Your search keyword '"Pierre-Henri Fabre"' showing total 21 results

1. A new giant shrew rat (Rodentia, Muridae, Murinae) from Flores, Indonesia and a comparative investigation of its ecomorphology

Author

E. Grace Veatch, Pierre-Henri Fabre, Matthew W. Tocheri, Thomas Sutikna, E. Wahyu Saptomo, Guy G. Musser, and Kristofer M. Helgen

Subjects

island southeast asia, liang bua, murine rodents, extinction, rodent anatomy, Museums. Collectors and collecting, AM1-501, Evolution, QH359-425

Abstract

We describe a new genus and species of large-bodied murine from archaeological deposits at Liang Bua, a limestone cave in western Flores, East Nusa Tenggara, Indonesia. Among a large assemblage of murine remains, several mandibular elements recovered from mostly Holocene sediments show a distinct anatomy, with a long and robust jaw, massive proodont incisors, and relatively small molars. These morphological features are unusual among murines but most similar to terrestrial and carnivorous species of the Indo-Pacific, colloquially referred to as shrew rats (Philippines, Sulawesi) or moss mice (New Guinea), and indicate a potential carnivorous dietary adaptation, perhaps specializing in a vermivorous diet. The size of the mandible indicates that this murine is the largest shrew rat yet known. Although presumed extinct, targeted field research is needed to determine if this rat still lives on Flores today. Veatch, E. Grace, Pierre-Henri Fabre, Matthew W. Tocheri, Thomas Sutikna, E. Wahyu Saptomo, Guy G. Musser, and Kristofer M. Helgen. 2023. A new giant shrew rat (Rodentia: Muridae: Murinae) from Flores, Indonesia and a comparative investigation of its ecomorphology. In Contributions to Mammalogy and Zooarchaeology of Wallacea, ed. K. M. Helgen and R. K. Jones. Records of the Australian Museum 75(5): 741–764.

Published

2023

2. Review of Moluccan Rattus (Rodentia: Muridae) with description of four new species

Author

Pierre-Henri Fabre, Roberto Portela Miguez, Mary Ellen Holden, Yuli S. Fitriana, Gono Semiadi, Guy G. Musser, and Kristofer M. Helgen

Subjects

biodiversity, biogeography, maluku, molecular systematics, morphology, murinae, rattini, wallacea, Museums. Collectors and collecting, AM1-501, Evolution, QH359-425

Abstract

Four new species of Rattus are described from the Moluccan islands (Maluku) of Indonesia: Rattus taliabuensis and R. feileri, both from the island of Taliabu, and R. halmaheraensis and R. obiensis from the islands of Halmahera and Obi, respectively. These descriptions are presented as part of a taxonomic review of Moluccan Rattus based on all known specimens in museum collections worldwide. Morphological characters, molecular systematics, and geographical distributions are documented for each of these species. Using both morpho-anatomical and morphometric approaches, we found that the Maluku Islands support Rattus taxa with spiny fur and two distinct morphotypes (1) species with a long tail and short rostrum (R. morotaiensis, R. halmaheraensis, R. obiensis, R. feileri) and (2) species with a short tail and long rostrum (R. taliabuensis, R. feliceus, R. ceramicus, R. elaphinus). Most of the new Moluccan species belong to a clade that includes members of the R. xanthurus species group from Sulawesi and the Australo-Papuan Rattus lineages. Their phylogenetic relationships highlight the role of Wallacea as an important area for diversification of Rattus into the Australo-Papuan region. Finally, the morphologically distinctive taxon Nesoromys ceramicus from Seram was found to be sister species to R. feliceus, and we relegate Nesoromys into the synonymy of the genus Rattus. The close affinities between R. ceramicus and R. feliceus may be an example of in situ island speciation, which has not been observed for small mammals on other Maluku Islands. Fabre, Pierre-Henri, Roberto Portela Miguez, Mary Ellen Holden, Yuli S. Fitriana, Gono Semiadi, Guy G. Musser, and Kristofer M. Helgen. 2023. Review of Moluccan Rattus (Rodentia: Muridae) with description of four new species. In Contributions to Mammalogy and Zooarchaeology of Wallacea, ed. K. M. Helgen and R. K. Jones. Records of the Australian Museum 75(5): 673–718.

Published

2023

3. Two new species of Halmaheramys (Murinae: Rattini) from archaeological deposits on Morotai Island, North Moluccas, Indonesia

Author

Kenneth P. Aplin, Tim F. Flannery, Boeadi, Pierre-Henri Fabre, and Kristofer M. Helgen

Subjects

biogeography, rattus, rodents, taxonomy, wallacea, Museums. Collectors and collecting, AM1-501, Evolution, QH359-425

