Litho biostratigraphy of the Mamfe Cretaceous Basin, S.W. Province of Cameroon, West Africa

Eyong, John Takem

January 2003

No description available.

551

Early Cretaceous Gondwana alkaline lake

Stratigraphic and geochemical expression of early Cretaceous environmental change in Arctic Svalbard

Vickers, Madeleine Larissa

January 2017

The Arctic is climatically sensitive to global change and therefore climate records from this region are of key importance. Little, however, is known of the state of the Arctic in the traditionally “greenhouse” period of the Cretaceous. Climate conditions are often assumed to have been warm-temperate as evidenced by the presence of conifers and dinosaur trackways on Svalbard and other Arctic localities. However, isotopic evidence for cooling episodes, sequence stratigraphic evidence for interpreted glacio-eustatic sea-level falls, and the presence of more enigmatic deposits such as dropstones and glendonites has led to a re-evaluation of the question of climatic dynamism during the Cretaceous. This project evaluates the climatic and environmental character of Arctic Svalbard during the Early Cretaceous (palaeo-latitude of c. 65 °N), via a multiproxy sedimentological, geochemical, sequence- and chemo- stratigraphic study of Berriasian–Albian strata from the Central Basin of Svalbard. The “outsized clasts” recorded on Spitsbergen do not show evidence that they were rafted by glacial ice (e.g. surface striations), although could have been rafted by seasonal sea-ice. The results show that regionally widespread cold water conditions were the most likely control on ikaite formation and glendonite preservation. This counters recent studies that suggest a methane-seep driver for Mesozoic glendonites, and supports the global extent of Valanginian to Hauterivian and Late Aptian global cooling. Surface temperatures during cool episodes of < 14 °C, as implied by the presence of glendonites at the seafloor, are consistent with Polar (90 °N) temperatures being below freezing (even given reduced pole-to-equator temperature gradients). This study therefore supports the hypothesis that small polar ice-caps developed during the Valanginian – Hauterivian and Late Aptian cooling events.

551.7

Terrestrial and freshwater turtles of early cretaceous Australia

Smith, Elizabeth T, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2009

An unusual turtle fauna from Lightning Ridge, New South Wales (Albian) reveals that Australian turtles had a more extensive Mesozoic history than previously indicated. Reevaluation of several primitive groups provides novel information on turtle evolution in the southern hemisphere. Seven turtle taxa are identified at Lightning Ridge. Two are Testudines indet. and two indeterminate chelid groups are evinced by isolated elements. Three new taxa are assigned to the new family Spoochelyidae in the superfamily Meiolanoidea. Spoochelys ormondea n. fam., gen. et sp., Sunflashemys bartondracketti n. gen. et sp. and Opalania baagiwayamba n. gen. et sp. are predominantly land-living turtles with high-domed shells and short manus and pes. The sister-group relationship with the Meiolaniidae, supported by a suite of cranial and postcranial synapomorphies, increases the stratigraphic range of the horned turtles by around ~ 50 my. Primitive structures in Spoochelys (postparietal, supratemporal and interpterygoid vacuity), occur with derived features that are variably developed across Triassic and Jurassic turtles. Phylogenetic analysis precariously resolves the meiolanoids as sister group to a clade containing Palaeochersis and Proterochersis. Limited pleurodiran attributes suggest that meiolanoids may be pleurodiromorphs, closer to primitive pleurodires than to cryptodires. As basal ‘side-necked’ turtles, the Lightning Ridge meiolanoids permit first insights into cranial and postcranial progressions in pleurodiran stem taxa. Evidence of diverse meiolanoids in Early Cretaceous Australia and ancient radiations of meiolanoid-like turtles in southern Pangea, suggest that the horned turtles are a Triassic group and that the dichotomy between Pleurodira and Cryptodira occurred well before the Late Triassic. Early Cretaceous chelids at Lightning Ridge occur at higher palaeolatitude than in South America. The temporal range of Australian chelids is extended by ~ 50 my, demonstrating that chelids had a Jurassic history in Australia, with broad diversifications across the polar supercontinent. The palaeoecological setting of Lightning Ridge is comprehensively described for the first time. Diverse invertebrates and vertebrates include terrestrial, freshwater aquatic and rare marine forms that are anomalous at this near-polar palaeolatitude (~65-70oS). The anachronistic occurrence in Early Cretaceous Australia of distinctive radiations of ‘Triassic-type’ turtles, and other relic groups, implies prolonged intervals of biogeographic isolation in the eastern provinces of Pangea.

