Well-tuned bats: these animals are what they hear.Bats living side-by-side may, in effect, be in different worlds. Two studies of the animals' beeps find that their heating is differently tuned in ways likely to affect their mating and hunting. On two Indonesian islands, three groups of the large-eared horseshoe bat The Large-eared Horseshoe Bat (Rhinolophus philippinensis) is a species of bat in the Rhinolophidae family. It is found in Australia, Indonesia, Malaysia, Papua New Guinea, and the Philippines. Source
In the same journal issue, other researchers compare five species of bats in Germany, all in the Myotis Myotis genus of bats. Includes M. thysanodes (fringed myotis bat), M. myotis (European common mouse-eared bat), M. lucifugus (little brown bat). genus. Although these bats naturally forage in similar settings, they performed differently in a test of insect detection. The bats have corresponding differences in their calls and in details of their hunting grounds, say Bjorn Siemers and Hans-Ulrich Schnitzler of the University of Tubingen. Most bats hunt by echolocation echolocation Physiological process for locating distant or invisible objects (such as prey) by emitting sound waves that are reflected back to the emitter by the objects. Echolocation is used by an animal to orient itself, avoid obstacles, find food, and interact socially. . To monitor their world, they send out beeps and listen for variations in the echoes. Tests showed that, for echolocation, each subspecies subspecies, also called race, a genetically distinct geographical subunit of a species. See also classification. emits a different multiple, or harmonic, of the same fundamental frequency, say the researchers. The bats' ears have an exquisite sensitivity to their own harmonic frequency. The researchers calculated that such differences in echolocation render prey of particular sizes or at certain distances invisible to one subspecies but not to another. Bats within each group seem to communicate with each other via their own echolocation frequency, says Kingston, so individuals would find mates with similarly tuned hearing--a recipe for species splitting. The researchers' analysis of bat DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. suggests that the subspecies are beginning to diverge. Menno Schilthuizen, an evolutionary biologist at the University of Malaysia Sabah in Kota Kinabalu, says that he'd like to see direct tests of whether call frequencies affect mating. "However, overall, I think it is a wonderful study," he says. The bats in Germany don't use a constant tone, as the Indonesian bats do, but instead emit bursts of sound that slide down frequencies. The extent of the slide varies with species. Siemers and Schnitzler dangled a mealworm mealworm see alphitobius diaperinus. yellow mealworm see tenebrio molitor. at various distances in front of a vertical, nubby carpet that created a background of confusing echoes. The five species differed in how well they could capture the mealworm between 5 and 10 centimeters from the carpet, the researchers report. The bats that nabbed insects closest to the acoustic clutter have calls with the greatest frequency slide and naturally forage in tree canopies rather than over rivers. This study "is the first to provide empirical evidence that seemingly minor differences in call design can have real behavioral consequences," say Brock Fenton of the University of Western Ontario Western is one of Canada's leading universities, ranked #1 in the Globe and Mail University Report Card 2005 for overall quality of education.[2] It ranked #3 among medical-doctoral level universities according to Maclean's Magazine 2005 University Rankings. in London and John Ratcliffe of the University of Toronto Research at the University of Toronto has been responsible for the world's first electronic heart pacemaker, artificial larynx, single-lung transplant, nerve transplant, artificial pancreas, chemical laser, G-suit, the first practical electron microscope, the first cloning of T-cells, at Mississauga in the same issue of Nature. |
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