Tasmantid Seamount Chain

Tasmantid Seamount Chain
Tasmantid Seamount Chain
	Topographic map of Zealandia that includes the Tasmantid Seamount Chain (unlabelled, above the label Australia) off the east of Australia extending from the Coral Sea southwards into the Tasman Sea.
	800km; 500miles Gascoyne Guyot T a s m a n t i d S e a m o u n t s Mellish Reef Kenn Reef Wreck Reefs Cato Reef Fraser Seamounts Recorder Guyots Moreton Seamounts Mooloolaba Seamount Brisbane Guyots Queensland Guyot Britannia Guyots Stradbroke Seamount Derwent Hunter Guyot Taupo Bank Barcoo Bank Kimbla Seamount Tasmantid Seamount Chain; (red - coral reefs, yellow - seamounts)
Location
Location	Coral and Tasman seas
Coordinates	31°00′S 156°00′E / 31.000°S 156.000°E
Geology
Type	Seamount chain
Age of rock	56–7 Ma PreꞒ Ꞓ O S D C P T J K Pg N

The Tasmantid Seamount Chain (alternatively Tasmantid Seamounts, Tasman Seamounts, Tasman Seamount Chain, Tasmantide Volcanoes or the Tasmantids)^[2] is a 2,000 km (1,200 mi) long chain of seamounts in the South Pacific Ocean. The chain consists of over 16 extinct volcanic peaks, many rising more than 4,000 m (13,000 ft) from the seabed.^[3]^[4]^[5] It is one of the two parallel seamount chains alongside the East Coast of Australia; the Lord Howe and Tasmantid seamount chains both run north-south through parts of the Coral Sea and Tasman Sea. These chains have longitudes of approximately 159°E and 156°E respectively.^[6]

Like its neighbour, the Tasmantid Seamount Chain has resulted from the Indo-Australian Plate moving northward over a stationary hotspot.^[7] It ranges in age from about 56 to 7 million years old.^[3]

Features

The Tasmantid Seamount Chain includes the following named seamounts:

Tasmantid Seamounts
Seamount	Location	Age^{[Age note 1]}	Notes
Gascoyne Seamount	36°41′00″S 156°07′00″E / 36.68333°S 156.11667°E / -36.68333; 156.11667	7.13 ± 0.07 Ma	^[8]^[9]^[1]
Kimbla Seamount	35°06′37″S 156°28′32″E / 35.110323°S 156.475641°E / -35.110323; 156.475641		^[3] ^[5]
Taupo Bank	33°10′00″S 156°10′00″E / 33.166667°S 156.166667°E / -33.166667; 156.166667	10.3 to 11.4 Ma	^[8]^[9]
Barcoo Bank	32°35′00″S 156°15′00″E / 32.58333°S 156.25°E / -32.58333; 156.25		^[8]
Derwent Hunter Guyot	30°52′00″S 156°11′00″E / 30.86667°S 156.18333°E / -30.86667; 156.18333	16.83 ± 0.1 Ma	^[8]^[1]
Stradbroke Seamount	29°05′00″S 155°45′00″E / 29.08333°S 155.75°E / -29.08333; 155.75		^[8]
Britannia Guyots	28°17′00″S 155°38′00″E / 28.28333°S 155.63333°E / -28.28333; 155.63333	17.6 to 23 Ma	^[8]^[9]North, Central and South Seamounts^[3] Central Britannia 23.0± 0.2 Ma, South Britannia age 21.68 ± 0.17 Ma^[1]
Queensland Guyot	27°35′00″S 155°11′00″E / 27.58333°S 155.18333°E / -27.58333; 155.18333	20.9 Ma	^[8]^[9]
Brisbane Guyots	26°59′00″S 155°05′00″E / 26.98333°S 155.08333°E / -26.98333; 155.08333	27.28 ± 0.15	^[8]Age is North Brisbane^[1] North and South Brisbane Seamounts^[3]
Mooloolaba Seamount	26°20′S 154°52′E / 26.33°S 154.87°E / -26.33; 154.87		^[5]
Moreton Seamounts	26°01′00″S 154°58′00″E / 26.01667°S 154.96667°E / -26.01667; 154.96667		^[8]North and South Moreton^[3]
Recorder Guyots	25°10′00″S 154°55′00″E / 25.16667°S 154.91667°E / -25.16667; 154.91667	26.4 to 30.0 Ma	North Recorder is younger^[1]Named from the British cable ship "Recorder"^[8] North and South Recorder Seamounts^[3]
Fraser Seamounts	24°26′00″S 155°17′00″E / 24.43333°S 155.28333°E / -24.43333; 155.28333	26.4 ± 0.2 Ma	^[8]Age South Frazer^[1] North and South Fraser^[3] Not to be confused with Fraser Island.
Cato Reef	23°13′S 155°34′E / 23.217°S 155.567°E / -23.217; 155.567	31.25 ± 0.16 Ma	^[1]^[8]Coral reef
Wreck Reefs	22°11′S 155°20′E / 22.183°S 155.333°E / -22.183; 155.333	31.7 to 32.9 Ma	^[8]^[1]^[10]Coral reef
Kenn Reef	21°12′S 155°43′E / 21.200°S 155.717°E / -21.200; 155.717		^[8]Coral reef
Mellish Reef	17°25′00″S 155°50′00″E / 17.41667°S 155.83333°E / -17.41667; 155.83333		^[8]Most northern coral reef of seamount chain^[10]

