The Experts below are selected from a list of 405 Experts worldwide ranked by ideXlab platform
Steven H Ferguson - One of the best experts on this subject based on the ideXlab platform.
-
Phylogeny and divergence of the pinnipeds (Carnivora: Mammalia) assessed using a multigene dataset
BMC Evolutionary Biology, 2007Co-Authors: Jeff W Higdon, Olaf Rp Bininda-emonds, Robin Md Beck, Steven H FergusonAbstract:Background Phylogenetic comparative methods are often improved by complete phylogenies with meaningful branch lengths (e.g., divergence dates). This study presents a dated molecular supertree for all 34 world pinniped species derived from a weighted matrix representation with parsimony (MRP) supertree analysis of 50 gene trees, each determined under a maximum likelihood (ML) framework. Divergence times were determined by mapping the same sequence data (plus two additional genes) on to the supertree topology and calibrating the ML branch lengths against a range of fossil calibrations. We assessed the sensitivity of our supertree topology in two ways: 1) a second supertree with all mtDNA genes combined into a single source tree, and 2) likelihood-based supermatrix analyses. Divergence dates were also calculated using a Bayesian relaxed molecular clock with rate autocorrelation to test the sensitivity of our supertree results further. Results The resulting phylogenies all agreed broadly with recent molecular studies, in particular supporting the monophyly of Phocidae, Otariidae, and the two phocid subfamilies, as well as an Odobenidae + Otariidae sister relationship; areas of disagreement were limited to four more poorly supported regions. Neither the supertree nor supermatrix analyses supported the monophyly of the two traditional otariid subfamilies, supporting suggestions for the need for taxonomic revision in this group. Phocid relationships were similar to other recent studies and deeper branches were generally well-resolved. Halichoerus grypus was nested within a paraphyletic Pusa , although relationships within Phocina tend to be poorly supported. Divergence date estimates for the supertree were in good agreement with other studies and the available fossil record; however, the Bayesian relaxed molecular clock divergence date estimates were significantly older. Conclusion Our results join other recent studies and highlight the need for a re-evaluation of pinniped taxonomy, especially as regards the subfamilial classification of otariids and the generic nomenclature of Phocina. Even with the recent publication of new sequence data, the available genetic sequence information for several species, particularly those in Arctocephalus , remains very limited, especially for nuclear markers. However, resolution of parts of the tree will probably remain difficult, even with additional data, due to apparent rapid radiations. Our study addresses the lack of a recent pinniped phylogeny that includes all species and robust divergence dates for all nodes, and will therefore prove indispensable to comparative and macroevolutionary studies of this group of carnivores.
-
phylogeny and divergence of the pinnipeds carnivora mammalia assessed using a multigene dataset
BMC Evolutionary Biology, 2007Co-Authors: Jeff W Higdon, Robin Md Beck, Olaf R P Binindaemonds, Steven H FergusonAbstract:Phylogenetic comparative methods are often improved by complete phylogenies with meaningful branch lengths (e.g., divergence dates). This study presents a dated molecular supertree for all 34 world pinniped species derived from a weighted matrix representation with parsimony (MRP) supertree analysis of 50 gene trees, each determined under a maximum likelihood (ML) framework. Divergence times were determined by mapping the same sequence data (plus two additional genes) on to the supertree topology and calibrating the ML branch lengths against a range of fossil calibrations. We assessed the sensitivity of our supertree topology in two ways: 1) a second supertree with all mtDNA genes combined into a single source tree, and 2) likelihood-based supermatrix analyses. Divergence dates were also calculated using a Bayesian relaxed molecular clock with rate autocorrelation to test the sensitivity of our supertree results further. The resulting phylogenies all agreed broadly with recent molecular studies, in particular supporting the monophyly of Phocidae, Otariidae, and the two phocid subfamilies, as well as an Odobenidae + Otariidae sister relationship; areas of disagreement were limited to four more poorly supported regions. Neither the supertree nor supermatrix analyses supported the monophyly of the two traditional otariid subfamilies, supporting suggestions for the need for taxonomic revision in this group. Phocid relationships were similar to other recent studies and deeper branches were generally well-resolved. Halichoerus grypus was nested within a paraphyletic Pusa, although relationships within Phocina tend to be poorly supported. Divergence date estimates for the supertree were in good agreement with other studies and the available fossil record; however, the Bayesian relaxed molecular clock divergence date estimates were significantly older. Our results join other recent studies and highlight the need for a re-evaluation of pinniped taxonomy, especially as regards the subfamilial classification of otariids and the generic nomenclature of Phocina. Even with the recent publication of new sequence data, the available genetic sequence information for several species, particularly those in Arctocephalus, remains very limited, especially for nuclear markers. However, resolution of parts of the tree will probably remain difficult, even with additional data, due to apparent rapid radiations. Our study addresses the lack of a recent pinniped phylogeny that includes all species and robust divergence dates for all nodes, and will therefore prove indispensable to comparative and macroevolutionary studies of this group of carnivores.
