Lopez de Bertodano Formation explained

The Lopez de Bertodano Formation is a geological formation in the James Ross archipelago of the Antarctic Peninsula. The strata date from the end of the Late Cretaceous (upper-lower Maastrichtian stage^[1]) to the Danian stage of the lower Paleocene, from about 70 to 65.5 million years ago, straddling the Cretaceous-Paleogene boundary.^[2]

Cretaceous-Paleogene boundary

The Cretaceous–Paleogene boundary (K–Pg) crops out on Seymour Island in the upper levels of the Lopez de Bertodano Formation.^[3] A small (but significant) iridium anomaly occurs at the boundary on Seymour Island, as at lower latitudes, thought to be fallout from the Chicxulub impactor in the Gulf of Mexico.^[4] Directly above the boundary a layer of disarticulated fish fossils occurs, victims of a disturbed ecosystem immediately following the impact event.^[3] Multiple reports have described evidence for climatic changes in Antarctica prior to the mass extinction,^[5] but the extent to which these affected marine biodiversity is debated. Based on extensive marine fossil collections from Seymour Island, recent work has confirmed that a single and severe mass extinction event occurred at this time in Antarctica just as at lower latitudes.^[6]

Climate

During the Maastrichtian, Seymour Island was located within the Antarctic polar circle at around ~65°S latitude.^[7] Chemical studies on oxygen-18 isotopes found in shells and benthic foraminifera have calculated intermediate-depth and deep-sea ocean temperatures at a mean average of 6C with fluctuations of NaNC throughout the Maastrichtian; one of the same studies has also suggested that sea surface temperatures may have been colder, possibly dropping below freezing and forming sea ice at times.^{[8] [9]} Alternatively, a study using data acquired from ancient bacterial membrane lipids yielded a slightly warmer temperature of 12± around 66 Ma. Nevertheless, these estimated climates characterize primarily cool temperate environments with possible subpolar and warm episodes.

Fossil content

The Lopez de Bertodano Formation has provided many fossils of flora, dinosaurs and birds.^{[10] [11] [12]} Also the first fossil egg from Antarctica, Antarcticoolithus, was found in the formation.^[13]

Dinosaur remains are among the fossils that have been recovered from the formation^[14] and include at least two and probably as much as six lineages of indisputably modern birds: one related to waterfowl, a primitive shorebird or related form, 1 to 2 species of possible loons, a large and possibly flightless bird belonging to a lineage extinct today as well as a partial skull that might belong to either of the smaller species or represent yet another one. The formation also contains a rich fossil invertebrate fauna, including bivalves, gastropods,^[15] and cephalopods (ammonites and nautiloids).^[16]

The fish assemblage of the López de Bertodano Formation was dominated by Enchodus and ichthyodectiformes, accounting for 21.95% and 45.6% of local fish diversity respectively. Of the remaining percentages, sand sharks made up 10.5%, the cow shark Notidanodon 6.8%, chimaeras 3.9%, saw sharks 2.7%, various other teleost fish 2.4%, and the remaining 6% were shared between other sharks like Paraorthacodus, frilled sharks, Protosqualus, and Cretalamna.^[17]

Vertebrates

Dinosaurs

Ornithischians

Ornithischians recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Elasmaria	Indeterminate	Sandwich Bluff Member	CM 93790, right prox. Metatarsal II; Rt. Prox. Metatarsal IV; left. Prox. Fibula
	Indeterminate	Sandwich Bluff Member	MLP 98-I-10-70, pedal ungual	Also considered Ornithischia Indet
Hadrosauridae	Indeterminate	Sandwich Bluff, Vega Island	Isolated cheek tooth, MLP 98-I-10-1.[18]	The 1st Hadrosaur remains of Antarctica
	Indeterminate	Seymour Island	MLP 96-1-6-2, Distal end of metatarsal[19]
Parankylosauria	Indeterminate	Sandwich Bluff Member	Right pedal ungual IV, CM93791, and osteoderm

