Vema Seamount
Vema Seamount is a seamount in the South Atlantic Ocean. Discovered in 1959 by a ship with the same name, it lies 1,600 kilometres (1,000 mi) from Tristan da Cunha and 1,000 kilometres (620 mi) northwest of Cape Town. The seamount has a flat top at a mean depth of 73 metres (40 fathoms) which was eroded into the seamount at a time when sea levels were lower; the shallowest point lies at 26 metres (14 fathoms) depth. The seamount was formed between 15-11 million years ago, possibly by a hotspot.
Vema Seamount | |
---|---|
Vema Seamount (Africa) | |
Summit depth | 26 metres (14 fathoms) |
Summit area | 13 square kilometres (5 sq mi)[1] |
Location | |
Coordinates | 31°38′S 8°20′E[2][3] |
Geology | |
Type | Guyot |
Age of rock | 11.00 ± 0.3 million years old |
History | |
Discovery date | 1959 |
Discovered by | RV Vema |
The seamount rises high enough that its summit is at shallow depth, allowing sunlight to reach it and thus permitting the growth of kelp and algae. A number of sea animals and fish are encountered on the seamount; active fisheries existed at Vema Seamount and caused the disappearance of some animal species.
History
Vema Seamount was discovered by the research ship RV Vema of the Lamont–Doherty Earth Observatory in 1959.[2][3] Vema is one of the first seamounts to be the subject of scientific study,[4] and the first seamount investigated by scuba divers without special equipment.[5] Vema lies in international waters[6] and its summit is so shallow that it is a navigation hazard to ships.[7]
Geomorphology and geography
Vema Seamount lies in the South Atlantic Ocean, 1,600 kilometres (1,000 mi) away from Tristan da Cunha.[2] The cities of Cape Town and Lüderitz lie east-southeast and northeast of Vema, respectively,[8] with Cape Town about 1,000 kilometres (620 mi) distant.[9]
The seamount has a conical shape with a flat top; the shallowest point rises to an elevation of 26 metres (14 fathoms) below sea level[2][3] and is called Collins Point.[10] At least one source gives a minimum depth of 11 metres (36 ft) for the seamount,[11] while recent bathymetric surveys have found a minimum depth of 21.5 metres (71 ft).[12] The flat top is a summit plateau has a width of 8.0 kilometres (5 mi)[3] and as more recently determined 11 by 8.5 kilometres (6.8 mi × 5.3 mi)[12] at a mean depth of 73 metres (40 fathoms)[1] and has been named Emerson Plateau; it has a vaguely triangular shape pointing west, and Collins Point lies close to the western margin of the Emerson Plateau. Other points on the Plateau also rise to depths of less than 55 metres (30 fathoms).[10] The plateau appears to be a wave-cut platform of Pleistocene age, when sea levels were lower,[1] and is swept by strong ocean currents.[13]
The seamount rises from a depth of 4,600 metres (2,500 fathoms), where it occupies a breadth of 56 kilometres (35 mi)[3] and forms an isolated conical feature.[12] The seafloor from which Vema rises belongs to the abyssal plain of the Cape Basin.[2] From there, the slopes of Vema first rise steeply and feature subsidiary summits; above 130 metres (70 fathoms) depth the slopes flatten.[1]
Geology
Volcanic rocks such as tuff as well as calcareous aggregates are found on the plateau. Collins Point is composed of phonolite, which contains aegirine, alkali feldspar, augite and nepheline. Olivine basalt has also been found.[1] A minimum age of 11.0 ± 0.3 has been obtained from samples taken at Collins Point by potassium-argon dating,[1] with another age being 15 million years.[14] Older ages have been obtained deeper on the seamount; a sample from 3,000 metres (9,800 ft) depth gave an age of 18 million years.[15]
