Browsing by Author "Martinez, Felipe I."
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- A missing piece of the Papio puzzle: Gorongosa baboon phenostructure and intrageneric relationshipsPublication . Martinez, Felipe I.; Capelli, Cristian; Ferreira da Silva, Maria J.; Aldeias, Vera; Alemseged, Zeresenay; Archer, William; Bamford, Marion; Biro, Dora; Bobe, Rene; Braun, David R.; Habermann, Jörg M.; Luedecke, Tina; Madiquida, Hilario; Mathe, Jacinto; Negash, Enquye; Paulo, Luis M.; Pinto, Maria; Stalmans, Marc; Tata, Frederico; Carvalho, SusanaMost authors recognize six baboon species: hamadryas (Papio hamadryas), Guinea (Papio papio), olive (Papio anubis), yellow (Papio cynocephalus), chacma (Papio ursinus), and Kinda (Papio kindae). However, there is still debate regarding the taxonomic status, phylogenetic relationships, and the amount of gene flow occurring between species. Here, we present ongoing research on baboon morphological diversity in Gorongosa National Park (GNP), located in central Mozambique, south of the Zambezi River, at the southern end of the East African Rift System. The park exhibits outstanding ecological diversity and hosts more than 200 baboon troops. Gorongosa National Park baboons have previously been classified as chacma baboons (P. ursinus). In accordance with this, two mtDNA samples from the park have been placed in the same mtDNA Glade as the northern chacma baboons. However, GNP baboons exhibit morphological features common in yellow baboons (e.g., yellow fur color), suggesting that parapatric gene flow between chacma and yellow baboons might have occurred in the past or could be ongoing. We investigated the phenostructure of the Gorongosa baboons using two approaches: 1) description of external phenotypic features, such as coloration and body size, and 2) 3D geometric morphometric analysis of 43 craniofacial landmarks on 11 specimens from Gorongosa compared to a pan-African sample of 352 baboons. The results show that Gorongosa baboons exhibit a mosaic of features shared with southern P. cynocephalus and P. ursinus griseipes. The GNP baboon phenotype fits within a geographic clinal pattern of replacing allotaxa. We put forward the hypothesis of either past and/or ongoing hybridization between the gray-footed chacma and southern yellow baboons in Gorongosa or an isolation-by-distance scenario in which the GNP baboons are geographically and morphologically intermediate. These two scenarios are not mutually exclusive. We highlight the potential of baboons as a useful model to understand speciation and hybridization in early human evolution. (C) 2019 Elsevier Ltd. All rights reserved.
- Gorongosa by the sea: First Miocene fossil sites from the Urema Rift, central Mozambique, and their coastal paleoenvironmental and paleoecological contextsPublication . Habermann, Jörg M.; Alberti, Matthias; Aldeias, Vera; Alemseged, Zeresenay; Archer, Will; Bamford, Marion; Biro, Dora; Braun, David R.; Capelli, Cristian; Cunha, Eugenia; da Silva, Maria Ferreira; Luedecke, Tina; Madiquida, Hilario; Martinez, Felipe I.; Mathe, Jacinto; Negash, Enquye; Paulo, Luis M.; Pinto, Maria; Stalmans, Marc; Regala, Frederico Tata; Wynn, Jonathan G.; Bobe, Rene; Carvalho, SusanaThe East African Rift System (EARS) has played a central role in our understanding of human origins and vertebrate evolution in the late Cenozoic of Africa. However, the distribution of fossil sites along the rift is highly biased towards its northern extent, and the types of paleoenvironments are primarily restricted to fluvial and lacustrine settings. Here we report the discovery of the first fossil sites from the Urema Rift at Gorongosa National Park (central Mozambique) at the southern end of the EARS, and reconstruct environmental contexts of the fossils. In situ and surface fossils from the lower member of the Mazamba Formation, estimated to be of Miocene age, comprise mammals, reptiles, fishes, invertebrates, palms, and dicot trees. Fossil and geological evidence indicates a coastal-plain paleoenvironmental mosaic of riverine forest/woodland and estuarine habitats that represent the first coastal biomes identified in the Neogene EARS context. Receiving continental sediment from source terranes west of today's Urema Graben, estuarine sequences accumulated prior to rifting as compound incised-valley fills on a low-gradient coastal plain following transgression. Modern environmental analogues are extremely productive habitats for marine and terrestrial fauna, including primates. Thus, our discoveries raise the possibility that the Miocene coastal landscapes of Gorongosa were ecologically-favorable habitats for primates, providing relatively stable maritime climate and ecosystem conditions, year-round freshwater availability, and food both from terrestrial and marine sources. The emerging fossil record from Gorongosa is beginning to fill an important gap in the paleobiogeography of Africa as no fossil sites of Neogene age have previously been reported from the southernmost part of the EARS. Furthermore, this unique window into past continental-margin ecosystems of central Mozambique may allow us to test key paleobiogeographic hypotheses during critical periods of primate evolution.