Abstract

Two new species of murine rodents (Halmaheramys funderus sp. nov. and H. bellwoodi sp. nov.) are described from remains in an archaeological site on Morotai Island in North Maluku (Maluku Utara) Province of Indonesia. Both species are approximately the same size, (about the size of a Norway or brown rat, Rattus norvegicus) but they differ from each other in the degree of elongation of the snout and in molar size relative to osseous structures. These morphological contrasts are suggestive of dietary differences. Both species survived into the Holocene, and because the modern mammal fauna of Morotai is very little studied, it is possible that these species may still be extant on the island. Recognition of these taxa helps to demonstrate the distinctive nature of the Morotai murine fauna, which has unique species of Rattus and Halmaheramys compared to Halmahera-Bacan on one hand, and to Obi-Bisa on the other. The subfossil record (and modern fauna) of Morotai also lacks other Australo-Papuan genera that characterize other North Moluccan islands, such as Hydromys and Uromys (known from Obi) and Melomys (known from Halmahera and Obi-Bisa). Aplin, Kenneth P., Tim F. Flannery, Boeadi, Pierre-Henri Fabre, and Kristofer M. Helgen. 2023. Two new species of Halmaheramys (Murinae: Rattini) from archaeological deposits on Morotai Island, North Moluccas, Indonesia. In Contributions to Mammalogy and Zooarchaeology of Wallacea, ed. K. M. Helgen and R. K. Jones. Records of the Australian Museum 75(5): 719–739.

Published

2023

4. A replacement name for the endemic Rattus (Muridae, Mammalia) of the island of Obi, Indonesia

Author

Pierre-Henri Fabre, Roberto Portela Miguez, Mary Ellen Holden, Yuli S. Fitriana, Gono Semiadi, Guy G. Musser, and Kristofer M. Helgen

Subjects

wallacea, muridae, rattus, homonymy, new name, Museums. Collectors and collecting, AM1-501, Evolution, QH359-425

Abstract

The name Rattus obiensis Fabre, Portela Miguez, Holden, Fitriana, Semiadi, Musser, & Helgen, was recently applied to a newly discovered species of Rattus known to date only from the Moluccan island of Obi in Indonesia. However, this name is preoccupied by Rattus rattus obiensis Sody, 1941, a name applied to a commensal rat and currently recognized as a synonym of Rattus tanezumi Temminck, 1844. A replacement name, Rattus ombirah Fabre et al., 2024. nom. nov., is here proposed for the endemic Rattus of Obi.

Published

2024

5. Estimating clade‐specific diversification rates and palaeodiversity dynamics from reconstructed phylogenies

Author

Nathan Mazet, Hélène Morlon, Pierre‐Henri Fabre, and Fabien L. Condamine

Subjects

birth‐death model, macroevolution, palaeodiversity, rate heterogeneity, RPANDA, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Understanding palaeodiversity dynamics through time and space is a central goal of macroevolution. Estimating palaeodiversity dynamics has been historically addressed with fossil data because it directly reflects the past variations of biodiversity. Unfortunately, some groups or regions lack a good fossil record, and dated phylogenies can be useful to estimate diversification dynamics. Recent methodological developments have unlocked the possibility to investigate palaeodiversity dynamics by using phylogenetic birth‐death models with non‐homogeneous rates through time and across clades. One of them seems particularly promising to detect clades whose diversity has declined through time. However, empirical applications of the method have been hampered by the lack of a robust, accessible implementation of the whole procedure, therefore requiring users to conduct all the steps of the analysis by hand in a time‐consuming and error‐prone way. Here we propose an automation of Morlon et al. (2011) clade‐shift model with additional features accounting for recent developments, and we implement it in the R package RPANDA. We also test the approach with simulations focusing on its ability to detect shifts of diversification and to infer palaeodiversity dynamics. Finally, we illustrate the automation by investigating the palaeodiversity dynamics of Cetacea, Vangidae, Parnassiinae and Cycadales. Simulations showed that we accurately detected shifts of diversification although false shift detections were higher for time‐dependent diversification models with extinction. The median global error of palaeodiversity dynamics estimated with the automated model is low, showing that the method can capture diversity declines. We detected shifts of diversification for three of the four empirical examples considered (Cetacea, Parnassiinae and Cycadales). Our analyses unveil a waxing‐and‐waning pattern due to a phase of negative net diversification rate embedded in the trees after isolating recent radiations. Our work makes it possible to easily apply non‐homogeneous models of diversification in which rates can vary through time and across clades to reconstruct palaeodiversity dynamics. By doing so, we detected palaeodiversity declines among three of the four groups tested, highlighting that such periods of negative net diversification might be common. We discuss the extent to which this approach might provide reliable estimates of extinction rates, and we provide guidelines for users.

Published

2023

6. Mammalian maxilloturbinal evolution does not reflect thermal biology

Author

Quentin Martinez, Jan Okrouhlík, Radim Šumbera, Mark Wright, Ricardo Araújo, Stan Braude, Thomas B. Hildebrandt, Susanne Holtze, Irina Ruf, and Pierre-Henri Fabre

Subjects

Science

Abstract

Abstract The evolution of endothermy in vertebrates is a major research topic in recent decades that has been tackled by a myriad of research disciplines including paleontology, anatomy, physiology, evolutionary and developmental biology. The ability of most mammals to maintain a relatively constant and high body temperature is considered a key adaptation, enabling them to successfully colonize new habitats and harsh environments. It has been proposed that in mammals the anterior nasal cavity, which houses the maxilloturbinal, plays a pivotal role in body temperature maintenance, via a bony system supporting an epithelium involved in heat and moisture conservation. The presence and the relative size of the maxilloturbinal has been proposed to reflect the endothermic conditions and basal metabolic rate in extinct vertebrates. We show that there is no evidence to relate the origin of endothermy and the development of some turbinal bones by using a comprehensive dataset of µCT-derived maxilloturbinals spanning most mammalian orders. Indeed, we demonstrate that neither corrected basal metabolic rate nor body temperature significantly correlate with the relative surface area of the maxilloturbinal. Instead, we identify important variations in the relative surface area, morpho-anatomy, and complexity of the maxilloturbinal across the mammalian phylogeny and species ecology.

