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Bibliography

[edit]

This is where you will compile the bibliography for your Wikipedia assignment. Add the name and/or notes about what each source covers, then use the "Cite" button to generate the citation for that source.

  • Example: Luke, Learie. 2007. Identity and secession in the Caribbean: Tobago versus Trinidad, 1889–1980.[1]
    • This is a book published by a university press, so it should be a reliable source. It also covers the topic in some depth, so it's helpful in establishing notability.
  • Example: Galeano, Gloria; Bernal, Rodrigo (2013-11-08). "Sabinaria , a new genus of palms (Cryosophileae, Coryphoideae, Arecaceae) from the Colombia-Panama border". Phytotaxa.[2]
    • This is a peer-reviewed scientific journal, so it should be a reliable source. It covers the topic in some depth, so it's helpful in establishing notability.
  • Example: Baker, William J.; Dransfield, John (2016). "Beyond Genera Palmarum: progress and prospects in palm systematics". Botanical Journal of the Linnean Society.[3]
    • This is a peer-reviewed scientific journal, so it should be a reliable source for a specific fact. Since it only dedicates a few sentences to the topic, it can't be used to establish notability
  • Bruno, D. O., Rojo, J. H., & Boy, C. C. (2019). Energy depletion of embryos and yolk-sac feeding larvae of the liparid snailfish Careproctus pallidus (Vaillant 1888). Polar Biology, 42(6), 1199–1204. https://doi.org/10.1007/s00300-019-02500-9[4]
    • This paper is from a peer-reviewed scientific journal and is not of the more recent articles published on snailfish eggs. It focuses largely on changes in energy content within the yolk-sac.
  • Chernova, N. V. (2014). New species of the genus Careproctus (Liparidae) from the Kara Sea with notes on spongiophilia, reproductive commensalism between fishes and sponges (Rossellidae). Journal of Ichthyology, 54(8), 501–512. https://doi.org/10.1134/S0032945214050038[5]
    • This paper is from a peer-reviewed scientific journal and contains information on a new species of snailfish and another form of reproduction in which snailfish deposit their eggs on glass sponges. This source also elaborates on specific characteristics of eggs and snailfish life cycle.
  • Eastman, J. T., & Lannoo, M. J. (1998). Morphology of the brain and sense organs in the snailfish Paraliparis devriesi: Neural convergence and sensory compensation on the Antarctic shelf. Journal of Morphology, 237(3), 213–236.[6]
    • This paper, from a peer-reviewed scientific journal, is about an Antarctic species of snailfish Paraliparis devriesi and how their brain and pectoral fin morphology is quite different from all of the comparative species in their study.
  • Gerringer, M. E., Dias, A. S., Von Hagel, A. A., Orr, J. W., Summers, A. P., & Farina, S. (2021). Habitat influences skeletal morphology and density in the snailfishes (Family liparidae). Frontiers in Zoology, 18(1), 16.[7]
    • This paper, from a peer-reviewed scientific journal, compares 50 species within the family Liparidae (snailfishes) to analyze three depth-related trends in bone morphology: reduction of structural dimensions, loss of skeletal elements, and reduction in bone density.
  • Gerringer M. E., Drazen J. C.,Linley T. D., Summers A. P., Jamieson A. J., Yancey P. H. (2017) Distribution, composition and functions of gelatinous tissues in deep-seafishes. R.Soc.opensci.4: 171063.[8]
    • This paper, from a peer-reviewed scientific journal, describes the studied structure and function of the gelatinous layer below the skin and around the spine of over 200 species of deep sea fish, with a specific focus on hadal snailfish.
  • Love, D. C., & Shirley, T. C. (1993). Parasitism of the Golden King Crab, Lithodes aequispinus Benedict, 1895 (Decapoda, Anomura, Lithodidae) by a Liparid Fish. Crustaceana, 65(1), 97–104. http://www.jstor.org/stable/20104874[9]
    • This paper is from a peer-reviewed scientific journal and is likely one the first described occurrences of certain species of snailfish using Golden King Crabs as a host for their eggs.
  • Mori, T., Fukuda, K., Ohtsuka, S., Yamauchi, S., & Yoshinaga, T. (2022). Reproductive behavior and alternative reproductive strategy in the deep-sea snailfish, Careproctus pellucidus. Marine Biology, 169(3), 42. https://doi.org/10.1007/s00227-022-04028-9[10]
