02704nas a2200205 4500008004100000022001300041245010900054210006900163260001600232300001200248490000800260520186000268653002702128653001902155653001702174653002602191100002302217700002502240856023302265 2018 eng d a0003347200aTo compete or not to compete: bushcricket song plasticity reveals male body condition and rival distance0 aTo compete or not to compete bushcricket song plasticity reveals cJan-08-2018 a59 - 680 v1423 a
Males of several animals, including insects, use acoustic signals to attract a sexually receptive conspecific partner. In the orthopteran chorusing genus Poecilimon (Tettigoniidae), male signalling as well as female preference can be related to male body condition and to the social environment. Song is thought to be an honest signal of male quality, and song characteristics are therefore often important for sexual and social selection. At the same time, signal expression is plastic and this plasticity depends on the quality of the individual signaller, the acoustic components preferred by females and rivals' body condition and proximity. Using the bushcricket species Poecilimon ampliatus as a model, we investigated how both internal (body condition) and external (level of competition) factors affected the expression of temporal song characteristics. We show that both factors significantly affected acoustic signalling activity: when competing against light rivals, heavy males adjusted the characteristics of their songs to different social conditions. However, light males competing against a heavy rival showed less plasticity in their acoustic signals across social conditions. During the most escalated competition, heavier males increased their acoustic signal investment up to the maximum level, signalling with longer verses and higher duty cycles, in comparison to all other treatments. Body condition and the social environment affected male acoustic signal activity, which suggests that these factors mediate the allocation of resources for signalling and different strategies adopted in competition. The adaptive plasticity of acoustic signals in this species raises new questions about the potential role that this process could play in natural choruses, where more than two competitors are signalling simultaneously.
10abehavioural plasticity10abody condition10abushcrickets10amale-male competition1 aAnichini, Marianna1 aFrommolt, Karl-Heinz uhttps://linkinghub.elsevier.com/retrieve/pii/S0003347218301738https://api.elsevier.com/content/article/PII:S0003347218301738?httpAccept=text/xmlhttps://api.elsevier.com/content/article/PII:S0003347218301738?httpAccept=text/plain02999nas a2200241 4500008004100000022001400041245011700055210006900172260001600241300001400257490000700271520223100278653002602509653002802535653001502563653001002578653002302588100002702611700002502638700002202663700001702685856005502702 2014 eng d a1366-638X00aBaseline data for automated acoustic monitoring of Orthoptera in a Mediterranean landscape, the Hymettos, Greece0 aBaseline data for automated acoustic monitoring of Orthoptera in cJan-10-2014 a909 - 9250 v183 aAcoustic emissions of animals serve communi- cative purposes and most often contain species-specific and individual information exploitable to listeners, rendering bioacoustics a valuable tool for biodiversity monitoring. Recording bioacoustic signals allows reproducible species identification. There is a great need for increased use and further development of automated animal sound recording and identification to improve monitoring efficiency and accuracy for the benefit of conservation. Greece, with its high number of endemic species, represents a hotspot for European Biodiversity, including Orthopteran insects. Songs of many Orthoptera might be employed for the inventorying and monitoring of individual species and communities. We assessed the regional spatio-temporal composition of Orthoptera species at the Hymettos near Athens, which is a Natura 2000 site under constant threat due to the surrounding megacity. Within the framework of the EU Life Plus funded AmiBio project, we documented the Orthopteran species’ habitat characteristics, their co-occurrence and phenology. We found, in total, 20 species with seven to ten Orthoptera at locations characterised by diverse vegetation patterns of perennial herbs and bushes. For the purposes of implemen- tation of an automated remote monitoring scheme, we identified sampling sites with high Orthopteran diversity, allowing the monitoring of all singing Orthoptera within single localities. By analysing sound depositories and adding recordings from new sample individuals, we established a song library as prerequisites for future automatic song detection. Based on our results, acoustic recording units have been placed at remote sites at the Hymettos. We discuss recommendations for further studies to fully employ the potential of automated acoustic monitoring of Orthoptera. A reliable assessment of singing Orthoptera needs recording units covering ultrasound. Due to high attenuation and absorbance by the vegetation, particularly of the high fre- quencies characterising Orthopteran songs, positioning of microphones at sites is critical: the microphone sensor net- work has to be an order of magnitude denser than for mon- itoring birds,
10aAutonomous monitoring10aBiodiversity monitoring10aOrthoptera10asound10awildlife recording1 aLehmann, Gerlind, U.C.1 aFrommolt, Karl-Heinz1 aLehmann, Arne, W.1 aRiede, Klaus uhttp://link.springer.com/10.1007/s10841-014-9700-2