Major active fractures zones worldwide are in the orange shaded areas perpendicular to the black lines of the mid-ocean ridges of the major oceanic plates.

Fracture zones are common features in the geology of oceanic basins. Globally most fault zones are located on divergent plate boundaries on oceanic crust. This means that they are located around mid-ocean ridges and trend perpendicular to them. The term fracture zone is used almost exclusively for features on oceanic crust; similar structures on continental crust are instead termed transform or strike slip faults. The term fracture zone has a distinct geological meaning, but it is also used more loosely in the naming of some oceanic features. Fracture zones are much longer than wide, but may have feature complexity within their width. Not all named fracture zones are active, indeed only the central portion of those still forming usually is, in an area of active transform faulting associated with a mid-ocean ridge. Classic fracture zones remain significant ocean floor features with usually different aged rocks on either side of the fracture zone due to past tectonic processes. Some fracture zones have been created by mid-ocean ridge segments that have been subducted and that part may no longer exist.

Pacific Ocean

Major Pacific trenches (1–10) and fracture zones (11–20): 1. Kermadec 2. Tonga 3. Bougainville 4. Mariana 5. Izu–Ogasawara 6. Japan 7. Kuril–Kamchatka 8. Aleutian 9. Middle America 10. Peru–Chile 11. Mendocino 12. Murray 13. Molokai 14. Clarion 15. Clipperton 16. Challenger 17. Eltanin 18. Udintsev 19. East Pacific Rise (S-shaped) 20. Nazca Ridge

Most fracture zones in the Pacific Ocean originate from large mid-ocean ridges (also called "rises") such as the East Pacific Rise, Chile Rise and Juan de Fuca Ridge. The plates that host the fractures are Nazca, Pacific, Antarctic, Juan de Fuca and Cocos among others. Fracture zones being subducted under Southern and Central America are generally southwest-northeast oriented reflecting the relative motion of Cocos, Nazca and the Antarctic Plates.

Chile Rise

The fracture zones of the Chile Rise trend in a west to east fashion with the most southern ones taking a slightly more southwest to northeast orientation. This non-perpendicular relation to Chile's coast reflects the oblique subduction of Nazca Plate under southern Chile. West of Chile rise the fracture zones are hosted in the Antarctic Plate. Some fracture zones such as Chile and Valdivia make up large sections of the Nazca-Antarctic Plate boundary.

Map of the Chile Rise and its fracture zones in Nazca and the Antarctic Plates
Active Pacific Ocean fracture zones are perpendicular to the mid-ocean ridges (black lines) in orange shaded region. Since the map was prepared ages not shown of south-west Pacific and north Pacific ocean floors may have been characterised.
NameMinimum length
in km
Length of transform
boundary in km
Position at Ridge[1][2]
Chile Fracture Zone2,250 (1,400)1,100 (680)35°32′24″S 104°37′3″W / 35.54000°S 104.61750°W / -35.54000; -104.61750
Chiloé Fracture Zone1,750 (1,090)50 (30)42°59′43″S 83°11′5″W / 42.99528°S 83.18472°W / -42.99528; -83.18472
Darwin Fracture Zone50 (30)45°54′29″S 76°25′31″W / 45.90806°S 76.42528°W / -45.90806; -76.42528
Desolación Fracture Zone0
Esmeralda Fracture Zone049°06′47″S 80°12′33″W / 49.11306°S 80.20917°W / -49.11306; -80.20917
Guafo Fracture Zone1,550 (960)280 (170)44°47′55″S 80°15′53″W / 44.79861°S 80.26472°W / -44.79861; -80.26472
Guambin Fracture Zone1,300 (810)70 (40)45°44′7″S 77°27′32″W / 45.73528°S 77.45889°W / -45.73528; -77.45889
Madre de Dios Fracture Zone0
Mocha Fracture Zone450 (280)039°14′24″S 77°22′59″W / 39.24000°S 77.38306°W / -39.24000; -77.38306
Taitao Fracture Zone0
Tres Montes Fracture Zone0
Valdivia Fracture Zone2,100 (1,300)650 (400)41°23′25″S 87°23′36″W / 41.39028°S 87.39333°W / -41.39028; -87.39333

East Pacific Rise

The East Pacific Rise includes the Pacific-Antarctic Rise (Pacific Plate and Antarctic Plate boundary) in some usages and in others relates only to the boundaries between the Pacific Plate and the Nazca Plates which includes the Juan Fernández Plate and Easter Microplate.

