinidae)." Doklady Biological Sciences 502, no. 1 (2022): 42–45. http://dx.doi.org/10.1134/s0012496622010082.

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29

Amon, Diva J., Helena Wiklund, Thomas G. Dahlgren, et al. "Molecular taxonomy ofOsedax(Annelida: Siboglinidae) in the Southern Ocean." Zoologica Scripta 43, no. 4 (2014): 405–17. http://dx.doi.org/10.1111/zsc.12057.

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30

Higgs, Nicholas D., Adrian G. Glover, Thomas G. Dahlgren, et al. "The morphological diversity of Osedax worm borings (Annelida: Siboglinidae)." Journal of the Marine Biological Association of the United Kingdom 94, no. 7 (2014): 1429–39. http://dx.doi.org/10.1017/s0025315414000770.

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Marine worms in the genus Osedax, have specialized ‘root’ tissues used to bore into the bones of decomposing vertebrate skeletons and obtain nutrition. We investigated the borings of nine Osedax species, using micro computed tomography to quantitatively describe the morphology of the borings and provide three-dimensional reconstructions of the space occupied by Osedax root tissues inside the bone. Each Osedax species displayed a consistent boring morphology in any given bone, but these differed between bones. In bones where multiple species coexisted there was limited evidence for spatial nich
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31

Rimskaya-Korsakova, N. N., N. P. Karaseva, A. A. Osadchiev, et al. "THE DISCOVERY OF POGONOPHORES (ANNELIDA, SIBOGLINIDAE) IN THE ST. ANNA TROUGH (KARA SEA) IN THE AREA OF GAS HYDRATES DISSOCIATION." Доклады Российской академии наук. Науки о жизни 508, no. 1 (2023): 79–83. http://dx.doi.org/10.31857/s2686738922600662.

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Representatives of pogonophores (Annelida, Siboglinidae), whose vital activity is provided by symbiotic chemoautotrophic bacteria that oxidize methane and hydrogen sulfide, were found in the St. Anna trough at depths of 539 m and 437 m. The discovery of pogonophores indicates high concentrations of methane, which can occur because of dissociation of bottom gas hydrates under the influence of the influx of warm Atlantic water penetrating into the Kara Sea along the St. Anna trough.
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Карасева, Н. П., Н. Н. Римская-Корсакова, М. М. Ганцевич та В. В. Малахов. "ОБТЮРАКУЛЫ ВЕСТИМЕНТИФЕР (ANNELIDA, SIBOGLINIDAE) ГОМОЛОГИЧНЫ ДОРСАЛЬНЫМ ГУБАМ ПОЛИХЕТ СЕМЕЙСТВА SABELLIDAE". Доклады Российской академии наук. Науки о жизни 490, № 1 (2020): 90–93. http://dx.doi.org/10.31857/s2686738920010102.

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Римская-Корсакова, Н. Н., Н. П. Карасева, Е. Н. Темерева та В. В. Малахов. "ПРОТОНЕФРИДИИ В ВЫДЕЛИТЕЛЬНОЙ СИСТЕМЕ ВЕСТИМЕНТИФЕР (Siboglinidae, Annelida), "Доклады Академии наук"". Доклады Академии Наук, № 4 (2018): 491–94. http://dx.doi.org/10.7868/s0869565218040254.

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Ганцевич, М. М., Н. П. Карасева, Н. Н. Римская-Корсакова та В. В. Малахов. "Постэмбриональное развитие гидротермальной вестиментиферы Oasisia alvinae Jones, 1985 (Annelida: Siboglinidae)". Биология моря 45, № 5 (2019): 309–14. http://dx.doi.org/10.1134/s0134347519050048.

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Karaseva, N. P., N. N. Rimskaya-Korsakova, S. V. Galkin, and V. V. Malakhov. "Taxonomy, geographical and bathymetric distribution of vestimentiferan tubeworms (Annelida, Siboglinidae)." Biology Bulletin 43, no. 9 (2016): 937–69. http://dx.doi.org/10.1134/s1062359016090132.