Edward H Miller - One of the best experts on this subject based on the ideXlab platform.
-
bacular size growth and allometry in the largest extant otariid the steller sea lion eumetopias jubatus
Journal of Mammalogy, 2000Co-Authors: Edward H Miller, Kenneth W Pitcher, Thomas R. LoughlinAbstract:Bacula are relatively small in terrestrially mating species of pinnipeds (otariids and elephant seals, Mirounga), perhaps reflecting adaptive size reduction to minimize bacular fracture. Fur seals and sea lions (Otariidae) are a good group with which to investigate this question, because most species copulate solely on land and body size varies interspecifically. We studied bacular size and relative growth in the largest extant otariid, the Steller sea lion (Eumetopias jubatus). Bacula roughly tripled in length and increased 30-fold in mass between 1 and 8 years of age. Allometric relationships changed over development; bacular length and mass changed from being initially positively allometric to body length to negatively allometric and isometric, respectively; bacular mass and thickness were positively allometric to body length throughout life, and apical growth was isometric then was positively allometric to bacular length. In adults ( .7 years of age), bacula averaged 18.1 cm length (6.2% of body length), 36.7 g mass, and 2.02 g/cm density (mass : length). The baculum of Eumetopias is about the same length relative to body length as in other adult male otariids but is about twice the density, presumably to increase strength. Information on small or aquatically mating species of otariid are needed to extend our findings and interpretations.
-
bacular and testicular growth and allometry in the cape fur seal arctocephalus p pusillus Otariidae
Marine Mammal Science, 2000Co-Authors: W. H. Oosthuizen, Edward H MillerAbstract:The baculum in Arctocephalus p. pusillus reaches up to 14.1 cm in length, 13.5 g in mass, and 1.3 g/cm in density (= mass/length). A pubertal growth spurt occurs between 2 and 3 yr of age, when bacular length increases by 28%, mass by 124%, and density by 77%; concurrently, body length increases by 14%. A second, weaker spurt occurs at social maturity (9-10 yr of age). Testes grow most rapidly between 1 and 2 yr of age, when testicular length increases by 29%. After 3 yr of age, growth in bacular and testicular length slows, and bacular mass continues to increase approximately linearly. Bacular and testicular lengths average 6.8% and 3.4% (respectively) of body length in adults, compared with 9.9% and 5.7% in the promiscuous harp seal (Pagophilus groenlandicus). Bacular length, mass, and density, and testicular length, are positively allometric to body length over growth; bacular length is isometric to testicular length. Among animals of the same age, bacular length and mass are positively allometric to body length in young animals, with negative allometry or isometry thereafter; testicular length is isometric to body length in young animals and negatively allometric thereafter. Patterns of early growth and allometry of the baculum and testes are interpreted as adaptations for mating opportunities, years before territoriality is possible. The baculum and testes of adult Cape fur seals and other otariids are small compared with those of most phocids, because sperm competition among male otariids is weak.
