Cancellariidae, or nutmeg shells, is a family of marine gastropods that feed on the body fluids a... more Cancellariidae, or nutmeg shells, is a family of marine gastropods that feed on the body fluids and the egg cases of marine animals. The 300 or so living species are distributed worldwide, mostly on soft bottoms, from intertidal to depths of about 1000 m. Although they are a key group for the understanding of neogastropod evolution, they are still poorly known in terms of anatomy, ecology and systematics. This paper reports the first mitochondrial multi-gene phylogenetic hypothesis for the group. Data were collected for 50 morphospecies, representative of 22 genera belonging to the three currently recognized subfamilies. Sequences from three genes (12S, 16S and COI) were analyzed with Maximum Likelihood analysis and Bayesian Inference, both as single gene datasets and in two partitioned concatenated alignment. Largely consistent topologies were obtained and discussed with respect to the traditional subfamilial arrangements. The obtained phylogenetic trees were also used to produce Robinson-Foulds supertrees. Our results confirmed the monophyly of the subfamily Plesiotritoninae, while Admetinae and Cancellariinae, as currently conceived, were retrieved as polyphyletic. Based on our findings we propose changes to the systematic arrangement of these subfamilies. At a lower taxonomic rank, our results highlighted the rampant homoplasy of many characters traditionally used to segregate genera, and thus the need of a critical re-evaluation of the contents of many genera (e.g. Nipponaphera, Merica, Sydaphera, Bivetia), the monophyly of which was not recovered.
In 2011, three specimens from an unknown species of tube-nosed bat (genus Murina) were collected ... more In 2011, three specimens from an unknown species of tube-nosed bat (genus Murina) were collected in montane moist forest at altitudes between 1117 and 1682 m in the Ngoc Linh Nature Reserve of Vietnam. We sequenced the mitochondrial COI gene from Ngoc Linh bats and performed comparisons with Murina sequences available in the nucleotide databases. The results suggested that the three unidentified specimens belong to Murina lorelieae, a species recently described from a single specimen collected in southern China. Nucleotide distances between specimens from Ngoc Linh and southern China are exceptionally low for M. lorelieae (1.25%) in comparison with three other Murina species, i.e., Murina cyclotis, Murina feae, and Murina huttoni (3.9-5.5%). We suggest that M. lorelieae is adapted to montane forests, which may have facilitated long-distance dispersal events between southern China and Vietnam during glacial periods of the Pleistocene. Morphological comparisons based on body-size measurements and geometric morphometric analyses of the skulls showed differences between Vietnamese specimens and the Chinese holotype of M. lorelieae. We proposed that the Vietnamese specimens belong to a distinct subspecies, M. lorelieae ngoclinhensis.
Because they house large biodiversity collections and are also research centres with sequencing f... more Because they house large biodiversity collections and are also research centres with sequencing facilities, natural history museums are well placed to develop DNA barcoding best practices. The main difficulty is generally the vouchering system: it must ensure that all data produced remain attached to the corresponding specimen, from the field to publication in articles and online databases. The Museum National d'Histoire Naturelle in Paris is one of the leading laboratories in the Marine Barcode of Life (MarBOL) project, which was used as a pilot programme to include barcode collections for marine molluscs and crustaceans. The system is based on two relational databases. The first one classically records the data (locality and identification) attached to the specimens. In the second one, tissue-clippings, DNA extractions (both preserved in 2D barcode tubes) and PCR data (including primers) are linked to the corresponding specimen. All the steps of the process [sampling event, specimen identification, molecular processing, data submission to Barcode Of Life Database (BOLD) and GenBank] are thus linked together. Furthermore, we have developed several web-based tools to automatically upload data into the system, control the quality of the sequences produced and facilitate the submission to online databases. This work is the result of a joint effort from several teams in the Museum National d'Histoire Naturelle (MNHN), but also from a collaborative network of taxonomists and molecular systematists outside the museum, resulting in the vouchering so far of 41 000 sequences and the production of 11 000 COI sequences.
