Your search keyword '"Fuchs, Jérôme"' showing total 5 results

1. Dense sampling of bird diversity increases power of comparative genomics

Author

Feng, Shaohong, Stiller, Josefin, Deng, Yuan, Armstrong, Joel, Fang, Qi, Reeve, Andrew Hart, Xie, Duo, Chen, Guangji, Guo, Chunxue, Faircloth, Brant C., Petersen, Bent, Wang, Zongji, Zhou, Qi, Diekhans, Mark, Chen, Wanjun, Andreu-Sánchez, Sergio, Margaryan, Ashot, Howard, Jason Travis, Parent, Carole, Pacheco, George, Sinding, Mikkel-Holger S., Puetz, Lara, Cavill, Emily, Ribeiro, Ângela M., Eckhart, Leopold, Fjeldså, Jon, Hosner, Peter A., Brumfield, Robb T., Christidis, Les, Bertelsen, Mads F., Sicheritz-Ponten, Thomas, Tietze, Dieter Thomas, Robertson, Bruce C., Song, Gang, Borgia, Gerald, Claramunt, Santiago, Lovette, Irby J., Cowen, Saul J., Njoroge, Peter, Dumbacher, John Philip, Ryder, Oliver A., Fuchs, Jérôme, Bunce, Michael, Burt, David W., Cracraft, Joel, Meng, Guanliang, Hackett, Shannon J., Ryan, Peter G., Jønsson, Knud Andreas, Jamieson, Ian G., da Fonseca, Rute R., Braun, Edward L., Houde, Peter, Mirarab, Siavash, Suh, Alexander, Hansson, Bengt, Ponnikas, Suvi, Sigeman, Hanna, Stervander, Martin, Frandsen, Paul B., van der Zwan, Henriette, van der Sluis, Rencia, Visser, Carina, Balakrishnan, Christopher N., Clark, Andrew G., Fitzpatrick, John W., Bowman, Reed, Chen, Nancy, Cloutier, Alison, Sackton, Timothy B., Edwards, Scott V., Foote, Dustin J., Shakya, Subir B., Sheldon, Frederick H., Vignal, Alain, Soares, André E. R., Shapiro, Beth, González-Solís, Jacob, Ferrer-Obiol, Joan, Rozas, Julio, Riutort, Marta, Tigano, Anna, Friesen, Vicki, Dalén, Love, Urrutia, Araxi O., Székely, Tamás, Liu, Yang, Campana, Michael G., Corvelo, André, Fleischer, Robert C., Rutherford, Kim M., Gemmell, Neil J., Dussex, Nicolas, Mouritsen, Henrik, Thiele, Nadine, Delmore, Kira, Liedvogel, Miriam, Franke, Andre, Hoeppner, Marc P., Krone, Oliver, Fudickar, Adam M., Milá, Borja, Ketterson, Ellen D., Fidler, Andrew Eric, Friis, Guillermo, Parody-Merino, Ángela M., Battley, Phil F., Cox, Murray P., Lima, Nicholas Costa Barroso, Prosdocimi, Francisco, Parchman, Thomas Lee, Schlinger, Barney A., Loiselle, Bette A., Blake, John G., Lim, Haw Chuan, Day, Lainy B., Fuxjager, Matthew J., Baldwin, Maude W., Braun, Michael J., Wirthlin, Morgan, Dikow, Rebecca B., Ryder, T. Brandt, Camenisch, Glauco, Keller, Lukas F., DaCosta, Jeffrey M., Hauber, Mark E., Louder, Matthew I. M., Witt, Christopher C., McGuire, Jimmy A., Mudge, Joann, Megna, Libby C., Carling, Matthew D., Wang, Biao, Taylor, Scott A., Del-Rio, Glaucia, Aleixo, Alexandre, Vasconcelos, Ana Tereza Ribeiro, Mello, Claudio V., Weir, Jason T., Haussler, David, Li, Qiye, Yang, Huanming, Wang, Jian, Lei, Fumin, Rahbek, Carsten, Gilbert, M. Thomas P., Graves, Gary R., Jarvis, Erich D., Paten, Benedict, and Zhang, Guojie

