Your search keyword '"Post, Klaas"' showing total 14 results

1. A vertebra of a small species of Pachycetus from the North Sea and its inner structure and vascularity compared with other basilosaurid vertebrae from the same site.

Author

van Vliet HJ, Bosselaers MEJ, Munsterman DK, Dijkshoorn ML, de Groen JJ, and Post K

Subjects

Animals, North Sea, Dinosaurs anatomy & histology, Dinosaurs classification, Tomography, X-Ray Computed, Spine anatomy & histology, Spine blood supply, Fossils

Abstract

In the Western Scheldt Estuary near the Belgian-Dutch border, middle to late Eocene strata crop out at the current seafloor. Most vertebrae of large Eocene basilosaurid taxa from this area were previously described in several papers. They represent three morphotypes: elongated vertebrae of a large species of Pachycetus (Morphotype 1b), a not-elongated vertebra of a large 'dorudontid' basilosaurid (Morphotype 2) and 'shortened' vertebrae of a new, unnamed taxon (Morphotype 3). This article deals with a still undescribed, smaller vertebra, NMR-16642, from this site. Our first aim was to date it by dinoflagellate cysts in adhering sediments. Yielding an age of about 38 Ma, it is one of the very few remains of basilosaurids from Europe, of which the age could be assessed with reasonable certainty. The vertebra, Morphotype 1a, is assigned to a small species of Pachycetus . High-quality CT scans are used to differentiate between NMR-16642, Morphotype 1a, and the large species of Pachycetus, Morphotype 1b. Another aim of this paper is to investigate the inner structure and vascularity of the study vertebra and that of the other morphotypes (1b, 2, 3) from this area by using high-quality CT scans. Notwithstanding differences in size, shape and compactness, the vertebral inner structure with a multi-layered cortex of periosteal bone, surrounding two cones of endosteal bone appears to be basically similar in all morphotypes. Apparently, this inner structure reflects the ontogenetic vertebral growth. An attempt to reconstruct the vascularity of the vertebrae reveals a remarkable pattern of interconnected vascular systems. From the dorsal and, if present, ventral foramina, vascular canals are running to a central vascular node. From this node a system of vascular canals goes to the epiphyseal ends, giving rise to separate systems for cortex and cones. It is the first time that the vascularity of vertebrae of archaeocetes is investigated., Competing Interests: The authors declare there are no competing interests., (©2024 van Vliet et al.)

Published

2024

2. A heavyweight early whale pushes the boundaries of vertebrate morphology.

Author

Bianucci G, Lambert O, Urbina M, Merella M, Collareta A, Bennion R, Salas-Gismondi R, Benites-Palomino A, Post K, de Muizon C, Bosio G, Di Celma C, Malinverno E, Pierantoni PP, Villa IM, and Amson E

Subjects

Animals, Acclimatization, Peru, Body Size, Skeleton, Diving, Adaptation, Physiological, Biological Evolution, Whales anatomy & histology, Whales classification, Whales physiology, Fossils, Body Weight

Abstract

The fossil record of cetaceans documents how terrestrial animals acquired extreme adaptations and transitioned to a fully aquatic lifestyle 1,2 . In whales, this is associated with a substantial increase in maximum body size. Although an elongate body was acquired early in cetacean evolution 3 , the maximum body mass of baleen whales reflects a recent diversification that culminated in the blue whale 4 . More generally, hitherto known gigantism among aquatic tetrapods evolved within pelagic, active swimmers. Here we describe Perucetus colossus-a basilosaurid whale from the middle Eocene epoch of Peru. It displays, to our knowledge, the highest degree of bone mass increase known to date, an adaptation associated with shallow diving 5 . The estimated skeletal mass of P. colossus exceeds that of any known mammal or aquatic vertebrate. We show that the bone structure specializations of aquatic mammals are reflected in the scaling of skeletal fraction (skeletal mass versus whole-body mass) across the entire disparity of amniotes. We use the skeletal fraction to estimate the body mass of P. colossus, which proves to be a contender for the title of heaviest animal on record. Cetacean peak body mass had already been reached around 30 million years before previously assumed, in a coastal context in which primary productivity was particularly high., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

3. Piscivory in a Miocene Cetotheriidae of Peru: first record of fossilized stomach content for an extinct baleen-bearing whale.