Published

2023

7. Diversification dynamics in the Neotropics through time, clades, and biogeographic regions

Author

Andrea S Meseguer, Alice Michel, Pierre-Henri Fabre, Oscar A Pérez Escobar, Guillaume Chomicki, Ricarda Riina, Alexandre Antonelli, Pierre-Olivier Antoine, Frédéric Delsuc, and Fabien L Condamine

Subjects

climate, diversity dynamics, macroevolution, plants, speciation, tetrapods, Medicine, Science, Biology (General), QH301-705.5

Abstract

The origins and evolution of the outstanding Neotropical biodiversity are a matter of intense debate. A comprehensive understanding is hindered by the lack of deep-time comparative data across wide phylogenetic and ecological contexts. Here, we quantify the prevailing diversification trajectories and drivers of Neotropical diversification in a sample of 150 phylogenies (12,512 species) of seed plants and tetrapods, and assess their variation across Neotropical regions and taxa. Analyses indicate that Neotropical diversity has mostly expanded through time (70% of the clades), while scenarios of saturated and declining diversity account for 21% and 9% of Neotropical diversity, respectively. Five biogeographic areas are identified as distinctive units of long-term Neotropical evolution, including Pan-Amazonia, the Dry Diagonal, and Bahama-Antilles. Diversification dynamics do not differ across these areas, suggesting no geographic structure in long-term Neotropical diversification. In contrast, diversification dynamics differ across taxa: plant diversity mostly expanded through time (88%), while a substantial fraction (43%) of tetrapod diversity accumulated at a slower pace or declined towards the present. These opposite evolutionary patterns may reflect different capacities for plants and tetrapods to cope with past climate changes.

Published

2022

8. Comparative masticatory myology in anteaters and its implications for interpreting morphological convergence in myrmecophagous placentals

Author

Sérgio Ferreira-Cardoso, Pierre-Henri Fabre, Benoit de Thoisy, Frédéric Delsuc, and Lionel Hautier

Subjects

Masticatory apparatus, Anteaters, Myrmecophagy, Myology, Comparative anatomy, Convergence, Medicine, Biology (General), QH301-705.5

Abstract

Background Ecological adaptations of mammals are reflected in the morphological diversity of their feeding apparatus, which includes differences in tooth crown morphologies, variation in snout size, or changes in muscles of the feeding apparatus. The adaptability of their feeding apparatus allowed them to optimize resource exploitation in a wide range of habitats. The combination of computer-assisted X-ray microtomography (µ-CT) with contrast-enhancing staining protocols has bolstered the reconstruction of three-dimensional (3D) models of muscles. This new approach allows for accurate descriptions of muscular anatomy, as well as the quick measurement of muscle volumes and fiber orientation. Ant- and termite-eating (myrmecophagy) represents a case of extreme feeding specialization, which is usually accompanied by tooth reduction or complete tooth loss, snout elongation, acquisition of a long vermiform tongue, and loss of the zygomatic arch. Many of these traits evolved independently in distantly-related mammalian lineages. Previous reports on South American anteaters (Vermilingua) have shown major changes in the masticatory, intermandibular, and lingual muscular apparatus. These changes have been related to a functional shift in the role of upper and lower jaws in the evolutionary context of their complete loss of teeth and masticatory ability. Methods We used an iodine staining solution (I2KI) to perform contrast-enhanced µ-CT scanning on heads of the pygmy (Cyclopes didactylus), collared (Tamandua tetradactyla) and giant (Myrmecophaga tridactyla) anteaters. We reconstructed the musculature of the feeding apparatus of the three extant anteater genera using 3D reconstructions complemented with classical dissections of the specimens. We performed a description of the musculature of the feeding apparatus in the two morphologically divergent vermilinguan families (Myrmecophagidae and Cyclopedidae) and compared it to the association of morphological features found in other myrmecophagous placentals. Results We found that pygmy anteaters (Cyclopes) present a relatively larger and architecturally complex temporal musculature than that of collared (Tamandua) and giant (Myrmecophaga) anteaters, but shows a reduced masseter musculature, including the loss of the deep masseter. The loss of this muscle concurs with the loss of the jugal bone in Cyclopedidae. We show that anteaters, pangolins, and aardvarks present distinct anatomies despite morphological and ecological convergences.

