The Virtual Lover: Variable and Easily Guided 3D Fish Animations As an Innovative Tool in Mate-choice Experiments with Sailfin Mollies-II. Validation

Overview

Journal Curr Zool

Publisher Oxford University Press

Date 2018 Mar 2

PMID 29491964

Citations 16

Authors

Stefanie Gierszewski

Klaus Muller

Ievgen Smielik

Jan-Marco Hutwohl

Klaus-Dieter Kuhnert

Klaudia Witte

Affiliations

Soon will be listed here.

Abstract

The use of computer animation in behavioral research is a state-of-the-art method for designing and presenting animated animals to live test animals. The major advantages of computer animations are: (1) the creation of animated animal stimuli with high variability of morphology and even behavior; (2) animated stimuli provide highly standardized, controlled and repeatable testing procedures; and (3) they allow a reduction in the number of live test animals regarding the 3Rs principle. But the use of animated animals should be attended by a thorough validation for each test species to verify that behavior measured with live animals toward virtual animals can also be expected with natural stimuli. Here we present results on the validation of a custom-made simulation for animated 3D sailfin mollies and show that responses of live test females were as strong to an animated fish as to a video or a live male fish. Movement of an animated stimulus was important but female response was stronger toward a swimming 3D fish stimulus than to a "swimming" box. Moreover, male test fish were able to discriminate between animated male and female stimuli; hence, rendering the animated 3D fish a useful tool in mate-choice experiments with sailfin mollies.

Citing Articles

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