Mawson Formation

Mawson Formation
Stratigraphic range: Pliensbachian-Toarcian
~185–181 Ma

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Mawson Formation; Stratigraphic range: Pliensbachian-Toarcian; ~185–181 Ma PreЄ Є O S D C P T J K Pg N ↓
Type	Geological formation
Unit of	Ferrar Large Igneous Province
Sub-units	Carapace Sandstone Member
Lithology
Primary	Volcaniclastic mudstone
Other	Volcaniclastic gray & blue mudstone
Location
Coordinates	76.9°S 159.4°E
Approximate paleocoordinates	60.1°S 46.5°E
Region	Storm Peak
Country	Antarctica
Type section
Named for	Mawson Peak
	Mawson Formation (Antarctica)

The Mawson Formation is a geological formation in Antarctica, dating to roughly between 185-181 million years ago and covering the Pliensbachian-Toarcian stages of the Jurassic Period in the Mesozoic Era.[1][2] Vertebrate remains are known from the formation.[3]

Description

The formation was deposited in an ancient lake, with hydrothermal influences, thanks to the relationships with the Kirckpatrick Basalt.[4] Sedimentary interbeds deposited over lava flows of the Kirkpatrick Basalt during the Early Jurassic splitting of Gondwana represent unusual freshwater paleoenvironments, with hotter conditions that allow to the diversification of the microbes (Archea).[5][6]

According to Barrett, "...the basalt-dominated Mawson Formation and tholeiitic flows (Kirkpatrick Basalt)...are included in the Ferrar Group." The Mawson Formation consists of diamictites, explosion breccias, and lahar flows, evidence of magma entering water-saturated sediments. The Kirkpatrick Basalts (180 Ma) have interbedded lake sediments with plant and fish fossils.[7][8]

Fossil content

There abundant Fossils of microorganisms, as members of the group Archea and other who take advantage of the hydrothermal activity[5][6][9]

Spinicaudata

Genus	Species	Location	Stratigraphic position	Material	Notes
Carapacestheria	C. disgregaris	Carapace Nunatak		Carapaces	Related to the modern Cyzicus mexicanus[5][6]

Fish

Genus	Species	Location	Stratigraphic position	Material	Notes
Oreochima	O. ellioti	Carapace Nunatak		Various specimens	An archaeomaenid pachycormiform fish[10]

Insects

Fossil insect wings not described to the genus level are known from the formation.[11]

Genus	Species	Location	Material	Notes
Caraphlebia	C. antartica	Carapace Nunatak	wings	A dragonfly[12]
Uralonympha	U. sehopfi	Carapace Nunatak	A nearly complete specimen	A stonefly nymph[12]
Coleoptera	Indeterminate	Carapace Nunatak	Wing	Unnamed and non compared[13]

Ostracoda

Genus	Species	Location	Stratigraphic position	Material	Notes
Darwinula	Darwinula sp.	Carapace Nunatak		Valves	Common Early Jurassic ostracod[5][6]

Fungi

Genus	Species	Location	Stratigraphic position	Material	Notes
Wood-decay fungus	Indeterminate	Carapace Nunatak		Wood affected by pathogenic fungi	Infestation traces and fungal parasitic interaction on several plants[14]

Plants

One of the best preserved fossil flora of the Antarctic.[15][16] Spores are Know[17]

Genus	Species	Location	Material	Notes
Nothodacrium	N. warreni	Carapace Nunatak	Specimens	A member of the family Podocarpaceae[18]
Masculostrobus	M. warrenii	Carapace Nunatak	Specimens	A member of the family Podocarpaceae[18]
Brachyphyllum	Indeterminate	Carapace Nunatak	Specimens	A member of the Coniferales[18]
Classostrobus	C. elliotii	Carapace Nunatak	Specimens	A member of the Cheirolepidiaceae[19]
Chimaerostrobus	C. minutus	Carapace Nunatak	Specimens	An indeterminate conifer pollen cone[20]
Polyphacelus	P. stormensis	Carapace Nunatak	Specimens	Fern petioles[21]
Zamites	Indeterminate	Carapace Nunatak	Specimens	Spermatophyta incertae sedis[5][6]

References

Ballance et al., 1971
Burgess et al., 2015
Elliot, 2013
Bradshaw, 1987
Babcock et al., 2006
Stigall et al., 2008
Barrett, P.J. (1991). Tingey, Robert (ed.). The Devonian to Jurassic Beacon Supergroup of the Transantarctic Mountains and correlatives in other parts of Antarctica, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 122–123, 129, 145. ISBN 0198544677.
Tingey, R.J. (1991). Tingey, Robert (ed.). Mesozoic tholeiitic igneous rocks in Antarctica: the Ferrar (Super) Group and related rocks, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 159–160. ISBN 0198544677.
Norris, 1965
Schaeffer, 1972
Bomfleur et al., 2011
Carpenter, 1969
Tasch, 1973
Harper et al., 2012
Bomfleur et al., 2007
Gair et al., 1965
Ribecai, C. (2007). Early jurassic miospores from ferrar group of carapace nunatak, south victoria Land, Antarctica. Review of Palaeobotany and Palynology, 144(1-2), 3-12.
Townrow, 1967
Hieger et al., 2015
Atkinson et al., 2018
Yao et al., 1991