Published

2020

9. Incisor enamel microstructure of West Indian caviomorph hystricognathous rodents (Octodontoidea and Chinchilloidea)

Author

Laurent Marivaux, Lázaro W. Viñola López, Myriam Boivin, Léa Da Cunha, Pierre-Henri Fabre, Renaud Joannes-Boyau, Gilles Maincent, Philippe Münch, Narla S. Stutz, Jorge Vélez-Juarbe, Pierre-Olivier Antoine, 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)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM), Florida Museum of Natural History [Gainesville], University of Florida [Gainesville] (UF), Instituto de Ecorregiones Andinas, Universidad Nacional de Jujuy (INECOA), The Natural History Museum [London] (NHM), Southern Cross GeoScience, Southern Cross University (SCU), Géosciences Montpellier, Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA)-Université de Montpellier (UM), Universidade Federal do Rio Grande do Sul [Porto Alegre] (UFRGS), Natural History Museum of Los Angeles County, ANR-17-CE31-0009,GAARAnti,Pont terrestre 'GAARlandia' vs voies de dispersion à travers les Petites Antilles–Couplage entre dynamique de la subduction et processus de l'évolution des espèces dans le domaine des Caraïbes.(2017), and ANR-10-LABX-0025,CEBA,CEnter of the study of Biodiversity in Amazonia(2010)

Subjects

Systematics, Multiserial enamel, Rodentia, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Caribbean Islands, Ecology, Evolution, Behavior and Systematics, Caviomorpha

Abstract

International audience; Analysis of the incisor enamel microstructure of extinct and extant West Indian caviomorph rodents emphasizes a clear microstructural distinction between the Echimyidae (Capromyinae and Heteropsomyinae) among Octodontoidea and the "Heptaxodontidae" whose phylogenetic affinities are debated. All capromyines and heteropsomyines have a pattern of enamel characterized by a rectangular crystallite arrangement, which is biomechanically strongest in limiting crack propagation most efficiently (subtype [Sbt.] 3 of multiserial Hunter-Schreger bands [HSBs]). This enamel condition is exclusive to all mainland octodontoids. In stark contrast, “heptaxodontids” sampled here exhibit much less derived enamel subtypes of multiserial HSBs with parallel to acute angular crystallite arrangement (Sbt. 1 [Clidomys], Sbt. 1–2 [Elasmodontomys], and low acute Sbt. 2 [Amblyrhiza]), less well adapted for prevention of crack propagation. The incisor enamel microstructure of Amblyrhiza and Clidomys is consistent with a chinchilloid assignment, as reflected by the anatomy of their auditory region and their unusual dental pattern. For Elasmodontomys, the primitive condition of its incisor enamel is difficult to reconcile with its highly nested phylogenetic position within the Octodontoidea clade (among the Capromyinae), as recently inferred from aDNA analyses. The different enamel patterns among extinct and extant West Indian caviomorphs indicate distinct high-level taxonomic groups, but restricted to the Octochinchilloi (Octodontoidea and Chinchilloidea) among Caviomorpha. The great diversity of caviomorphs on the Caribbean islands resulted from intra-archipelago diversification through time, but their high-level phylogenetic diversity can only be explained by distinct sources, implying de facto multiple (potentially time-staggered) natural colonizations of the West Indies. The chinchilloid-compatible enamel and dental pattern characterizing Borikenomys from lower Oligocene deposits in Puerto Rico, strongly suggest a link with some of the recently-extinct "heptaxodontids" that would substantiate their much greater antiquity in the Caribbean islands.

Published

2022

10. Oceanic islands of Wallacea as a source for dispersal and diversification of murine rodents

Author

Pierre-Henri Fabre, Anang S. Achmadi, Scott J. Steppan, Jacob A. Esselstyn, John J. Schenk, and Kevin C. Rowe

Subjects

Geography, Ecology, biology, Insular biogeography, Phylogenetics, Biological dispersal, Diversification (marketing strategy), biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Muridae

Published

2019

11. Rodent systematics in an age of discovery: recent advances and prospects

Author

Enrique P. Lessa, Pierre-Henri Fabre, and Guillermo D’Elía

Subjects

0106 biological sciences, Systematics, Ecology, biology, 010604 marine biology & hydrobiology, Hystricognathi, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Diatomyidae, Coalescent theory, Phylogenetics, Evolutionary biology, Molecular phylogenetics, Genetics, Animal Science and Zoology, Identification (biology), Clade, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

With almost 2,600 species, Rodentia is the most diverse order of mammals. Here, we provide an overview of changes in our understanding of the systematics of living rodents, including species recognition and delimitation, phylogenetics, and classification, with emphasis on the last three decades. Roughly, this corresponds to the DNA sequencing era of rodent systematics, but the field is undergoing a transition into the genomic era. At least 248 species were newly described in the period 2000–2017, including novelties such as the first living member of Diatomyidae and a murid species without molars (Paucidentomys vermidax), thus highlighting the fact that our understanding of rodent diversity is going through an age of discovery. Mito-nuclear discordance (including that resulting from mitochondrial introgression) has been detected in some of the few taxonomic studies that have assessed variation of two or more unlinked loci. As studies incorporate more loci, incomplete lineage sorting and introgression are likely to gain recognition as widespread phenomena in the near future. Molecular phylogenetics has had a major impact in rodent phylogeny and allowed the identification of three major rodent clades, here recognized as suborders: 1) the Hystricomorpha (sometimes referred as the Ctenohystrica) and including two infraorders, Hystricognathi and Ctenodactylomorphi; 2) the Sciuromorpha; and 3) the Supramyomorpha, a new suborder that comprises the infraorders Castorimorphi, Anomalurimorphi, and Myomorphi. In spite of the greater understanding and ensuing stability of rodent phylogeny gained during the last three decades, several major areas of the rodent tree remain unresolved or poorly supported. We expect that the analysis of genomic-scale data will help resolve those areas of the radiation of Rodentia that still remain poorly understood.