Author

Collareta A, Landini W, Lambert O, Post K, Tinelli C, Di Celma C, Panetta D, Tripodi M, Salvadori PA, Caramella D, Marchi D, Urbina M, and Bianucci G

Subjects

Animals, Bone and Bones diagnostic imaging, Fishes classification, Peru, Predatory Behavior, X-Ray Microtomography, Fishes anatomy & histology, Fossils, Gastrointestinal Contents, Whales

Abstract

Instead of teeth, modern mysticetes bear hair-fringed keratinous baleen plates that permit various bulk-filtering predation techniques (from subsurface skimming to lateral benthic suction and engulfment) devoted to various target prey (from small invertebrates to schooling fish). Current knowledge about the feeding ecology of extant cetaceans is revealed by stomach content analyses and observations of behavior. Unfortunately, no fossil stomach contents of ancient mysticetes have been described so far; the investigation of the diet of fossil baleen whales, including the Neogene family Cetotheriidae, remains thus largely speculative. We report on an aggregate of fossil fish remains found within a mysticete skeleton belonging to an undescribed late Miocene (Tortonian) cetotheriid from the Pisco Formation (Peru). Micro-computed tomography allowed us to interpret it as the fossilized content of the forestomach of the host whale and to identify the prey as belonging to the extant clupeiform genus Sardinops. Our discovery represents the first direct evidence of piscivory in an ancient edentulous mysticete. Since among modern mysticetes only Balaenopteridae are known to ordinarily consume fish, this fossil record may indicate that part of the cetotheriids experimented some degree of balaenopterid-like engulfment feeding. Moreover, this report corresponds to one of the geologically oldest records of Sardinops worldwide, occurring near the Tortonian peak of oceanic primary productivity and cooling phase. Therefore, our discovery evokes a link between the rise of Cetotheriidae; the setup of modern coastal upwelling systems; and the radiation of epipelagic, small-sized, schooling clupeiform fish in such highly productive environments.

Published

2015

4. No deep diving: evidence of predation on epipelagic fish for a stem beaked whale from the Late Miocene of Peru.

Author

Lambert O, Collareta A, Landini W, Post K, Ramassamy B, Di Celma C, Urbina M, and Bianucci G

Subjects

Animals, Biological Evolution, Fishes anatomy & histology, Predatory Behavior physiology, Whales physiology, Diving, Fossils, Whales anatomy & histology

Abstract

Although modern beaked whales (Ziphiidae) are known to be highly specialized toothed whales that predominantly feed at great depths upon benthic and benthopelagic prey, only limited palaeontological data document this major ecological shift. We report on a ziphiid-fish assemblage from the Late Miocene of Peru that we interpret as the first direct evidence of a predator-prey relationship between a ziphiid and epipelagic fish. Preserved in a dolomite concretion, a skeleton of the stem ziphiid Messapicetus gregarius was discovered together with numerous skeletons of a clupeiform fish closely related to the epipelagic extant Pacific sardine (Sardinops sagax). Based on the position of fish individuals along the head and chest regions of the ziphiid, the lack of digestion marks on fish remains and the homogeneous size of individuals, we propose that this assemblage results from the death of the whale (possibly via toxin poisoning) shortly after the capture of prey from a single school. Together with morphological data and the frequent discovery of fossil crown ziphiids in deep-sea deposits, this exceptional record supports the hypothesis that only more derived ziphiids were regular deep divers and that the extinction of epipelagic forms may coincide with the radiation of true dolphins., (© 2015 The Author(s).)

