Part of the Use R! book series (USE R)


A short introduction to the book content and structure.

Audio files:None

Supplementary material (222.7 mb)
Sound_files (ZIP 228,021KB)


  1. Bradbury JW, Vehrencamp SL (1998) Principles of animal communication. Sinauer Associates, SunderlandGoogle Scholar
  2. Cooper MA, Dultsev FN, Minson T, Ostanin VP, Abell C, Klenerman D (2001) Direct and sensitive detection of a human virus by rupture event scanning. Nat Biotechnol 19:833–837Google Scholar
  3. Das A (2012) Signal conditioning. An introduction to continuous wave communication and signal processing. Springer, BerlinGoogle Scholar
  4. Dziak RP, Bohnenstiehl DR, Baker ET, Matsumoto H, Caplan-Auerbach J, Embley RW, Merle SG, Walker SL, Lau TK, Chadwick WW (2015) Long-term explosive degassing and debris flow activity at west mata submarine volcano. Geophys Res Lett 42:1480–1487Google Scholar
  5. Felisberto P, Jesus SM, Zabel F, Santos R, Silva J, Gobert S, Beer S, Björk M, Mazzuca S, Procaccini G, Runcie JW, Champenois W, Borges AV (2015) Acoustic monitoring of O2 production of a seagrass meadow. J Exp Mar Biol Ecol 464:75–87Google Scholar
  6. Fletcher NH (1992) Acoustic systems in biology. Oxford University Press, OxfordGoogle Scholar
  7. Gagliano M, Mancuso S, Robert D (2012) Towards understanding plant bioacoustics. Trends Plant Sci 17:323–325Google Scholar
  8. Gustafsson MV, Aref T, Kockum AF, Ekström MK, Johansson G, Delsing P (2014) Propagating phonons coupled to an artificial atom. Science 346:207–211Google Scholar
  9. Hartmann WM (1998) Signals, sound, and sensation. Springer, New YorkGoogle Scholar
  10. Hopp SL, Owren MJ, Evans CS (1998) Animal acoustic communication. Springer, Berlin/HeidelbergGoogle Scholar
  11. Kabacoff R (2013) R in action, data analysis and graphics with R. Manning Publications, New YorkGoogle Scholar
  12. Larsen NJ, Wahlberg M (2017) Sound and sound sources. In: Comparative bioacoustics: an overview. Bentham Science, Sharjah, pp 3–61Google Scholar
  13. Mellinger DK, Clark CW (2003) Blue whale (Balaenoptera musculus) sounds from the North Atlantic. J Acoust Soc Am 114(2):1108–1119Google Scholar
  14. Quatieri TF (2002) Discrete-time speech signal processing: principles and practice. Pearson, NoidaGoogle Scholar
  15. Richter I, Koenders C, Auster HU, Frühauff D, Götz C, Heinisch P, Perschke C, Motschmann U, Stoll B, Altwegg K, Burch J, Carr C, Cupido E, Eriksson A, Henri P, Goldstein R, Lebreton JP, Mokashi P, Nemeth Z, Nilsson H, Rubin M, Szegö K, Tsurutani BT, Vallat C, Volwerk M, Glassmeier KH (2015) Ann Geophys 33:1031–1036Google Scholar
  16. Rossing TD (ed) (2007) Handbook of acoustics. Springer, New YorkGoogle Scholar
  17. Royer JY, Chateau R, Dziak R, Bohnenstiehl D (2015) Seafloor seismicity, Antarctic ice-sounds, cetacean vocalizations and long-term ambient sound in the Indian ocean basin. Geophys J Int 202:748–762Google Scholar
  18. Rumsey F, McCormick T (2002) Sound and recording. An introduction. Focal Press, BostonGoogle Scholar
  19. Speaks CE (1999) Introduction to sound. Singular Publishing Group, San Diego/LondonGoogle Scholar
  20. Sueur J, Farina A (2015) Ecoacoustics: the ecological investigation and interpretation of environmental sound. Biosemiotics 26:493–502Google Scholar
  21. Sueur J, Mackie D, Windmill JFC (2011) So small, so loud: Extremely high sound pressure level from a pygmy aquatic insect (Corixidae, Micronectinae). PLoS ONE 6:e21089Google Scholar
  22. Sylvander M, Ponsolles C, Benahmed S, Fels JF (2007) Seismoacoustic recordings of small earthquakes in the Pyrenees: experimental results. Bull Seismol Soci Am 97:294–304Google Scholar
  23. Teetor P (2011) R Cookbook. O’Reilly, SebastopolGoogle Scholar
  24. Xie Y (2013) Dynamic documents with R and knitr. The R Series. Chapman & Hall/CRC, Boca RatonGoogle Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  1. 1.Muséum National d’Histoire naturelleParisFrance

Personalised recommendations