Published

2019

12. Breeding system evolution influenced the geographic expansion and diversification of the core Corvoidea (Aves: Passeriformes)

Author

Knud A. Jønsson, Jonathan D. Kennedy, Pierre-Henri Fabre, Jon Fjeldså, Carsten Rahbek, and Petter Z. Marki

Subjects

Brood parasite, Nest, Ecology, Range (biology), Cooperative breeding, Genetic algorithm, Genetics, Biological dispersal, Corvoidea, Biology, General Agricultural and Biological Sciences, Paternal care, Ecology, Evolution, Behavior and Systematics

Abstract

Birds vary greatly in their life-history strategies, including their breeding systems, which range from brood parasitism to a system with multiple nonbreeding helpers at the nest. By far the most common arrangement, however, is where both parents participate in raising the young. The traits associated with parental care have been suggested to affect dispersal propensity and lineage diversification, but to date tests of this potential relationship at broad temporal and spatial scales have been limited. Here, using data from a globally distributed group of corvoid birds in concordance with state-dependent speciation and extinction models, we suggest that pair breeding is associated with elevated speciation rates. Estimates of transition between breeding systems imply that cooperative lineages frequently evolve biparental care, whereas pair breeders rarely become cooperative. We further highlight that these groups have differences in their spatial distributions, with pair breeders overrepresented on islands, and cooperative breeders mainly found on continents. Finally, we find that speciation rates appear to be significantly higher on islands compared to continents. These results imply that the transition from cooperative breeding to pair breeding was likely a significant contributing factor facilitating dispersal across tropical archipelagos, and subsequent world-wide phylogenetic expansion among the core Corvoidea.

Published

2015

13. Resolving deep lineage divergences in core corvoid passerine birds supports a proto-Papuan island origin

Author

Pierre-Henri Fabre, Leslie Christidis, Knud A. Jønsson, Jon Fjeldså, and Marie Aggerbeck

Subjects

0106 biological sciences, Lineage (evolution), Biogeography, Context (language use), 010603 evolutionary biology, 01 natural sciences, Songbirds, 03 medical and health sciences, Paleontology, Phylogenetics, biology.animal, Genetics, Animals, Corvoidea, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Islands, New Guinea, 0303 health sciences, biology, Bayes Theorem, Sequence Analysis, DNA, Incertae sedis, Passerine, Phylogeography, Gondwana, Female

Abstract

It is well established that the global expansion of songbirds (Oscines) originated in East Gondwana (present day Australo-Papua), and it has been postulated that one of the main constituent groups, the "core Corvoidea", with more than 750 species, originated in the first islands that emerged where New Guinea is now located. However, several polytomous relationships remained within the clade, obstructing detailed biogeographical interpretations. This study presents a well-resolved family-level phylogeny, based on a dataset of 22 nuclear loci and using a suite of partitioning schemes and Maximum Likelihood and Bayesian inference methods. Resolving the relationships within the core Corvoidea provides evidence for three well-supported main clades, which are in turn sister to the New Zealand genus Mohoua. Some monotypic lineages, which have previously been considered Incertae sedis, are also placed in a phylogenetic context. The well-resolved phylogeny provides a robust framework for biogeographical analyses, and provides further support for the hypothesis that core corvoids originated in the proto-Papuan island region that emerged north of Australia in the late Oligocene/early Miocene. Thus, the core Corvoidea appear to represent a true island radiation, which successfully colonized all continents except Antarctica.

Published

2014

14. A new genus of rodent from Wallacea (Rodentia: Muridae: Murinae: Rattini), and its implication for biogeography and Indo-Pacific Rattini systematics

Author

Jonathan D. Kennedy, Nanang Supriatna, Yuli Sulistya Fitriana, Guy G. Musser, Gono Semiadi, Jon Fjeldså, Andrew P. Jennings, Marie Pagès, Kristofer M. Helgen, Pierre-Henri Fabre, Johan Michaux, and Knud A. Jønsson

Subjects

0106 biological sciences, Systematics, 0303 health sciences, biology, Biogeography, Zoology, Murinae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Molecular phylogenetics, Bullimus, Taeromys, Animal Science and Zoology, Sundamys, Ecology, Evolution, Behavior and Systematics, Rattus morotaiensis, 030304 developmental biology