Meiolanoidea

Early Cretaceous Australia

Lightning Ridge

Chelidae

Terrestrial and freshwater turtles of early cretaceous Australia

Smith, Elizabeth T, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2009

An unusual turtle fauna from Lightning Ridge, New South Wales (Albian) reveals that Australian turtles had a more extensive Mesozoic history than previously indicated. Reevaluation of several primitive groups provides novel information on turtle evolution in the southern hemisphere. Seven turtle taxa are identified at Lightning Ridge. Two are Testudines indet. and two indeterminate chelid groups are evinced by isolated elements. Three new taxa are assigned to the new family Spoochelyidae in the superfamily Meiolanoidea. Spoochelys ormondea n. fam., gen. et sp., Sunflashemys bartondracketti n. gen. et sp. and Opalania baagiwayamba n. gen. et sp. are predominantly land-living turtles with high-domed shells and short manus and pes. The sister-group relationship with the Meiolaniidae, supported by a suite of cranial and postcranial synapomorphies, increases the stratigraphic range of the horned turtles by around ~ 50 my. Primitive structures in Spoochelys (postparietal, supratemporal and interpterygoid vacuity), occur with derived features that are variably developed across Triassic and Jurassic turtles. Phylogenetic analysis precariously resolves the meiolanoids as sister group to a clade containing Palaeochersis and Proterochersis. Limited pleurodiran attributes suggest that meiolanoids may be pleurodiromorphs, closer to primitive pleurodires than to cryptodires. As basal ‘side-necked’ turtles, the Lightning Ridge meiolanoids permit first insights into cranial and postcranial progressions in pleurodiran stem taxa. Evidence of diverse meiolanoids in Early Cretaceous Australia and ancient radiations of meiolanoid-like turtles in southern Pangea, suggest that the horned turtles are a Triassic group and that the dichotomy between Pleurodira and Cryptodira occurred well before the Late Triassic. Early Cretaceous chelids at Lightning Ridge occur at higher palaeolatitude than in South America. The temporal range of Australian chelids is extended by ~ 50 my, demonstrating that chelids had a Jurassic history in Australia, with broad diversifications across the polar supercontinent. The palaeoecological setting of Lightning Ridge is comprehensively described for the first time. Diverse invertebrates and vertebrates include terrestrial, freshwater aquatic and rare marine forms that are anomalous at this near-polar palaeolatitude (~65-70oS). The anachronistic occurrence in Early Cretaceous Australia of distinctive radiations of ‘Triassic-type’ turtles, and other relic groups, implies prolonged intervals of biogeographic isolation in the eastern provinces of Pangea.

Meiolanoidea

Early Cretaceous Australia

Lightning Ridge

Chelidae

An integrated study of the early cretaceous (Valanginian) reservoir from the Gamtoos Basin, offshore South Africa with special reference to seismic facies, formation evaluation and static reservoir modeling

Lasisi, Ayodele Oluwatoyin

January 2019

Philosophiae Doctor - PhD / Integrated approaches in the study of petroleum exploration are increasingly becoming significant in recent times and have yielded much better result as oil exploration is a combination of different related topics. The production capacity in hydrocarbon exploration has been the major concern for oil and gas industries. In the present work an integrated approach was made with seismic, well logs and biostratigraphy for predicting the depositional environment and to understand the heterogeneity within the reservoirs belonging to Valanginian (Early Cretaceous) age of Gamtoos Basin, Offshore South Africa. Objectively, the integrated work was mainly based on seismic stratigraphy (seismic sequence and seismic facie analysis) for interpretation of the depositional environments with combination of microfossil biostratigraphic inputs. The biostratigraphic study provides evidences of paleo depth from benthic foraminifera and information about bottom condition within the sedimentary basin, changing of depositional depth during gradual basinal fill during the Valanginian time. The petrophysical characterization of the reservoir succession was based on formation evaluation studies using well logs to investigate the hydrocarbon potential of the reservoir across Valanginian depositional sequence. Further, the static modeling from 2D-seismic data interpreted to a geological map to 3D-numerical modeling by stochastic model to quantify the evaluation of uncertainty for accurate characterisation of the reservoir sandstones and to provide better understanding of the spatial distribution of the discrete and continuous Petrophysical properties within the study area.

