Thomas Tully
University of Paris
29 Papers
11 Citations
Thomas Tully is an academic researcher from University of Paris. The author has contributed to research in topics: Biology & Population. The author has an hindex of 16, co-authored 27 publications. Previous affiliations of Thomas Tully include Paris-Sorbonne University & École Normale Supérieure.
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Papers
Diverse aging rates in ectothermic tetrapods provide insights for the evolution of aging and longevity
Beth A. Reinke,Hugo Cayuela,Fredric J. Janzen,Jean-François Lemaître,Jean-Michel Gaillard,A. Michelle Lawing,John B. Iverson,Ditte G. Christiansen,Iñigo Martínez-Solano,Gregorio Sánchez-Montes,Jorge Gutiérrez-Rodríguez,Francis L. Rose,Nicola J. Nelson,Susan N. Keall,Alain J. Crivelli,T. Nazirides,Annegret Grimm-Seyfarth,Klaus Henle,Emiliano Mori,Gaëtan Guiller,Rebecca N. Homan,Anthony Olivier,Erin Muths,Blake R. Hossack,Xavier Bonnet,David S. Pilliod,Marieke Lettink,Tony Whitaker,Benedikt R. Schmidt,Michael G. Gardner,Marc Cheylan,Françoise Poitevin,Ana Golubović,Ljiljana Tomović,Dragan Arsovski,Richard Griffiths,Jan W. Arntzen,J.-P. Baron,Jean-François Le Galliard,Thomas Tully,Luca Luiselli,Massimo Capula,Lorenzo Rugiero,Rebecca McCaffery,Lisa A. Eby,Venetia Briggs-Gonzalez,Frank J. Mazzotti,David L. Pearson,Brad A. Lambert,David M. Green,Nathalie Jreidini,Claudio Angelini,Graham H. Pyke,Jean-Marc Thirion,Pierre Joly,Jean-Paul Léna,Anton D. Tucker,Colin J. Limpus,Pauline Priol,Aurélien Besnard,Pauline Bernard,Kristin M. Stanford,Richard R. King,Justin M. Garwood,Jaime Bosch,Franco L. Souza,Jaime Bertoluci,Shirley Famelli,K. Grossenbacher,Omar Lenzi,Kathleen Webster Matthews,Sylvain Boitaud,Deanna H. Olson,Tim S. Jessop,Graeme R. Gillespie,Jean Clobert,Murielle Richard,Andrés Valenzuela-Sánchez,Gary M. Fellers,Patrick M. Kleeman,Brian J. Halstead,Evan H. Campbell Grant,Phillip G. Byrne,Thierry Frétey,B. Le Garff,Pauline Levionnois,John C. Maerz,Julian Pichenot,Kurtuluş Olgun,Nazan Üzüm,Aziz Avcı,Claude Miaud,Johan Elmberg,Gregory P. Brown,Richard Shine,Nathan F. Bendik,Lisa O'Donnell,Courtney L. Davis,Michael J. Lannoo,Rochelle M. Stiles,Robert M. Cox,Aaron M. Reedy,Daniel A. Warner,Eric Bonnaire,Kristine L. Grayson,R Ramos-Targarona,Eyup Başkale,David Muñoz,John Measey,F. Andre de Villiers,Will Selman,Victor Ronget,Anne M. Bronikowski,David A. W. Miller +113 more
TL;DR: A study of aging rates and longevity across wild tetrapod ectotherms, using data from 107 populations (77 species) of nonavian reptiles and amphibians to test hypotheses of how thermoregulatory mode, environmental temperature, protective phenotypes, and pace of life history contribute to demographic aging.
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The effect of autocorrelation in environmental variability on the persistence of populations: an experimental test.
TL;DR: Analysis of all extinct populations demonstrated that time to extinction was shortened as environmental autocorrelation increased, and this acceleration of extinction can be fully offset if sequential introduction is used in place of simultaneous introduction when founding the populations.
Reproductive flexibility: genetic variation, genetic costs and long-term evolution in a collembola.
TL;DR: It is demonstrated that collembola have a remarkable adaptive ability for adjusting their reproductive phenotype: when transferred from harsh to good conditions (in terms of food ration and crowding), a mother can fine-tune the number and the size of her eggs from one clutch to the next.
Functional response: rigorous estimation and sensitivity to genetic variation in prey
TL;DR: A single genetic effect was detected - the relationship between the encounter rate and prey density differed significantly between clones - whereas a direct comparison of functional response across clones failed to reveal genetic variation.
Interference versus exploitative competition in the regulation of size-structured populations.
TL;DR: A physiologically structured population model accounting for direct individual interactions is studied, allowing for a gradient from exploitative competition to interference competition, and sheds new light on the interpretation of the size-structured dynamics of natural and experimental populations.
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