Abstract

We describe Halmaheramys bokimekot Fabre, Pages, Musser, Fitriana, Semiadi & Helgen gen. et sp. nov., a new genus and species of murine rodent from the North Moluccas, and study its phylogenetic placement using both molecular and morphological data. We generated a densely sampled mitochondrial and nuclear DNA data set that included most genera of Indo-Pacific Murinae, and used probabilistic methodologies to infer their phylogenetic relationships. To reconstruct their biogeographical history, we first dated the topology and then used a Lagrange analysis to infer ancestral geographic areas. Finally, we combined the ancestral area reconstructions with temporal information to compare patterns of murine colonization among Indo-Pacific archipelagos. We provide a new and comprehensive molecular phylogenetic reconstruction for Indo-Pacific Murinae, with a focus on the Rattus division. Using previous results and those presented in this study, we define a new Indo-Pacific group within the Rattus division, composed of Bullimus, Bunomys, Paruromys, Halmaheramys, Sundamys, and Taeromys. Our phylogenetic reconstructions revealed a relatively recent diversification from the Middle Miocene to Plio-Pleistocene associated with several major dispersal events. We identified two independent Indo-Pacific dispersal events from both western and eastern Indo-Pacific archipelagos to the isolated island of Halmahera, which led to the speciations of H. bokimekot gen. et sp. nov. and Rattus morotaiensis Kellogg, 1945. We propose that a Middle Miocene collision between the Halmahera and Sangihe arcs may have been responsible for the arrival of the ancestor of Halmaheramys to eastern Wallacea. Halmaheramys bokimekot gen. et sp. nov. is described in detail, and its systematics and biogeography are documented and illustrated. © 2013 The Linnean Society of London

Published

2013

15. Multiple waves of colonization by monarch flycatchers (Myiagra , Monarchidae) across the Indo-Pacific and their implications for coexistence and speciation

Author

Pierre-Henri Fabre, Jon Fjeldså, Maria Moltensen, Martin Irestedt, Jean-Philippe Lessard, and Knud A. Jønsson

Subjects

0106 biological sciences, Ecological niche, 0303 health sciences, Ecology, biology, Insular biogeography, Myiagra, 15. Life on land, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Monophyly, Monarch flycatcher, Molecular phylogenetics, Biological dispersal, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Indo-Pacific, 030304 developmental biology

Abstract

Aim Islands and archipelagos have played an important role in the development of ecological and evolutionary theories. Using a newly compiled molecular phylogeny we infer the biogeographical history of a monarch flycatcher genus, Myiagra, which is distributed across the Indo-Pacific. We subsequently integrate biogeographical and ecomorphological data to examine the role of dispersal and trait evolution in the build-up of avian assemblages. Location Australia, the Moluccas, New Guinea and Pacific islands. Methods We generated a taxonomically densely sampled mitochondrial DNA dataset that included almost all species and subspecies of the reciprocally monophyletic genera Myiagra and Arses. We then used maximum likelihoood and Bayesian inference to infer their phylogenetic relationships. To reconstruct their biogeographical history, we first dated the tree topology and then used Lagrange to infer ancestral geographical areas. Finally, we combined ancestral area reconstructions with information on ecomorphological traits to infer mechanisms underlying community assembly. Results We provide the first comprehensive molecular phylogenetic reconstruction for Myiagra and Arses monarch flycatchers. Our phylogenetic reconstruction reveals a relatively recent diversification from the Miocene associated with several major dispersal events. Ancestral area reconstruction reveals several independent colonizations of the Moluccas, Melanesia, Fiji and the Micronesian islands. Ancestral state reconstruction of ecological traits suggests that the diversity of traits in co-occurring species of monarch flycatchers results from independent colonization events and ecological niche conservatism rather than in situ diversification. Main conclusions Three waves of colonization, non-overlapping in time, led to independent speciation events in the Bismarcks, Fiji and the Moluccas, in addition to in situ speciation events on remote islands of Micronesia, the Solomons, Vanuatu and Samoa. Few of these colonizations have led to the co-occurrence of congenerics or species with similar ecomorphological profiles on the same island. Thus, we suggest that priority effects might prevent new colonizers from establishing themselves if they share high levels of ecological similarity with resident species. We conclude that historical dispersal to and colonization of new islands, combined with ecologically deterministic priority effects, drove the assembly of insular monarch flycatcher communities across the Indo-Pacific.

Published

2013

16. Molecular phylogeny of the Indian Ocean Terpsiphone paradise flycatchers: Undetected evolutionary diversity revealed amongst island populations

Author

Pierre-Henri Fabre, Vikash Tatayah, Martin Irestedt, Nirmal Shah, Ben H. Warren, Jim J. Groombridge, Rachel Bristol, Knud A. Jønsson, University of Zurich, and Bristol, Rachel M

Subjects

Seychelles paradise flycatcher, Biogeography, 580 Plants (Botany), Evolution, Molecular, Mitochondrial Proteins, Songbirds, 1311 Genetics, Phylogenetics, 1312 Molecular Biology, Genetics, Animals, Mascarene paradise flycatcher, Indian Ocean, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, biology, Phylogenetic tree, Ecology, Genetic Variation, Nuclear Proteins, biology.organism_classification, Paradise flycatcher, Colonisation, 10121 Department of Systematic and Evolutionary Botany, 1105 Ecology, Evolution, Behavior and Systematics, Molecular phylogenetics

