Physalaemus obtectus Bokermann, 1966

Physalaemus obtectus Bokermann, 1966

We found a single call type for the species, referred to as call A. The call is composed of a sequence of pulses. There are clear harmonics, however deterministic-chaos regimes can be present at the beginning of the pulses where jumps of the fundamental frequency are common.

Call A ( Fig. 10 View FIGURE 10 A–J and 4G). We examined seven recordings, a total of eight minutes, with ca. 280 calls from eight males. Only some of these calls were measured (see Table 2 View TABLE 2 ). Call duration varies from 0.415 to 0.553 s. Usually, call rise and fall durations are similar, both resembling logarithmic shape; the amplitude peak is at around (usually just before) the middle of the call duration ( Fig. 10A, D, E, F View FIGURE 10 ). However, some calls have an exponential or linear rise, followed by a long sustain and an abrupt fall ( Fig. 10C View FIGURE 10 ). In calls with rise and fall similar in slope and duration, the envelope of the call is symmetric ( Fig. 10A, D, E, F View FIGURE 10 ), whereas in calls with sustain the envelope is rectangular or triangular (pointed left; Fig. 10C View FIGURE 10 ). More than 50 % of the call energy is concentrated in 35 % of the call duration around the amplitude peak. The call has pulse-PAM (with silence intervals present between pulses; Fig. 10 View FIGURE 10 A–J). The rate of the PAM is ca. 9 Hz, forming ca. four pulses throughout the call. The pulses of the first half of the call have rise similar to fall and the amplitude peak is at the middle of the pulse. On the other hand, the pulses of the second half have rises sharper and shorter than falls, which are more gradual, with amplitude peaks at the beginning of the pulses ( Fig. 10A, D, E, F View FIGURE 10 ). In some calls, the last pulse is clearly shorter than the others ( Fig. 10E View FIGURE 10 ). There is a long silence interval between the pulses, equivalent to ca. 1.5 times the pulse duration. The call has a harmonic series ( Fig. 4G View FIGURE 4 ). The fundamental frequency is ca. 380 Hz and this band can be present with low energy or absent in the audiospectrograms. Most of the wave periods are regular and the harmonics are clear throughout the call. However, subharmoncis, deterministic chaos, and jumps of the fundamental frequency are observed at the beginning and end of the pulses ( Fig. 10H, I View FIGURE 10 ). At the same parts of the pulse, the low fundamental frequency can lead to the wave peaks to be shown as broadband clicks (instantaneously high sound-pressure effect; see Littlejohn 2001) in audiospectrograms at broad filter bandwidths. The dominant frequency varies from ca. 1210 to 1230 Hz ( Fig. 10B View FIGURE 10 ). The dominant harmonic varies from the third to the seventh, but it is usually the third or fourth. There is no clear shift in the relative energy among the bands throughout the call. Most of the call energy is between 800 and 1600 Hz (often, two or three harmonics). The frequency bands have a general upward FM throughout the call ( Fig. 10B, G, I, J View FIGURE 10 ). Additionally, there is PFM throughout the call, which is directly proportional to the synchronic pulse-PAM, i.e., each pulse has an up-downward FM ( Fig. 10A, B View FIGURE 10 , D–F, H–J).