Theropods

Theropods recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Charadriiform[20]	Indeterminate	Cape Lamb	Partial skeleton		align=center
Conflicto[21]	C. antarcticus	Seymour Island	MLP 07-III-1-1, a three-dimensionally preserved, partly complete skeleton	An anseriform	align=center
Gaviiformes	Indeterminate	VEG IAA 2/98, Isla Vega	MLP 98-I-10-47, MLP 98-I-10-50, MLP 98-I-10-52, MLP 98-I-10-76: tarsometatarsus;MLP 98-I-10-59: diaphysis of left tibiotarsus; MLP 98-I-10-51: proximal end of left femur; MLP 98-I-10-48: distal end of left tibiotarsus; MLP 98-I-10-60 and MLP 98-I-10-61: distal end and partial corpus of pedal phalanges.[22]	Very similar to that of Gavia immer
Cf.Gaviiformes	Indeterminate	VEG IAA 2/98, Isla Vega	MLP 98-I-10-54, MLP 98-I-10-27: tarsometatarsus; MLP 98-I-10-53: distal end of left tibiotarsus; MLP 98-I-10-49 distal end of right tibiotarsus	Very similar to that of Gavia immer
Megaraptora[23]	Indeterminate	Sandwich Bluff, Cape Lamb	SDSM 159537, maxilla	Has oblong and narrow tooth alveoli, seen in Megaraptorans
	Indeterminate	Sandwich Bluff, Cape Lamb	SDSM 9918, left maxillary
Neornithes	Indeterminate	Sandwich Bluff, Cape Lamb	Partial skull	Relationships undetermined, cranium some 5– long	<	--Image-->
Polarornis	P. gregorii	Sandwich Bluff, Seymour Island	Partial skull and skeleton, holotype	A Vegaviid of uncertain relative. Possibly a more primitive form with strong flight ability and lighter bones	<	--Image-->
	P.? sp.	Sandwich Bluff, Cape Lamb	Partial skeleton including wing and hindlimbs
	Cf. P. sp.[24]	Sandwich Bluff, Cape Lamb	MN 7833-V, distal portion of a tarsometatarsus
	P. sp.	IAA 10/13, Marambio Island	MLP 96-I-6-2, incomplete skeleton
Vegavis[25]	V. iaai[26]	Lower Sandwich Bluff	Partial skeleton, holotype	An anseriform
	V. sp.	Plesiosaur Papoose, Cape Lamb	Isolated femur	Initially identified as a fossil of a member of Cariamae,[27] but subsequently reinterpreted as a fossil of an unnamed large-bodied member of the genus Vegavis.[28]
	Cf. V. sp.	Sandwich Bluff, Cape Lamb	MN 7832-V, synsacrum
Vegaviidae	Indeterminate	Seymour Island
Theropoda	Indeterminate	Sandwich Bluff, Cape Lamb	Fragments		<	--Image-->

Fish

Bony Fishes

Bony Fish recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Antarctiberyx	A. seymouri	Seymour Island	TTU P9210. A poorly preserved anterior skull section with partial dentary attached	A member of Beryciformes
Enchodus	E. sp.	Seymour Island	One palatine tooth, MLP 12-XI-29-43; five teeth, MLP 12-XI-29-25 to 28; one tooth, MLP 12-XI-29-53; thirty-five teeth, MLP 12-XI-29-55; fifty-three teeth, MLP 12-XI-29-56	A member of Enchodontidae
Ichthyodectiformes	Indeterminate	Seymour Island	One tooth, MLP 12-XI-29-21; ninety-four teeth, MLP 12-XI-29-38; thirteen teeth, MLP 12-XI-29-51; seventy-eight teeth, MLP 12-XI-29-52; one tooth, MLP 12-XI-29-54.
Pachycormidae	Indeterminate	Seymour Island	Isolated and fragmentary caudal fin-rays, MLP 13XI-29-57.