Early cretaceous

Gamtoos basin

South Africa

Seismic facies

Formation evaluation

Foraminiferal biostratigraphy and depositional environment of the early cretaceous drilled succession in Durban basin, east coast, South Africa

Nsingi, Joseph Mayala

January 2020

>Magister Scientiae - MSc / Durban Basin located on the eastern coast of South Africa has been a focus of interest for Petroleum Exploration for the last few decades. Only four exploratory wells have been drilled in this offshore basin without success. During the initial stage of its creation, the basin suffered major tectonic disturbance as evident from the presence extensional faults followed by intense igneous activities. This was followed by marine sedimentation in the late Mesozoic (late Jurassic-early Cretaceous). An attempt has been made in this work to understand the distribution of the rock in space and time for the early Cretaceous sediments considered most prospective for hydrocarbon exploration in Southern Africa. Temporal distribution of planktonic foraminifera helps in identification of the three early Cretaceous (Barremian to Albian) stages within the drilled intervals. Foraminiferal biostratigraphic studies integrated with sedimentology, log motif analysis and seismic data analysis helps to predict paleodepth and depositional environment during early Cretaceous in this research. / 2022-04-30

Foraminifera

Durban

South Africa

Early Cretaceous

Depositional environment

Postcranial osteology and phylogenetic relationships of the Early Cretaceous titanosaur Tapuiasaurus macedoi Zaher et al. 2011 / Osteologia pós-craniana e relações filogenéticas do titanossauro do Cretáceo Inferior Tapuiasaurus macedoi Zaher et al. 2011

Navarro, Bruno Albert

03 May 2019

Herein is presented a comprehensive description of the postcranial skeleton and phylogenetic analysis of the Early Cretaceous titanosaurian Tapuiasaurus macedoi Zaher et al. 2011. Tapuiasaurus becomes a key-taxon due its completeness, shedding new lights on the first steps in the early titanosaur evolution. The new information gathered by this study reveals that the presacral vertebrae anatomy of Tapuiasaurus possesses the typical apomorphic lithostrotian morphology (e.g. single neural spines, absence of hyposphene-hypantrum complex and aliform processes), whereas the architecture of fore and hindlimbs retains plesiomorphic characters, such as the presence of manual phalanges, as well as a pes with greater phalangeal count (=10). Contrasting with previous studies, the phylogenetic analysis retrieved Tapuiasaurus as an early lithostrotian, sister-taxon of the group formed by Yongjinglong datangi, from the Early Cretaceous of China, plus a relictual unnamed taxon from the Late Cretaceous of Minas Gerais State, the same region that in which Tapuiasaurus comes. The new recognized clade that would represents one of the first lithostrotian irradiations around the world, providing additional data that will help elucidate dispersion patterns in the group. This study reveals that the stepwise acquisition of the typical titanosaurian characters possesses a mosaic pattern, in which the apomorphic anatomy presented by the advanced titanosaurians was acquired along the last part of the Late Cretaceous, probably in the post Turonian time-interval (89.8 My) / É apresentada aqui uma abrangente descrição do esqueleto pós-craniano e análise filogenética do titanossauro do Cretáceo Inferior Tapuiasaurus macedoi Zaher et al. 2011. Tapuiasaurus representa um táxon-chave devido à sua alta completude, lançando novas luzes nos primeiros passos na evolução dos titanossauros. As novas informações coletadas por este estudo revelam que a anatomia das vértebras pré-sacrais de Tapuiasaurus possui uma típica morfologia litoestrotiana apomórfica (e.g. espinhos neurais não divididos, ausência do complexo hiposfeno-hipantro e de processos aliformes), enquanto que a arquitetura dos membros anteriores e posteriores retém caracteres plesiomórficos, como a presença de falanges manuais, bem como um pé com alta contagem falangeana (=10). Contrariando estudos anteriores, a análise filogenética realizada recuperou Tapuiasaurus como um litoestrotia basal, táxon-irmão do grupo formado por Yongjinglong datangi, do Cretáceo Inferior da China, mais um táxon relictual não nomeado do Cretáceo Superior do Estado de Minas Gerais, a mesma região geográfica na qual Tapuiasaurus provém. O novo clado reconhecido representaria uma das primeiras irradiações de litoestrotios em todo o mundo, fornecendo dados adicionais que ajudarão a elucidar os padrões de dispersão do grupo. Este estudo revela que a aquisição dos caracteres titanossaurianos típicos foi gradual, possuindo um padrão de mosaico, no qual a anatomia apomórfica apresentada pelos titanossauros avançados foi adquirida ao longo da última parte do Cretáceo Superior, provavelmente a partir do intervalo pós-Turoniano (89,8 M)