Vema is an intraplate volcano[14] and is considered to be the present-day location of a hotspot, the Vema hotspot,[16] although the hotspot itself may have moved farther west (by about 200 kilometres (120 mi)) since when it created the Vema Seamount.[17] Seismic tomography has shown what may be a mantle plume underneath Vema,[18] another theory considers the Vema hotspot is a consequence of the Tristan hotspot shedding a secondary diapir.[19] The hotspot origin of the Vema Seamount is not universally agreed upon.[20] Earlier volcanism caused by the Vema hotspot may have manifested itself in southern Namibia in the form of alkaline volcanics, such as the Klinghardt phonolite, the 49 million years old Dicker Willem volcanic complex[21] or melilites close to the mouth of the Orange River, which are 37 million years old,[22] or even the Karoo-Ferrar large igneous province.[23]
Water temperatures at Vema range between 18–21 °C (64–70 °F),[24] decreasing downwards,[12] and the cold Benguela Current does not reach the seamount.[5] The movement and strength of ocean eddies are altered when they interact with Vema Seamount,[25] with Agulhas eddies often splitting apart at the seamount.[26]
Biology
The summit of Vema Seamount is shallow enough that sunlight can reach it, resulting in the growth of various types of algae and seaweeds such as Ecklonia kelp.[1] Such kelp covers large parts of the seamount.[27]
A number of animals inhabit Vema, usually cryptic or encrusting animals.[28] Ascidians,[27][1] black corals,[29] non-reef building corals[30] including gorgonia and scleractinia,[29] decapods,[31] holothurians, hydroids, polyzoa, rock lobsters (Jasus tristani),[27][1] sea fans[32] and sponges live on the seamount.[27][1] Other animals such as bryozoans, echinoderms, gastropods, oysters, pelecypods, serpulids and other worms have also left their traces on Vema.[1] Rock lobsters propagate from Gough Island and Tristan da Cunha to Vema Seamount,[13] while other species appear to originate from South Africa.[33]
Several species appear to be endemic to Vema Seamount, including the sea snail species Austromitra rosenbergi discovered in 2015[34] and the sponge Strongylodesma areolata described in 1969;[35] it is estimated that about 22-36% of all species at Vema are endemic, similar to the proportion of endemic species at other seamounts of the world.[36] The holothurian Holothuria vemae is named after the seamount, where it was discovered in 1965-1966[37] as is the sea snail Trivia vemacola.[38]
A number of fish have been encountered at Vema, although most fish species appear to be pelagic species that are not directly bound to the seamount environment.[31] Fishing operations have attracted seabirds to Vema Seamount.[39] Euphausiids and copepods are also found in the waters,[1] including at least one copepod that parasitizes fish.[40] Among the fish species encountered at Vema Seamount are:
- Acantholatris monodactylus (St. Paul's fingerfin)[1]
- Decapterus longimanus[1]
- Decapterus macarellus (Mackerel scad)[41]
- Emmelichthys nitidus[41]
- Kentrocapros rosapinto (an Indopacific species)[42]
- Meganthias sp.[43]
- Nelabrichthys ornatus[44]
- Polyprion americanus (Atlantic wreckfish)[1]
- Pristipomoides sieboldii[45]
- Schedophilus ovalis (Imperial blackfish)[46]
- Seriola lalandi (Yellowtail amberjack)[1]
- Sphoeroides pachygaster (Blunthead puffer)[46]
- Thunnus albacares (Yellowfin tuna)[47]
- Thunnus obesus (Bigeye tuna)[47]
- Wreckfish[9]
- Yellowtail[9]
Fish on the seamount are commercially fished,[1] with the late 1970s and 1980s seeing the initiation of Mackerel scad[41] and tuna fishing, respectively.[48] Rock lobsters in particular were heavily used;[31] they disappeared from Vema Seamount after overfishing in the 1960s, briefly recovered and then disappeared again by 1981 due to renewed overfishing.[13][9] The collapse of this fishery is one of the first instances of a seamount fishery collapsing,[49] and has been cited as an example of how fisheries outside of exclusive economic zones end up ungoverned and abused.[50] Today Vema Seamount is closed to fishery by the South East Atlantic Fisheries Organisation,[51] and man-made debris such as crab traps[52] and ropes can be found on Vema Seamount.[53]
References
- Simpson & Heydorn 1965, p. 251.