There is an unnamed seamount between Stradbroke Seamount and Derwent Hunter Guyot and 7 unnamed seamounts in the Coral Sea near Mellish Reef that have been assigned to the chain.^[1] Some of the later have age ranges between 37.0 to 50.5 Ma.^[1] Also assigned to the chain are two sampled areas of the southern Louisiade Plateau with ages of 56.40 ± 0.60 and 55.00 ± 0.40 Ma respectively that are believed to represent the most northern aspects of the chain.^[1]

Geology

The volcanics are saturated tholeiitic to transitional alkali-olivine basalt.^[1]

Age note

^ Only limited sampling and age studies have been done. Ages are available on some of the eleven dredging samples analysed by Eggins et al.(1991) by K/Ar absolute methodology and some of 32 later samples by the ⁴⁰Ar³⁹Ar relative methodology. While different specimens from Gascoyne Seamount matched on age, different specimens from Britannia Guyots mismatch by 5 million years odd by the two different methodologies. However adjacant volcanoes can have long eruptive histories. ⁴⁰Ar³⁹Ar age subsample data as presented in conference proceedings in 2015 is sourced from the appendix published by Douglas(2022).

References

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Douglas (Smethurst), Amelia (2022). The East Australian, Tasmantid and Lord Howe volcanoes : exploring the origins of three, contemporaneous, parallel chains of volcanism. (PhD thesis and appendix) (Thesis). doi:10.7488/era/2805. Retrieved 2023-03-30.
^ "Marine Gazetteer Placedetails". Retrieved 2017-02-20.
^ ^a ^b ^c ^d ^e ^f ^g ^h "Tasmantid Seamounts of Australia". Archived from the original on 2017-02-18. Retrieved 2017-02-20.
^ Richards, F. D.; Kalnins, L. M.; Watts, A. B.; Cohen, B. E.; Beaman, R. J. (October 2018). "The Morphology of the Tasmantid Seamounts: Interactions Between Tectonic Inheritance and Magmatic Evolution" (PDF). Geochemistry, Geophysics, Geosystems. 19 (10): 3870–3891. Bibcode:2018GGG....19.3870R. doi:10.1029/2018GC007821. hdl:20.500.11820/10f58983-8003-4af7-8fdd-def2ed23b0be. S2CID 133360937.
^ ^a ^b ^c Richards, F. D.; Kalnins, L. M.; Watts, A. B.; Cohen, B. E.; Beaman, R. J. (2018). "The Morphology of the Tasmantid Seamounts: Interactions Between Tectonic Inheritance and Magmatic Evolution". Geochemistry, Geophysics, Geosystems. 19 (10): 3870–3891. Bibcode:2018GGG....19.3870R. doi:10.1029/2018GC007821. hdl:10044/1/74307.
^ Van Der Linden, Willem J. M. (1970). "Morphology of the Tasman sea floor". New Zealand Journal of Geology and Geophysics. 13: 282–291. Bibcode:1970NZJGG..13..282V. doi:10.1080/00288306.1970.10428218.
^ W. J. Morgan and J. P. Morgan. Plate velocities in hotspot reference frame: electronic supplement.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o "GEBCO Undersea Feature Names Gazetteer".
^ ^a ^b ^c ^d Eggins, S. M.; Green, David Headley; Falloon, Trevor J. (1991). "The Tasmantid seamounts: Shallow melting and contamination of an EM1 mantle plume". Earth and Planetary Science Letters. 107 (3–4): 448–462. Bibcode:1991E&PSL.107..448E. doi:10.1016/0012-821X(91)90092-V.
^ ^a ^b "Coral Sea Marine Park - Management Plan 2018" (PDF). Retrieved 2023-03-29.

