Fluctuating asymmetry as an indicator of environmental stress in small mammals

JOSE A. CODA; JUAN JOSÉ MARTÍNEZ; ANDREA STEINMANN; JOSÉ PRIOTTO; DANIELA GOMEZ

MASTOZOOLOGí­A NEOTROPICAL

UNIDAD DE ZOOLOGÍA Y ECOLOGÍA ANIMAL, INSTITUTO ARGENTINO DE INVESTIGACIÓN DE LAS ZONAS ARIDAS, CRICYT, CONICET

Año: 2017 vol. 24 p. 313 - 321

0327-9383

The developmental stability of an organism is reflected in its ability to produce an ?ideal? form under a particular set of conditions. Bilateral structures in bilaterally symmetrical organisms offer a precise symmetry against which departures may be compared. The tool mostly used to estimate the development stability is fluctuating asymmetry, which considers small random deviations that occur between the left and right sides of a bilateral trait. Fluctuating asymmetry is considered as the only form of asymmetry that can serve as a useful indicator of environmental/genetic stress. We summarized four decades of studies where fluctuating asymmetry was used to assess the effects of environmental stress in small mammals. This group of species has been widely used in ecological studies to infer environmental disturbances because of its wide range of characteristics. We selected 27 articles that were compiled with Google Scholar (Mountain View, CA) using ?fluctuating asymmetry? and ?small mammals? as key words, written in English and with ecological objectives. We focused our analyses on the approaches used to evaluate fluctuating asymmetry (linear measurements or geometric morphometrics), the stress factor (natural or anthropogenic), the region where the study was developed, the number of traits used in the studies and the data sources, including measures obtained from samples of barn owl pellets, scientific collections and captured animals. The review shows the importance of including fluctuating asymmetry in ecological studies as a reliable, cheap and fast biological indicator of the effect of environmental stress on mammals.