- Berrisford 1969, p. 387.
- Simpson & Heydorn 1965, p. 249.
- Tony J. Pitcher 2007, p. 42.
- Berrisford 1969, p. 389.
- Bergh, M. O.; Johnston, S. J. (June 1992). "A size-structured model for renewable resource management, with application to resources of rock lobster in the South-East Atlantic". South African Journal of Marine Science. 12 (1): 1006. doi:10.2989/02577619209504758.
- Russell, Ian (29 April 2015). "No Solace from SOLAS The Effects that Deeper Draughts and the ENC are having on Safe Navigation". The International Hydrographic Review (11): 12. ISSN 0020-6946.
- Armesto et al. 2003, p. 779.
- Shillington, F. A. (1986). "Oceanography of the Southern African region". Smiths' Sea Fishes. Springer, Berlin, Heidelberg. p. 23. doi:10.1007/978-3-642-82858-4_7. ISBN 9783642828607.
- Simpson & Heydorn 1965, p. 250.
- Pushcharovskii, Yu. M. (April 2004). "Deep-sea basins of the Atlantic ocean: The structure, time and mechanisms of their formation". Russian Journal of Earth Sciences. 6 (2): 133. doi:10.2205/2004ES000146. Retrieved 19 March 2018.
- Bergstad et al. 2019, p. 39.
- Lutjeharms, J.R.E.; Heydorn, A.E.F. (October 1981). "Recruitment of rock lobster on Vema Seamount from the islands of Tristan da Cunha". Deep Sea Research Part A. Oceanographic Research Papers. 28 (10): 1237. doi:10.1016/0198-0149(81)90060-1. ISSN 0198-0149.
- O'Connor & le Roex 1992, p. 362.
- O'Connor & le Roex 1992, p. 347.
- Duncan, R. A.; Hargraves, R. B.; Brey, G. P. (2009). "Age, palaeomagnetism and chemistry of melilite basalts in the Southern Cape, South Africa". Geological Magazine. 115 (5): 325. doi:10.1017/S001675680003733X. ISSN 1469-5081.
- Morgan, W. Jason; Morgan, Jason Phipps (2007). "Plate velocities in hotspot reference frame: electronic supplement" (PDF). geosociety.org. p. 19.
- Zhao, Dapeng (2015). "Hotspots and Mantle Plumes". Multiscale Seismic Tomography. Springer, Tokyo. p. 157,172. doi:10.1007/978-4-431-55360-1_5. ISBN 9784431553595.
- O'Neill, Craig; Müller, Dietmar; Steinberger, Bernhard (April 2005). "On the uncertainties in hot spot reconstructions and the significance of moving hot spot reference frames". Geochemistry, Geophysics, Geosystems. 6 (4): 23. Bibcode:2005GGG.....6.4003O. doi:10.1029/2004GC000784.
- Mark A. Richards, Richard G. Gordon, Rob D. van der Hilst 2000, p. 343.
- Reid, D. L.; Cooper, A. F.; Rex, D. C.; Harmer, R. E. (2009). "Timing of post–Karoo alkaline volcanism in southern Namibia". Geological Magazine. 127 (5): 430. doi:10.1017/S001675680001517X. ISSN 1469-5081.
- Emiliani, Cesare (2005). The Oceanic Lithosphere. Harvard University Press. p. 475. ISBN 9780674017368.
- Mark A. Richards, Richard G. Gordon, Rob D. van der Hilst 2000, p. 235.
- Kensley 1980, p. 31.
- Matano, R. P.; Beier, E. J. (1 December 2002). "On the mesoscale dynamics of the Indian/Atlantic interocean exchange". AGU Fall Meeting Abstracts. 22: OS22E–03. Bibcode:2002AGUFMOS22E..03M.
