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Papers by Juan Pablo Gailer
The gerenuk (Litocranius) is a remarkable antelope of east Africa. Most striking is its capabilit... more The gerenuk (Litocranius) is a remarkable antelope of east Africa. Most striking is its capability to hold a balanced bipedal posture on remarkably long and robust hind limbs during foraging. This, in combination with an elongated neck, enables the gerenuk to select delicate plant parts among thorns from high bush levels without competition. Many more peculiar allometries related to this unique feeding strategy render the gerenuk profoundly different from other antelopes. This raises interest in the evolutionary history of Litocranius. But although ruminant remains from the Plio-Pleistocene are especially abundant in east Africa, the fossil record hasn’t yielded Litocranius specimens so far, suggesting a relatively recent divergence from its ancestor. Phylogenetic analyses place the gerenuk within gazelles, predominantly intermediate feeders in semi-arid and arid areas of Asia and Africa. Here we report on different aspects of the gerenuk’s dentition and digestive physiology. Within...
Newly colonised, isolated habitats, like islands, provide diverse niches to be filled and are pro... more Newly colonised, isolated habitats, like islands, provide diverse niches to be filled and are prone to facilitate ecological separation which might lead to an adaptive radiation. Examples of such radiations can be found in the Mediterranean for the genera Candiacervus (Crete), Nesogoral (Sardinia) and Hoplitomeryx (Gargano). A different strategy to cope with limited resources on islands is generalism. We test whether populations of the endemic bovid Myotragus balearicus from two sites and Pleistocene as well as Holocene levels on Mallorca island displays ecological separation indicated by diet, or whether the species shifted its dietary trait towards generalism. We expect to find either: (1) dietary divergence in space and time (between sites and stratigraphic levels), which would indicate niche partitioning and/or a shift in dietary traits due to environmental influences; or (2) dietary congruence in a less specialised, generalistic dietary strategy in space and time which would indicate a flexible trait to cope with instable resource availability. We compare individuals from a fossil assemblage at a northern site and one assemblage from the eastern coast in terms of their dietary traits. Traits are reconstructed using dental dietary proxies, complementary in time scale and resolution. (1) 3D-dental topometry and (2) enamel surface texture analysis. Data suggest that individuals from both assemblages of M. balearicus behaved as variable browse dominated intermediate feeders. We thus conclude that the observed variability relates to a shift towards generalism as a subsistence strategy. We consider hypsodonty the pre-adaptation for this life style that enabled M. balearicus to exploit almost any food source in its energetically restricted island habitat.
Journal of Morphology, 2014
Plasticity of tooth shape in mammals is of great adaptive value for the efficient exploitation of... more Plasticity of tooth shape in mammals is of great adaptive value for the efficient exploitation of specific feeding niches and is a crucial mechanism for ecological diversification. In this study, we aimed to infer chewing effectiveness from the functional shape of different postcanine teeth within bovids, the most diverse extant group of large herbivorous mammals. We consider the postcanine dentition as a masticatory unit and test for differences related to food biomechanical properties, dietary abrasiveness, and chewing dynamics. We compare functional properties of the postcanine tooth row among species with well-known dietary strategies by integrating digitalization of highresolution occlusal surface 3D-models of upper postcanine dentitions and quantification of the indentation index (D), a structural parameter representing enamel complexity. We test for differences in the occlusal shape among tooth positions in the postcanine dentition using robust, heteroscedastic tests in a one-way analysis of variance. Our results show three distinct patterns of enamel complexity along the tooth row: (1) D is more homogeneously distributed among tooth positions; (2) D increases gradually in the mesiodistal axis along the tooth row; and (3) D increases abruptly only at the transition between premolars and molars. We interpreted these patterns as different adaptive configurations of the postcanine tooth row relating to diet. Grass-and fruit-eating bovids show the same abrupt increase in enamel complexity at the transition from premolars to molars. Intermediate feeding and leafbrowsing species show the same gradual, mesiodistal increase in complexity along the tooth row. The absolute physical dietary resistance (biomechanical properties plus abrasiveness) and its relation to mechanical constraints of the chewing stroke are the likely selective factors leading to convergence of enamel complexity patterns along the tooth row among taxa with different diets.
