Numerical anomalies in the dentition of southern fur seals and sea lions ( Pinnipedia : Otariidae )

Cases of dental agenesis, supernumerary teeth and dental losses are presented in three species of South American Otariids: Arctocephalus australis (Zimmermann, 1783), A. tropicalis (Gray, 1872) and Otaria flavescens (Shaw, 1800). For the first time, congenital and acquired dental anomalies were comparatively diagnosed in skull samples from southern Brazil and nearby areas. The skulls and mandibles were accessed in the scientific collection of mammals of the Federal University of Santa Catarina, southern Brazil. Agenesis was found only among maxillary post-canine teeth, especially the distal ones (PC/6), due to an evolutionary trend towards reduction of the number of post-canine teeth in this family. Maxillary and mandibular supernumerary teeth were found in A. australis and A. tropicalis, but their positioning is unrelated to cases regarding phylogenetic and evolutionary implications. Dental losses were found in all species and different stages of alveolar obliteration suggest that this process is common in Otariids and does not affect their survival. The investigation of congenital and acquired dental anomalies in pinnipeds can provide information on dental formula evolution in Pinnipeds and in the phylogenetic relationships among Carnivora.

Teeth are a valuable source of information in studies of mammalian biology, supplying data on the feeding habits, phylogenetic relationships among species, and estimations of age (HOFF & HOFF 1996).The occurrences and implications of dental anomalies in mammals play a major role in studies of comparative osteology, although dental anomalies are still poorly elucidated in otariids.
The first records of numerical anomalies in the Otariidae were published for Callorhinus ursinus (Linnaeus, 1758) and Eumetopias jubatus (Schreber, 1776) (CHIASSON 1955, KUBOTA & TOGAWA 1964), two species from the northern hemisphere.Evolutionary and phylogenetic implications of dental anomalies in pinnipeds were first studied by KUBOTA & TOGAWA (1964) and later by LOUGHLIN (1982).
Although some inventories were published on several Otariidae and Phocidae species from the northern hemisphere (KÖNEMANN & VAN BREE 1997, ABBOTT & VERSTRAETE 2005, CRUWYS & FRIDAY 2006), such inventories from the southern hemisphere were not available until some reports were published considering the ecological and evolutionary context of dental anomalies and pathologies in Arctocephalus G. Saint-Hilaire & Cuvier, 1826 and Otaria Peron, 1816 specimens from Brazil (southern Rio Grande do Sul), Uruguay andArgentina (DREHMER &FERIGOLO 1996, DREHMER et al. 2004).
This paper evaluates numerical anomalies in the dentition of the Otariids Arctocephalus australis (Zimmermann, 1783), Arctocephalus tropicalis (Gray, 1872) and Otaria flavescens (Shaw, 1800) from Southern Brazil and nearby areas, considering anomalies that are both congenital (departures from the typical number of teeth) and acquired in life.

SHORT COMMUNICATION
Numerical anomalies in the dentition of southern fur seals and sea lions (Pinnipedia: Otariidae)  (1996).Age categories (young, subadult and adult) were determined through the stage of closure of cranial sutures and by the condilobasal length (SIMÕES-LOPES et al. 1995, DREHMER & FERIGOLO 1997).The evaluation of numerical anomalies was obtained through macroscopic analysis of the syncranium, regarding cases of extra teeth and dental agenesis.
Cases of dental losses in life due to trauma or pathologies were also examined.These cases are characterized by the porosity and irregularity of the bony tissue as a consequence of alveolar resorption, in contrast with the absence of alveoli in the typical cases of dental agenesis (VILÀ et al. 1993, DREHMER & FERIGOLO 1996).
Cases of dental agenesis and supernumerary teeth were registered only in post-canine teeth.Dental agenesis was registered in four specimens of A. australis in the maxillary teeth, in

