Banca de DEFESA: SAMYR DAMASCENO BONIFACIO
Uma banca de DEFESA de MESTRADO foi cadastrada pelo programa.STUDENT : SAMYR DAMASCENO BONIFACIO
DATE: 03/07/2024
TIME: 09:00
LOCAL: Videoconferência
TITLE:
INFLUENCE OF COLOR VISION AND IMAGE SEARCH IN INSECT DETECTION BY HUMANS
KEY WORDS:
camouflaged targets; natural scenarios; conspicuous insects; human visual phenotypes.
PAGES: 104
BIG AREA: Ciências Biológicas
AREA: Zoologia
SUBÁREA: Comportamento Animal
SUMMARY:
Insects are an abundant group and are part of the diet of many predators. To avoid them, some insects use colors to blend into the environment, while others use bright colors to signal that they are unpalatable. The use of colors by insects can help them survive, but the predator's color vision can break the camouflage. Here, we investigate the visual phenotype of the predator, the type of coloration, and the size of the insect. Based on this, our research aims to determine among dichromatic and trichromatic humans who has the advantage in detecting insects. These insects use different colorations, such as disruptive coloration, aposematic coloration, and background matching. We also verify if the target size (large and small) influences detection. To do this, we prepared and edited photos of insects on the Trilha dos Saguis at UFRN and selected 40 participants, consisting of 20 trichromats and 20 dichromats. The participants touched a touchscreen monitor, choosing one photo out of four, where only one had the positive stimulus (photo containing the insect) and three had negative stimuli (photos containing the landscape without the insect). Our results indicate that in terms of hit latency of the targets, trichromats are faster in detecting insects when they present aposematic coloration, background matching, and when the targets are smaller. In the case of disruptive coloration and when the targets are large, there is no significant difference between dichromats and trichromats. Regarding the number of target hits, dichromats detect more insects, especially when they have background matching coloration and when the targets are small, compared to trichromats. For disruptive and aposematic coloration, trichromats performed better than expected compared to dichromats. Our results indicate that trichromats are faster and detect more aposematic and disruptively colored insects because these conspicuous colors are efficient against dichromatic predators, but trichromacy favors the predator in detecting these targets. Dichromats detect more targets, especially when they are small and have background matching coloration, due to chromatic noise, which affects trichromats more since they better distinguish colors. However, this energy used to distinguish colors hinders the identification of achromatic cues, unlike dichromats who can redirect this energy and use it to identify achromatic cues, favoring a better assessment of shapes, contours, and textures.
COMMITTEE MEMBERS:
Presidente - 1476621 - DANIEL MARQUES DE ALMEIDA PESSOA
Interno - 1149552 - ARRILTON ARAUJO DE SOUZA
Externo à Instituição - PEDRO ZURVÂINO PALMEIRA MELO ROSA DE MORAES