[8] Only limited sampling and age studies have been done. Ages are available on some of the eleven dredging samples analysed by Eggins et al.(1991) by K/Ar absolute methodology and some of 32 later samples by the ⁴⁰Ar³⁹Ar relative methodology. While different specimens from Gascoyne Seamount matched on age, different specimens from Britannia Guyots mismatch by 5 million years odd by the two different methodologies. However adjacant volcanoes can have long eruptive histories. ⁴⁰Ar³⁹Ar age subsample data as presented in conference proceedings in 2015 is sourced from the appendix published by Douglas(2022).

[Douglas2022-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Douglas (Smethurst), Amelia (2022). The East Australian, Tasmantid and Lord Howe volcanoes : exploring the origins of three, contemporaneous, parallel chains of volcanism. (PhD thesis and appendix) (Thesis). doi:10.7488/era/2805. Retrieved 2023-03-30.

[2] "Marine Gazetteer Placedetails". Retrieved 2017-02-20.

[GS-3] ^ ^a ^b ^c ^d ^e ^f ^g ^h "Tasmantid Seamounts of Australia". Archived from the original on 2017-02-18. Retrieved 2017-02-20.

[4] Richards, F. D.; Kalnins, L. M.; Watts, A. B.; Cohen, B. E.; Beaman, R. J. (October 2018). "The Morphology of the Tasmantid Seamounts: Interactions Between Tectonic Inheritance and Magmatic Evolution" (PDF). Geochemistry, Geophysics, Geosystems. 19 (10): 3870–3891. Bibcode:2018GGG....19.3870R. doi:10.1029/2018GC007821. hdl:20.500.11820/10f58983-8003-4af7-8fdd-def2ed23b0be. S2CID 133360937.

[Richards2018-5] Richards, F. D.; Kalnins, L. M.; Watts, A. B.; Cohen, B. E.; Beaman, R. J. (2018). "The Morphology of the Tasmantid Seamounts: Interactions Between Tectonic Inheritance and Magmatic Evolution". Geochemistry, Geophysics, Geosystems. 19 (10): 3870–3891. Bibcode:2018GGG....19.3870R. doi:10.1029/2018GC007821. hdl:10044/1/74307.

[Linden-6] Van Der Linden, Willem J. M. (1970). "Morphology of the Tasman sea floor". New Zealand Journal of Geology and Geophysics. 13: 282–291. Bibcode:1970NZJGG..13..282V. doi:10.1080/00288306.1970.10428218.

[7] W. J. Morgan and J. P. Morgan. Plate velocities in hotspot reference frame: electronic supplement.

[GEBCO-9] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o "GEBCO Undersea Feature Names Gazetteer".

[Eggins1991-10] Eggins, S. M.; Green, David Headley; Falloon, Trevor J. (1991). "The Tasmantid seamounts: Shallow melting and contamination of an EM1 mantle plume". Earth and Planetary Science Letters. 107 (3–4): 448–462. Bibcode:1991E&PSL.107..448E. doi:10.1016/0012-821X(91)90092-V.

[MP2018-11] "Coral Sea Marine Park - Management Plan 2018" (PDF). Retrieved 2023-03-29.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[Age note 1]

[8]

[9]

[10]