Published

2015

5. The giant bite of a new raptorial sperm whale from the Miocene epoch of Peru.

Author

Lambert O, Bianucci G, Post K, de Muizon C, Salas-Gismondi R, Urbina M, and Reumer J

Subjects

Animals, Biological Evolution, Mandible physiology, Peru, Phylogeny, Predatory Behavior physiology, Sperm Whale classification, Sperm Whale physiology, Tooth physiology, Whale, Killer anatomy & histology, Fossils, Mandible anatomy & histology, Sperm Whale anatomy & histology, Tooth anatomy & histology

Abstract

The modern giant sperm whale Physeter macrocephalus, one of the largest known predators, preys upon cephalopods at great depths. Lacking a functional upper dentition, it relies on suction for catching its prey; in contrast, several smaller Miocene sperm whales (Physeteroidea) have been interpreted as raptorial (versus suction) feeders, analogous to the modern killer whale Orcinus orca. Whereas very large physeteroid teeth have been discovered in various Miocene localities, associated diagnostic cranial remains have not been found so far. Here we report the discovery of a new giant sperm whale from the Middle Miocene of Peru (approximately 12-13 million years ago), Leviathan melvillei, described on the basis of a skull with teeth and mandible. With a 3-m-long head, very large upper and lower teeth (maximum diameter and length of 12 cm and greater than 36 cm, respectively), robust jaws and a temporal fossa considerably larger than in Physeter, this stem physeteroid represents one of the largest raptorial predators and, to our knowledge, the biggest tetrapod bite ever found. The appearance of gigantic raptorial sperm whales in the fossil record coincides with a phase of diversification and size-range increase of the baleen-bearing mysticetes in the Miocene. We propose that Leviathan fed mostly on high-energy content medium-size baleen whales. As a top predator, together with the contemporaneous giant shark Carcharocles megalodon, it probably had a profound impact on the structuring of Miocene marine communities. The development of a vast supracranial basin in Leviathan, extending on the rostrum as in Physeter, might indicate the presence of an enlarged spermaceti organ in the former that is not associated with deep diving or obligatory suction feeding.

Published

2010

6. Tusk-Bearing Beaked Whales from the Miocene of Peru: Sexual Dimorphism in Fossil Ziphiids?

Author

Lambert, Olivier, Bianucci, Giovanni, and Post, Klaas

Published

2010

7. A New Beaked Whale (Odontoceti, Ziphiidae) from the Middle Miocene of Peru

Author

Lambert, Olivier, Bianucci, Giovanni, and Post, Klaas

Published

2009

8. A new species of rorqual whale (Cetacea, Mysticeti, Balaenopteridae) from the Late Miocene of the Southern North Sea Basin and the role of the North Atlantic in the paleobiogeography of Archaebalaenoptera.

Author

Bisconti, Michelangelo, Munsterman, Dirk K., Fraaije, René H. B., Bosselaers, Mark E. J., and Post, Klaas

Subjects

PALEOBIOGEOGRAPHY, BALEEN whales, CETACEA, HUMPBACK whale, FOSSILS, PLIOCENE Epoch, FOSSIL hominids

Abstract

Background. The rich fossil record of rorqual and humpback whales (Cetacea, Mysticeti, Balaenopteridae) is mainly characterized by monotypic genera since genera including more than one species are extremely rare. The discovery of new species belonging to known genera would be of great importance in order to better understand ancestor-descendant relationships and paleobiogeographic patterns in this diverse group. Recent discoveries in the southern North Sea Basin yielded a number of reasonably well preserved fossil balaenopterids from the Late Miocene; this sample includes a balaenopterid skull from Liessel, The Netherlands, which shares key characters with Archaebalaenoptera castriarquati from the Pliocene of Mediterranean. This skull is permanently held by Oertijdmuseum, Boxtel, The Netherlands, with the number MAB002286 and is investigated here. Methods. A detailed comparative anatomical analysis of the skull MAB002286 is performed in order to understand its relationships. The age of the skull is determined by dinocyst analysis of the associated sediment. A paleobiogeographic analysis is performed to understand paleobiogeographic patterns within the balaenopterid clade the new skull belongs to. Results. Our work resulted in the description of Archaebalaenoptera liesselensis new species. The geological age of the holotype skull is between 8.1 and 7.5 Ma. The phylogenetic relationships of this species reveals that it is monophyletic with Archaebalaenoptera castriarquati from the Italian Pliocene. Moreover, in combination with a more basal species of Archaebalaenoptera from the late Miocene of Peru, our paleobiogeographic analysis suggests that the North Atlantic ocean played a major role as a center of origin of a number of balaenopterid clades including Protororqualus, Archaebalaenoptera and more advanced balaenopterid taxa. From a North Atlantic center of origin, two dispersal events are inferred that led to the origins of Archaebalaenoptera species in the South Pacific and Mediterranean. The distribution of Archaebalaenoptera was antitropical in the late Miocene. The role played by the Mediterranean salinity crisis is also investigated and discussed. [ABSTRACT FROM AUTHOR]