Chondrichthyes

Chondrichthyes recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Callorhinchus	C. sp. [29]	Seymour Island	Teeth	A Chimaera
Carcharias	cf. C. sp.	Seymour Island	Two left upper lateral teeth preserving one root branch and lateral denticle, MLP 13-XI-29-35, MLP 13-XI-29-37; one right upper lateral tooth preserving one root branch and lateral denticle, MLP 13-XI-29-36; several fragmentary teeth, MLP 13-XI29-4, MLP13-XI-29-44 to46, MLP13-XI-29-16, MLP 13-XI-29-13 to 14.	A Odontaspididae Shark
"Cretalamna"	“C. appendiculata”	Seymour Island	One lateral lower tooth which lacks crown tip, distal lateral cusplet, and distal root branch, MLP 13XI-29-47; one anterior upper tooth lacking the distal root branch, distal lateral cusplet, and crown tip, MLP 13-XI-29-2	A Otodontidae Shark
Lamniformes	Indeterminate	Seymour Island	Four crowns, MLP 13-XI-29-30.
Notidanodon[30]	N. sp.	Seymour Island	Teeth	A Hexanchidae Shark
	?N. sp.	Seymour Island	Teeth	A Hexanchidae Shark
Paraorthacodus	P. sp.	Seymour Island	Four fragmentary teeth, MLP 13-XI-29-8, MLP 13XI-29-18, MLP 13-XI-29-31, and MLP 13-XI-29-32.	A Paraorthacodontidae Shark
Propristiophorus	aff. P. sp.	Seymour Island	Three fragmentary rostral spines, MLP 13-XI-2939, MLP 13-XI-29-40, and MLP 13-XI-29-41.	A Pristiophoridae Shark
Protosqualus	P. sp.	Seymour Island	Two lateral, almost complete teeth, MLP 13-XI29-9, MLP 13-XI-29-33; one latero-posterior, complete tooth, MLP 13-XI-29-10	A Squalidae Shark
Sphenodus	S. sp.	Seymour Island	Teeth	A Orthacodontidae Shark
	S. sp.	Seymour Island	Two fragmentary teeth, MLP 13-XI-29-20, MLP 13-XI-29-11	A Orthacodontidae Shark
Xampylodon	X. diastemacron	Filo Negro Section, Klb 9	MN 7825-V (holotype),incomplete posterolateral tooth of the lower jaw, with only its anterior portion still preserved	A Hexanchidae Shark

Reptiles

Elasmosaurs

Elasmosaurs recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Aristonectes[31]	A. parvidens	Seymour Island	Partial postcranial skeleton (MLP 89-III-3-1)	A giant elasmosaur
	A. sp[32]	Sandwich Bluff, Cape Lamb	MLP 11-I-1-15, caudal vertebra
	A. sp[33]	Seymour Island	TTU.P.9219 (holotype skull and cervical vertebrae)
Elasmosauridae[34]	Indeterminate	SW corner, Seymour Island	MLP 82-I-28-1, an incomplete skeleton comprising 15 cervical, three pectorals, 21 dorsal, three sacral, and 22 caudal vertebrae, an almost complete left hind limb, some dorsal ribs, incomplete coracoids and fragments of the scapulae
	Indeterminate[35]	SW corner, Seymour Island	ZPAL R.8, pectoral, dorsal, and caudal vertebral centra, femur, tibia, and fragments of the humerus, scapula, and ischia
	Indeterminate[36]	Seymour Island	TTU P 9240; dorsal, sacral and caudal vertebrae, limbs and paddle fragments
	Indeterminate[37]	Seymour Island	SGO.PV.6523, postcranial remains of a single adult individual, including remains of 9 mid-to-posterior cervical vertebrae (6 of them preserving parts of their centra), the right scapula, several fragments of ribs and gastralia, and one phalanx.
	Indeterminate	Seymour Island	TTU P 9238; part of cervicals, rib fragments, isolated paddles, and gastroliths
	Indeterminate	Seymour Island	TTU P 9239; isolated vertebrae, limb bones, paddle elements, and ribs
	Indeterminate	Seymour Island	IAA Pv 443, an incomplete skeleton comprising the mandibular symphysis and part of right and left mandibular rami, cervical and dorsal centra, an incomplete humerus, radius, ulna, ulnare, intermedium, radiale and distal carpal 1, 2 þ 3 and 4, other fragmentary postcranial bones and associated gastroliths[38]
Euelasmosaurida	Indeterminate	Sandwich Bluff, Cape Lamb	CM 93780; left and right pubes and ischia: MLP 15-I-7-8, left ilium and indeterminate fragments
Marambionectes[39]	M. molinai	Seymour Island	Partially articulated incomplete skeleton including cranial material, many vertebrae, ribs, an ilium, limb bones (right humerus and ulna, a femur), and gastroliths (IAA-Pv 752)	A weddellonectian elasmosaur
Morturneria[40]	M. seymourensis	Seymour Island	several cervical vertebrae, a right humerus, a nearly complete left forelimb missing the proximal end of the humerus, and a left femur (TTU P9217)	An elasmosaur
Weddellonectia[41]	Indeterminate	Sandwich Bluff, Cape Lamb	MLP 15-I-7-48, right humerus, ulna, ulnare, intermedium, distal carpal I, distal carpal II+III, pisiform, phalanges and one rib
	Indeterminate	Seymour Island	MLP 14-I-20-16, 12 cervical vertebrae, three pectoral vertebrae, 11 dorsal vertebrae, one sacral vertebra, 11 caudal vertebrae, right femur, tibia, fibula and mesopodial elements, fragments of pectoral and pelvic girdles and gastroliths

