, January 2019 — Acoustic behavior and ecology of the Resplendent Quetzal Pharomachrus mocinno, a flagship tropical bird species, Comportement et écologie sonore du Quetzal Resplendissant Pharomachrus mocinno, une espèce porte-drapeau d’oiseau tropical. The Resplendent Quetzal Pharomachrus mocinno is a tropical bird considered in a high risk of danger. Degradation of its habitat… , ,
, October 2019 — « Tropical acoustic diversity. Monitoring of a seed disperser, the white throated toucan » in International Symposium of LabExDRIIHM.. , ,
, 2018 — Estimating animal acoustic diversity in tropical environments using unsupervised multiresolution analysis. Ecological Indicators vol. 90, , p. 346-355
ISSN
1470-160X
, 2018 — Acoustic communities reflects lateral hydrological connectivity in riverine floodplain similarly to macroinvertebrate communities. Scientific Reports vol. 8, n° 1, p. 14387
ISSN
2045-2322
, 2015 — First description of underwater acoustic diversity in three temperate ponds. Peerj vol. 3, , e1393
ISSN
2167-8359
, December 2015 — Ecoacoustics: the Ecological Investigation and Interpretation of Environmental Sound. Biosemiotics vol. 8, n° 3, p. 493-502
ISSN
1875-1342
, 2016 — Screening large audio datasets to determine the time and space distribution of Screaming Piha birds in a tropical forest. Ecological Informatics vol. 31, , p. 91-99
ISSN
1574-9541
, 2014 — Monitoring temporal change of bird communities with dissimilarity acoustic indices. Methods in Ecology and Evolution vol. 5, n° 6, p. 495-505
, 2014 — Ecology and acoustics at a large scale. Ecological Informatics vol. 21, , p. 1-3
, 2014 — Temporal and spatial variability of animal sound within a neotropical forest. Ecological Informatics vol. 21, , p. 133-143
ISSN
1574-9541
, 2018 — Freshwater ecoacoustics as a tool for continuous ecosystem monitoring. Frontiers in Ecology and the Environment vol. 16, n° 4, p. 231-238
ISSN
15409295
, 2018 — Sound analysis and synthesis with R. , , dir. Springer
, 2018 — Estimating animal acoustic diversity in tropical environments using unsupervised multiresolution analysis. Ecological Indicators vol. 90, , p. 346-355
ISSN
1470-160X
, 2013 — Assessing biodiversity with sound: Do acoustic diversity indices reflect phylogenetic and functional diversities of bird communities ?. Ecological Indicators vol. 25, , p. 279-287
ISSN
1470-160X
, 2013 — Spatial heterogeneity of ambient sound at the habitat type level: ecological implications and applications. Landscape Ecology vol. 28, , p. 495-506
, 2013 — Female frog auditory sensitivity, male calls, and background noise: potential influences on the evolution of a peculiar matched filter. Biological Journal of the Linnean Society vol. 110, n° 4, p. 814-827
, 2013 — Biodiversity Sampling Using a Global Acoustic Approach: Contrasting Sites with Microendemics in New Caledonia. PLoS One vol. 8, n° 5, e65311
, 2015 — Comments on Tibicina Amyot, 1847 and Lyristes Horvath, 1926 (Insecta, Hemiptera, Homoptera): proposed conservation by the suppression of Tibicen Berthold, 1827 (?Latreille, 1825), and concerning the type species of Cicada Linnaeus, 1758 (Case 239).. Bulletin of Zoological Nomenclature vol. 72, n° 3, p. 219-220
ISSN
0007-5167
, 2015 — Acoustic indices for biodiversity assessment: analyses of biases on bird assemblage simulations and recommendations for field survey. Biological Conservation vol. 91, , p. 306-312
, 2018 — Cricket calling communities as an indicator of the invasive ant Wasmannia auropunctata in an insular biodiversity hotspot. Biological Invasions vol. 20, , p. 1099-1111
ISSN
1573-1464