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词条 Notothenia coriiceps
释义

  1. Distribution and diet

  2. Morphology

  3. Physiology

  4. Genome

  5. References

{{Italic title}}{{speciesbox
| image = The zoology of the voyage of the H.M.S. Erebus and Terror (10327896325).jpg
| image_caption = Biodiversity Heritage Library
| taxon = Notothenia coriiceps
| authority = J. Richardson, 1844
}}Notothenia coriiceps, also known as the black rockcod, Antarctic yellowbelly rockcod, or Antarctic bullhead notothen, is a species of notothen that is widely spread around the Antarctic continent.[1] Like other Antarctic notothenioid fishes, N. coriiceps evolved in the stable, ice-cold environment of the Southern Ocean.[2] It is not currently targeted by commercial fisheries.[3]

Distribution and diet

N. coriiceps maintains a circum-Antarctic distribution that is likely governed at least in part by the presence of the Antarctic Circumpolar Current (ACC) as well as its egg dispersal patterns.[1] Populations of this species have been recorded at sites in the western Ross Sea, the Weddell Sea, the Western Antarctic Peninsula, the islands of the Scotia Arc to South Georgia, the Balleny Islands, and the sub-Antarctic islands of the Indian Ocean sector.[4] N. coriiceps feeds on macroalgae[5] amphipods[5] and euphausiids.[6] It appears to feed year-round, although diet composition likely varies seasonally.[5]

Morphology

N. coriiceps members have scales that typically appear brown or gray in color. Its teeth consist of a multi-row tooth plate and caniform teeth, which are located in the outer portion of the jaw.[7] Adults males typically reach a length of approximately 50 cm (20 in).[8]

Like many other notothenioid fishes, it lacks a swim bladder.[1] Bone density increases during maturation, resulting in reduced buoyancy and the transition from pelagic to desmersal swimming behavior.[13] Adults N. coriiceps possess a dense, well-developed skeleton compared to its congener Notothenia rossii, accounting for its reduced buoyancy.[9]

Its epithelium is characterized by the presence of fat droplets, which serve as a storage mechanism for dietary lipids.[10] Fat droplets are also stored in bone tissue.[11]

Physiology

Like most other Antarctic notothenioids, N. coriiceps exhibits several adaptations that optimize organismal performance at subzero temperatures.[2] These include a modified heat shock response,[2] the production of antifreeze glycoproteins that prevent ice crystallization of body fluids at subzero temperatures,[12] and the abundance of polyunsaturated fatty acids that allow cells to maintain membrane fluidity.[13] N. coriiceps has an limited tolerance for acute temperature change but has demonstrated the capacity to extend its thermal limits upon long-term acclimation to warmer temperatures.[14][15]

Genome

The N. coriiceps genome was sequenced in 2014.[2] Results indicated rapid evolution of genes during speciation, especially in proteins that code for mitochondrial proteins and hemoglobin. In addition, the authors found that many N. coriiceps genes are reflective of adaptation to cold temperatures, with specialized genes related to the species' modified heat shock response as well as enhanced oxidative phosphorylation at cold temperatures.