Mosasaurs

Mosasaurs recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Antarcticoolithus	A. bradyi	Seymour Island.	A fossilized eggshell.	A mosasaur.
Kaikaifilu[42]	K. hervei	Seymour Island	Several incomplete parts of a skull, jawbone, 30 isolated teeth, and a partial left humerus (SGO.PV.6509)	A tylosaurine mosasaur
Liodon[43]	L sp.	Vega Island Sandwich Bluff	MLP 98-I-10-1 is a fragment of a maxilla; MLP 98-I-10-12/15/23 are a teeth	A Mosasauridae mosasaur
	L sp.	Seymour Island	DJ.952.266, a tooth[44]
Mosasauridae	Indeterminate	Bahía Fósiles	MLP 80-I-1-1, a cervical vertebra; MLP 80-I-1-2, a mandibular fragment; MLP 80-I-1-3, a cranial fragment; MLP 82-I-28-2, a vertebra; MLP 82-I-3-1/4, four caudal centers[45]
	Indeterminate	Seymour Island	DJ.957.133, 18 partially articulated caudal vertebrae, four of which possess transverse process, and DJ.957.505 a caudal vertebra
	Indeterminate	Filo Negro Section	MLP 82-I-26-1, a pygal vertebra[46]
	Indeterminate	Seymour Island	IAA-Pv 819, an almost complete right humerus.[47]
	Indeterminate	Seymour Island	MLP 82-I-5-1, fragments of vertebrae and ribs[48]
Mosasaurus	aff. M. hoffmanni	Seymour Island	DJ.1053.10, a large, fragmentary skull	A Mosasauridae mosasaur
	M. sp.	Seymour Island	DJ.1020.2-A, DJ.1020.2-B and DJ.1053.14- A, teeth; MLP 83-X-12-2, a caudal vertebra; MLP 92-XII-30, skull fragments including one tooth and a relatively short, and medially constricted suprastapedial process of the quadrate
	M. sp.	Seymour Island	MLP 15-I-24-41, a partial skull including, partial frontal, right postorbital, parietal, right quadrate, right posterior end of basisphenoid, right coronoid, right angular, splenial and right surangular, a broken marginal tooth and several pterygoid teeth have been associated to this specimen.[49]
Plioplatecarpus	P. sp.	Seymour Island	DJ.1020.2-C, DJ.1020.2-H and DJ.952.266, teeth	A Mosasauridae mosasaur
	P. sp.	Quebrada de la Foca muerta	MLP 79-I-1/20, several vertebrae
Tylosaurinae	Indeterminate	Bahía Fósiles	MLP 87-II-7-1, a vertebra; MLP 86-X-28-7, an anterior caudal vertebra
	Indeterminate	Seymour Island	DJ.956.41, two or three caudal vertebrae
	Indeterminate	Filo Negro Section	lam. II, 7-8, a vertebra

Other fossils

Ammonites^[16]

Ammonites recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Diplomoceras	D. cylindraceum			A paperclip-shaped Ammonite.
Gaudryceras	G. seymouriense
Grossouvrites	G. joharae
Kitchinites	K. laurae
Maorites	M. densicostatus
Pachydiscus	P. (Pachydiscus) ultimus
Pseudophyllites	P. cf. loryi
Zelandites	Z. varuna

Other invertebrates

Invertebrates recorded from Lopez de Bertodano Formation
Genus	Species	Member/Location	Material	Description	Image
Eutrephoceras	E. dorbignyanum
Cyathocidaris	C. nordenskjoldi
	C. patera
Rotularia	R. fallax

Flora

• Antarctoxylon juglandoides
• Eucryphiaceoxylon eucryphioides
• Myrceugenelloxylon antarcticus

See also

• Lists of dinosaur-bearing stratigraphic units
• List of fossiliferous stratigraphic units in Antarctica
• South Polar region of the Cretaceous

References

Bibliography

Further reading

• Poole . I. . Mennega . A. M. W. . Cantrill . D. J. . 2003 . Valdivian ecosystems in the Late Cretaceous and Early Tertiary of Antarctica: further evidence from myrtaceous and eucryphiaceous fossil wood . Review of Palaeobotany and Palynology . 124 . 1–2. 9–27 . 10.1016/s0034-6667(02)00244-0 . 2003RPaPa.124....9P . 1874/31608 . 129281012 . free .