Nazca Plate boundary

NameMinimum length
in km
Length as plate
boundary in km
Coordinates
Easter Fracture Zone
Mendaña Fracture Zone0
Nazca Fracture Zone019°49′28″S 77°35′53″W / 19.82444°S 77.59806°W / -19.82444; -77.59806[2]
Quiros Fracture Zone0

Pacific-Antarctic Rise

NameMinimum length
in km
Length as plate
boundary in km
Coordinates
Challenger Fracture Zone
Menard Fracture Zone0
Raitt Fracture Zone0
Eltanin Fracture Zone0
Heezen Fracture Zone0
Tharp Fracture Zone0
Udintsev Fracture Zone0
Le Géographe Fracture Zone0
Astronome Fracture Zone0
Antipodes Fracture Zone0
Le Petit Prince Fracture Zone0
Saint-Exupéry Fracture Zone0
Le Renard Fracture Zone0
La Rose Fracture Zone0
Heirtzler Fracture Zone0
Pitman Fracture Zone0
Erebus Fracture Zone0

Galapagos Rise

Western Pacific

Some of the fracture zones in the western Pacific Ocean are associated with the smaller plate boundaries of the active back-arc basin spreading center of the North Fiji Basin being the Hunter Fracture Zone and North Fiji Fracture Zone. The Parece Vela Rift (Parece Vela Fracture Zone Province) is also associated with the back-arc basin of the Parece Vela Basin (West Mariana Basin) at the intersection of the Philippine Sea Plate and Mariana Plate.[3]:70–73

South of the Equator

North of the Equator

  • Victoria Fracture Zone
  • Central Fracture Zone
  • Parece Vela Rift (Parece Vela Fracture Zone Province)
    • Kokugan Fracture Zone
    • Owashi Fracture Zone
    • Ojirowashi Fracture Zone
    • Inuwashi Fracture Zone
    • Konotori Fracture Zone
    • Toki Fracture Zone
    • Tancho Fracture Zone
    • Raicho Fracture Zone
  • Ortelius Fracture Zone
  • Waghenaer Fracture Zone
  • Rat Fracture Zone

West of East Pacific Rise and Gulf of California Rift Zone

A map of the Juan de Fuca Plate
Age of ocean floor, with fracture zones in the north Pacific Ocean. Hawaii-Emperor seamount chain in black.

(some are inactive)[4]

Juan de Fuca and Gorda Ridges

Surveyor, Molokai, Pioneer and Murray fracture zones shown in the list were created by ridge segments that no longer exist.[4]

Northeast Pacific

  • Sedna Fracture Zone
  • Sila Fracture Zone
  • Aja Fracture Zone
  • Cobb Fracture Zone

Atlantic Ocean

Major fractures zones of the Atlantic can be seen on this ocean depth map
Active Atlantic Ocean fracture zones are perpendicular to the mid-ocean ridges (black lines) in orange shaded region

In the Atlantic Ocean most fracture zones originate from the Mid-Atlantic Ridge, which runs from north to south, and are therefore west to east oriented in general. There are about 300 fracture zones, with an average north-south separation of 55 kilometres (34 mi):[5] two for each degree of latitude. Physically it makes sense to group Atlantic fracture zones into three categories:[6]

  1. Small offset: length of transform fault less than 30 kilometres (19 mi)
  2. Medium offset: offset over 30 kilometers
  3. Large offset: offset several hundreds of kilometers

Mid-Atlantic Ridge (Northern Hemisphere)

