Advanced stereopsis and predatory adaptation in a Cretaceous mantis

Advanced stereopsis and predatory adaptation in a Cretaceous mantis

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Visual systems have been crucial for animals to detect light signals.Binocular read more stereopsis has affected prey-predator re lationships throughout animal evolution by providing depth perception, among others.However, it has been difficult to reconstruct extinct binocular functions due to a lack of suitable fossil material.

Here, we show, based on morphological analysis of well-preserved eyes, that an extinct mantis (Ambermantis wozniaki Grimaldi, 2003) in the Cretaceous New Jersey amber developed an advanced visual system as a predator.We found that A.wozniaki possesses large compound eyes with numerous, ca.

12 000 ommatidia.The interocular distance is narrower than the eyes, and the estimated bin ocular visual field is broader than in the typical extant basal and derived taxa.The large number of ommatidia indicates that the compound eyes of A.

wozniaki achieved high spatial resolution to capture objects visually.The broad binocular field supports that A.wozniaki increased the stereoscopic area and developed an advanced prey-recognition system.

These findings suggest that the Cretaceous basal mantises were highly adaptive visual predators, implying the ecological domination of mantises as visual specialists for 90 quest fryer million years.