Notes and References

1. Olivero . E.B. . Ponce . J.J. . Marsicano . C.A. . Martinioni . D.R. . 2007 . Depositional settings of the basal Lopez de Bertodano Formation, Maastrichtian, Antarctica . Revista de la Asociación Geológica Argentina . 62 . 4. 521–529 .
2. Bowman, V. . The Paleocene of Antarctica: Dinoflagellate cyst biostratigraphy, chronostratigraphy and implications for the palaeo-Pacific margin of Gondwana . 2016 . Gondwana Research . 38 . 10.1016/j.gr.2015.10.018 . Ineson, J. . Riding, J. . Crame, J. . Francis, J. . Condon, D. . Whittle, R. . Ferraccioli, F. . 132–148. 2016GondR..38..132B . free .
3. Zinsmeister, W.J. . Discovery of fish mortality horizon at the K-T Boundary on Seymour Island: Re-evaluation of events at the end of the Cretaceous . 1998 . Journal of Paleontology . 72 . 3 . 556–571 . 10.1017/S0022336000024331 . 1998JPal...72..556Z . 132206016 .
4. Elliot D.H. . Iridium and dinocysts at the Cretaceous-Tertiary boundary on Seymour Island, Antarctica: Implications for the K-T event . 1994 . Geology . 22 . 8 . 10.1130/0091-7613(1994)022<0675:IADATC>2.3.CO;2 . Askin RA . Kyte FT . Zinsmeister WJ . 675. 1994Geo....22..675E .
5. Petersen, S.V. . End-Cretaceous extinction in Antarctica linked to both Deccan volcanism and meteorite impact via climate change . 2016 . Nature Communications . 7 . 10.1038/ncomms12079. 27377632 . 4935969 . Dutton A . Lohmann KC . 12079. 2016NatCo...712079P .
6. Witts J.D. . Macrofossil evidence for a rapid and severe Cretaceous-Paleogene mass extinction in Antarctica . 2016 . Nature Communications . 7 . 10.1038/ncomms11738 . Whittle RJ . Wignall PB . Crame JA . Francis JE . Newton RJ . Bowman VC . 27226414 . 4894978 . 11738. 2016NatCo...711738W .
7. David B. Kemp. Stuart A. Robinson. J. Alistair Crame. Jane E. Francis. Jon Ineson. Rowan J. Whittle. Vanessa Bowman. Charlotte O'Brien. A cool temperate climate on the Antarctic Peninsula through the latest Cretaceous to early Paleogene. 2014. Geology. 42. 7. 583–586. 10.1130/g35512.1. 2014Geo....42..583K. free. 2164/4380. free.
8. Vanessa C. Bowman. Jane E. Francis. James B. Riding. Late Cretaceous winter sea ice in Antarctica?. Geology. 2013. 41. 12. 1227–1230. 10.1130/G34891.1. 2013Geo....41.1227B. 128885087 .
9. Thomas S. Tobin. Peter D. Ward. Eric J. Steig. Eduardo B. Olivero. Isaac A. Hilburn. Ross N. Mitchell. Matthew R. Diamond. Timothy D. Raub. Joseph L. Kirschvink. Extinction patterns, δ18 O trends, and magnetostratigraphy from a southern high-latitude Cretaceous–Paleogene section: Links with Deccan volcanism. Palaeogeography, Palaeoclimatology, Palaeoecology. 2012. 350–352. 2012. 180–188. 10.1016/j.palaeo.2012.06.029. 2012PPP...350..180T.
10. https://paleobiodb.org/classic/displayStrata?geological_group=Marambio&group_formation_member=Lopez%20de%20Bertodano Marambio Group - Lopez de Bertodano Formation
11. https://paleobiodb.org/classic/displayStrata?geological_group=Seymour%20Island&group_formation_member=L%F3pez%20de%20Bertodano Seymour Island Group - Lopez de Bertodano Formation
12. https://paleobiodb.org/classic/displayStrata?geological_group=&formation=Upper%20Lopez%20de%20Bertodano&group_formation_member=Upper%20Lopez%20de%20Bertodano Upper Lopez de Bertodano Formation
13. Legendre et al., 2020
14. Weishampel, David B; et al. (2004). "Dinosaur distribution (Late Cretaceous, Antarctica)." In: Weishampel, David B.; Dodson, Peter; and Osmólska, Halszka (eds.): The Dinosauria, 2nd, Berkeley: University of California Press. p. 606. .