    • This paper is from a peer-reviewed scientific journal, was published in the last year, and is one of the only scientific papers describing courtship behavior of snailfish. This source describes certain reproductive behaviors and speculates on why they are important.
  • Mu, Y., Bian, C., Liu, R., Wang, Y., Shao, G., Li, J., Qiu, Y., He, T., Li, W., Ao, J., Shi, Q., & Chen, X. (2021). Whole genome sequencing of a snailfish from the Yap Trench (~7,000 m) clarifies the molecular mechanisms underlying adaptation to the deep sea. PLOS Genetics, 17(5), e1009530.[11]
    • This paper, from a peer-reviewed scientific journal, describes genome analysis of snailfish found in the Yap Trench which was conducted to understand how they may have adapted to survive in extreme conditions.
  • Wang, K., Shen, Y., Yang, Y., Gan, X., Liu, G., Hu, K., Li, Y., Gao, Z., Zhu, L., Yan, G., He, L., Shan, X., Yang, L., Lu, S., Zeng, H., Pan, X., Liu, C., Yuan, Y., Feng, C., … He, S. (2019). Morphology and genome of a snailfish from the Mariana Trench provide insights into deep-sea adaptation. Nature Ecology & Evolution, 3(5), 823–833.[12]
    • This paper, from a peer-reviewed scientific journal, analyzes the morphology and genome of the Mariana hadal Snailfish (MHS) Pseudoliparis swirei to analyze protein evolution and adaptations to the extreme conditions of the deep-sea trenches
  • Gerringer, M., Linley, T., Jamieson, A. et al. (2017) Pseudoliparis swirei sp. nov.: A newly-discovered hadal snailfish (Scorpaeniformes: Liparidae) from the Mariana Trench. Zootaxa 4358(1), 161-177. https://doi.org/10.11646/zootaxa.4358.1.7
    • This article describes the Pseudoliparis swirei species collected in the Mariana Trench at depths 6898-7966 m. P. swirei is discussed in regard to its morphology, biology, distribution, and phylogenetic relationships to other hadal liparids.
  • Jiang, H., Du, K., Gan, X. et al. (2019) Massive Loss of Olfactory Receptors But Not Trace Amine-Associated Receptions in the World’s Deepest-Living Fish (Pseudoliparis swirei). Genes 10(11), 910-927. https://doi.org/10.3390/genes10110910
    • This study performed a comparative analysis of the olfactory receptor and trace amine-associated receptor gene repertoires, focusing on the evolutionary divergence between the Mariana snailfish and its shallow-sea relative, Tanaka’s snailfish.
  • Panchenko, V.V. & Pushchina, O.I. (2022). Distribution, Size Composition, and Feeding of the Okhotsk Snailfish Liparis ochotensis (Liparidae) in the Waters of the Primorye (Sea of Japan). Journal of Ichthyology, Volume(62), 99-108. https://doi.org/10.1134/S003294522201009X[13]
    • This article talks about how highly dependent body ratio and size is in relation to the feeding period. The size of the snailfish impact the diet that they have. Smaller fish eat zooplankton, while larger are decapods.
  • Pedersen, L., Jensen, H.M., Burmeister, A., & Hansen, B.W. (1999). The significance of food web structures for the condition and tracer lipid content of juvenile snail fish (Pisces: Liparis spp.) along 65-72 degrees N off West Greenland. Journal of Plankton Research, Volume 21(no. 9), pp 1593-pp 1611. https://academic.oup.com/plankt/article/21/9/1593/1538476[14]
    • This study was all done in summer months, specifically in snailfish that live in the northern hemisphere, because they have really high starvation tolerance. They believe this is because of the relationship between triglycerols and cholesterol. This is highly dependent on where the snailfish live.
  • Bruno, D.O., Rojo, J.H. & Boy, C.C. Energy depletion of embryos and yolk-sac feeding larvae of the liparid snailfish Careproctus pallidus (Vaillant 1888). Polar Biol 42, 1199–1204 (2019). https://doi.org/10.1007/s00300-019-02500-9[15]
    • The amount of energy needed is highly seasonal dependent, with long migrating species having high energy reserves. Important to note that maternal size, age, and fecundity highly impact that survival of the offspring. Once they run out of endogenous food sources, have to be able to transfer to exogenous feeding style, and if that happens before they are ready, high chance of death.
  • Honda, H. (1985). Diel Feeding Cycle in a Snailfish, Liparis tanakai (Gilbert et Burke). Tohoku Journal of Agricultural Research. Volume 36 (Issue 2), pp 85 - pp 91. http://hdl.handle.net/10097/29865[16]
    • These species feed from midnight until dawn, not needing to feed during the day. They are highly reliant on the olfactory system for feeding since they are nocturnal feeders. They also highly vary their food sources depending on the size of the snailfish.