- Giulivi, Claudia F.; Gordon, Arnold L. (August 2006). "Isopycnal displacements within the Cape Basin thermocline as revealed by the Hydrographic Data Archive". Deep Sea Research Part I: Oceanographic Research Papers. 53 (8): 1292. doi:10.1016/j.dsr.2006.05.011. ISSN 0967-0637.
- Berrisford 1969, p. 396.
- Kensley 1980, p. 29.
- Bergstad et al. 2019, p. 37.
- Farrow, George E.; Durant, Graham P. (May 1985). "Carbonate-basaltic sediments from Cobb Seamount, Northeast Pacific: Zonation, bioerosion and petrology". Marine Geology. 65 (1–2): 98. doi:10.1016/0025-3227(85)90047-7. ISSN 0025-3227.
- Kensley 1980, p. 30.
- Bergstad et al. 2019, p. 40.
- Berrisford 1969, p. 397.
- Salisbury, Richard (11 August 2015). "A new (Gastropoda: Costellariidae) from the Vema Seamount in the South Atlantic Ocean". Proceedings of the Academy of Natural Sciences of Philadelphia. 164 (1): 17. doi:10.1635/053.164.0104.
- Samaai, Toufiek; Gibbons, Mark J.; Kelly, Michelle (2009). "A revision of the genus Strongylodesma Lévi (Porifera: Demospongiae: Latrunculiidae) with descriptions of four new species" (PDF). Journal of the Marine Biological Association of the United Kingdom. 89 (8): 1692. doi:10.1017/S0025315409000101. hdl:10566/248. ISSN 1469-7769.
- Richer de Forges, Bertrand; Koslow, J. Anthony; Poore, G. C. B. (2000). "Diversity and endemism of the benthic seamount fauna in the southwest Pacific". Nature. 405 (6789): 944–7. doi:10.1038/35016066. ISSN 1476-4687. PMID 10879534.
- Thandar, Ahmed S. (May 1988). "A new subgenus of Holothuria with a description of a new species from the south-east Atlantic Ocean". Journal of Zoology. 215 (1): 50. doi:10.1111/j.1469-7998.1988.tb04884.x.
- Liltved, W.R. (1987). "A new Trivia (Triviidae) and Primovula (Ovulidae)(Gastropoda: Prosobranchia) from the South Atlantic and Southwest Indian Oceans". The Veliger. 29: 417. ISSN 0042-3211.
- De Villiers, J. S.; Edwards, K. Z.; Grindley, J. R.; Lawson, W. J.; Winterbottom, J. M.; Siegfried, W. R.; Payne, R. B.; Payne, Robert B.; Payne, Karen; Steyn, P.; Steyn, P.; Steyn, P.; Steyn, P.; Steyn, P.; Tredgold, D.; Steyn, P.; Tredgold, D.; Every, B.; Ferguson, J. W. H.; Brooke, R. K.; Markus, M. B.; Markus, Miles B.; Tree, A. J.; Tree, A. J.; Clancey, P. A.; Jensen, R. A.C.; Jensen, M. K.; Donnelly, B. G.; Donnelly, B. G.; Vernon, C. J.; Vernon, C. J.; Vernon, C. J.; Mcculloch, D.; Siegfried, W. R.; Grindley, J. R. (December 1967). "SHORT NOTES". Ostrich. 38 (4): 281. doi:10.1080/00306525.1967.9634715.
- Oldewage, W.H. (2 October 2015). "Three species of piscine parasitic copepods from southern African coastal waters". South African Journal of Zoology. 28 (2): 113. doi:10.1080/02541858.1993.11448303.
- Tony J. Pitcher 2007, p. 378.
- Armesto et al. 2003, p. 780.
- Anderson, William D.; Murdy, Edward O. (October 2006). "Meganthias carpenteri, new species of fish from the eastern Atlantic Ocean, with a key to eastern Atlantic Anthiinae (Perciformes: Serranidae)". Proceedings of the Biological Society of Washington. 119 (3): 411. doi:10.2988/0006-324X(2006)119[404:MCNSOF]2.0.CO;2.