15. Crame, J.A. . The Early Origin of the Antarctic Marine Fauna and Its Evolutionary Implications . 2014 . PLOS ONE . 7 . 12 . 10.1371/journal.pone.0114743 . 25493546 . 4262473 . Beu, A.G. . Ineson J.R. . Francis J.A. . Whittle R.J. . Bowman V.C. . e114743. 2014PLoSO...9k4743C . free .
16. Witts, J.D. . Evolution and extinction of Maastrichtian (Late Cretaceous) cephalopods from the López de Bertodano Formation, Seymour Island, Antarctica . 2015 . Palaeogeography, Palaeoclimatology, Palaeoecology . 418 . 193–212 . 10.1016/j.palaeo.2014.11.002 . Bowman V.C. . Wignall P.B. . Crame J.A. . Francis, J.E. . Newont, R.J.. 2015PPP...418..193W .
17. Alberto L. Cione. Sergio Santillana. Soledad Gouiric-Cavalli. Carolina Acosta Hospitaleche. Javier N. Gelfo. Guillermo M. Lopez. Marcelo Reguero. Before and after the K/Pg extinction in West Antarctica: New marine fish records from Marambio (Seymour) Island. 2018. Cretaceous Research. 85. 250–265. 10.1016/j.cretres.2018.01.004. 2018CrRes..85..250C . 11336/99687. free.
18. Case . Judd A. . Martin . James E. . Chaney . Dan S. . Reguero . Marcelo . Marenssi . Sergio A. . Santillana . Sergio M. . Woodburne . Michael O. . 2000-09-25 . http://dx.doi.org/10.1671/0272-4634(2000)020[0612:tfdbdf2.0.co;2 The first duck-billed dinosaur (Family Hadrosauridae) from Antarctica ]. Journal of Vertebrate Paleontology . 20 . 3 . 612–614 . 10.1671/0272-4634(2000)020[0612:tfdbdf]2.0.co;2 . 0272-4634. 11336/105444 . free .
19. Rich . T. H. . Vickers-Rich . P. . Fernandez . M. . Santillana . S. . 1999 . A probable hadrosaur from Seymour Island, Antarctic Peninsula. . Proceedings of the Second Gondwanan Dinosaur Symposium, National Science Museum Monographs . 15 . 219-222.
20. Cordes . 2002 . A new charadriiform avian specimen from the Early Maastrichtian of Cape Lamb, Vega Island, Antarctic Peninsula . Journal of Vertebrate Paleontology . 22 . 3. 46A .
21. Tambussi . Claudia P . Degrange . Federico J . De Mendoza . Ricardo S . Sferco . Emilia . Santillana . Sergrio . 2019-01-09 . A stem anseriform from the early Palaeocene of Antarctica provides new key evidence in the early evolution of waterfowl . Zoological Journal of the Linnean Society . 186 . 3 . 673–700 . 10.1093/zoolinnean/zly085 . 0024-4082.
22. Acosta Hospitaleche . Carolina . Gelfo . Javier N. . 2015 . New Antarctic findings of Upper Cretaceous and lower Eocene loons (Aves: Gaviiformes) . Annales de Paléontologie . 101 . 4 . 315–324 . 10.1016/j.annpal.2015.10.002 . 0753-3969. 11336/53690 . free .
23. Broxson . Ian . 2023 . Reconstructing the ecological relationships of the latest Cretaceous Antarctic dinosaurs and how functional tooth Cretaceous Antarctic dinosaurs and how functional tooth morphology influenced diet and ecological niche among basal Ornithopod dinosaurs . EWU Masters Thesis Collection.
24. SOUZA . GEOVANE A. DE . BULAK . BRUNO A. . SOARES . MARINA B. . SAYÃO . JULIANA M. . WEINSCHÜTZ . LUIZ CARLOS . BATEZELLI . ALESSANDRO . KELLNER . ALEXANDER W.A. . 2023 . The Cretaceous Neornithine record and new Vegaviidae specimens from the López de Bertodano Formation (Upper Maastrichthian) of Vega Island, Antarctic Peninsula . Anais da Academia Brasileira de Ciências . 95 . suppl 3 . 10.1590/0001-3765202320230802 . 1678-2690. free .
25. Marsà . Jordi Alexis Garcia . Agnolín . Federico L. . Novas . Fernando . 2017-07-11 . Bone microstructure of Vegavis iaai (Aves, Anseriformes) from the Upper Cretaceous of Vega Island, Antarctic Peninsula . Historical Biology . 31 . 2 . 163–167 . 10.1080/08912963.2017.1348503 . 0891-2963.