Published

2020

9. Fossil marine vertebrates of Cerro Los Quesos: Distribution of cetaceans, seals, crocodiles, seabirds, sharks, and bony fish in a late Miocene locality of the Pisco Basin, Peru

Author

Bianucci, Giovanni, Di Celma, Claudio, Collareta, Alberto, Landini, Walter, Post, Klaas, Tinelli, Chiara, Bosio, Giulia, Gariboldi, Karen, Gioncada, Anna, Malinverno, Elisa, Cantalamessa, Gino, Altamirano-Sierra, Ali, Salas-Gismondi, Rodolfo, Urbina, Mario, Lambert, Olivier, Billet, G., Germain, D., Ruf, I., De Muizon, Christian, Hautier, Lionel, Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Università di Pisa - UNIPISA (Pisa, Italy), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), CONISMA, Museo de Historia Natural de Lima (MHN), Universidad Nacional Mayor de San Marcos (UNMSM), Departament de Petrologia, Geoquímica i Prospecció Geològica, Universitat de Barcelona, université de Barcelone, Institut Royal des Sciences Naturelles de Belgique (IRSNB), Paléobiodiversité et paléoenvironnements, Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Bianucci, G, Di Celma, C, Collareta, A, Landini, W, Post, K, Tinelli, C, de Muizon, C, Bosio, G, Gariboldi, K, Gioncada, A, Malinverno, E, Cantalamessa, G, Altamirano Sierra, A, Salas Gismondi, R, Urbina, M, and Lambert, O

Subjects

010506 paleontology, Geography, Planning and Development, Crocodile, Late Miocene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, biology.animal, Pisco Formation, Stratigraphic section, Marine vertebrate, Peru, Earth and Planetary Sciences (miscellaneous), 14. Life underwater, Paleontological heritage, Marine vertebrates, Fossils, Miocene, Peru, 0105 earth and related environmental sciences, fossil, biology, Holotype, Miocene, 15. Life on land, Paleontological heritage, Oceanography, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, marine vertebrates, marine vertebrate, Seabird, fossils, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Geology, Volcanic ash

Abstract

International audience; One-hundred and ninety-two fossil marine vertebrate specimens, preserved as bone elements cropping out at Cerro Los Quesos (Pisco Basin, Peru), are identified and reported on a 1:4,000 scale geological map and in the corresponding stratigraphic section. All the fossils originate from the Pisco Formation, which is dated in this area to the late Miocene (from 7.55 Ma to ≥6.71 Ma, based on 40 Ar/ 39 Ar analyses of three volcanic ash layers along the section). Specimens are particularly concentrated near the top of the two main hills, where the geologically youngest portion of the examined section crops out. The impressive fossil assemblage includes cetaceans (91.6%), represented by mysticetes (balaenopteroids and cetotheriids) and odontocetes (phocoenids, physeteroids, and ziphiids, including the holotype of Nazcacetus urbinai). Seals, a crocodile, a seabird, bony fish, and sharks are also reported. Isolated large teeth of Carcharocles and Cosmopolitodus are common and, in several instances, associated to mysticete skeletons. Together with a similar work recently published for the other late Miocene locality of Cerro Colorado, this work represents a case study for the detailed inventory of the extraordinary paleontological heritage of the Pisco Basin. As such, it constitutes the basis for future taphonomic, paleoecological, and systematic studies, as well as for a much-needed conservation effort. ARTICLE HISTORY

Published

2016

10. A new balaenopterid whale from the late Miocene of the Southern North Sea Basin and the evolution of balaenopterid diversity (Cetacea, Mysticeti).