W. H. Oosthuizen - One of the best experts on this subject based on the ideXlab platform.
-
morphology and distribution of sweat glands in the cape fur seal arctocephalus pusillus pusillus carnivora Otariidae
Australian Journal of Zoology, 2005Co-Authors: L S Rotherham, Marthán N Bester, M. Van Der Merwe, W. H. OosthuizenAbstract:The present study examined whether sweat glands are present in the skin of the Cape fur seal, Arctocephalus pusillus pusillus. Sweat glands have an important role in thermoregulation; the presence or absence of sweat glands in the fur-covered and naked skin areas of the Cape fur seal was investigated using standard histological procedures and light and scanning electron microscopy. Sweat glands were present in both fur-covered and naked skin areas. The skin layers in the naked skin areas were thicker than those in the fur-covered areas, presumably to protect them against abrasions in the absence of hair. The density of apocrine sweat glands did not differ among the body regions; however, both apocrine and eccrine sweat glands were larger in naked skin areas than in fur-covered areas. This increased size of the glands suggests a more active role for the glands in the naked skin areas, and a higher heat-loss capability through evaporative cooling in these body regions.
-
bacular and testicular growth and allometry in the cape fur seal arctocephalus p pusillus Otariidae
Marine Mammal Science, 2000Co-Authors: W. H. Oosthuizen, Edward H MillerAbstract:The baculum in Arctocephalus p. pusillus reaches up to 14.1 cm in length, 13.5 g in mass, and 1.3 g/cm in density (= mass/length). A pubertal growth spurt occurs between 2 and 3 yr of age, when bacular length increases by 28%, mass by 124%, and density by 77%; concurrently, body length increases by 14%. A second, weaker spurt occurs at social maturity (9-10 yr of age). Testes grow most rapidly between 1 and 2 yr of age, when testicular length increases by 29%. After 3 yr of age, growth in bacular and testicular length slows, and bacular mass continues to increase approximately linearly. Bacular and testicular lengths average 6.8% and 3.4% (respectively) of body length in adults, compared with 9.9% and 5.7% in the promiscuous harp seal (Pagophilus groenlandicus). Bacular length, mass, and density, and testicular length, are positively allometric to body length over growth; bacular length is isometric to testicular length. Among animals of the same age, bacular length and mass are positively allometric to body length in young animals, with negative allometry or isometry thereafter; testicular length is isometric to body length in young animals and negatively allometric thereafter. Patterns of early growth and allometry of the baculum and testes are interpreted as adaptations for mating opportunities, years before territoriality is possible. The baculum and testes of adult Cape fur seals and other otariids are small compared with those of most phocids, because sperm competition among male otariids is weak.
Cleopatra Mara Loza - One of the best experts on this subject based on the ideXlab platform.
-
Evolutionary transformations of the malleus in pinnipeds, with emphasis on Southern Hemisphere taxa
Contributions to Zoology, 2018Co-Authors: Cleopatra Mara Loza, Oliver Reutimann, Marcelo R. Sánchez-villagra, Alfredo Armando Carlini, Gabriel Aguirre-fernándezAbstract:The systematic value of the middle-ear ossicles, in particular the malleus, has been long recognized for diverse groups. We present systematic work on the characters of the middle-ear ossicles of pinnipeds, focusing on until now poorly studied Southern Hemisphere species. Mallei were extracted from 16 specimens of pinnipeds belonging to five austral and one boreal species of Phocidae and two austral species of Otariidae. Several characters used in this study have been described previously, and some were here modified. Three new characters are here defined and analysed. All characters were mapped onto the phylogeny. Our character analysis shows the transformations that have occurred in the evolution of middle ear ossicles in pinnipeds and identifies diagnostic features of many of its clades. Beyond the identification of specific changes within eachclade, our study of pinniped ossicle evolution documents the occurrence of anatomical convergences with other groups of mammals that live in an aquatic environment, as has occurred in other organ systems as well.