4. Osteologia

Cretáceo inferior

Early Cretaceous

Filogenia

Osteology

Phylogeny

Tapuiasaurus macedoi

Tapuiasaurus macedoi

Titanosauria

Titanosauria

Gimnospermas eocretáceas da Formação Crato, bacia do Araripe, Nordeste do Brasil / Early Creatceous gymnosperms from the Crato Formation, Araripe Basin, Northeast Brazil

Sucerquia Rendon, Paula Andrea

19 January 2007

A Formação Crato, localizada na bacia do Araripe, Nordeste do Brasil, contém um dos registros fossíferos vegetais mais importantes do Cretáceo Inferior. Estes fósseis apresentam excelente estado de preservação, no geral, com pouca fragmentação, órgãos em conexão e estruturas epidérmicas e anatômicas delicadamente substituídas por óxidos de ferro. Como acontecia globalmente, as gimnospermas eram o grupo vegetal dominante na paleoflora eocretácea da Formação Crato, ocorrendo na forma de Bennettitales, Coniferales e Gnetales. As Bennettitales foram um componente aparentemente raro, estando representado pelas espécies Otozamites sp. e Zamites sp. Dentre as Coniferales, encontram-se as famílias Araucariaceae e Cheirolepidiaceae, as Araucariaceae registradas nas espécies Araucarites vulcanoi Duarte e Araucarites kunzmanni sp. nov.; as Cheirolepidiaceae, o grupo mais diverso, estão representadas pelas espécies Brachyphyllum obesum Heer, Brachyphyllum ponsi sp. nov., Brachyphyllum araripense sp. nov., Tomaxellia aff. T. biforme Archangelsky, Toxamellia aff. T. degiustoi e Pseudofrenelopsis sp. As Gnetales ocorrem na forma das espécies Limaephyton cratense gen. et sp. nov., Limaephyton duartei gen. et sp. nov. e Limaephytophyllum mohrium gen. et sp. nov. Características morfológicas, epidérmicas e anatômicas presentes nos macrofitofósseis da Formação Crato, evidenciam adaptações a um ambiente de baixa umidade. Esta flora se desenvolveu dentro da Região Equatorial, numa área intracontinental sob condições climáticas áridas e semi-áridas. / Crato Formation, located in the Araripe Basin, Northeastern Brazil, bears one of the most important Lower Cretaceous fóssil plant Record. The fossils have an excellent preservation, usually low fragmentated, with attached organs and epidermic and anatomic features delicatedly replaced by iron oxides. As it happens worldwide, gymnosperms were the dominant group in the Lower Cretaceous Crato Formation paleoflora, existing as Bennettitales, Coniferales e Gnetales. Bennettitales were an apparently scarce component, represented by the species Otozamites sp. and Zamites sp. Between the Coniferales, are the families Araucariaceae and Cheirolepidiaceae, the Araucariaceae recorded by the species Araucarites vulcanoi Duarte and Araucarites kunzmanni sp. nov.; Cheirolepidiaceae, the most diverse group, is registered by species Brachyphyllum obesum Heer, Brachyphyllum ponsi sp. nov., Brachyphyllum araripense sp. nov., Tomaxellia aff. T. biforme Archangelsky, Toxamellia aff. T. degiustoi e Pseudofrenelopsis sp. As Gnetales are documented by the species Limaephyton duartei gen. et sp. nov. and Limaephytophyllum mohrium gen. et sp. nov. Morphologic, epidermic and anatomic features founded in the plant fossils from Crato Formation, evidence low moisture environment adaptations. That flora was developed in the Equatorial Region, in an intracontinental area with arid to semi-arid climatic conditions.

