Institution
University of Lorraine
Education•Nancy, France•
About: University of Lorraine is a education organization based out in Nancy, France. It is known for research contribution in the topics: Population & Nonlinear system. The organization has 11942 authors who have published 25010 publications receiving 425227 citations. The organization is also known as: Lorraine University.
Papers published on a yearly basis
Papers
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TL;DR: The absolute benefit of spironolactone was greatest in patients with reduced eGFR, and the risk of hyperkalemia and renal failure was higher in those with worse baseline renal function and those with WRF, particularly in the spironOLactone arm, but the substantial net benefit ofSpironolACTone therapy remained.
212 citations
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National Institute of Informatics1, University of Edinburgh2, Institut Eurécom3, University of Lorraine4, University of Eastern Finland5, NEC6, Aalto University7, Academia Sinica8, Trinity College, Dublin9, Google10, Nagoya University11, University of Avignon12, University of Science and Technology of China13
TL;DR: The ASVspoof challenge as mentioned in this paper was created to foster research on anti-spoofing and to provide common platforms for the assessment and comparison of spoofing countermeasures, and the first edition focused on replay spoofing attacks and countermeasures.
211 citations
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TL;DR: In this paper, a detailed mechanism of the pathways involved in CO 2 methanation over NiUSY catalysts is discussed in accordance with infrared spectroscopic data. Ni-impregnated USY zeolites with increasing Ni content (5, 10, 14% wt. ) were investigated by operando IR spectroscopy for both CO 2 adsorption and CO 2 meetinghanation conditions reaction.
Abstract: Ni-impregnated USY zeolites with increasing Ni content (5, 10, 14% wt. ) were investigated by operando IR spectroscopy for both CO 2 adsorption and CO 2 methanation conditions reaction. In-situ FTIR and TPD experiments highlighted a rather weak CO 2 adsorption, which occurs namely as carbonates or CO 2 linear complexes over cations ( e . g. , Na + ). Under methanation conditions, dissociated hydrogen reacts with carbonates and/or physisorbed CO 2 , leading to monodentate formates, then carbonyls (both adsorbed onto Ni 0 particles), and finally to methane. A detailed mechanism of the pathways involved in CO 2 methanation over NiUSY catalysts is then discussed in accordance with infrared spectroscopic data.
211 citations
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University of Lorraine1, MTA Biological Research Centre2, Lawrence Berkeley National Laboratory3, Clark University4, Michigan State University5, Pacific Northwest National Laboratory6, University of Turin7, Swiss Federal Institute for Forest, Snow and Landscape Research8, Ben-Gurion University of the Negev9, Academy of Sciences of the Czech Republic10, Oregon State University11, American Museum of Natural History12, University of Helsinki13, Shinshu University14, Kunming Medical University15, McMaster University16, University of California, Berkeley17, Duke University18, University of Toulouse19, Aix-Marseille University20, King Abdulaziz University21, Beijing Forestry University22
TL;DR: This study samples ecologically dominant fungal guilds for which there were previously no symbiotic genomes available, including ectomycorrhizal Russulales, Thelephorales and Cantharellales, and shows that transitions from saprotrophy to symbiosis involve widespread losses of degrading enzymes acting on lignin and cellulose.
Abstract: Mycorrhizal fungi are mutualists that play crucial roles in nutrient acquisition in terrestrial ecosystems. Mycorrhizal symbioses arose repeatedly across multiple lineages of Mucoromycotina, Ascomycota, and Basidiomycota. Considerable variation exists in the capacity of mycorrhizal fungi to acquire carbon from soil organic matter. Here, we present a combined analysis of 135 fungal genomes from 73 saprotrophic, endophytic and pathogenic species, and 62 mycorrhizal species, including 29 new mycorrhizal genomes. This study samples ecologically dominant fungal guilds for which there were previously no symbiotic genomes available, including ectomycorrhizal Russulales, Thelephorales and Cantharellales. Our analyses show that transitions from saprotrophy to symbiosis involve (1) widespread losses of degrading enzymes acting on lignin and cellulose, (2) co-option of genes present in saprotrophic ancestors to fulfill new symbiotic functions, (3) diversification of novel, lineage-specific symbiosis-induced genes, (4) proliferation of transposable elements and (5) divergent genetic innovations underlying the convergent origins of the ectomycorrhizal guild.
211 citations
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TL;DR: This study aims at clearly tracing the ongoing research and technical challenges in conceiving and building DTs as well, according to different application domains and related technologies, and tries to answer to the previous questions.
211 citations
Authors
Showing all 12161 results
Name | H-index | Papers | Citations |
---|---|---|---|
Jonathan I. Epstein | 138 | 1121 | 80975 |
Peter Tugwell | 129 | 948 | 125480 |
David Brown | 105 | 1257 | 46827 |
Faiez Zannad | 103 | 839 | 90737 |
Sabu Thomas | 102 | 1554 | 51366 |
Francis Martin | 98 | 733 | 43991 |
João F. Mano | 97 | 822 | 36401 |
Jonathan A. Epstein | 94 | 299 | 27492 |
Muhammad Imran | 94 | 3053 | 51728 |
Laurent Peyrin-Biroulet | 90 | 901 | 34120 |
Athanase Benetos | 83 | 391 | 31718 |
Michel Marre | 82 | 444 | 39052 |
Bruno Rossion | 80 | 337 | 21902 |
Lyn March | 78 | 367 | 62536 |
Alan J. M. Baker | 76 | 234 | 26080 |