References

[edit]
  1. ^ Luke, Learie B. (2007). Identity and secession in the Caribbean: Tobago versus Trinidad, 1889–1980. Kingston, Jamaica: University of the West Indies Press. ISBN 978-9766401993. OCLC 646844096.
  2. ^ Galeano, Gloria; Bernal, Rodrigo (2013-11-08). "Sabinaria , a new genus of palms (Cryosophileae, Coryphoideae, Arecaceae) from the Colombia-Panama border". Phytotaxa. 144 (2): 27–44. doi:10.11646/phytotaxa.144.2.1. ISSN 1179-3163.
  3. ^ Baker, William J.; Dransfield, John (2016). "Beyond Genera Palmarum : progress and prospects in palm systematics". Botanical Journal of the Linnean Society. 182 (2): 207–233. doi:10.1111/boj.12401.
  4. ^ Bruno, Daniel O.; Rojo, Javier H.; Boy, Claudia C. (2019-06-01). "Energy depletion of embryos and yolk-sac feeding larvae of the liparid snailfish Careproctus pallidus (Vaillant 1888)". Polar Biology. 42 (6): 1199–1204. doi:10.1007/s00300-019-02500-9. ISSN 1432-2056.
  5. ^ Chernova, N. V. (2014-09-01). "New species of the genus Careproctus (Liparidae) from the Kara Sea with notes on spongiophilia, reproductive commensalism between fishes and sponges (Rossellidae)". Journal of Ichthyology. 54 (8): 501–512. doi:10.1134/S0032945214050038. ISSN 1555-6425.
  6. ^ Eastman, Joseph T.; Lannoo, Michael J. (1998-09). <213::aid-jmor2>3.0.co;2-# "Morphology of the brain and sense organs in the snailfish Paraliparis devriesi: Neural convergence and sensory compensation on the Antarctic shelf". Journal of Morphology. 237 (3): 213–236. doi:10.1002/(sici)1097-4687(199809)237:3<213::aid-jmor2>3.0.co;2-#. ISSN 0362-2525. {{cite journal}}: Check date values in: |date= (help); line feed character in |title= at position 58 (help)
  7. ^ Gerringer, M. E.; Dias, A. S.; von Hagel, A. A.; Orr, J. W.; Summers, A. P.; Farina, S. (2021-04-16). "Habitat influences skeletal morphology and density in the snailfishes (family Liparidae)". Frontiers in Zoology. 18 (1): 16. doi:10.1186/s12983-021-00399-9. ISSN 1742-9994. PMC 8052763. PMID 33863343.{{cite journal}}: CS1 maint: PMC format (link) CS1 maint: unflagged free DOI (link)
  8. ^ Gerringer, M. E.; Drazen, J. C; Linley, T. D; Summers, A. P.; Jamieson, A. J.; Yancey, P. H. (2017). "Distribution, composition and functions of gelatinous tissues in deep-seafishes". Royal Society Open Science. 4 (12).
  9. ^ Love, David C.; Shirley, Thomas C. (1993). "Parasitism of the Golden King Crab, Lithodes aequispinus Benedict, 1895 (Decapoda, Anomura, Lithodidae) by a Liparid Fish". Crustaceana. 65 (1): 97–104. ISSN 0011-216X.
  10. ^ Mori, Toshiaki; Fukuda, Kazuya; Ohtsuka, Syouko; Yamauchi, Shinya; Yoshinaga, Tatsuki (2022-02-28). "Reproductive behavior and alternative reproductive strategy in the deep-sea snailfish, Careproctus pellucidus". Marine Biology. 169 (3): 42. doi:10.1007/s00227-022-04028-9. ISSN 1432-1793.
  11. ^ Mu, Yinnan; Bian, Chao; Liu, Ruoyu; Wang, Yuguang; Shao, Guangming; Li, Jia; Qiu, Ying; He, Tianliang; Li, Wanru; Ao, Jingqun; Shi, Qiong; Chen, Xinhua (2021-05-13). "Whole genome sequencing of a snailfish from the Yap Trench (~7,000 m) clarifies the molecular mechanisms underlying adaptation to the deep sea". PLOS Genetics. 17 (5): e1009530. doi:10.1371/journal.pgen.1009530. ISSN 1553-7404. PMC 8118300. PMID 33983934.{{cite journal}}: CS1 maint: PMC format (link) CS1 maint: unflagged free DOI (link)
  12. ^ Wang, Kun; Shen, Yanjun; Yang, Yongzhi; Gan, Xiaoni; Liu, Guichun; Hu, Kuang; Li, Yongxin; Gao, Zhaoming; Zhu, Li; Yan, Guoyong; He, Lisheng; Shan, Xiujuan; Yang, Liandong; Lu, Suxiang; Zeng, Honghui (2019-05). "Morphology and genome of a snailfish from the Mariana Trench provide insights into deep-sea adaptation". Nature Ecology & Evolution. 3 (5): 823–833. doi:10.1038/s41559-019-0864-8. ISSN 2397-334X. {{cite journal}}: Check date values in: |date= (help)
  13. ^ Panchenko, V. V.; Pushchina, O. I. (2022-02-01). "Distribution, Size Composition, and Feeding of the Okhotsk Snailfish Liparis ochotensis (Liparidae) in the Waters of the Primorye (Sea of Japan)". Journal of Ichthyology. 62 (1): 99–108. doi:10.1134/S003294522201009X. ISSN 1555-6425.
  14. ^ Pederson, L. "The significance of food web structures for the condition and tracer lipid content of juvenile snail fish". academic.oup.com. Retrieved 2023-03-22.
  15. ^ Bruno, Daniel O.; Rojo, Javier H.; Boy, Claudia C. (2019-06-01). "Energy depletion of embryos and yolk-sac feeding larvae of the liparid snailfish Careproctus pallidus (Vaillant 1888)". Polar Biology. 42 (6): 1199–1204. doi:10.1007/s00300-019-02500-9. ISSN 1432-2056.
  16. ^ "東北大学機関リポジトリTOUR". tohoku.repo.nii.ac.jp. Retrieved 2023-03-22.