Abstract

We construct a molecular phylogeny of Terpsiphone flycatchers of the Indian Ocean and use this to investigate their evolutionary relationships. A total of 4.4 kb of mitochondrial (cyt-b, ND3, ND2, control region) and nuclear (G3PDH, MC1R) sequence data were obtained from all species, sub-species and island populations of the region. Colonisation of the western Indian Ocean has been within the last two million years and greatly postdates the formation of the older islands of the region. A minimum of two independent continent-island colonisation events must have taken place in order to explain the current distribution and phylogenetic placement of Terpsiphone in this region. While five well-diverged Indian Ocean clades are detected, the relationship between them is unclear. Short intermodal branches are indicative of rapid range expansion across the region, masking exact routes and chronology of colonisation. The Indian Ocean Terpsiphone taxa fall into five well supported clades, two of which (the Seychelles paradise flycatcher and the Mascarene paradise flycatcher) correspond with currently recognised species, whilst a further three (within the Madagascar paradise flycatcher) are not entirely predicted by taxonomy, and are neither consistent with distance-based nor island age-based models of colonisation. We identify the four non-Mascarene clades as Evolutionarily Significant Units (ESUs), while the Mascarene paradise flycatcher contains two ESUs corresponding to the Mauritius and Réunion subspecies. All six ESUs are sufficiently diverged to be worthy of management as if they were separate species. This phylogenetic reconstruction highlights the importance of sub-specific molecular phylogenetic reconstructions in complex island archipelago settings in clarifying phylogenetic history and ESUs that may otherwise be overlooked and inadvertently lost. Our phylogenetic reconstruction has identified hidden pockets of evolutionary distinctiveness, which provide a valuable platform upon which to re-evaluate investment of conservation resources within the Terpsiphone flycatchers of the Indian Ocean.

Published

2013

17. An Update of Wallace’s Zoogeographic Regions of the World

Author

Michael K. Borregaard, Jon Fjeldså, Ben G. Holt, Pierre-Henri Fabre, Miguel B. Araújo, Susanne A. Fritz, Knud A. Jønsson, Zhiheng Wang, Jean-Philippe Lessard, Catherine H. Graham, Robert J. Whittaker, Dimitar Dimitrov, David Nogués-Bravo, Carsten Rahbek, and Gary R. Graves

Subjects

0106 biological sciences, 0303 health sciences, Multidisciplinary, biology, Phylogenetic tree, Ecology (disciplines), Vertebrate, Global Map, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Geography, Evolutionary biology, biology.animal, Identification (biology), 030304 developmental biology

Abstract

Next-Generation Biogeography In 1876, Alfred Russel Wallace mapped the zoogeographical regions of the world, based on the distributions and taxonomic relationships of broadly defined mammalian families. Wallace's classification of zoogeographical regions became a cornerstone of modern biogeography and a reference for a wide variety of biological disciplines, including global biodiversity and conservation sciences. Holt et al. (p. 74 , published online 20 December) present a next-generation map of wallacean zoogeographic regions, incorporating phylogenetic data on >20,000 vertebrate species to discern and characterize their natural biogeographic patterns.

Published

2013

18. Diversification of South American spiny rats (Echimyidae): a multigene phylogenetic approach

Author

Thomas Galewski, Marie-Ka Tilak, Pierre-Henri Fabre, and Emmanuel J. P. Douzery

Subjects

Polytomy, Arboreal locomotion, Phylogenetic tree, biology, Ecology, Allopatric speciation, Echimyidae, biology.organism_classification, Evolutionary radiation, Phylogenetics, Evolutionary biology, Genetics, Animal Science and Zoology, Molecular clock, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Fabre, P.-H., Galewski, T., Tilak, M.-k. & Douzery, E.J.P. (2012) Diversification of South American spiny rats (Echimyidae): a multigene phylogenetic approach. —Zoologica Scripta, 00, 000‐000. We investigated the phylogenetic relationships of 14 Echimyidae (spiny rats), one Myocastoridae (nutrias) and one Capromyidae (hutias) genera based on three newly sequenced nuclear genes (APOB, GHR and RBP3) and five previously published markers (the nuclear RAG1 and vWF, and the mitochondrial cytochrome b, 12S rRNA and 16S rRNA). We recovered a well-supported phylogeny within the Echimyidae, although the evolutionary relationships among arboreal echimyid taxa remain unresolved. Molecular divergence times estimated using a Bayesian relaxed molecular clock suggest a Middle Miocene origin for most of the extant echimyid genera. Echimyidae seems to constitute an example of evolutionary radiation with high species diversity, yet they exhibit only narrow skull morphological changes, and the arboreal and terrestrial taxa are shown to retain numerous plesiomorphic features. The most recent common ancestor of spiny rats is inferred to be a ground-dwelling taxon that has subsequently diverged into fossorial, semiaquatic and arboreal habitats. The arboreal clade polytomy and ancestral character estimations suggest that the colonization of the arboreal niche constituted the keystone event of the echimyid radiation. However, biogeographical patterns suggest a strong influence of allopatric speciation in addition to ecology-driven diversification among South American spiny rats.