Bibliography

Atkinson, B. A., Serbet, R., Hieger, T. J., & Taylor, E. L. (2018). Additional evidence for the Mesozoic diversification of conifers: Pollen cone of Chimaerostrobus minutus gen. et sp. nov.(Coniferales), from the Lower Jurassic of Antarctica. Review of Palaeobotany and Palynology, 257, 77-84
S.D. Burgess, S.A. Bowring, T.H. Fleming, D.H. Elliot High-precision geochronology links the Ferrar large igneous province with early Jurassic ocean anoxia and biotic crisis Earth Planet. Sci. Lett., 415 (2015), pp. 90-99
Hieger, T. J., Serbet, R., Harper, C. J., Taylor, T. N., Taylor, E. L., & Gulbranson, E. L. (2015). Cheirolepidiaceous diversity: An anatomically preserved pollen cone from the Lower Jurassic of southern Victoria Land, Antarctica. Review of palaeobotany and palynology, 220, 78-87
D.H. Elliot The geological and tectonic evolution of the Transantarctic Mountains: a review Geol. Soc. Lond. Spec. Publ., 381 (2013), pp. 7-35
Harper, C. J., Bomfleur, B., Decombeix, A. L., Taylor, E. L., Taylor, T. N., & Krings, M. (2012). Tylosis formation and fungal interactions in an Early Jurassic conifer from northern Victoria Land, Antarctica. Review of Palaeobotany and Palynology, 175, 25-31
Bomfleur, B., Schneider, J. W., Schöner, R., Viereck-Götte, L., & Kerp, H. (2011). Fossil sites in the continental Victoria and Ferrar groups (Triassic-Jurassic) of north Victoria Land, Antarctica. Polarforschung, 80(2), 88-99
Stigall, A. L., Babcock, L. E., Briggs, D. E. G., & Leslie, S. A. (2008). Taphonomy of Lacustrine Interbeds in the Kirkpatrick Basalt (Jurassic), Antarctica. PALAIOS, 23(6), 344–355. doi:10.2110/palo.2007.p07-029r
Bomfleur, B., Schneider, J., Schöner, R., Viereck-Götte, L., Kerp, H., Cooper, A. K., & Raymond, C. R. (2007, August). Exceptionally well-preserved Triassic and Early Jurassic floras from North Victoria Land, Antarctica. In Antarctica: a keystone in a changing world. Proceedings of the 10th International Symposium on Antarctic Earth Sciences, US Geol. Surv., OF-2007-1047, extend. abstr (Vol. 34)
Babcock LE, Leslie SA, Elliot DH, Stigall AL, et al. 2006. The “Preservation Paradox”: microbes as a key to exceptional fossil preservation in the Kirkpatrick Basalt (Jurassic), Antarctica. The Sedimentary Record 4: 4–8
Yao, X., Taylor, T. N., & Taylor, E. L. (1991). Silicified dipterid ferns from the Jurassic of Antarctica. Review of Palaeobotany and Palynology, 67(3-4), 353-362
P. Tasch. 1973. Jurassic beetle from southern Victoria Land, Antarctica. 47:590-592
M.A. Bradshaw Additional field interpretation of the Jurassic sequence at Carapace Nunatak and Coombs Hills, south Victoria Land Antarctica N. Z. J. Geol. Geophys., 30 (1987), pp. 37-49
Schaeffer, Bobb. "A Jurassic Fish from Antarctica". American Museum of Natural History, 1972
P.F. Ballance, W.A. Watters The Mawson Diamictite and the Carapace Sandstone, formations of the Ferrar Group at Allan Hills and Carapace Nunatak, Victoria Land, Antarctica N. Z. J. Geol. Geophys., 14 (1971), pp. 512-527
F. M. Carpenter. 1969. Fossil insects from Antarctica 76: 418–425
J. A. Townrow. 1967. Fossil plants from Allan and Carapace Nunataks, and from the Upper Mill and Shackleton Glaciers, Antarctica. 10(2):456-473 ISBN 0-520-24209-2
Gair, H. S., Norris, G., & Ricker, J. (1965). Early mesozoic microfloras from Antarctica. New Zealand Journal of Geology and Geophysics, 8(2), 231-235
Norris, G. (1965). Triassic and Jurassic miospores and acritarchs from the Beacon and Ferrar groups, Victoria Land, Antarctica. New Zealand journal of geology and geophysics, 8(2), 236-277

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[Ballance1971-1] Ballance et al., 1971

[Burgess2015-2] Burgess et al., 2015

[Elliot2013-3] Elliot, 2013

[Bradshaw1987-4] Bradshaw, 1987

[Hydrotermal-5] Babcock et al., 2006

[HydroDepth-6] Stigall et al., 2008

[7] Barrett, P.J. (1991). Tingey, Robert (ed.). The Devonian to Jurassic Beacon Supergroup of the Transantarctic Mountains and correlatives in other parts of Antarctica, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 122–123, 129, 145. ISBN 0198544677.

[8] Tingey, R.J. (1991). Tingey, Robert (ed.). Mesozoic tholeiitic igneous rocks in Antarctica: the Ferrar (Super) Group and related rocks, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 159–160. ISBN 0198544677.

[Norris1965-9] Norris, 1965

[schaeffer-10] Schaeffer, 1972

[Bomfleur2011-11] Bomfleur et al., 2011

[InsectAnta-12] Carpenter, 1969

[Tasch1973-13] Tasch, 1973

[Harper2012-14] Harper et al., 2012

[Bomfleur2007-15] Bomfleur et al., 2007

[Gair1965-16] Gair et al., 1965

[17] Ribecai, C. (2007). Early jurassic miospores from ferrar group of carapace nunatak, south victoria Land, Antarctica. Review of Palaeobotany and Palynology, 144(1-2), 3-12.

[NunatakFlora-18] Townrow, 1967

[Hieger2015-19] Hieger et al., 2015

[Atkinson2018-20] Atkinson et al., 2018

[Yao1991-21] Yao et al., 1991