NameMinimum length
in km
Length of
transform fault in km
Position at Ridge[1][2]
Saint Paul Fracture Zone[1]14514540°39′40″N 27°55′52″W / 0.661°N 27.931°W / 0.661; -27.931
Saint Peter Fracture Zone[1]333402°31′55″N 31°00′29″W / 2.532°N 31.008°W / 2.532; -31.008
Strakhov Fracture Zone[1] (formerly:Four North[7])18141003°55′59″N 32°06′58″W / 3.933°N 32.116°W / 3.933; -32.116
Sierra Leone Fracture Zone[1]1111526°13′48″N 33°35′17″W / 6.230°N 33.588°W / 6.230; -33.588
Bogdanov Fracture Zone[1]173847°08′06″N 34°21′04″W / 7.135°N 34.351°W / 7.135; -34.351
Vernadsky Fracture Zone[1]1941077°41′35″N 37°28′59″W / 7.693°N 37.483°W / 7.693; -37.483
Doldrums Fracture Zone[1]3811448°07′08″N 38°45′00″W / 8.119°N 38.750°W / 8.119; -38.750
Arkhangelskiy Fracture Zone[1]691998°51′18″N 39°56′17″W / 8.855°N 39.938°W / 8.855; -39.938
Vema Fracture Zone[1]82230010°43′34″N 42°19′59″W / 10.726°N 42.333°W / 10.726; -42.333
Mercurius[8]3912°07′55″N 43°55′26″W / 12.132°N 43.924°W / 12.132; -43.924
Marathon Fracture Zone[8]7812°36′40″N 44°25′48″W / 12.611°N 44.430°W / 12.611; -44.430
Fifteen Twenty Fracture Zone, also known
as Barracuda or Cabo Verde[1]
1195195[8]15°19′12″N 45°52′16″W / 15.320°N 45.871°W / 15.320; -45.871
Vidal Fracture Zone[6]5017°49′55″N 46°35′20″W / 17.832°N 46.589°W / 17.832; -46.589
Luymes South Fracture Zone[6]3018°32′28″N 46°27′54″W / 18.541°N 46.465°W / 18.541; -46.465
Luymes North Fracture Zone[6]2418°58′01″N 46°07′41″W / 18.967°N 46.128°W / 18.967; -46.128
Snellius Fracture Zone[6]4120°36′58″N 45°45′22″W / 20.616°N 45.756°W / 20.616; -45.756
Kane Fracture Zone[1]1040150[9]23°43′05″N 45°34′59″W / 23.718°N 45.583°W / 23.718; -45.583
Northern Fracture Zone[6]1040925°41′20″N 45°11′35″W / 25.689°N 45.193°W / 25.689; -45.193
Tyro Fracture Zone[6]1529°21′54″N 43°00′25″W / 29.365°N 43.007°W / 29.365; -43.007
Atlantis Fracture Zone[1]8436630°04′05″N 42°22′19″W / 30.068°N 42.372°W / 30.068; -42.372
Cruiser Fracture Zone[6]932°19′23″N 40°11′42″W / 32.323°N 40.195°W / 32.323; -40.195
Charis Fracture Zone[6]1333°03′32″N 39°37′41″W / 33.059°N 39.628°W / 33.059; -39.628
Hayes Fracture Zone[1]62415133°36′54″N 38°26′20″W / 33.615°N 38.439°W / 33.615; -38.439
Oceanographer Fracture Zone[1]75114835°08′56″N 35°33′43″W / 35.149°N 35.562°W / 35.149; -35.562
Tydeman Fracture Zone2136°38′28″N 33°27′50″W / 36.641°N 33.464°W / 36.641; -33.464
Pico Fracture Zone (to the west)[6][1]7196737°28′05″N 31°53′56″W / 37.468°N 31.899°W / 37.468; -31.899
East Azores Fracture Zone (to the east)[6][1]7586737°28′05″N 31°53′56″W / 37.468°N 31.899°W / 37.468; -31.899
Kurchatov Fracture Zone[1]1742040°32′13″N 29°27′22″W / 40.537°N 29.456°W / 40.537; -29.456
Petrov Fracture Zone[1]74940°32′13″N 29°27′22″W / 40.537°N 29.456°W / 40.537; -29.456
Maxwell Fracture Zone[1]2147°38′10″N 27°31′37″W / 47.636°N 27.527°W / 47.636; -27.527
Faraday Fracture Zone[1]5062349°42′40″N 28°38′10″W / 49.711°N 28.636°W / 49.711; -28.636
Charlie-Gibbs Fracture Zone[1]2000350[6]52°37′26″N 33°11′53″W / 52.624°N 33.198°W / 52.624; -33.198
Bight Fracture Zone[1]3362356°43′16″N 33°47′31″W / 56.721°N 33.792°W / 56.721; -33.792
Jan Mayen Fracture Zone[1]37421171°22′19″N 9°24′18″E / 71.372°N 9.405°E / 71.372; 9.405
Greenland Fracture Zone (to the west)[10]036574°02′N 8°49′E / 74.04°N 8.82°E / 74.04; 8.82
Senja Fracture Zone (to the east)[10]039874°02′N 8°49′E / 74.04°N 8.82°E / 74.04; 8.82