Evolution in isolated island has shaped a variety of endemic taxa with outstanding characteristic... more Evolution in isolated island has shaped a variety of endemic taxa with outstanding characteristics. Amongst them is the extinct bovid genus Myotragus, endemic to Mallorca and Menorca Island, for which six succeeding species have been described: M. palomboi, M. pepgonellae, M. antiquus, M. kopperi, M. batei and M. balearicus. Myotragus has developed special cranial and post-cranial adaptations to meet the specific ecological demands of its insular habitat, like progressive dwarfing and fused limb elements. During its evolution, the dentition of Myotragus underwent subsequent changes: firstly a reduction in the number of teeth, and secondly an increase in hypsodonty. The ecological conditions inducing this dental evolution, especially Myotragus’ diet, remain unknown. In this study, methods of 3D-dental topometry, enamel surface texture analysis according to ISO/FDIS 25178-2, and Scale-Sensitive Fractal Analysis (SSFA) are applied in order to infer palaeodiets of M. pepgonellae, M. kopperi, M. batei and M. balearicus, and to test the hypothesis that a dietary change may have occurred in the Myotragus lineage which relates to gradual morphological changes on upper second molars. We detect changes in the enamel/dentin ratio, enamel ridge length and enamel surface area within the lineage. Furthermore, Myotragus balearicus has enamel surface texture characteristics also present in extant browsing ungulates, while the three antecedent Myotragus species show an enamel surface texture signal similar to extant grazers. These results suggest a dietary change and are interpreted as a successive adaptation to limited resources in an isolated, insular environment. They can either be a consequence of a change in plant community structure or a successive expansion of Myotragus’ dietary range due to increased intraspecific competition.
Mammal teeth have evolved morphologies that allow for the efficient mechanical processing of diff... more Mammal teeth have evolved morphologies that allow for the efficient mechanical processing of different foods, therefore increasing dietary energy uptake for maintenance of high metabolic demands. However, individuals masticate foods with biomechanical properties at odds with the optimal function of a given tooth morphology. Here, we investigate tooth form and function using two quantitative 3D methods at different scales on the same individuals of nine bovid species. Dental topometry quantifies the gross morphology, and therefore , reflects evolutionary adaptive patterns. Surface texture analysis infers mechanical occlusal events, which reflect the actual tooth function, and is free from the influence of morphology. We found that tough foods can be satisfactorily exploited by grazing species with enamel ridge morphologies not more complex than those found in intermediate feeders and browsers. Thus, the evolution of enamel complexity is likely determined by a balance between adaptation and constraints. Wider enamel ridges seem to be a common functional trait in bovids to compensate for severe wear from abrasive foods and/or chipping from hard foods. Our results demonstrate that supposedly essential functional adaptations in tooth morphology may not be required to process food efficiently. This emphasizes the large plasticity between Boptimal^ morphology and the potential function of the tooth, and underscores the need to appreciate (apparently) maladap-tive structures in mammalian evolution as nevertheless effective functioning units.
The gerenuk (Litocranius) is a remarkable antelope of east Africa. Most striking is its capabilit... more The gerenuk (Litocranius) is a remarkable antelope of east Africa. Most striking is its capability to hold a balanced bipedal posture on remarkably long and robust hind limbs during foraging. This, in combination with an elongated neck, enables the gerenuk to select delicate plant parts among thorns from high bush levels without competition. Many more peculiar allometries related to this unique feeding strategy render the gerenuk profoundly different from other antelopes. This raises interest in the evolutionary history of Litocranius. But although ruminant remains from the Plio-Pleistocene are especially abundant in east Africa, the fossil record hasn’t yielded Litocranius specimens so far, suggesting a relatively recent divergence from its ancestor. Phylogenetic analyses place the gerenuk within gazelles, predominantly intermediate feeders in semi-arid and arid areas of Asia and Africa. Here we report on different aspects of the gerenuk’s dentition and digestive physiology. Within...
Newly colonised, isolated habitats, like islands, provide diverse niches to be filled and are pro... more Newly colonised, isolated habitats, like islands, provide diverse niches to be filled and are prone to facilitate ecological separation which might lead to an adaptive radiation. Examples of such radiations can be found in the Mediterranean for the genera Candiacervus (Crete), Nesogoral (Sardinia) and Hoplitomeryx (Gargano). A different strategy to cope with limited resources on islands is generalism. We test whether populations of the endemic bovid Myotragus balearicus from two sites and Pleistocene as well as Holocene levels on Mallorca island displays ecological separation indicated by diet, or whether the species shifted its dietary trait towards generalism. We expect to find either: (1) dietary divergence in space and time (between sites and stratigraphic levels), which would indicate niche partitioning and/or a shift in dietary traits due to environmental influences; or (2) dietary congruence in a less specialised, generalistic dietary strategy in space and time which would indicate a flexible trait to cope with instable resource availability. We compare individuals from a fossil assemblage at a northern site and one assemblage from the eastern coast in terms of their dietary traits. Traits are reconstructed using dental dietary proxies, complementary in time scale and resolution. (1) 3D-dental topometry and (2) enamel surface texture analysis. Data suggest that individuals from both assemblages of M. balearicus behaved as variable browse dominated intermediate feeders. We thus conclude that the observed variability relates to a shift towards generalism as a subsistence strategy. We consider hypsodonty the pre-adaptation for this life style that enabled M. balearicus to exploit almost any food source in its energetically restricted island habitat.
