Most echolocation studies have focused on bats and dolphins. Because of technological improvements in ultrasonic sensing and recording equipment, there now are cost-effective approaches towards examining ‘‘other’’ groups of mammals for possible echolocation abilities. In this study, we suggest that echolocation is a primitive characteristic, first appearing in insectivores, the ancestor of all other placental mammals. A few other studies and anatomical, behavioral, and physiological attributes suggest that shrews are likely to echolocate. In captivity, least shrews (Cryptotis parva) produce series of pulses. We used a board divided into an inner and outer box of equal area to run 8 least shrews through a set of foraging and orientation experiments. Experiments were in the dark and we monitored the circumstances under which shrews produced pulses using a night-vision video camera. An ANABATII bat detector monitored the presence of pulses, a Marantz cassette recorder documented the sounds, and Audioscope software on a laptop computer provided real time sonogram and oscillogram displays. The number of pulses and trains, the typical waveform, power spectrum, peak frequency, and bandwidth (−3 dB) were examined among the experiments. Results provided strong evidence that least shrews use simple pulses for both orientation and foraging.