Abstract

Whole-genome sequencing projects are increasingly populating the tree of life and characterizing biodiversity1–4. Sparse taxon sampling has previously been proposed to confound phylogenetic inference5, and captures only a fraction of the genomic diversity. Here we report a substantial step towards the dense representation of avian phylogenetic and molecular diversity, by analysing 363 genomes from 92.4% of bird families—including 267 newly sequenced genomes produced for phase II of the Bird 10,000 Genomes (B10K) Project. We use this comparative genome dataset in combination with a pipeline that leverages a reference-free whole-genome alignment to identify orthologous regions in greater numbers than has previously been possible and to recognize genomic novelties in particular bird lineages. The densely sampled alignment provides a single-base-pair map of selection, has more than doubled the fraction of bases that are confidently predicted to be under conservation and reveals extensive patterns of weak selection in predominantly non-coding DNA. Our results demonstrate that increasing the diversity of genomes used in comparative studies can reveal more shared and lineage-specific variation, and improve the investigation of genomic characteristics. We anticipate that this genomic resource will offer new perspectives on evolutionary processes in cross-species comparative analyses and assist in efforts to conserve species.

Published

2020

2. Vocalisation of the rare and flagship species Pharomachrus mocinno(Aves: Trogonidae): implications for its taxonomy, evolution and conservation

Author

Bolaños-Sittler, Pablo, Sueur, Jérôme, Fuchs, Jérôme, and Aubin, Thierry

Abstract

ABSTRACTThe Resplendent Quetzal Pharomachrus mocinnois a rare Neotropical bird included in the IUCN red list as Near Threatened. Fragmentation of its habitat, the cloud forest, is considered as the principal threat. Two subspecies are currently recognised but genetic and morphometric studies suggested they could be considered as full species. We assessed whether male vocalisation would support a species delimitation hypothesis. We recorded in the field and downloaded from sound archives vocalisation of 57 individuals from 30 different localities distributed in 11 countries. We estimated the acoustic differences of all the Pharomachrustaxa with multivariate analyses and machine learning techniques. Our results show vocal differences between P. m. mocinnoand P. m. costaricensisthat could have a molecular basis, potentially due to genetic drift developed during the more than three million years of separation of P. m. mocinno(from Mexico to Nicaragua) and P. m. costaricensis(Costa Rica and Panama). We therefore suggest that P. mocinnocould potentially be divided into two species. A possible separation of these taxa into two species could have important consequences for the conservation status of the Resplendent Quetzals, and redirect conservation efforts for these taxa.

Published

2020

3. Raptor genomes reveal evolutionary signatures of predatory and nocturnal lifestyles

Author

Cho, Yun, Jun, Je, Kim, Jung, Kim, Hak-Min, Chung, Oksung, Kang, Seung-Gu, Park, Jin-Young, Kim, Hwa-Jung, Kim, Sunghyun, Kim, Hee-Jong, Jang, Jin-ho, Na, Ki-Jeong, Kim, Jeongho, Park, Seung, Lee, Hwang-Yeol, Manica, Andrea, Mindell, David, Fuchs, Jérôme, Edwards, Jeremy, Weber, Jessica, Witt, Christopher, Yeo, Joo-Hong, Kim, Soonok, and Bhak, Jong

Abstract

Birds of prey (raptors) are dominant apex predators in terrestrial communities, with hawks (Accipitriformes) and falcons (Falconiformes) hunting by day and owls (Strigiformes) hunting by night. Here, we report new genomes and transcriptomes for 20 species of birds, including 16 species of birds of prey, and high-quality reference genomes for the Eurasian eagle-owl (Bubo bubo), oriental scops owl (Otus sunia), eastern buzzard (Buteo japonicus), and common kestrel (Falco tinnunculus). Our extensive genomic analysis and comparisons with non-raptor genomes identify common molecular signatures that underpin anatomical structure and sensory, muscle, circulatory, and respiratory systems related to a predatory lifestyle. Compared with diurnal birds, owls exhibit striking adaptations to the nocturnal environment, including functional trade-offs in the sensory systems, such as loss of color vision genes and selection for enhancement of nocturnal vision and other sensory systems that are convergent with other nocturnal avian orders. Additionally, we find that a suite of genes associated with vision and circadian rhythm are differentially expressed in blood tissue between nocturnal and diurnal raptors, possibly indicating adaptive expression change during the transition to nocturnality. Overall, raptor genomes show genomic signatures associated with the origin and maintenance of several specialized physiological and morphological features essential to be apex predators.

Published

2019

4. Investigation into the illegal killing of a tagged Eurasian Curlew

Author

Jiguet, Frédéric, Duby, Dylan, Bourgeois, Aude, Robin, Frédéric, Rousseau, Pierre, Nijs, Griet, Fuchs, Jérôme, Lorrillière, Romain, and Bocher, Pierrick

Abstract

•We describe the forensic approaches used to identify the cause of death of a Eurasian Curlew.•Suspicions were raised when the signal from this GPS tagged bird indicated it was not moving.•Retrieval of the carcass and further x-ray imagery enabled to detect a lead ball that broke the bill of the bird.•So that Eurasian Curlew had been shot and killed illegally, as hunting of Curlew is banned.•Eurasian Curlew is globally threatened due to widespread declines in the breeding population.

