Troscianko Jolyon, Wilson-Aggarwal Jared, Griffiths David, Spottiswoode Claire N, Stevens Martin
University of Exeter, School of Biosciences, Penryn Campus, Penryn TR10 9FE, UK.
FoAM - Kernow, Workshop E, Jubilee Warehouse, Commercial Road, Penryn TR10 8FG, UK.
Behav Ecol. 2017 Mar-Apr;28(2):556-564. doi: 10.1093/beheco/arw185. Epub 2017 Feb 4.
There is huge diversity in visual systems and color discrimination abilities, thought to stem from an animal's ecology and life history. Many primate species maintain a polymorphism in color vision, whereby most individuals are dichromats but some females are trichromats, implying that selection sometimes favors dichromatic vision. Detecting camouflaged prey is thought to be a task where dichromatic individuals could have an advantage. However, previous work either has not been able to disentangle camouflage detection from other ecological or social explanations, or did not use biologically relevant cryptic stimuli to test this hypothesis under controlled conditions. Here, we used online "citizen science" games to test how quickly humans could detect cryptic birds (incubating nightjars) and eggs (of nightjars, plovers and coursers) under trichromatic and simulated dichromatic viewing conditions. Trichromats had an overall advantage, although there were significant differences in performance between viewing conditions. When searching for consistently shaped and patterned adult nightjars, simulated dichromats were more heavily influenced by the degree of pattern difference than were trichromats, and were poorer at detecting prey with inferior pattern and luminance camouflage. When searching for clutches of eggs-which were more variable in appearance and shape than the adult nightjars-the simulated dichromats learnt to detect the clutches faster, but were less sensitive to subtle luminance differences. These results suggest there are substantial differences in the cues available under viewing conditions that simulate different receptor types, and that these interact with the scene in complex ways to affect camouflage breaking.
视觉系统和颜色辨别能力存在巨大差异,这种差异被认为源于动物的生态和生活史。许多灵长类物种在颜色视觉上保持多态性,即大多数个体是二色视者,但一些雌性是三色视者,这意味着选择有时有利于二色视觉。检测伪装的猎物被认为是二色视个体可能具有优势的一项任务。然而,先前的研究要么无法将伪装检测与其他生态或社会解释区分开来,要么没有使用生物学上相关的隐蔽刺激在受控条件下测试这一假设。在这里,我们使用在线“公民科学”游戏来测试人类在三色视和模拟二色视观看条件下检测隐蔽鸟类(正在孵卵的夜鹰)和卵(夜鹰、鸻和走鸻的卵)的速度有多快。三色视者总体上具有优势,尽管观看条件之间的表现存在显著差异。在寻找形状和图案一致的成年夜鹰时,模拟二色视者比三色视者更容易受到图案差异程度的影响,并且在检测图案和亮度伪装较差的猎物方面表现更差。在寻找卵的窝时(卵的外观和形状比成年夜鹰更具变化性),模拟二色视者学会更快地检测到卵的窝,但对细微的亮度差异不太敏感。这些结果表明,在模拟不同受体类型的观看条件下可用的线索存在实质性差异,并且这些差异以复杂的方式与场景相互作用,从而影响对伪装的破解。