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Mandibular supernumerary teeth (A.australis: UFSC 1274, adult male; A. tropicalis: UFSC 1342, adult female): in UFSC 1274 two small alveoli were observed with little depth and a single alveolar cavity labially displaced between PC/4 and PC/ 5 of both jaws, characterizing a case of symmetrical supernumerary teeth (Fig. 6).Although these teeth were possibly lost during the process of preparation and cleaning of the skull, the pair of alveoli indicated their existence.In UFSC 1342 the existence of supernumerary alveolus was observed between PC/ 3 and PC/4 of the left jaw, smaller in size and oriented to the labial side of the dental row (Fig. 7).
In the specimen UFSC 1017, the partial closure of the lower left post-canine alveolus of PC/5 indicated its previous loss (Fig. 8).In UFSC 1132 we observed the loss of teeth and posterior partial closure of the lower right PC/1 and PC/2.The same situation was observed in UFSC 1323 with upper right PC/5 and PC/6 (Fig. 9).In the specimen UFSC 1228, the closure of upper left PC/5 was almost complete, with minimal traces of its existence.This indicates that the loss probably occurred in the juvenile stage of its life.
In UFSC 1171 there was a multiple loss of lower right PC/ 1, of lower left PC/1, PC/3 and PC/4, and of all incisives, with subsequent partial closure of post-canine alveoli and almost complete resorption of alveolar incisives (Fig. 10).With the partial closure of two consecutive alveoli (PC/3 and 4), the porous bony tissue has become shared between the two alveoli.
Variation in the biological sense comprises differences of any kind, mainly morphological, which exists between individuals of the same species, implying in deviation from a mean or a 'norm'.When the difference is slight, it can be considered a 'normal variation'.On the other hand, when the deviations are more gross and uncommon among individuals, they are considered anomalies (MILES & GRIGSON 1990).As dental formula in mammal orders and genera are quite conserved and well established (NOVACEK 1986), the numerical variation here reported are interpreted as typical cases of dental anomalies.
The dentition of pinnipeds is, in general, considered unstable and liable to variation, mainly in number (KUBOTA & TOGAWA 1964).Dental agenesis in South American Otariids has already been investigated in A. australis and A. tropicalis and in O. flavescens (MILES & GRIGSON 1990, DREHMER & FERIGOLO 1996, DREHMER et al. 2004).According to the authors concerned, the absence of teeth, particularly of the most posterior ones such as PC/5 and PC/6, represents a trend towards reduction of the postcanine teeth in Otariids.Taking into consideration the four cases diagnosed in our study, three of them are related to the absence of PC/6 (two of them are cases of symmetrical agenesis of both PC/6), corroborating this hypothesis.The PC/1 agenesis found in UFSC 1113 is an uncommon case of dental reduction and possibly the first record of this dental anomaly in Otariidae.
According to CHIASSON (1957), the reduction and loss of PC/6 in Callorhinus ursinus occurs due to an evolutionary specialization.Considering that the simplification in shape and the simultaneous reduction in size of a tooth always precede its loss (WOLSAN 1984), the simplified dentition of Otariids must be in a process of numerical reduction along the evolution, but we should not discard the natural variability of the dentition in this group.The process of shortening of the molarization field of the upper jaw was already observed in other Carnivora, such as foxes and some canides, and may represent a trend for this group (SZUMA 1999).
Supernumerary teeth in Otariids possibly represent a reversion to the primitive dentition of terrestrial carnivores, according to the phylogenetic relationships of Pinnipeds (DREHMER & FERIGOLO 1996, DREHMER et al. 2004, CRUWYS & FRIDAY 2006).DREHMER et al. (2004) reported supernumerary teeth in mandibular PC/6, which represents the atavic reappearance of the lower second molar in some specimens of O. flavescens, reconstructing the origins of Pinnipedimorpha evolution in the Oligo/Miocene (BERTA & WYSS 1994, DREHMER et al. 2004).The simultaneous occurrence of two supernumerary teeth between the mandibular PC/4 and PC/5 in A. australis and of one supernumerary between PC/3 and 4 in A. tropicalis seems to be unrelated with atavism.Possibly, these cases are related to mutation or changes in the genetic control of tooth development, without relevant phylogenetic implications (WOLSAN 1984, SZUMA 1999, MILETICH & SHARPE 2003).