26. Clarke . J.A. . Tambussi . C.P. . Noriega . J.I. . Erickson . G.M. . Ketcham . R.A. . 2005 . Definitive fossil evidence for the extant avian radiation in the Cretaceous . Nature . 433 . 7023. 305–308 . 10.1038/nature03150 . 15662422 . 2005Natur.433..305C . 4354309 . Supporting information
27. Case . J. . Reguero . M. . Martin . J. . Cordes-Person . A. . 2006 . A cursorial bird from the Maastrictian of Antarctica . 10.1080/02724634.2006.10010069. Journal of Vertebrate Paleontology . 26 . 3. 48A . 220413406 .
28. Abagael R. West . Christopher R. Torres . Judd A. Case . Julia A. Clarke . Patrick M. O'Connor . Matthew C. Lamanna . 2019 . An avian femur from the Late Cretaceous of Vega Island, Antarctic Peninsula: removing the record of cursorial landbirds from the Mesozoic of Antarctica . PeerJ . 7 . e7231 . 10.7717/peerj.7231 . 31333904 . 6626523 . free .
29. Gouiric-Cavalli . S. . Acosta-Burllaile . L. . Iglesias . A. . Moly . J. J. . O’Gorman . J. P. . Reguero . M. . Santillana . S. . Talevi... . M. . 2017 . Late Mesozoic marine Antarctic fishes: future perspectives based on the newly collections recovered in the Ameghino and López de Bertodano Formations. . Research and Knowledge . 3 . 1 . 16-21.
30. Grande . L. . Chatterjee . S. . 1987 . New Cretaceous fish fossils from Seymour Island, Antarctic Peninsula. . Palaeontology . 30 . 829-837.
31. O'Gorman, J. P., Gasparini, Z., & Salgado, L. (2012). Postcranial morphology of Aristonectes (Plesiosauria, Elasmosauridae) from the Upper Cretaceous of Patagonia and Antarctica. Antarctic Science, 25(1), 71–82. https://doi.org/10.1017/S0954102012000673
32. Miller . Case V. . O'Gorman . José P . Salisbury . Steven W. . Coria . Rodolfo A. . Roberts . Eric M. . O'Connor . Patrick M . Reguero . Marcelo A. . Lamanna . Matthew C. . 2020-07-31 . A New Plesiosaur (Reptilia: Sauropterygia) Specimen from the Upper Cretaceous of West Antarctica, with Comments on the Ontogeny and Morphological Diversity of the Elasmosaurid Pelvic Girdle . Annals of Carnegie Museum . 86 . 2 . 93 . 10.2992/007.086.0201 . 0097-4463.
33. Otero . Rodrigo A. . Soto-Acuña . Sergio . O'Keefe . Frank Robin . O’Gorman . José P. . Stinnesbeck . Wolfgang . Suárez . Mario E. . Rubilar-Rogers . David . Salazar . Christian . Quinzio-Sinn . Luis Arturo . 2014 . Aristonectes quiriquinensis, sp. nov., a new highly derived elasmosaurid from the upper Maastrichtian of central Chile . Journal of Vertebrate Paleontology . 34 . 1 . 100–125 . 10.1080/02724634.2013.780953 . 0272-4634. 11336/79718 . free .
34. Gasparini . Z. . Del Valle . F. . Goñi . R. . 1984 . An elasmosaur (Reptilia, Plesiosauria) of the Upper Cretaceous in the Antarctic . Contribuciones del Instituto Antártico Argentino . 305 . 1-24.
35. Fostowicz-Frelik . L. . Gazdzicki . A. . 2001 . Anatomy and histology of plesiosaur bones from the Late Cretaceous of Seymour Island, Antarctic Paninsula. . Palaeontologica Polonica . 60 . 7-32.
36. Chatterjee . Sankar . Small . Bryan J. . 1989 . New plesiosaurs from the Upper Cretaceous of Antarctica . Geological Society, London, Special Publications . 47 . 1 . 197–215 . 10.1144/gsl.sp.1989.047.01.15 . 0305-8719.
37. Otero . Rodrigo A. . Soto-Acuña . Sergio . Vargas . Alexander O. . Rubilar-Rogers . David . Yury-Yáñez . Roberto E. . Gutstein . Carolina S. . 2014 . Additions to the diversity of elasmosaurid plesiosaurs from the Upper Cretaceous of Antarctica . Gondwana Research . 26 . 2 . 772–784 . 10.1016/j.gr.2013.07.016 . 1342-937X.