Araripe Basin

Bacia do Araripe

Crato Formation

Early Cretaceous

Eocretáceo

Formação Crato

Gymnospermas

Gymnosperms

Paleobotany

Paloebotânica

Taphonomie de l'assemblage de macrorestes fossiles de vertébrés du Lagerstätte d'Angeac-Charente (Crétacé inférieur, Charente, France) / Taphonomy of the assemblage of vertebrate fossil macroremains of the Lagerstätte of Angeac-Charente (Lower Cretaceous, Charente, France)

Rozada, Lee

04 June 2019

Les opportunités de reconstituer l’écologie et les comportements d’individus et d’espèces de vertébrés éteints sont rares. Plusieurs grands assemblages de vertébrés fossiles datant de la fin du Jurassique au début du Crétacé fournissent des informations sur la biodiversité et les communautés de vertébrés terrestres. Cependant, à l’exception du Lagerstätte de Las Hoyas (Crétacé inférieur, Espagne), les fossiles de ces assemblages ont été retrouvés sur un large éventail géographique, stratigraphique et/ou temporel. Cette thèse présente les résultats d’une étude taphonomique, couplée avec des données néotaphonomiques, paléontologiques, ichnologiques, sédimentologiques et géochimiques, de l’assemblage de macrorestes fossiles de vertébrés du site du Crétacé inférieur d’Angeac-Charente, situé dans l’Ouest de la France. Neuf campagnes de fouilles menées depuis 2010 ont permis de récolter plusieurs milliers de macrorestes de vertébrés appartenant à 16 taxons différents, auxquels viennent s’ajouter d’abondants microrestes appartenant à 27 taxons de vertébrés supplémentaires, plusieurs centaines de coprolithes de termites et de vertébrés riches en inclusions végétales et osseuses, des centaines de remplissages naturels d’empreintes de dinosaures, de nombreux restes de végétaux, des moules de mollusques bivalves et gastropodes, ainsi que des ostracodes. L’ensemble sédimentaire est dominé par des argiles de décantation interrompues par des dépôts localisés de plus haute énergie (cours d’eau, inondation) déposé dans un environnement de zone humide de type marécage. De nombreuses figures de déformations synsédimentaires formées en milieu liquide sont conservées sous forme de « scènes figées ». Des empreintes attribuées à l’ichnogenre Deltapodus et conservées sous forme de remplissages de dépôt direct ont été produites par un groupe multigénérationnel de stégosaures. De nombreuses empreintes de sauropodes sont conservées en 3-D ou en 4-D sous forme de remplissages de profondeurs variables. L’assemblage osseux est multitaxique, très diversifié et comprend des taxons terrestres, amphibies et aquatiques d’eau douce. Il contient une combinaison de macrofossiles et microfossiles et s’est formé de manière complexe, avec l’intervention de multiples processus d’origine biologique, écologique et physique. Il est dominé par les dinosaures, en particulier une nouvelle espèce d’ornithomimosaure non-ornithomimidé, dont de nombreux restent résultent d’une mort en masse d’un troupeau multigénérationnel dominé par des juvéniles et subadultes. D’abondants restes de sauropodes ont été transportés sur une plus ou moins grande distance avant d’être déposés sur le site. De nombreuses traces de morsure à la surface des restes de carapaces appartenant à plusieurs individus de tortues Pleurosternon bullockii résultent du comportement de prédation du crocodylomorphe Goniopholis, avec l’utilisation de la technique « casse-noix ». Les modifications osseuses post-dépositionnelles, comme la désarticulation, les déplacements, réorientations, fractures et traces de surface, résultent principalement de l’intense piétinement par les dinosaures. Le Lagerstätte d’Angeac-Charente ouvre une fenêtre d’une résolution spatiale et temporelle exceptionnellement fine sur un écosystème terrestre ouest-européen du tout début du Crétacé dont les organismes étaient en interaction directe entre eux et avec leur environnement. / Opportunities to reconstruct the ecology and behaviour of individuals of extinct vertebrate species are rare. Several large assemblages of fossil vertebrate dating from the late Jurassic to the early Cretaceous provide information on biodiversity and terrestrial vertebrate communities. However, with the exception of the Lagerstätte of Las Hoyas (Lower Cretaceous, Spain), the fossils of these assemblages have been found over a wide geographical, stratigraphic and/or temporal range. This PhD thesis presents the results of a taphonomic study, coupled with neotaphonic, paleontological, ichnological, sedimentological and geochemical data, of the assemblage of vertebrate fossils macro-remains from the Lower Cretaceous site of Angeac-Charente, located in the western France. Nine excavation campaigns carried out since 2010 allowed to collect thousands of vertebrate macroremains belonging to 16 different taxa, to which are added abundant microremains belonging to 27 additional vertebrate taxa, hundreds of termite and vertebrate coprolites rich in plant and bone inclusions, hundreds of natural casts of dinosaur tracks, numerous plant remains, bivalve and gastropod casts, as well as ostracods. The sedimentary assemblage is dominated by settling clays interrupted by localized deposits of higher energy deposited in a swampy wetland environment. Many synsedimentary deformations formed in liquefied sediments are preserved as "frozen scenes". Tracks attributed to the ichnogenre Deltapodus and preserved as direct deposit infills were produced by a multigenerational group of stegosaurs. Many sauropod footprints of various depths are stored in 3-D or 4-D. The bone assemblage is multitaxic, highly diversified and includes terrestrial as well as freshwater amphibian and aquatic taxa. It contains a combination of macrofossils and microfossils and has been formed in a complex way, with the intervention of multiple processes of biological, ecological and physical origin. It is dominated by dinosaurs, especially a new species of non-ornithomimid ornithomimosaur, many of whom remain resulting from a catastrophic mass death of a multigenerational herd dominated by juveniles and subadults. Abundant sauropod remains were transported by water currents over various distance before their deposit on the site. Many bite marks on the surface of shell remains belonging to several Pleurosternon bullockii turtle individuals result from the predatory behaviour of the crocodylomorph Goniopholis, with the use of the "nutcracker" technique. Post-depositional bone modifications, such as disarticulation, displacements, reorientations, fractures, fissures and surface marks, result mainly from intense trampling by dinosaurs. The Angeac-Charente Lagerstätte opens a window of exceptionally fine spatial and temporal resolution on a western European terrestrial ecosystem from the very beginning of the Cretaceous whose organisms interacted directly with each other and with their environment.