-
the tympanic region of otaria byronia Otariidae carnivora morphology ontogeny age classes and dimorphism
Journal of Anatomy, 2018Co-Authors: Cleopatra Mara Loza, Leopoldo Hector Soibelzon, Javier Negrete, Alejo Carlos Scarano, Fernando Carlos Galliari, Alfredo A CarliniAbstract:Fil: Loza, Cleopatra Mara. Universidad Nacional de la Plata. Facultad de Ciencias Naturales y Museo. Division Paleontologia Vertebrados; Argentina. Consejo Nacional de Investigaciones Cientificas y Tecnicas; Argentina
-
determinacion de edades en Otariidae y phocidae carnivora sobre piezas dentarias tecnicas alternativas
Revista del Museo de La Plata, 2016Co-Authors: Cleopatra Mara Loza, Bárbara A. Tarnawski, M E Del Corrro, Leopoldo Hector Soibelzon, Javier Negrete, Martín Ricardo CiancioAbstract:The periodic depositing of layers of cement and dentine on the mammal’s teeth it is very useful to determine the absolute age. The different events produced during the life cycle as moult, sexual maturity, nursing and feeding are reflected on the amount and type of cement and dentine deposits on the teeth. The aim of this contribution is to determine through the application of different techniques the age of specimens of Phocidae and Otariidae (Mammalia) housed on different collections in Argentina; in order to compare the results obtained with the use of different techniques and to incorporate a crucial datum to each studied specimen. The different techniques were tested, improved and then were performed on 335 specimens of Arctocephalus gazella, Arctocephalus australis, Otaria byronia, Mirounga leonina, Leptonychotes weddellii, Lobodon carcinophagus e Hydrurga leptonyx . The techniques used were: root external rings counting, dentine and cement line counting, both undecalsified as decalsified. Our results showed that not all techniques are effective for all species and for all teeth, effectiveness depends i.e. on the teeth size, on the way on the cement is deposited. Finally, we recommend which techniques are more effective for each species. The external ring and dentine line counting techniques with and without decalsification are more suitable for Arctocephalus , the dentine line counting by decalsification is recommendable for O. byronia, while in focids is better to used the line cements counting with previuos decalcificaction in postcanines.
Michael Buckley - One of the best experts on this subject based on the ideXlab platform.
-
collagen fingerprinting and the earliest marine mammal hunting in north america
Scientific Reports, 2018Co-Authors: Courtney A Hofman, Torben C Rick, Leslie Reedermyers, Jon M. Erlandson, Andreanna J Welch, Michael BuckleyAbstract:The submersion of Late Pleistocene shorelines and poor organic preservation at many early archaeological sites obscure the earliest effects of humans on coastal resources in the Americas. We used collagen fingerprinting to identify bone fragments from middens at four California Channel Island sites that are among the oldest coastal sites in the Americas (~12,500-8,500 cal BP). We document Paleocoastal human predation of at least three marine mammal families/species, including northern elephant seals (Mirounga angustirostris), eared seals (Otariidae), and sea otters (Enhydra lutris). Otariids and elephant seals are abundant today along the Pacific Coast of North America, but elephant seals are rare in late Holocene (<1500 cal BP) archaeological sites. Our data support the hypotheses that: (1) marine mammals helped fuel the peopling of the Americas; (2) humans affected marine mammal biogeography millennia before the devastation caused by the historic fur and oil trade; and (3) the current abundance and distribution of recovering pinniped populations on the California Channel Islands may mirror a pre-human baseline.
-
Collagen Fingerprinting and the Earliest Marine Mammal Hunting in North America
Scientific Reports, 2018Co-Authors: Courtney A Hofman, Torben C Rick, Jon M. Erlandson, Andreanna J Welch, Leslie Reeder-myers, Michael BuckleyAbstract:The submersion of Late Pleistocene shorelines and poor organic preservation at many early archaeological sites obscure the earliest effects of humans on coastal resources in the Americas. We used collagen fingerprinting to identify bone fragments from middens at four California Channel Island sites that are among the oldest coastal sites in the Americas (~12,500-8,500 cal BP). We document Paleocoastal human predation of at least three marine mammal families/species, including northern elephant seals ( Mirounga angustirostris ), eared seals (Otariidae), and sea otters ( Enhydra lutris ). Otariids and elephant seals are abundant today along the Pacific Coast of North America, but elephant seals are rare in late Holocene (