Maxillary supernumerary teeth have been described in Otariid species in different positions (MILES & GRIGSON 1990, DREHMER & FERIGOLO 1996, DREHMER et al. 2004, ABBOTT & VERSTRAETE 2005).As no pinniped ancestor has more than four pre-molars and two molars, totalizing the six post-canine teeth (DREHMER et al. 2004), the appearance of maxillary supernumerary teeth in A. tropicalis also does not seem to have any evolutionary or phylogenetic implication.
The reduced size of alveoli and the simplification in shape of the supernumerary teeth observed in this study suggests that they are also typical cases of microdontia, a developmental anomaly already recorded in several mammals (FELDHAMER & STOBER 1993, HOFF & HOFF 1996), although most of the published records are related to humans (e.g.BROOK 1984).Microdont teeth (reduced in size and simplified in shape) have also been recorded in O. flavescens (DREHMER et al. 2004).The appearance of small and cylindrical supernumerary teeth may be caused by the split of some tissue fragment from a tooth germ, originating extra teeth simplified in shape and size (SZUMA 1999).
According to LOUGHLIN (1982), it is plausible that cases of agenesis and supernumerary teeth have an expressionless functional result and that they are morphologically irrelevant to Pinnipeds, considering a trend towards homodonty in the postcanine teeth and their doubtful effectiveness in mastication (MILLER et al. 2007).
The loss of teeth in life is considered to be relatively common in pinnipeds (CHIASSON 1957, DREHMER & FERIGOLO 1996).When a tooth is lost and is not subsequently replaced, the alveolus is filled with bony tissue of porous consistency during the process of alveolar resorption or reossification (VILÀ et al. 1993).The alveolus from which a tooth has been lost becomes shallow and shows clear signs of increase in vascular foramens, as a consequence of the alveolar periosteum reaction (VERSTRAETE et al. 1996).
Loss of teeth in life in pinnipeds occurs due to traumas suffered during defense of territory or while feeding, as well as by complications originating in pathologies such as periodontitis or periapical lesions (DREHMER & FERIGOLO 1996, BRAUNN & FERIGOLO 2004).The fact that in this study these losses were recorded only in adult males reinforces the importance of intraspecific combat on the occurrence of these anomalies.The ingestion of gastroliths by O. flavescens (DREHMER & OLIVEIRA 2003) could also be a cause of dental loss, but it is less plausible that they are mainly responsible for these anomalies, as dental loss also occurs in species that do not ingest gastroliths (as in both species of Arctocephalus), and the ingestion seems to be intentional (DREHMER & FERIGOLO 1996, BRAUNN & FERIGOLO 2004).Post-canine teeth were lost and the alveoli reossify with higher frequency than other teeth in the three species evaluated in this study, although we had observed some cases of alveolar resorption of incisives in O. flavescens.
According to VILÀ et al. (1993), a great percentage of wolves -Canis lupus Linnaeus, 1758 -, truly masticating carnivores, survived for many years despite the dental losses diagnosed, suggesting that this process is not determinant for the survival of populations in this species.The observation of alveoli in different stages of resorption in the Otariids analyzed by this study agrees with this hypothesis, providing evidence that the loss of teeth and its posterior reossification occurs in different life stages of the animals.

Carolina Loch 1, 3 ; Paulo C. Simões-Lopes 1 & César J. Drehmer 2
the number of post-canine teeth in this family.Maxillary and mandibular supernumerary teeth were found in A. australis and A. tropicalis, but their positioning is unrelated to cases regarding phylogenetic and evolutionary implications.Dental losses were found in all species and different stages of alveolar obliteration suggest that this process is common in Otariids and does not affect their survival.The investigation of congenital and acquired dental anomalies in pinnipeds can provide information on dental formula evolution in Pinnipeds and in the phylogenetic relationships among Carnivora.KEY WORDS.Arctocephalus australis; A. tropicalis; dental agenesis; Otaria flavescens; southern Brazil; supernumerary teeth.ZOOLOGIA 27 (3): 477-482, June, 2010 mens were accessed in the scientific collection of mammals of the Departamento de Ecologia e Zoologia, Universidade Federal de Santa Catarina, under the anacronym UFSC (see Appendix).Skulls were prepared according to DREHMER & FERIGOLO