Published

2012

19. Dynamic colonization exchanges between continents and islands drive diversification in paradise‐flycatchers (Terpsiphone, Monarchidae)

Author

Jon Fjeldså, Mohammad Irham, Pierre-Henri Fabre, Martin Irestedt, Rachel Bristol, Jim J. Groombridge, and Knud A. Jønsson

Subjects

Old World, Ecology, biology, Biogeography, Terpsiphone paradisi, biology.organism_classification, Plumage, Evolutionary biology, Polyphyly, Biological dispersal, Molecular clock, Ecology, Evolution, Behavior and Systematics, Indo-Pacific

Abstract

Aim We use parametric biogeographical reconstruction based on an extensive DNA sequence dataset to characterize the spatio‐temporal pattern of colonization of the Old World monarch flycatchers (Monarchidae). We then use this framework to examine the role of dispersal and colonization in their evolutionary diversification and to compare plumages between island and continental Terpsiphone species. Location Africa, Asia and the Indian Ocean. Methods We generate a DNA sequence dataset of 2300 bp comprising one nuclear and three mitochondrial markers for 89% (17/19) of the Old World Monarchidae species and 70% of the Terpsiphone subspecies. By applying maximum likelihood and Bayesian phylogenetic methods and implementing a Bayesian molecular clock to provide a temporal framework, we reveal the evolutionary history of the group. Furthermore, we employ both Lagrange and Bayes‐Lagrange analyses to assess ancestral areas at each node of the phylogeny. By combining the ancestral area reconstruction with information on plumage traits we are able to compare patterns of plumage evolution on islands and continents. Results We provide the first comprehensive molecular phylogenetic reconstruction for the Old World Monarchidae. Our phylogenetic results reveal a relatively recent diversification associated with several dispersal events within this group. Moreover, ancestral area analyses reveal an Asian origin of the Indian Ocean and African clades. Ancestral state reconstruction analyses of plumage characters provide an interpretation of the plumage differentiation on islands and continents. Ancestral plumage traits are inferred to be close to those of the Asian paradise‐flycatcher (Terpsiphone paradisi), and island species display a high degree of plumage autapomorphy compared with continental species. Main conclusions Terpsiphone paradisi is polyphyletic and comprises populations that have retained the ancestral plumage of the widespread Terpsiphone genus. The genus appears to have colonized south‐west Asia, the Indian Ocean and Africa from eastern Asia. The phylogeny and divergence time estimates indicate multiple simultaneous colonizations of the western Old World by Terpsiphone. These results reinforce a hypothesis of range expansions of a Terpsiphone paradisi‐like ancestor into eastern Asia and the western Old World.

Published

2012

20. Ecological and evolutionary determinants for the adaptive radiation of the Madagascan vangas

Author

Per G. P. Ericson, Knud A. Jønsson, Martin Irestedt, Carsten Rahbek, Rampal S. Etienne, Eric Pasquet, Pierre-Henri Fabre, Susanne A. Fritz, Friederike Woog, Tobias Bornakke Jørgensen, Jon Fjeldså, Robert E. Ricklefs, and Etienne group

Subjects

DIFFERENTIAL DIVERSIFICATION RATES, Lineage (evolution), Molecular Sequence Data, Foraging, MODELS, Biodiversity, core corvoidea, Diversification (marketing strategy), Birds, Phylogenetics, biology.animal, Adaptive radiation, Madagascar, Animals, AVES, Phylogeny, MOLECULAR PHYLOGENIES, Key innovation, Multidisciplinary, Ecology, biology, ORIGIN, ISLAND COLONIZATION HISTORY, Biological Sciences, Adaptation, Physiological, Biological Evolution, Passerine, phylogenetics, INSIGHTS, ENDEMIC RADIATION, island endemism, lineage diversification, PASSERIFORMES, DETECTING TEMPORAL SHIFTS

Abstract

Adaptive radiation is the rapid diversification of a single lineage into many species that inhabit a variety of environments or use a variety of resources and differ in traits required to exploit these. Why some lineages undergo adaptive radiation is not well-understood, but filling unoccupied ecological space appears to be a common feature. We construct a complete, dated, species-level phylogeny of the endemic Vangidae of Madagascar. This passerine bird radiation represents a classic, but poorly known, avian adaptive radiation. Our results reveal an initial rapid increase in evolutionary lineages and diversification in morphospace after colonizing Madagascar in the late Oligocene some 25 Mya. A subsequent key innovation involving unique bill morphology was associated with a second increase in diversification rates about 10 Mya. The volume of morphospace occupied by contemporary Madagascan vangas is in many aspects as large (shape variation)—or even larger (size variation)—as that of other better-known avian adaptive radiations, including the much younger Galapagos Darwin's finches and Hawaiian honeycreepers. Morphological space bears a close relationship to diet, substrate use, and foraging movements, and thus our results demonstrate the great extent of the evolutionary diversification of the Madagascan vangas.

Published

2012

21. Mandible shape and dwarfism in squirrels (Mammalia, Rodentia): interaction of allometry and adaptation.

Author

Lionel Hautier, Pierre-Henri Fabre, and Jacques Michaux

Abstract

Abstract  Squirrels include several independent lineages of dwarf forms distributed into two ecological groups: the dwarf tree and flying squirrels. The mandible of dwarf tree squirrels share a highly reduced coronoid process and a condylar process drawn backwards. Dwarf flying squirrels on the other hand, have an elongated coronoid process and a well-differentiated condylar process. To interpret such a difference, Elliptic Fourier Transform was used to evaluate how mandible shape varies with dwarfism in sciurids. The results obtained show that this clear-cut difference cannot be explained by a simple allometric relationship in relation with size decrease. We concluded that the retention of anteriorly positioned eye sockets, in relation with distance estimation, allowed the conservation of a well-differentiated coronoid process in all flying species, despite the trend towards its reduction observed among sciurids as their size decreases. [ABSTRACT FROM AUTHOR]

Published

2009