Author

Bisconti, Michelangelo, Munsterman, Dirk K., and Post, Klaas

Subjects

CETACEA, BALEEN whales, HUMPBACK whale, SKULL morphology, FOSSILS, WHALES

Abstract

Background: Balaenopterid mysticetes represent the most successful family-rank group of this clade. Their evolutionary history is characterized by a rich fossil record but the origin of the living genera is still largely not understood. Recent discoveries in the southern border of the North Sea revealed a number of well preserved fossil balaenopterid whales that may help resolving this problem. In particular, skull NMR 14035 shares morphological characters with the living humpback whale, Megaptera novaeangliae and, for this reason, its characteristics are investigated here. Methods: The comparative anatomical analysis of the new specimen formed the basis of a new phylogenetic analysis of the Mysticeti based on a matrix including 350 morphological character states scored for 82 Operational Taxonomic Units. The stratigraphic age of the specimen was determined based on the analysis of the dinocyst assemblage recovered in the associated sediment. We assessed clade diversity in Balaenopteridae by counting the numbers of clades in given time intervals and then plotted the results. Results: Nehalaennia devossi n. gen. et sp. is described for the first time from the late Tortonian (8.7–8.1 Ma) of the Westerschelde (The Netherlands). This new taxon belongs to Balaenopteridae and shows a surprisingly high number of advanced characters in the skull morphology. Nehalaennia devossi is compared to a large sample of balaenopterid mysticetes and a phylogenetic analysis placed it as the sister group of a clade including the genus Archaebalaenoptera. The inclusion of this fossil allowed to propose a phylogenetic hypothesis for Balaenopteridae in which (1) Eschrichtiidae (gray whales) represents a family of its own, (2) Balaenopteridae + Eschrichtiidae form a monophyletic group (superfamily Balaenopteroidea), (3) Cetotheriidae is the sister group of Balaenopteroidea, (4) living Balaenoptera species form a monophyletic group and (5) living M. novaeangliae is the sister group of Balaenoptera. Our work reveals a complex phylogenetic history of Balaenopteridae and N. devossi informs us about the early morphological transformations in this family. Over time, this family experienced a number of diversity pulses suggesting that true evolutionary radiations had taken place. The paleoecological drivers of these pulses are then investigated. [ABSTRACT FROM AUTHOR]

Published

2019

11. Swimming with Livyatan: a reconstruction of the vertebrate marine fauna that lived with the giant raptorial sperm whale from the Miocene of Peru

Author

Bianucci, Giovanni, Landini, Walter, Post, Klaas, Tinelli, Chiara, Cantalamessa, Gino, Celma, Claudio Di, Gariboldi, Karen, Gioncada, Anna, Malinverno, Elisa, Urbina, M., and Lambert, O.

Subjects

cetaceans, Fossils, Peru, Fossils, cetaceans, sharks, Peru, Miocene, Miocene, sharks

Published

2014

12. Distribution of fossil marine vertebrates in Cerro Colorado, the type locality of the giant raptorial sperm whale Livyatan melvillei (Miocene, Pisco Formation, Peru).

Author

Bianucci, Giovanni, Di Celma, Claudio, Landini, Walter, Post, Klaas, Tinelli, Chiara, de Muizon, Christian, Gariboldi, Karen, Malinverno, Elisa, Cantalamessa, Gino, Gioncada, Anna, Collareta, Alberto, Gismondi, Rodolfo-Salas, Varas-Malca, Rafael, Urbina, Mario, and Lambert, Olivier

Subjects

VERTEBRATE genetics, SPERM whale, BEAKED whales, ANIMAL behavior

Abstract

Hundreds of fossil marine vertebrates cropping out at Cerro Colorado (Pisco Basin, Peru) are identified and reported on a 1:6500 scale geological map and in a joined stratigraphic section. All the fossils are from the lower strata of the Pisco Formation, dated in this area to the late middle or early late Miocene. They are particularly concentrated (88%) in the stratigraphic interval from 40 to 75 m above the unconformity with the underlying Chilcatay Formation. The impressive fossil assemblage includes more than 300 specimens preserved as bone elements belonging mostly to cetaceans (81%), represented by mysticetes (cetotheriids and balaenopteroids) and odontocetes (kentriodontid-like delphinidans, pontoporiids, ziphiids, and physeteroids, including the giant raptorial sperm whaleLivyatan melvillei). Seals, crocodiles, sea turtles, seabirds, bony fish, and sharks are also reported. Isolated large teeth ofCarcharoclesandCosmopolitodusare common throughout the investigated stratigraphical interval, whereas other shark teeth, mostly of carcharinids, are concentrated in one sandy interval. This work represents a first detailed census of the extraordinary paleontological heritage of the Pisco Basin and the basis for future taphonomic, paleoecological, and systematic studies, as well as a much needed conservation effort for this extremely rich paleontological site. [ABSTRACT FROM PUBLISHER]

