User:DevikaVaava/sandbox
Acetobulastoma arcticum
[edit]
Acetabulastoma arcticum Temporal range:
| |
---|---|
Scientific classification | |
Kingdom: | |
Phylum: | |
Subphylum: | |
Class: | |
Order: | |
Superfamily: | |
Family: | |
Genus: | |
Species: | Acetabulastoma arcticum
|
Synonyms | |
Paradoxostoma rostratum |
Acetobulastoma arcticum is a species of an epipelagic ostracod, mostly found associated with sea-ice. It was also referred to as Paradoxostoma rostratum by some early 19th century biologists[1]. Most ostracods are known to be benthic , however, A.arcticum is a parasitic species that has a sympagic association with under sea-ice amphipods.
The Genus Acetabulastoma in general live as ectoparasites and each of the different species inhabits a specific species of amphipod. A.arcticum is exclusively found to be hosted by the genus Gammarus.
The taxonomic classification of ostracods (Class Ostracoda) is depicted below to get an overview of the position of A.arcticum in the taxon tree.
|
Geologic extent
[edit]Cytheroidea has been recorded in fossil records from as early as the middle Permian. However, A.arcticum and its fossil abundance has not been reported clearly as to its extent to the geological past[2][3]. They are also found living today in different regions of the the Central Arctic Ocean[4].
Distribution
[edit]A.arcticum largely occupies the Central Arctic Ocean due to its perennial sea-ice conditions. There are recorded occurrences in Nansen Basin, Amundsen Basin and Makarov Basin[5].Latitudinally, it has been reported to be found in high abundance beyond 85°N, although they exist beyond 75°N.
Considering their vertical distribution in the ocean, they have not been found beyond ~3500 m, which is the region of the ocean marked by the deep abyssal plains. This is because of the saturation constant of aragonite that makes it more susceptible to dissolution(Ωaragon<1).Additionally, they do not occur in the continental shelf regions due to the seasonality of sea-ice[5].
A.arcticum is found associated with two different water masses, namely, the Upper Eurasian Basin Deep Water(UEBDW), and Makarov Basin Deep Water(MBDW)[5].It has also been found predominantly associated with the upper Arctic Ocean Deep Water(AODW) near the transition with Arctic Intermediate Water (AIW)-North Atlantic Water, along with other ostracod species such as Polycope spp. and Pseudocythere caudata [5].
Morphology
[edit]Like most ostracods, A.arcticum is on average around 100 micrometers in length. They have a carapace that is made of chitin and low magnesium calcite. As the two halves of the outer shell grows, they enclose the soft body parts and become bivalve-like structures[3].
The carapace that encloses A.arcticum is subquadrate to sub-triangulate in shape. Additionally, it is smooth and does not have any complex ornamentation or striations, mostly due to its largely inactive parasitic nature of life.
The eyes are simple, and not compound as in Myodocopa. They have just a naupliar eye consisting of two lateral ocelli and a single ventral ocellus[6].
Female ostracods of this species have seven limbs with an antennal exopodite[3].
Life cycle
[edit]Around 40% of G.wilkitzkii females had A.arcticum association during the spring. It was also reported that A.arcticum with eggs were found in 0-30% of the amphipod G.wilkitzkii. This enabled the understanding that the adult A.arcticum is attached to Gammarus (Lagunogammarus) wilkitzkii by a sucker like feeding part(mouth) between its gills and the first or second gnathopod. The eggs are laid on the branchial vessels and later escape after six to seven months. This species of Acetobulastoma is also found associated to Gammarus loricatus [7][1].
A.arcticum lays its eggs during December. The hatched juveniles are still carried by the mother ostracod till the middle of June. This also means that there is only one brood every year with a seven month interval between when eggs are laid and when the young ostracods escape. They also have a life span of six years[7].
Applications
[edit]Ostracods in general have been widely used for biostratigraphy although they are considered less popular than other microplaeontological proxies such as foraminifera and diatoms. This is important for paleoclimatic and paleoceanographic reconstruction of the various time periods in geological history. They are also widely used as biological indicators for different water mass conditions due to its preference for specific water mass properties.
The most diagnostic application of A.arcticum, however, is using its stratigraphic availability as an indication for presence of perennial sea-ice conditions. This also indicates a lack of full glaciation where there would be no productivity at all, in the past[8].
