Add to ORKGCalling songs of certain orthopteran species (Insecta, Orthoptera) in southern Portugal. — The calling songs produced by males of the Orthoptera occurring at the field station “Herdade da Ribeira Abaixo ” (Centre for Environmental Biology), in Grândola (southern Portugal), are described. The songs were recorded in the field with a portable professional DAT recorder and were analysed in the form of oscillograms and sonagrams. Except for the interesting Gryllotalpa vineae Bennet–Clark, these are the 12 first descriptions of the acoustic parameters and behaviour of the Portuguese populations of the 13 species occurring at the field station an
Understanding the ecology and evolution of animal communication systems requires detailed data on si...
46. Paragryllus sp.2 (Fig. 40) — i) calling song, 2.2 kHz ± 0.09 (2.1–2.4, n = 6); 21–22ºC; chir...
Este estudo caracteriza a ultramorfologia da nervura estridulatória e o som de chamado de duas popul...
The Gryllus genus represents one the most complex in the Orthoptera systematic, characterized by a s...
Three isolated populations of the cricket Endecous itatibensis Rehn, 1918 had been analyzed to test ...
Fourteen endemic and two sub-endemic species belonging to three subfamilies of Tettigoniidae (Tettig...
Guadeloupe, the largest of the Leeward Islands, harbors three species of Pseudophyllinae (Or-thopter...
Bioacoustic monitoring and classification of animal communication signals has developed into a power...
38. Mogoplistidae sp.4 —i) calling song, 6.4 kHz; phrases emitted irregularly; each phrase compose...
Acoustic communication is one of the most well-known behavioural traits of the Orthoptera. Orthopter...
28. Oecanthus lineolatus Saussure, 1897 (Fig. 26) — i) calling song, 3.3 kHz; 30 Ch/min, 23.5ºC (...
This study characterizes the calling song and ultramorphology of the stridulatory file of two geogra...
Conocephalus (Anisoptera) truncatus (Redtenbacher) (Figure 5d) Bioacoustics (Figure 6g –h) ...
We studied the songs and morphology of the stridulatory file of Isophya modestior across its complet...
31. Oecanthus rubromaculatus Zefa, 2022 (Fig. 29) — i) calling song, 2.4 kHz at 18.4ºC; regular s...
Understanding the ecology and evolution of animal communication systems requires detailed data on si...
46. Paragryllus sp.2 (Fig. 40) — i) calling song, 2.2 kHz ± 0.09 (2.1–2.4, n = 6); 21–22ºC; chir...
Este estudo caracteriza a ultramorfologia da nervura estridulatória e o som de chamado de duas popul...
The Gryllus genus represents one the most complex in the Orthoptera systematic, characterized by a s...
Three isolated populations of the cricket Endecous itatibensis Rehn, 1918 had been analyzed to test ...
Fourteen endemic and two sub-endemic species belonging to three subfamilies of Tettigoniidae (Tettig...
Guadeloupe, the largest of the Leeward Islands, harbors three species of Pseudophyllinae (Or-thopter...
Bioacoustic monitoring and classification of animal communication signals has developed into a power...
38. Mogoplistidae sp.4 —i) calling song, 6.4 kHz; phrases emitted irregularly; each phrase compose...
Acoustic communication is one of the most well-known behavioural traits of the Orthoptera. Orthopter...
28. Oecanthus lineolatus Saussure, 1897 (Fig. 26) — i) calling song, 3.3 kHz; 30 Ch/min, 23.5ºC (...
This study characterizes the calling song and ultramorphology of the stridulatory file of two geogra...
Conocephalus (Anisoptera) truncatus (Redtenbacher) (Figure 5d) Bioacoustics (Figure 6g –h) ...
We studied the songs and morphology of the stridulatory file of Isophya modestior across its complet...
31. Oecanthus rubromaculatus Zefa, 2022 (Fig. 29) — i) calling song, 2.4 kHz at 18.4ºC; regular s...
Understanding the ecology and evolution of animal communication systems requires detailed data on si...
46. Paragryllus sp.2 (Fig. 40) — i) calling song, 2.2 kHz ± 0.09 (2.1–2.4, n = 6); 21–22ºC; chir...
Este estudo caracteriza a ultramorfologia da nervura estridulatória e o som de chamado de duas popul...