Journal of Morphology, 2014
Plasticity of tooth shape in mammals is of great adaptive value for the efficient exploitation of... more Plasticity of tooth shape in mammals is of great adaptive value for the efficient exploitation of specific feeding niches and is a crucial mechanism for ecological diversification. In this study, we aimed to infer chewing effectiveness from the functional shape of different postcanine teeth within bovids, the most diverse extant group of large herbivorous mammals. We consider the postcanine dentition as a masticatory unit and test for differences related to food biomechanical properties, dietary abrasiveness, and chewing dynamics. We compare functional properties of the postcanine tooth row among species with well-known dietary strategies by integrating digitalization of highresolution occlusal surface 3D-models of upper postcanine dentitions and quantification of the indentation index (D), a structural parameter representing enamel complexity. We test for differences in the occlusal shape among tooth positions in the postcanine dentition using robust, heteroscedastic tests in a one-way analysis of variance. Our results show three distinct patterns of enamel complexity along the tooth row: (1) D is more homogeneously distributed among tooth positions; (2) D increases gradually in the mesiodistal axis along the tooth row; and (3) D increases abruptly only at the transition between premolars and molars. We interpreted these patterns as different adaptive configurations of the postcanine tooth row relating to diet. Grass-and fruit-eating bovids show the same abrupt increase in enamel complexity at the transition from premolars to molars. Intermediate feeding and leafbrowsing species show the same gradual, mesiodistal increase in complexity along the tooth row. The absolute physical dietary resistance (biomechanical properties plus abrasiveness) and its relation to mechanical constraints of the chewing stroke are the likely selective factors leading to convergence of enamel complexity patterns along the tooth row among taxa with different diets.
Evolution in isolated island has shaped a variety of endemic taxa with outstanding characteristic... more Evolution in isolated island has shaped a variety of endemic taxa with outstanding characteristics. Amongst them is the extinct bovid genus Myotragus, endemic to Mallorca and Menorca Island, for which six succeeding species have been described: M. palomboi, M. pepgonellae, M. antiquus, M. kopperi, M. batei and M. balearicus. Myotragus has developed special cranial and post-cranial adaptations to meet the specific ecological demands of its insular habitat, like progressive dwarfing and fused limb elements. During its evolution, the dentition of Myotragus underwent subsequent changes: firstly a reduction in the number of teeth, and secondly an increase in hypsodonty. The ecological conditions inducing this dental evolution, especially Myotragus’ diet, remain unknown. In this study, methods of 3D-dental topometry, enamel surface texture analysis according to ISO/FDIS 25178-2, and Scale-Sensitive Fractal Analysis (SSFA) are applied in order to infer palaeodiets of M. pepgonellae, M. kopperi, M. batei and M. balearicus, and to test the hypothesis that a dietary change may have occurred in the Myotragus lineage which relates to gradual morphological changes on upper second molars. We detect changes in the enamel/dentin ratio, enamel ridge length and enamel surface area within the lineage. Furthermore, Myotragus balearicus has enamel surface texture characteristics also present in extant browsing ungulates, while the three antecedent Myotragus species show an enamel surface texture signal similar to extant grazers. These results suggest a dietary change and are interpreted as a successive adaptation to limited resources in an isolated, insular environment. They can either be a consequence of a change in plant community structure or a successive expansion of Myotragus’ dietary range due to increased intraspecific competition.
Mammal teeth have evolved morphologies that allow for the efficient mechanical processing of diff... more Mammal teeth have evolved morphologies that allow for the efficient mechanical processing of different foods, therefore increasing dietary energy uptake for maintenance of high metabolic demands. However, individuals masticate foods with biomechanical properties at odds with the optimal function of a given tooth morphology. Here, we investigate tooth form and function using two quantitative 3D methods at different scales on the same individuals of nine bovid species. Dental topometry quantifies the gross morphology, and therefore , reflects evolutionary adaptive patterns. Surface texture analysis infers mechanical occlusal events, which reflect the actual tooth function, and is free from the influence of morphology. We found that tough foods can be satisfactorily exploited by grazing species with enamel ridge morphologies not more complex than those found in intermediate feeders and browsers. Thus, the evolution of enamel complexity is likely determined by a balance between adaptation and constraints. Wider enamel ridges seem to be a common functional trait in bovids to compensate for severe wear from abrasive foods and/or chipping from hard foods. Our results demonstrate that supposedly essential functional adaptations in tooth morphology may not be required to process food efficiently. This emphasizes the large plasticity between Boptimal^ morphology and the potential function of the tooth, and underscores the need to appreciate (apparently) maladap-tive structures in mammalian evolution as nevertheless effective functioning units.