Published

2021

5. Author Correction: Dense sampling of bird diversity increases power of comparative genomics

Author

Feng, Shaohong, Stiller, Josefin, Deng, Yuan, Armstrong, Joel, Fang, Qi, Reeve, Andrew Hart, Xie, Duo, Chen, Guangji, Guo, Chunxue, Faircloth, Brant C., Petersen, Bent, Wang, Zongji, Zhou, Qi, Diekhans, Mark, Chen, Wanjun, Andreu-Sánchez, Sergio, Margaryan, Ashot, Howard, Jason Travis, Parent, Carole, Pacheco, George, Sinding, Mikkel-Holger S., Puetz, Lara, Cavill, Emily, Ribeiro, Ângela M., Eckhart, Leopold, Fjeldså, Jon, Hosner, Peter A., Brumfield, Robb T., Christidis, Les, Bertelsen, Mads F., Sicheritz-Ponten, Thomas, Tietze, Dieter Thomas, Robertson, Bruce C., Song, Gang, Borgia, Gerald, Claramunt, Santiago, Lovette, Irby J., Cowen, Saul J., Njoroge, Peter, Dumbacher, John Philip, Ryder, Oliver A., Fuchs, Jérôme, Bunce, Michael, Burt, David W., Cracraft, Joel, Meng, Guanliang, Hackett, Shannon J., Ryan, Peter G., Jønsson, Knud Andreas, Jamieson, Ian G., da Fonseca, Rute R., Braun, Edward L., Houde, Peter, Mirarab, Siavash, Suh, Alexander, Hansson, Bengt, Ponnikas, Suvi, Sigeman, Hanna, Stervander, Martin, Frandsen, Paul B., van der Zwan, Henriette, van der Sluis, Rencia, Visser, Carina, Balakrishnan, Christopher N., Clark, Andrew G., Fitzpatrick, John W., Bowman, Reed, Chen, Nancy, Cloutier, Alison, Sackton, Timothy B., Edwards, Scott V., Foote, Dustin J., Shakya, Subir B., Sheldon, Frederick H., Vignal, Alain, Soares, André E. R., Shapiro, Beth, González-Solís, Jacob, Ferrer-Obiol, Joan, Rozas, Julio, Riutort, Marta, Tigano, Anna, Friesen, Vicki, Dalén, Love, Urrutia, Araxi O., Székely, Tamás, Liu, Yang, Campana, Michael G., Corvelo, André, Fleischer, Robert C., Rutherford, Kim M., Gemmell, Neil J., Dussex, Nicolas, Mouritsen, Henrik, Thiele, Nadine, Delmore, Kira, Liedvogel, Miriam, Franke, Andre, Hoeppner, Marc P., Krone, Oliver, Fudickar, Adam M., Milá, Borja, Ketterson, Ellen D., Fidler, Andrew Eric, Friis, Guillermo, Parody-Merino, Ángela M., Battley, Phil F., Cox, Murray P., Lima, Nicholas Costa Barroso, Prosdocimi, Francisco, Parchman, Thomas Lee, Schlinger, Barney A., Loiselle, Bette A., Blake, John G., Lim, Haw Chuan, Day, Lainy B., Fuxjager, Matthew J., Baldwin, Maude W., Braun, Michael J., Wirthlin, Morgan, Dikow, Rebecca B., Ryder, T. Brandt, Camenisch, Glauco, Keller, Lukas F., DaCosta, Jeffrey M., Hauber, Mark E., Louder, Matthew I. M., Witt, Christopher C., McGuire, Jimmy A., Mudge, Joann, Megna, Libby C., Carling, Matthew D., Wang, Biao, Taylor, Scott A., Del-Rio, Glaucia, Aleixo, Alexandre, Vasconcelos, Ana Tereza Ribeiro, Mello, Claudio V., Weir, Jason T., Haussler, David, Li, Qiye, Yang, Huanming, Wang, Jian, Lei, Fumin, Rahbek, Carsten, Gilbert, M. Thomas P., Graves, Gary R., Jarvis, Erich D., Paten, Benedict, and Zhang, Guojie

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s41586-021-03473-8.

Published

2021