Rejskovití hmyzožravci (čeleď Soricidae) jsou drobní savci, kterých si v přírodě často sotva všimneme. Vyznačují se však mnoha zajímavostmi, díky kterým rozhodně stojí za naši pozornost. K těmto zajímavostem lze zařadit i schopnost echolokace, tj. schopnost orientovat se v prostoru za pomoci ozvěn cvakání, které vydávají. Kromě cvakání se během pohybu prostředím patrně orientují i pomocí štěbetavých hlasů. Bělozubky hnědé (Suncus murinus) při pohybu v neznámém prostředí také „duní“. Zda se i toto dunění uplatňuje při orientaci v prostoru není zatím jasné. Bělozubky pouštní (Diplomesodon pulchellum) zase při přechodu mezi různými typy substrátu vibrují, a tyto vibrace vytvářené celým tělem jim pravděpodobně pomáhají odhadnout vlastnosti substrátu a vyhnout se tak zbytečnému hrabání v hustém písku., Shrews (Soricidae) are small mammals that can be barely noticed in nature. However, there are many interesting facts that make them noteworthy, including echolocation - the ability to navigate with the help of echoes of the clicks they produce. Apart from the clicks, twitters are also probably used for navigation. The Asian House Shrew (Suncus murinus) moving through an unfamiliar environment produces boom, but it is not yet clear whether this sound is used for navigation. The Piebald Shrew (Diplomesodon pulchellum) produces body vibrations in response to a change in the substrate under their feet. These vibrations may be used for exploration of substrate density to avoid digging in dense sand., and Irena Schneiderová.
The habitat choice of foraging bats depends on the local food supply as well as on vegetation structures that may enable the animals to orientate by echolocation. We examined the associations of bats with different types of landscape elements. Effects of the local insect occurrence, of the canopy structure and of linear vegetation elements on the presence of bats were compared. Bat activity increased with the insect abundance (p = 0.025). Furthermore, regression analysis revealed that bat activity was positively correlated (p = 0.004) with the relative area of open canopy type (clearances, still waters), and vise versa was negatively associated with the area of closed canopy (p = 0.0005). Bat species that predominantly forage in different vertical strata (above or below the canopy), differed in the activity at the various habitat types. Pipistrelle bats and Myotis species favoured open canopy areas (p = 0.007; p= 0.029), whereas Nyctalus species were not significantly more active at this patch type, compared to closed canopy areas (p = 0.0712). Linear characteristics of the vegetation (edges, paths) in general did not regulate the local preferences of bats (p = 0.154), but they corresponded to bat activity in complex structured areas (e.g. clearances with trees; p = 0.008).
We studied the structure of calls emitted by the echolocating fruit bat Rousettus leschenaulti (Megachiroptera:Pteropodidae) while flying inside a free-flight room. The echolocation sounds consists of both single as well as double clicks, with single clicks emitted either in the beginning or at the end of click sequences. The duration of clicks was brief, about 1.6 ms and most of the acoustic energy is between 18 to 32 kHz. The use of simple, brief impulsive clicks and the reduction of interpulse interval and duration, when approaching the sides of the walls suggest that they have a good capability of obstacle avoidance as similar to microchiropteran bats. Furthermore, the production of both single as well as double clicks like cave swiftlets in orientation flights has an implication for the evolution of echolocation in bats.