Fracture zones involved in the early opening of the North Atlantic

American sideAfrican side
Hudson Fracture Zone
Snorri Fracture Zone
Cartwright Fracture Zone
Julian Haab Fracture Zone
Minna Fracture Zone
Leif Fracture Zone
Newfoundland Fracture Zone[11]
Kelvin Fracture Zone[12]Canary Fracture Zone[12]
Cape Fear Fracture Zone[12]Cape Verde Fracture Zone[12]
Bahama Fracture Zone[12]Guinea Fracture Zone[12]

Mid-Atlantic Ridge (Southern Hemisphere)

NameMinimum length
in km
Length of
transform fault in km
Position at Ridge[1][2]
Romanche Fracture Zone[1]24459500°29′S 20°29′W / 0.49°S 20.49°W / -0.49; -20.49
Chain Fracture Zone[1]13152691°12′47″S 14°13′44″W / 1.213°S 14.229°W / -1.213; -14.229
Ascension Fracture Zone[1]11492646°55′41″S 12°16′59″W / 6.928°S 12.283°W / -6.928; -12.283
Bode Verde Fracture Zone[1]301823211°41′10″S 13°56′10″W / 11.686°S 13.936°W / -11.686; -13.936
Cardno Fracture Zone[1]16498714°04′34″S 14°03′22″W / 14.076°S 14.056°W / -14.076; -14.056
Tetyaev Fracture Zone[1]81012216°16′16″S 13°43′08″W / 16.271°S 13.719°W / -16.271; -13.719
Saint Helena Fracture Zone[1]11841916°37′01″S 14°20′38″W / 16.617°S 14.344°W / -16.617; -14.344
Hotspur Fracture Zone[1]144611317°43′16″S 13°19′44″W / 17.721°S 13.329°W / -17.721; -13.329
Martin Vaz Fracture Zone[1]13242618°35′38″S 12°37′59″W / 18.594°S 12.633°W / -18.594; -12.633
Rio Grande Fracture Zone[1]177415629°04′52″S 13°04′01″W / 29.081°S 13.067°W / -29.081; -13.067
Tristan Da Cunha Fracture Zone[1]10142638°23′17″S 16°47′46″W / 38.388°S 16.796°W / -38.388; -16.796
Gough Fracture Zone[1]10574240°38′13″S 16°38′13″W / 40.637°S 16.637°W / -40.637; -16.637
Conrad Fracture Zone (to the west)[1]316055°11′06″S 0°07′59″W / 55.185°S 0.133°W / -55.185; -0.133
Bouvet Fracture Zone (to the east)[1]198055°11′06″S 0°07′59″W / 55.185°S 0.133°W / -55.185; -0.133

Indian Ocean

The Indian Ocean fracture zones are mainly related to the Southwest Indian Ridge and Southeast Indian Ridge mid-ocean ridges.

Active Indian Ocean fracture zones are perpendicular to the mid-ocean ridges (black lines) in orange shaded region

Southwest Indian Ridge

Carlsberg Ridge

Central Indian Ridge

  • Bao Chuan Fracture Zone
  • Mabahiss Fracture Zone
  • Sealark Fracture Zone
  • Vityaz Fracture Zone
  • Vema Fracture Zone (not to be confused with fracture zone of same name in the Atlantic)
  • Argo Fracture Zone
  • Mary Celeste Fracture Zone
  • Rodrigues Fracture Zone
  • Mauritius Fault Zone
  • Egeria Fracture Zone
  • Flinders Fracture Zone