Lagerstätte

Crétacé inférieur

Ecosystème

Marécage

Taphonomie

Bonebed

Ichnofossile

Lagerstätte

Early Cretaceous

Ecosystem

Swamp

Taphonomy

Bonebed

Ichnofossil

Disparity of Early Cretaceous Lamniformes sharks / Disparitet i Lamniformes Hajar från Tidig Krita

Söderblom, Fredrik

January 2015

The geological range of lamniform sharks stretches from present day species such as Carcharodon carcharias (great white shark) back to the at the moment oldest undoubted fossil finds during the Early Cretaceous. In this paper a geometric morphometric analysis was performed on images of Early Cretaceous lamniform teeth collected from published literature in order to examine the change in disparity (range of morphological variation within a group) throughout the time period. Due to limited availability of published material and time constraints only the Barremian and Albian ages were investigated. The Barremian exhibited tall and narrow tooth morphologies while the Albian showed a wide range of morphological variation including more robust, wide and sometimes triangular shapes but also displayed further specialization of the tall and narrow forms. This change is likely indicative of a dietary and ecological expansion from only eating for example small fish and soft-bodied creatures to a wide range of prey for the group, including larger and more robust animals such as marine turtles and large bony fish. This in combination with the decline of some marine predators as well as the diversification of possible prey is interpreted as that an adaptive radiation of the Lamniformes could have taken place during the latter half of the Early Cretaceous. / Morfologisk disparitet är ett mått på hur stor utsträckningen av morfologisk variation är. Detta mått räknas ut genom att jämföra landmärken utplacerade på bilder av föremål som ska undersökas. I detta projekt undersöktes den morfologiska dispariteten hos tänder från håbrandsartade hajar (Lamniformes) under tidig krita. Att just deras tänder undersöktes beror på att den större delen av hajars skelett är gjort av brosk vilket lätt bryts ned efter djuret avlidit. Deras tänder är dock gjorda av ben vilket har lättare att bli bevarat som fossil. Utöver detta så kan formen på tänder beskriva djurs födoval och levnadssätt. Gruppens tänder undersöktes därför även för att belysa eventuella förändringar i diet och ekologi under tidig krita. Resultatet av denna analys visar på en expansion av tandform under denna period från långa och smala tänder under Barremium till en större variation under Albium där även mer triangelformade och robusta tänder dyker upp. Detta har tolkats som en adaptiv artbildningsperiod för gruppen då både nya byten (t.ex. teleostfiskar och havs-sköldpaddor) diversifierade och uppkom samtidigt som vissa marina predatorer (ichthyosaurer och plesiosaurer) minskade i antal under denna tidsperiod. Detta ändrade troligen de selektiva trycken på håbrandsartade hajars tandmorfologi samt lämnade ekologiska nischer öppna som dessa kunde anpassa sig till vilket i sin tur ledde till expansioner i morfologisk disparitet, diet och ekologi.

Lamniformes

disparity

Early Cretaceous

morphology

morphometric

Lamniformes

disparitet

tidig krita

morfologi

morfometri