38. O’Gorman . José Patricio . Bona . Paula . de los Reyes . Martín . Raffi . Maria Eugenia . Reguero . Marcelo . 2020-10-01 . A non-aristonectine plesiosaur from Antarctica reveals new data on the mandibular symphysis of elasmosaurids . Alcheringa: An Australasian Journal of Palaeontology . 44 . 4 . 565–576 . 10.1080/03115518.2020.1824261 . 0311-5518.
39. O'Gorman . Jose P. . Canale . Juan I. . Bona . Paula . Tineo . David E. . Reguero . Marcelo . Cárdenas . Magalí . 2024-12-31 . A new elasmosaurid (Plesiosauria: Sauropterygia) from the López de Bertodano Formation: new data on the evolution of the aristonectine morphology . . en . 22 . 1 . 10.1080/14772019.2024.2312302 . 2024JSPal..2212302O . 1477-2019.
40. Chatterjee. S.. Small. B. J.. 1989. New plesiosaurs from the Upper Cretaceous of Antarctica. Geological Society Special Publications. 47. 1. 197–215. 10.1144/GSL.SP.1989.047.01.15. 1989GSLSP..47..197C. 140639013.
41. O’Gorman . José P. . Coria . Rodolfo A. . 2016-09-21 . A new elasmosaurid specimen from the upper Maastrichtian of Antarctica: new evidence of a monophyletic group of Weddellian elasmosaurids . Alcheringa: An Australasian Journal of Palaeontology . 41 . 2 . 240–249 . 10.1080/03115518.2016.1224318 . 0311-5518. 11336/79006 . free .
42. Rodrigo A. Otero. Sergio Soto-Acuña. David Rubilar-Rogers. Carolina S. Gutstein. Kaikaifilu hervei gen. et sp. nov., a new large mosasaur (Squamata, Mosasauridae) from the upper Maastrichtian of Antarctica . . 2017. 70 . 209–225 . 10.1016/j.cretres.2016.11.002 . 2017CrRes..70..209O. 133320233.
43. Martin . James E. . Crame . J. Alistair . 2006 . Palaeobiological significance of high-latitude Late Cretaceous vertebrate fossils from the James Ross Basin, Antarctica . Geological Society, London, Special Publications . 258 . 1 . 109–124 . 10.1144/gsl.sp.2006.258.01.08 . 0305-8719.
44. Mulder . E. W. A. . 1999 . Transatlantic latest Cretaceous mosasaurs (Reptilia, Lacertilia) from the Maastrichtian type area and New Jersey . Geologie en Mijnbouw . 78 . 281-300.
45. Fernández . Marta S. . Gasparini . Zulma . 2012 . Campanian and Maastrichtian mosasaurs from Antarctic Peninsula and Patagonia, Argentina . Bulletin de la Société Géologique de France . 183 . 2 . 93–102 . 10.2113/gssgfbull.183.2.93 . 1777-5817.
46. Otávio dos Santos . Rodolfo . Riff . Douglas . Ramos . Renato Rodriguez Cabral . Fernandes Rodrigues . Igor . Scheffler . Sandro Marcelo . Sucerquia . Paula Andrea . de Araújo Carvalho . Marcelo . 2024-03-06 . A new species of cow shark (Hexanchiformes: Hexanchidae) from the Late Cretaceous of Seymour Island, Antarctica . Historical Biology . 1–12 . 10.1080/08912963.2024.2316047 . 0891-2963.
47. O’Gorman . Jose Patricio . Bona . Paula . Canale . Juan Ignacio . Tineo . David Eric . Fernández . Marta Susana . Cárdenas . Magali . Reguero . Marcelo . 2023-04-03 . A new mosasaurine specimen (Squamata, Mosasauridae) from the Upper Cretaceous of Antarctica with comments on the Weddellian diversity of Mosasaurinae . Alcheringa: An Australasian Journal of Palaeontology . 47 . 2 . 211–220 . 10.1080/03115518.2023.2203739 . 0311-5518.
48. Fernández . Marta S. . Gasparini . Zulma . 2012 . Campanian and Maastrichtian mosasaurs from Antarctic Peninsula and Patagonia, Argentina . Bulletin de la Société Géologique de France . 183 . 2 . 93–102 . 10.2113/gssgfbull.183.2.93 . 1777-5817.
49. González Ruiz . Pablo . Fernández . Marta S. . Talevi . Marianella . Leardi . Juan M. . Reguero . Marcelo A. . 2019 . A new Plotosaurini mosasaur skull from the upper Maastrichtian of Antarctica. Plotosaurini paleogeographic occurrences . Cretaceous Research . 103 . 104166 . 10.1016/j.cretres.2019.06.012 . 0195-6671. 11336/125124 . free .