- Andrew, Timothy G.; Buxton, Colin D.; Hecht, Thomas (1 June 1996). "Aspects of the reproductive biology of the concha wrasse, Nelabrichthys ornatus, at Tristan da Cunha". Environmental Biology of Fishes. 46 (2): 139. doi:10.1007/BF00005215. ISSN 0378-1909.
- Khalaf, Maroof; Zajonz, Uwe (2007). "Fourteen additional fish species recorded from below 150 m depth in the Gulf of Aqaba, including Liopropoma lunulatum (Pisces: Serranidae), new record for the Red Sea". Fauna of Arabia (23): 428. Retrieved 20 March 2018.
- Edwards 2007, p. 501.
- Edwards 2007, p. 500.
- FAO (2006). Deep Sea 2003: Conference poster papers and workshop papers. FAO. p. 208. ISBN 9789251054574.
- Tony J. Pitcher 2007, p. 52.
- Vousden, D.; Scott, L. E. P.; Sauer, W.; Bornman, T. G.; Ngoile, M.; Stapley, J.; Lutjeharms, J. R. E. (2008). "Establishing a basis for ecosystem management in the western Indian Ocean". South African Journal of Science. 104 (11–12): 417–420. ISSN 0038-2353.
- Bergstad et al. 2019, p. 30.
- Bergstad et al. 2019, p. 41.
- Bergstad et al. 2019, p. 49.
Sources
- Armesto, A.; Bañón, R.; Garabana, D.; Durán, P. (2003). "First record of Kentrocapros rosapinto (Tetraodontiformes: Ostraciidae) from Vema Seamount (south-east Atlantic)" (PDF). Journal of the Marine Biological Association of the United Kingdom. 83 (4): 779–780. doi:10.1017/S0025315403007781h. hdl:10261/26311. ISSN 1469-7769.
- Bergstad, O. A.; Gil, M.; Høines, ÅS; Sarralde, R.; Maletzky, E.; Mostarda, E.; Singh, L.; António, M. A.; Ramil, F.; Clerkin, P.; Campanis, G. (2 January 2019). "Megabenthos and benthopelagic fishes on Southeast Atlantic seamounts". African Journal of Marine Science. 41 (1): 29–50. doi:10.2989/1814232X.2019.1571439. ISSN 1814-232X.
- Berrisford, C. D. (January 1969). "Biology and Zoogeography of the Vema Seamount: A Report on the First Biological Collection Made on the Summit". Transactions of the Royal Society of South Africa. 38 (4): 387–398. doi:10.1080/00359196909519099.
- Edwards, A.J. (17 February 2007). "New records of fishes from the Bonaparte Seamount and Saint Helena Island, South Atlantic". Journal of Natural History. 27 (2): 493–503. doi:10.1080/00222939300770241.
- Kensley, B. (1980). "Decapod and isopod crustaceans from the west coast of Southern Africa, including seamounts Vema and Tripp". Annals of the South African Museum (2).
- Mark A. Richards, Richard G. Gordon, Rob D. van der Hilst (2000). The history and dynamics of global plate motions. Washington, DC: American Geophysical Union. ISBN 9781118668535.CS1 maint: multiple names: authors list (link)
- O'Connor, John M.; le Roex, Anton P. (October 1992). "South Atlantic hot spot-plume systems: 1. Distribution of volcanism in time and space". Earth and Planetary Science Letters. 113 (3): 343–364. Bibcode:1992E&PSL.113..343O. doi:10.1016/0012-821X(92)90138-L. ISSN 0012-821X.
- Simpson, E. S. W.; Heydorn, A. E. F. (1965). "Vema Seamount". Nature. 207 (4994): 249–251. doi:10.1038/207249a0. ISSN 1476-4687.
- Tony J. Pitcher (2007). Pitcher, Tony J; Morato, Telmo; Hart, Paul J. B; Clark, Malcolm R; Haggan, Nigel; Santos, Ricardo S (eds.). Seamounts : ecology, fisheries & conservation. Oxford: Blackwell Publishing. doi:10.1002/9780470691953. ISBN 978-1405133432.