A.arcticum sea-ice index (AASII)
[edit]The A.arcticum sea-ice index (AASII) is a semi-quantitative method that was developed for understanding the presence of sea-ice in the past using sediment cores[9].Despite the potential of A.arcticum as an indicator due to its exclusive habitat in perennial ice regions, its abundance in sediment samples reflects an average over time due to low sedimentation rate and dynamic sea ice changes. That is, it is not true to consider it an 'all or none' indicator of sea ice. The AASII accounts for the concentration of A. arcticum and sedimentation rates in the marine region over a 1000-year interval to make inferences. Assumptions are made in its calculation, including constant biological production and sediment accumulation rates, even though this is rarely the case and could affect its reliability as an indicator[9].
It has been used primarily to reconstruct Arctic Ocean sea-ice history during the last ~45 kyr, that is within the Quaternary, by analyzing core-top data from various locations (49 sediment cores) throughout the Central Arctic, such as the Lomonosov ridge and Mendeleev ridge[4]. This allows correlating ostracod abundance depth-wise and geographically to interpret changes in their temporal and spatial distribution, respectively.
External Reading
[edit]See also
[edit]
References
[edit]- ^ a b Baker, J.H.; Wong, J.W. (1968). "Paradoxostoma rostratum Sars (Ostracoda, Podocopida) as a Commensal on the Arctic Gammarid Amphipods Gammaracanthus loricatus (Sabine) and Gammarus wilkitzkii Birula". Crustaceana. 14 (3): 307–311. Cite error: The named reference "Baker" was defined multiple times with different content (see the help page).
- ^ Horne, D.J. (2003). "Key events in the radiation of the Ostracods". The paleontological society papers. 9: 181–201. doi:10.1007/s10750-015-2587-4.
- ^ a b c Rodriguez-Lazaro, Julio; Ruiz-Muñoz, Francisco (2012), "Chapter 1: A General Introduction to Ostracods: Morphology, Distribution, Fossil Record and Applications", Development in Quaternary Sciences, 17: 1–14, doi:10.1016/B978-0-444-53636-5.00001-9 Cite error: The named reference "Julio" was defined multiple times with different content (see the help page).
- ^ a b c Gemery, L.; Cronin, T.M.; Briggs Jr., W.M.; Brouwers, E.M.; Schornikov, E.N.; Stepanova, A.; Wood, A.M.; M., Yasuhara (2017). "An Arctic and Subarctic ostracods database: bio geographic and paleoceanographic applications". Hydrobiologia. 786: 59–95. doi:10.1007/s10750-015-2587-4. Cite error: The named reference "Gemery" was defined multiple times with different content (see the help page).
- ^ a b c d Cronin, T.M.; Holtz Jr., T.R.; Stein, R.; Speilhagen, R.; Fütterer, D.; Wollenburg, J. (1995). "Late Quaternary Paleoceanography of the Eurasian Basin, Arctic Ocean". Paleoceanography. 10 (2): 259–281. doi:10.1029/94PA03149.
- ^ Tanaka, Gengo (2006). "Functional morphology and light-gathering ability of podocopid ostracod eyes and the palaeontological implications". Zoological Journal of the Linnean Society. 147 (1): 97–108. doi:10.1111/j.1096-3642.2006.00216.x.
- ^ a b Barnard, J.L. (1959). "Epipelagic and under-ice Amphipoda of the central arctic basin. In: Scientific Studies at Fletcher's Ice Island". Vol I. Geophysical Research Papers. 63: 115–152.
- ^ Zhou, B.; Wang, R.; Xiao, W.; Wang, Y. (2021). "Late Quaternary paleoceanographic history based on ostracod records from Chukchi Plateau, western Arctic Ocean". Marine Micropaleontology. 165: 101–987. doi:10.1016/j.marmicro.2021.101987.
- ^ a b Cronin, T.M.; Gemery, L.; Briggs Jr., W.M.; M., Jakobsson; Polyak, L.; Brouwer, E.M. (2010). "Quaternary Sea-ice history in the Arctic Ocean based on a new Ostracode sea-ice proxy". Quaternary Science Reviews. 29 (25–26): 3415–3429. doi:10.1016/j.quascirev.2010.05.024.