- Primate adaptations and evolution in the Southern African Rift ValleyPublication . Bobe, Rene; Martinez, Felipe I.; Carvalho, SusanaGorongosa National Park in central Mozambique offers an unparalleled setting for the study of primate adaptations to complex and highly dynamic environments. Located at the southern end of the East African Rift System, Gorongosa hosts a mosaic of forests, woodlands, grasslands, swamps, rivers, and a major lake, Lake Urema, which fluctuates extensively with the seasonal cycles (Figures 1 and 2).1 Renowned biologist E. O. Wilson has described Gorongosa as “ecologically the most diverse park in the world.” 2 The park is home to five species of nonhuman primates, among them 219 troops of baboons,3 whose phenotypic diversity suggests an extended history of admixture between chacmas (Papio ursinus) and yellow baboons (Papio cynocephalus) (Figure 3).4 With its dynamic mix of environments in the African Rift Valley, and highly adaptable primates, Gorongosa brings to mind the vegetation mosaics in which Pliocene and Pleistocene hominins evolved
- West side story: regional inter‐troop variation in baboon bark‐stripping at gorongosa national park, MozambiquePublication . Biro, Dora; Muschinski, Jana; Hammond, Philippa; Bobe, René; Bamford, Marion K.; Capelli, Cristian; de Oliveira Coelho, João; Farassi, Rassina; Lüdecke, Tina; Martinez, Felipe I.; Silva, Maria Joana Ferreira; Carvalho, Susana; Mathe, JacintoObjectives: Baboons possess sophisticated physical and social cognitive abilities; hence, the lack of evidence to date of largescale behavioral variation in these primates is puzzling. Here we studied a candidate for such variation—the stripping of bark from Acacia robusta trees for consumption of the sap and soft tissue underneath—in Gorongosa National Park, Mozambique. Materials and Methods: We surveyed an area inhabited by ~60 troops of chacma baboons, recording the availability and characteristics of the target trees, as well as the presence or absence of bark-stripping at 45 habitat plots distributed across a grid covering an area of ~300km2. Results: Camera traps confirmed the presence of baboons at all habitat plots, and we identified regional clumping in the distribution of the behavior, a pattern consistent across two consecutive years. Proportion and mean height/width of A. robusta did not predict whether bark-stripping behavior was present at a given site, nor did broader ecological variables such as habitat type and distance to the nearest water source. However, stripping sites had significantly higher numbers of A. robusta than non-stripping sites, and within a given bark-stripping site, baboons preferred to strip taller and wider trees among those available. Discussion: The prominent geographical clustering we uncovered may have been driven by opportunity (i.e., the prevalence of A. robusta at a given site), but is also consistent with a possible (non-mutually exclusive) cultural interpretation. We propose avenues for future research on Gorongosa's baboons to better quantify the relative contributions of ecology, genetics, and social.
- West Side Story: regional inter‐troop variation in baboon bark‐stripping at gorongosa national park, MozambiquePublication . Biro, Dora; Muschinski, Jana; Hammond, Philippa; Bobe, René; Bamford, Marion K.; Capelli, Cristian; de Oliveira Coelho, João; Farassi, Rassina; Lüdecke, Tina; Martinez, Felipe I.; Silva, Maria Joana Ferreira; Mathe, Jacinto; Carvalho, SusanaObjectives: Baboons possess sophisticated physical and social cognitive abilities; hence, the lack of evidence to date of large-scale behavioral variation in these primates is puzzling. Here we studied a candidate for such variation—the stripping of barkfrom Acacia robusta trees for consumption of the sap and soft tissue underneath—in Gorongosa National Park, Mozambique.Materials and Methods: We surveyed an area inhabited by ~60 troops of chacma baboons, recording the availability andcharacteristics of the target trees, as well as the presence or absence of bark-stripping at 45 habitat plots distributed across a gridcovering an area of ~300 km 2 .Results: Camera traps confirmed the presence of baboons at all habitat plots, and we identified regional clumping in the distri-bution of the behavior, a pattern consistent across two consecutive years. Proportion and mean height/width of A. robusta did notpredict whether bark-stripping behavior was present at a given site, nor did broader ecological variables such as habitat type anddistance to the nearest water source. However, stripping sites had significantly higher numbers of A. robusta than non-strippingsites, and within a given bark-stripping site, baboons preferred to strip taller and wider trees among those available.Discussion: The prominent geographical clustering we uncovered may have been driven by opportunity (i.e., the prevalenceof A. robusta at a given site), but is also consistent with a possible (non-mutually exclusive) cultural interpretation. We proposeavenues for future research on Gorongosa's baboons to better quantify the relative contributions of ecology, genetics, and social.