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Eichinger, Irmgard, Waltraud Klepal, Markus Schmid, and Monika Bright. "Organization and Microanatomy of the Sclerolinum contortum Trophosome (Polychaeta, Siboglinidae)." Biological Bulletin 220, no. 2 (2011): 140–53. http://dx.doi.org/10.1086/bblv220n2p140.

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37

Prudkovsky, A. A., N. P. Karaseva, M. N. Rimskaya-Korsakova, T. P. Pimenov, N. N. Rimskaya-Korsakova, and V. V. Malakhov. "First Experience of Keeping Pogonophorans (Annelida: Siboglinidae) in Laboratory Conditions." Doklady Biological Sciences 506, no. 1 (2022): 150–53. http://dx.doi.org/10.1134/s001249662205009x.

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38

Berman, Gabriella, Shannon Johnson, Charlotte Seid, Robert Vrijenhoek, and Greg Rouse. "Range extensions of Pacific bone-eating worms (Annelida, Siboglinidae, Osedax)." Biodiversity Data Journal 11 (June 30, 2023): e102803. https://doi.org/10.3897/BDJ.11.e102803.

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First described in 2004 off California, <i>Osedax</i> worms are now known from many of the world's oceans, ranging from 10 to over 4000 m in depth. Currently, little is known about species ranges, since most descriptions are from single localities. In this study, we used new sampling in the north-eastern Pacific and available GenBank data from off Japan and Brazil to report expanded ranges for five species: <i>Osedax frankpressi</i>, <i>O. knutei</i>, <i>O. packardorum</i>, <i>O. roseus</i> and <i>O. talkovici</i>. We also provided additional DNA sequences from previously reported localities f
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39

Malakhov, V. V., and M. M. Gantsevich. "Trophosome in vestimentifera Ridgeia piscesae Jones, 1985 (Annelida, Siboglinidae) develops from cells of the coelomic lining." Доклады Академии наук 485, no. 4 (2019): 519–22. http://dx.doi.org/10.31857/s0869-56524854519-522.

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The structure of early juvenile specimens of vestimentifera Ridgeia piscesae (Annelida, Siboglinidae) was studied. As adults, vestimentiphers are deprived of the intestine and have a trophosome, in which cells chemoautotrophic bacteria are living. In early juvenile individuals of 280-300 microns in size, it was found that trophosome develops from cells of the coelomic lining on the surface of the intestine and on the side walls of the body. This structure of the rudiment of the trofosome suggests that the bacteria are first captured by the cell wall of the body and then transferred to the cell
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Kanafina, M. M., R. I. Gabidullina, N. N. Rimskaya-Korsakova, D. V. Zakharov, R. M. Sabirov, and A. V. Golikov. "Functional Morphology and Ecology of the Arctic Pogonophore Nereilinum murmanicum Ivanov, 1961 (Siboglinidae, Annelida)." Uchenye Zapiski Kazanskogo Universiteta. Seriya Estestvennye Nauki 163, no. 4 (2021): 655–72. http://dx.doi.org/10.26907/2542-064x.2021.4.655-672.

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Bright, Monika, Irmgard Eichinger, and Luitfried von Salvini-Plawen. "The metatrochophore of a deep-sea hydrothermal vent vestimentiferan (Polychaeta: Siboglinidae)." Organisms Diversity & Evolution 13, no. 2 (2012): 163–88. http://dx.doi.org/10.1007/s13127-012-0117-z.

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Zhou, Yadong, Yuanning Li, Hong Cheng, Kenneth M. Halanych, and Chunsheng Wang. "The mitochondrial genome of the bone-eating worm Osedaxrubiplumus(Annelida, Siboglinidae)." Mitochondrial DNA Part B 5, no. 3 (2020): 2267–68. http://dx.doi.org/10.1080/23802359.2020.1772680.

