Use of nursery areas by the extinct megatooth shark
            <i>Otodus megalodon</i>
            (Chondrichthyes: Lamniformes)

Herráiz, José Luis; Ribé, Joan; Botella, Héctor; Martínez‐Pérez, Carlos; Ferrón, Humberto G.

doi:10.1098/rsbl.2020.0746

Cited by 12 publications

(15 citation statements)

References 44 publications

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“…Yet, deciphering the life-history strategy of prehistoric sharks is often challenging because the vast majority of species are represented by teeth as their poorly mineralised cartilaginous skeleton usually does not fossilise (Cappetta 2012). In this regard, our vertebra-based study is a rare exception, where the life-history traits for Otodus megalodon proposed here have a significant bearing on various hypotheses and biological issues, such as its potential use of nursery grounds (Pimiento et al 2010;Herraiz et al 2020), its proposed competition with Carcharodon carcharias during the early Pliocene (Boessenecker et al 2019), and ontogenetic effects on its thermophysiology (Ferrón 2017). However, addressing these issues is beyond the scope of this paper primarily because our study rests on multiple assumptions, such as growth bands in IRSNB P 9893 representing annual cycles and the unconventional application of VBGF to a single individual (see Materials and Methods).…”

Section: Discussionmentioning

confidence: 93%

Ontogenetic growth pattern of the extinct megatooth shark Otodus megalodon—implications for its reproductive biology, development, and life expectancy

et al. 2021

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Section: Discussionmentioning

confidence: 93%

Ontogenetic growth pattern of the extinct megatooth shark Otodus megalodon—implications for its reproductive biology, development, and life expectancy

et al. 2021

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“…Pimiento and Balk (2015) repeated this process to analyze spatial and temporal macroevolutionary body size trends in O. megalodon. This method has since propagated into numerous studies of O. megalodon (Reolid and Molina, 2015;Trif et al, 2016;Grant et al, 2017;Razak and Kocsis, 2018;Herraiz et al, 2020).…”

Section: The Megatooth Dental Formulamentioning

confidence: 99%

“…Carcharodon carcharias is the largest macrophagous shark alive today, achieving maximum body lengths of arguably 6 to 7 m (Gottfried et al, 1996;Castro, 2012;McClain et al, 2015). Otodus megalodon represents the largest macrophagous shark that ever lived, with contentious adult estimates ranging from 10 to more than 30 m (Dean, 1909;Randall, 1973;Bendix-Almgreen, 1983;Gottfried et al, 1996;Pimiento et al, 2010;Pimiento and Balk, 2015;Reolid and Molina, 2015;Trif et al, 2016;Grant et al, 2017;Razak and Kocsis, 2018;Shimada, 2002aShimada, , 2019Herraiz et al, 2020). This longstanding interest in body size of the world's largest marine macropredators has been shared by professional paleontologists and the public alike.…”

Section: Introductionmentioning

confidence: 99%

“…It was then proposed that these equations may be an appropriate analog to estimate body size of O. megalodon, given that C. carcharias represents the largest extant macrophagous shark. All subsequent studies (Pimiento et al, 2010;Pimiento and Balk, 2015;Reolid and Molina, 2015;Trif et al, 2016;Grant et al, 2017;Razak and Kocsis, 2018;Herraiz et al, 2020) mentioned have since used the Shimada (2002a) equations to estimate the size of O. megalodon. However, K-12 students applied Shimada's (2002a) equations to a 3D printed model of an associated dentition (i.e., multiple teeth from a single individual) of O. megalodon (UF-VP-311000), resulting in a range of body length estimates from 12 to 45 m for this single individual (Grant et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Body length estimation of Neogene macrophagous lamniform sharks (Carcharodon and Otodus) derived from associated fossil dentitions

Pérez

Leder

Badaut

2021

Palaeontol Electron

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The megatooth shark, Otodus megalodon, is widely accepted as the largest macrophagous shark that ever lived; and yet, despite over a century of research, its size is still debated. The great white shark, Carcharodon carcharias, is regarded as the best living ecological analog to the extinct megatooth shark and has been the basis for all body length estimates to date. The most widely accepted and applied method for estimating body size of O. megalodon was based upon a linear relationship between tooth crown height and total body length in C. carcharias. However, when applying this method to an associated dentition of O. megalodon (UF-VP-311000), the estimates for this single individual ranged from 11.4 to 41.1 m. These widely variable estimates showed a distinct pattern, in which anterior teeth resulted in lower estimates than posterior teeth. Consequently, previous paleoecological analyses based on body size estimates of O. megalodon may be subject to misinterpretation. Herein, we describe a novel method based on the summed crown width of associated fossil dentitions, which mitigates the variability associated with different tooth positions. The method assumes direct proportionality between the ratio of summed crown width to body length in ecologically and taxonomically related fossil and modern species. Total body lengths were estimated from 11 individuals, representing five lamniform species: Otodus megalodon, Otodus chubutensis, Carcharodon carcharias, Carcharodon hubbelli, and Carcharodon hastalis. The method was extrapolated for the largest known isolated upper tooth of O. megalodon, resulting in a maximum body length estimate of 20 m.

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“…3). This may explain why the ontogenetic change in O. megalodon teeth mimics the modifications that took place during their evolution within Otodontidae 53,54,57,58 . We propose that the morphological differences among otodontid dentitions may not be the result of selection acting on those traits but are simple sequelae of size variation.…”

Section: Discussionmentioning

confidence: 92%

Biomechanical insights into the dentition of megatooth sharks (Lamniformes: Otodontidae)

Ballell

Ferrón

2021

Sci Rep

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The evolution of gigantism in extinct otodontid sharks was paralleled by a series of drastic modifications in their dentition including widening of the crowns, loss of lateral cusplets, and acquisition of serrated cutting edges. These traits have generally been interpreted as key functional features that enabled the transition from piscivory to more energetic diets based on marine mammals, ultimately leading to the evolution of titanic body sizes in the most recent forms (including the emblematic Otodus megalodon). To investigate this hypothesis, we evaluate the biomechanics of the anterior, lateral, and posterior teeth of five otodontid species under different loading conditions by using two-dimensional finite element analysis. Stress distribution patterns are remarkably similar among all models under puncture and draw (i.e., when subjected to vertical and lateral forces, respectively). Contrary to expectation, higher average stress values are detected under both loading scenarios in more recent species. Altogether, this suggests little correlation between tooth morphology and key aspects of biomechanical behaviour in otodontids, making it difficult to frame the morphological trend of their dentitions within an adaptive scenario. We propose that this pattern most likely emerged as a non-functional by-product of heterochronic processes driven by selection towards larger body sizes.

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Use of nursery areas by the extinct megatooth shark Otodus megalodon (Chondrichthyes: Lamniformes)

Cited by 12 publications

References 44 publications

Ontogenetic growth pattern of the extinct megatooth shark Otodus megalodon—implications for its reproductive biology, development, and life expectancy

Ontogenetic growth pattern of the extinct megatooth shark Otodus megalodon—implications for its reproductive biology, development, and life expectancy

Body length estimation of Neogene macrophagous lamniform sharks (Carcharodon and Otodus) derived from associated fossil dentitions

Biomechanical insights into the dentition of megatooth sharks (Lamniformes: Otodontidae)

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