References

1. ^Eastman, Joseph (1993). Antarctic Fish Biology: Evolution in a Unique Environment. San Diego, California: Academic Press, In
2. ^{{Cite journal|last=Shin, SC|display-authors=etal|date=2014|title=The genome sequence of the Antarctic bullhead notothen reveals evolutionary adaptations to a cold environment|journal=Genome Biology|volume=15|issue=9|pages=468|doi=10.1186/s13059-014-0468-1|pmid=25252967|pmc=4192396}}
3. ^{{Cite journal |author=Barrera-Oro, E.R. |author2=Marschoff, E.|date=2007|title=Information on the status of fjord Notothenia rossii, Gobionotothen gibberifrons and Notothenia coriiceps in the lower South Shetland Islands, derived from the 2000-2006 monitoring program at Potter Cove|url=https://www.researchgate.net/publication/242287506|journal=CCAMLR Science Journal of the Scientific Committee and the Commission for the Conservation of Antarctic Marine Living Resource|volume=14|pages=83–87|via=}}
4. ^{{Cite web|url=http://fishbase.org/summary/Notothenia-coriiceps.html|title=Notothenia coriiceps Richardson, 1844 Black rockcod|date=|website=Fish Base|archive-url=|archive-date=|dead-url=|access-date=24 January 2019}}
5. ^{{Cite journal|last=Iken, K|display-authors=etal|date=1997|title=Grazing by the Antarctic fish Notofhenia coriiceps: evidence for selective feeding on macroalgae|url=https://epic.awi.de/id/eprint/1484/1/Iken97_AntSci9.pdf|journal=Antarctic Science|volume=4|pages=386–391|via=}}
6. ^{{cite journal |last1=Coggan |first1=Roger |title=Seasonal and annual growth rates in the Antarctic fish Notothenia coriiceps Richardson |journal=Journal of Experimental Marine Biology and Ecology |date=1997 |volume=213 |issue=2 |pages=215–229 |doi=10.1016/S0022-0981(96)02731-1}}
7. ^{{Cite journal|last=Voskoboynicova, OS|display-authors=etal|date=1993|title=Evolution of visceral skeleton and phylogeny of Nototheniidae|url=https://www.researchgate.net/publication/271210818|journal=Journal of Ichthyology|volume=33|pages=23–47|via=}}
8. ^{{Cite book|title=Fishes of the Southern Ocean |author=Dewitt, H.H. |author2=Heemstra, P.C. |author3=Gon, O.|publisher=Smith Institute of Ichthyology|year=1990|isbn=|location=Grahamstown, South Africa|pages=}}
9. ^{{Cite journal|last=Eastman, JT|display-authors=etal|date=2011|title=Adaptive radiation at a low taxonomic level: divergence in buoyancy of the ecologically similar Antarctic fish Notothenia coriiceps and N. rossii |url=https://www.int-res.com/articles/meps2011/438/m438p195.pdf |journal=Marine Ecology Progress Series |volume=438|pages=195–206|via=|doi=10.3354/meps09287}}
10. ^{{Cite journal|last=Hernandez-Blazquez, FJ|display-authors=etal|date=2006|title=Fat absorptive processes in the intestine of the Antarctic fish Notothenia coriiceps (Richardson, 1844)|url=|journal=Polar Biology|volume=29|issue=10|pages=831–836|via=|doi=10.1007/s00300-006-0121-x}}
11. ^{{Cite journal|last=Eastman, JT|display-authors=etal|date=2014|title=Divergence in Skeletal Mass and Bone Morphology in Antarctic Notothenioid Fishes|journal=Journal of Morphology|volume=275|issue=8|pages=841–861|doi=10.1002/jmor.20258}}
12. ^{{Cite journal|last=Chen, L|display-authors=etal|date=1997|title=Evolution of antifreeze glycoprotein gene from a trypsinogen gene in Antarctic notothenioid fish|url=https://www.pnas.org/content/94/8/3811|journal=PNAS|volume=94|issue=8|pages=3811–3816|via=|doi=10.1073/pnas.94.8.3811}}
13. ^{{Cite journal|last=Magalhães BS|display-authors=etal|date=2010|title=Comparison of fatty acid composition in nine organs of the sympatric Antarctic teleost fish species Notothenia coriiceps and Notothenia rossii (Perciformes: Nototheniidae)|url=|journal=Comparative Biochemistry and Physiology B|volume=155|issue=2|pages=132–137|via=|doi=10.1016/j.cbpb.2009.10.012}}
14. ^{{Cite journal|last=Bilyk|display-authors=etal|date=2012|title=Heat hardening in Antarctic notothenioid fishes|url=|journal=Polar Biology|volume=35|issue=9|pages=1447–1451|via=|doi=10.1007/s00300-012-1189-0}}
15. ^{{cite journal |last1=Joyce |first1=William |last2=Axelsson |first2=Michael |last3=Egginton |first3=Stuart |last4=Farrell |first4=Anthony P |last5=Crockett |first5=Elizabeth L |last6=O’Brien |first6=Kristin M |last7=Fangue |first7=Dr. Nann |title=The effects of thermal acclimation on cardio-respiratory performance in an Antarctic fish (Notothenia coriiceps) |journal=Conservation Physiology |date=2018 |volume=6 |issue=1 |page=coy069 |doi=10.1093/conphys/coy069}}

4 : Nototheniidae|Fish of the Southern Ocean|Taxa named by John Richardson (naturalist)|Fish described in 1844
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