Published

2016

13. A NEW RECORD OF MESSAPICETUS FROM THE PIETRA LECCESE (LATE MIOCENE, SOUTHERN ITALY): ANTITROPICAL DISTRIBUTION IN A FOSSIL BEAKED WHALE (CETACEA, ZIPHIIDAE).

Author

BIANUCCI, GIOVANNI, COLLARETA, ALBERTO, POST, KLAAS, VAROLA, ANGELO, and LAMBERT, OLIVIER

Subjects

FOSSIL whales, BEAKED whales, FOSSIL cetacea, FOSSIL mammals, FOSSILS, PALEOBIOGEOGRAPHY, PALEONTOLOGY

Abstract

A new partial fossil skeleton of Messapicetus longirostris (Cetacea: Odontoceti: Ziphiidae) collected in Cisterna quarry (Lecce) from Tortonian (upper Miocene) sediments of the "Pietra leccese" is described. It comprises the fragmentary skull (including most of the rostrum), parts of the mandibles, five teeth, the fragmentary right scapula, and one vertebral centrum. This new record, here referred to a juvenile individual, expands our knowledge about the skeletal anatomy of M. longirostris; this species was until now only known by the holotype, an almost complete skull from the same Cisterna quarry. Moreover, the new specimen confirms the distinction between M. longirostris and M. gregarius (late Miocene, Pisco Formation, Peru) based on several osteological characters (e.g., the presence of a distinct maxillary tubercle and prominential notch in the latter species). New dating of layers in Cerro Colorado, the type locality of M. gregarius, suggests that M. longirostris and M. gregarius were contemporaneous sister-species with an antitropical distribution (a biogeographical pattern currently shown by two extant ziphiid genera). Unlike extant ziphiids, feeding predominantly on squid and benthopelagic fish in deep waters, the stem ziphiid M. gregarius was recently proposed to have been a raptorial piscivore who may have fed mainly on schools of epipelagic fish. Similarities at the level of the morphology and proportions of the oral apparatus suggest that the two species of Messapicetus may have occupied roughly identical ecological and trophic niches, a hypothesis supported by the characterization of the Pietra leccese environment as neritic. [ABSTRACT FROM AUTHOR]

Published

2016

14. Beaked whale mysteries revealed by seafloor fossils trawled off South Africa.

Author

Bianucci, Giovanni, Post, Klaas, and Lambert, Olivier

Subjects

*BEAKED whales, *CETACEA, *SPECIES, *FOSSILS, *OCEAN bottom, *OCEAN currents, *MIOCENE stratigraphic geology

Abstract

An unexpectedly large number of well-preserved fossil ziphiid (beaked whale) skulls trawled from the seafloor off South Africa significantly increases our knowledge of this cetacean family. The eight new genera and ten new species more than double the known diversity of fossil beaked whales and represent more than one-third of this family (fossil and extant). A cladistic parsimony analysis based on 18 cranial characters suggested that some of these fossil taxa belong to the three extant ziphiid subfamilies, whereas others might represent extinct ziphiid lineages. Such high fossil ziphiid diversity might be linked to the upwelling system and the resulting high productivity of the Benguela Current, which has been in place and influenced conditions of the shallower waters along the southwest coast of South Africa and Namibia since the Middle Miocene. Both fossil and extant South African beaked whale faunas show a wide range in body size, which is probably related to different dietary niches and to wide exploration of the water column. Moreover, most South African fossil ziphiids share two morphological traits with extant species, which indicates that some of the behaviours associated with these traits had likely already developed during the Neogene: 1) the absence of functional maxillary teeth--providing clear evidence of suction feeding; and 2) the heavy ossification of the rostrum in specimens assumed to represent adult males--a feature which likely helps prevent injury and damage on impact during male-male fighting. [ABSTRACT FROM AUTHOR]

Published

2008