Lakshadweep-Chagos Ridge

  • Vishnu Fault Zone

Southeast Indian Ridge

  • Ter Tholen Fracture Zone
  • Zeewolf Fracture Zone
  • Nieuw Amsterdam Fracture Zone
  • Vlamingh Fracture Zone
  • Geelvinck Fracture Zone
  • Zeehaen Fracture Zone
  • Heemskerck Fracture Zone
  • Saint Vincent Fracture Zone
  • Gambier Fracture Zone
  • Tasman Fracture Zone
  • Balleny Fracture Zone

Southern Ocean

Active Southern Ocean fracture zones are perpendicular to the mid-ocean ridges (black lines) in orange shaded region

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Name from GEBCO gazetteer, position refined by means of etopo2 and sample data of GPlates
  2. 1 2 3 4 "Marine Gazetteer:fracture zone". Retrieved 25 October 2023.
  3. Sdrolias, M; Roest, WR; Müller, RD (2 December 2004). "An expression of Philippine Sea plate rotation: the Parece Vela and Shikoku basins". Tectonophysics. 394 (1–2): 69–86. doi:10.1016/j.tecto.2004.07.061.
  4. 1 2 3 4 5 6 7 8 9 10 11 12 Kruse, SE; McCarthy, MC; Brudzinski, MR; Ranieri, ME (10 June 1996). "Evolution and strength of Pacific fracture zones". Journal of Geophysical Research: Solid Earth. 101 (B6): 13731–40. doi:10.1029/96JB00645.
  5. Gilman, Larry; Lerner, K. Lee. "Mid-Ocean-Ridges". Water Encyclopedia. Retrieved 2011-11-29.
  6. 1 2 3 4 5 6 7 8 9 10 11 12 Müller, R. Dietmar; Roest, Walter R. (1992). "Fracture Zones in the North Atlantic from Combined Geosat and Seasat Data" (PDF). Journal of Geophysical Research. 97 (B3): 3337–50. Bibcode:1992JGR....97.3337M. doi:10.1029/91JB02605. Archived from the original (PDF) on 2012-03-28. Retrieved 2011-11-30.
  7. Udintsev, G.B. (1996). "Equatorial Segment of the Mid-Atlantic Ridge". Unesco. Archived from the original on 2012-09-07. Retrieved 2011-12-05.
  8. 1 2 3 Roest, W. R.; Collette, B. J. (1986). "The Fifteen Twenty Fracture Zone and the North American – South American plate boundary". Journal of the Geological Society. 143 (5): 833–43. Bibcode:1986JGSoc.143..833R. doi:10.1144/gsjgs.143.5.0833. S2CID 128413673.
  9. Tucholke, Brian E.; Schouten, Hans (1988-03-01). "Kane Fracture Zone". Marine Geophysical Research. 10 (1–2): 1–39. Bibcode:1988MarGR..10....1T. doi:10.1007/BF02424659. S2CID 129456202.
  10. 1 2 "Map with Jan Mayen, Greenland and Senja Fracture Zones". Ocean Drilling Project. Retrieved 2011-12-16.
  11. Auzende, J.M.; Olivet, J.L.; Bonnin, J. (1970). "Marge du Grand Bank et la fracture de Terre-Neuve". Compt. Rend. (in French). 271: 1063–66.
  12. 1 2 3 4 5 6 Le Pichon, Xavier; Fox, Paul J. (1971-09-10). "Marginal Offsets, Fracture Zones, and the Early Opening of the North Atlantic". Journal of Geophysical Research. 76 (26): 6294–308. Bibcode:1971JGR....76.6294L. doi:10.1029/JB076i026p06294.
  13. "IHO-IOC GEBCO Gazetteer of Undersea Feature Names, March 2011 version; www.gebco.net". GEBCO. Archived from the original on 2012-04-21. Retrieved 2011-11-16.
  14. 1 2 3 Patriat, P., Sauter, D., Munschy, M., & Parson, L. (1997). A survey of the Southwest Indian Ridge axis between Atlantis II Fracture Zone and the Indian Ocean Triple Junction: Regional setting and large scale segmentation. Marine Geophysical Researches, 19(6), 457–80.
  15. Wobbe, F; Gohl, K; Chambord, A; Sutherland, R (2012). "Structure and breakup history of the rifted margin of West Antarctica in relation to Cretaceous separation from Zealandia and Bellingshausen plate motion". Geochemistry, Geophysics, Geosystems. 13 (4). doi:10.1029/2011GC003742.
Sources
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.