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Rodrigues, C. F., A. Hilário, and M. R. Cunha. "Chemosymbiotic species from the Gulf of Cadiz (NE Atlantic): distribution, life styles and nutritional patterns." Biogeosciences 10, no. 4 (2013): 2569–81. http://dx.doi.org/10.5194/bg-10-2569-2013.

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Abstract. Previous work in the mud volcanoes from the Gulf of Cadiz (South Iberian Margin) revealed a high number of chemosymbiotic species, namely bivalves and siboglinid polychaetes. In this study we give an overview of the distribution and life styles of these species in the Gulf of Cadiz, determine the role of autotrophic symbionts in the nutrition of selected species using stable isotope analyses (δ13C, δ15N and δ34S) and investigate the intra-specific variation of isotope signatures within and between study sites. During our studies, we identified twenty siboglinidae and nine bivalve che
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Jun, Jumin, Yong-Jin Won, and Robert C. Vrijenhoek. "Complete mitochondrial genome of the hydrothermal vent tubeworm,Ridgeia piscesae(Polychaeta, Siboglinidae)." Mitochondrial DNA 27, no. 2 (2014): 1123–24. http://dx.doi.org/10.3109/19401736.2014.933330.

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Li, Yuanning, Kevin M. Kocot, Nathan V. Whelan, et al. "Phylogenomics of tubeworms (Siboglinidae, Annelida) and comparative performance of different reconstruction methods." Zoologica Scripta 46, no. 2 (2016): 200–213. http://dx.doi.org/10.1111/zsc.12201.

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Gantsevich, M. M., N. P. Karaseva, N. N. Rimskaya-Korsakova, and V. V. Malakhov. "Postembryonic Development of the Hydrothermal Vestimentiferan Oasisia alvinae Jones, 1985 (Annelida, Siboglinidae)." Russian Journal of Marine Biology 45, no. 5 (2019): 350–54. http://dx.doi.org/10.1134/s1063074019050043.

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Bright, Monika, and Angelika Sorgo. "Ultrastructural reinvestigation of the trophosome in adults of Riftia pachyptila (Annelida, Siboglinidae)." Invertebrate Biology 122, no. 4 (2005): 347–68. http://dx.doi.org/10.1111/j.1744-7410.2003.tb00099.x.

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Rimskaya-Korsakova, N. N., E. N. Temereva, and V. V. Malakhov. "Apoptotic Processes Precede Infection with Symbionts in a Pogonophoran Lavrae (Siboglinidae, Annelida)." Doklady Biological Sciences 506, no. 1 (2022): 128–31. http://dx.doi.org/10.1134/s0012496622050118.

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Abstract The fine structure of the body wall and gut was for the first time studied in the competent larvae of the frenulate pogonophoran Siboglinum fiordicum. Mass apoptosis of cell nuclei was observed in the dermo-muscular body wall and coelomic epithelium. Apoptotic nuclei were found in both cell cytoplasm and outside of the larval body. In the latter case, each nucleus was surrounded by the plasmalemma, and the entire cluster was covered with the cuticle. Cells of the larval gut retained the usual structure with the cytoplasm filled with numerous yolky granules and the nucleus displaying u
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Katz, Sigrid, Waltraud Klepal, and Monika Bright. "The skin of Osedax (Siboglinidae, Annelida): An ultrastructural investigation of its epidermis." Journal of Morphology 271, no. 10 (2010): 1272–80. http://dx.doi.org/10.1002/jmor.10873.

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Thornhill, Daniel J., Anne A. Wiley, Amy L. Campbell, Frank F. Bartol, Andreas Teske, and Kenneth M. Halanych. "Endosymbionts of Siboglinum fiordicum and the Phylogeny of Bacterial Endosymbionts in Siboglinidae (Annelida)." Biological Bulletin 214, no. 2 (2008): 135–44. http://dx.doi.org/10.2307/25066670.

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