Cancellariidae, or nutmeg shells, is a family of marine gastropods that feed on the body fluids a... more Cancellariidae, or nutmeg shells, is a family of marine gastropods that feed on the body fluids and the egg cases of marine animals. The 300 or so living species are distributed worldwide, mostly on soft bottoms, from intertidal to depths of about 1000 m. Although they are a key group for the understanding of neogastropod evolution, they are still poorly known in terms of anatomy, ecology and systematics. This paper reports the first mitochondrial multi-gene phylogenetic hypothesis for the group. Data were collected for 50 morphospecies, representative of 22 genera belonging to the three currently recognized subfamilies. Sequences from three genes (12S, 16S and COI) were analyzed with Maximum Likelihood analysis and Bayesian Inference, both as single gene datasets and in two partitioned concatenated alignment. Largely consistent topologies were obtained and discussed with respect to the traditional subfamilial arrangements. The obtained phylogenetic trees were also used to produce Robinson-Foulds supertrees. Our results confirmed the monophyly of the subfamily Plesiotritoninae, while Admetinae and Cancellariinae, as currently conceived, were retrieved as polyphyletic. Based on our findings we propose changes to the systematic arrangement of these subfamilies. At a lower taxonomic rank, our results highlighted the rampant homoplasy of many characters traditionally used to segregate genera, and thus the need of a critical re-evaluation of the contents of many genera (e.g. Nipponaphera, Merica, Sydaphera, Bivetia), the monophyly of which was not recovered.
In 2011, three specimens from an unknown species of tube-nosed bat (genus Murina) were collected ... more In 2011, three specimens from an unknown species of tube-nosed bat (genus Murina) were collected in montane moist forest at altitudes between 1117 and 1682 m in the Ngoc Linh Nature Reserve of Vietnam. We sequenced the mitochondrial COI gene from Ngoc Linh bats and performed comparisons with Murina sequences available in the nucleotide databases. The results suggested that the three unidentified specimens belong to Murina lorelieae, a species recently described from a single specimen collected in southern China. Nucleotide distances between specimens from Ngoc Linh and southern China are exceptionally low for M. lorelieae (1.25%) in comparison with three other Murina species, i.e., Murina cyclotis, Murina feae, and Murina huttoni (3.9-5.5%). We suggest that M. lorelieae is adapted to montane forests, which may have facilitated long-distance dispersal events between southern China and Vietnam during glacial periods of the Pleistocene. Morphological comparisons based on body-size measurements and geometric morphometric analyses of the skulls showed differences between Vietnamese specimens and the Chinese holotype of M. lorelieae. We proposed that the Vietnamese specimens belong to a distinct subspecies, M. lorelieae ngoclinhensis.
Because they house large biodiversity collections and are also research centres with sequencing f... more Because they house large biodiversity collections and are also research centres with sequencing facilities, natural history museums are well placed to develop DNA barcoding best practices. The main difficulty is generally the vouchering system: it must ensure that all data produced remain attached to the corresponding specimen, from the field to publication in articles and online databases. The Museum National d'Histoire Naturelle in Paris is one of the leading laboratories in the Marine Barcode of Life (MarBOL) project, which was used as a pilot programme to include barcode collections for marine molluscs and crustaceans. The system is based on two relational databases. The first one classically records the data (locality and identification) attached to the specimens. In the second one, tissue-clippings, DNA extractions (both preserved in 2D barcode tubes) and PCR data (including primers) are linked to the corresponding specimen. All the steps of the process [sampling event, specimen identification, molecular processing, data submission to Barcode Of Life Database (BOLD) and GenBank] are thus linked together. Furthermore, we have developed several web-based tools to automatically upload data into the system, control the quality of the sequences produced and facilitate the submission to online databases. This work is the result of a joint effort from several teams in the Museum National d'Histoire Naturelle (MNHN), but also from a collaborative network of taxonomists and molecular systematists outside the museum, resulting in the vouchering so far of 41 000 sequences and the production of 11 000 COI sequences.
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Papers by J. Utge