Physalaemus lisei Braun & Braun, 1977

Physalaemus lisei Braun & Braun, 1977

We found a single call type for the species, referred to as call A. The call is composed of a single harmonic note with a long duration, slight PAM (no silence intervals between peaks) and irregular PFM. The bands have a general downward FM and a short upward FM segment at the end. Calls usually have nonlinear regimes such as deterministic chaos and subharmonics.

Call A ( Fig. 51 View FIGURE 51 A–N and 52B). We examined 19 recordings, a total of 89 minutes, with ca. 915 calls from 50 males. Only some of these calls were measured (see Table 2 View TABLE 2 ). Call duration varies from 0.967 to 1.997 s. The envelope of the call is variable; durations of call rise and fall are usually short and similar in duration, with a long sustain in between; the rise and fall shapes vary from logarithmic to almost linear or exponential. The sustain is flat ( Fig. 51E, F, H, I View FIGURE 51 ) or gradually ascending ( Fig. 51C, G View FIGURE 51 ). Some calls have a final part with higher amplitude ( Fig. 51C, G, I View FIGURE 51 ). Shallow and short amplitude valleys can be present, mainly at the beginning and end of the call ( Fig. 51C, I View FIGURE 51 ). The amplitude peak is usually at the very end of the call duration. Depending on the slope of the sustain, the envelope varies from rectangular ( Fig. 51E, F, H, I View FIGURE 51 ) to triangular (pointed left; Fig. 51C, G View FIGURE 51 ). More than 50 % of the call energy is concentrated in 47 % of the call duration around the amplitude peak. The call can have a slight PAM (there is no silence interval between peaks; Fig. 51E, G, H View FIGURE 51 ). The rate of the PAM is ca. 26 Hz, forming ca. 25 cycles throughout the call. The call has a harmonic series ( Fig. 52B View FIGURE 52 ). The fundamental frequency is ca. 480 Hz and this band can be present with low energy or absent in audiospectrograms. Six adjacent harmonics are emphasized (first seven except the fundamental). Usually, the wave periods are regular and harmonics are clear throughout the call. However, several calls show nonlinear regimes such as subharmonics (f 0 1/2, f 0 1/3, f 0 1/4, or f 0 1/5), biphonation, and deterministic chaos ( Fig. 51D, J, K, M View FIGURE 51 ). These phenomena can occur over the entire call. The dominant frequency varies from ca. 2330 to 2460 Hz ( Fig. 51D View FIGURE 51 ). The dominant harmonic varies from the first to the fifth (except the second), but it is usually the fourth or fifth along the first half of the call ( Fig. 52B View FIGURE 52 ). There is a clear shift in relative energy between the bands. Although there is no shift in the dominant frequency, higher bands get more energy towards the end of the call ( Fig. 51D, L, N View FIGURE 51 ). Most of the call energy is between 950 and 3350 Hz (five to six harmonics). The call has a slight general downward FM ( Fig. 51D, L, N View FIGURE 51 ). Additionally, calls have a very short and slight up-downward FM at their outset, leading to slightly arc-shaped bands in this part of the call, and a short upward FM at the end ( Fig. 51L, N View FIGURE 51 ). The general downward FM and the initial up-downward FM result in S-shaped harmonics when considering the entire call. Some calls show clear PFM ( Fig. 51L, N View FIGURE 51 ). Calls are usually emitted in irregular sequences, with two or three calls ( Fig. 51 View FIGURE 51 A–B).