Bio-inspired camouflage to prevent shark attacks on surfers. Bio-inspired camouflage to prevent shark attacks on surfers. This project aims to develop a new shark deterrent technology to protect surfers and paddlers. Shark attacks are physically and emotionally devastating for the victims, and make the community disproportionately afraid. Surfers are at most risk of attack, but current surfboard-mounted deterrents are ineffective and not widely used. This project will build on the recent discove ....Bio-inspired camouflage to prevent shark attacks on surfers. Bio-inspired camouflage to prevent shark attacks on surfers. This project aims to develop a new shark deterrent technology to protect surfers and paddlers. Shark attacks are physically and emotionally devastating for the victims, and make the community disproportionately afraid. Surfers are at most risk of attack, but current surfboard-mounted deterrents are ineffective and not widely used. This project will build on the recent discovery that white sharks do not attack counter-illuminated (light emitting) seal-shaped decoys, and use new information about shark vision to understand why this ‘camouflage’ is so successful. This will also help to protect threatened shark species by reducing reliance on culling programs to keep people safe in the water.Read moreRead less
How different is different: highly contrasting colours in animal patterns. Red apples in green trees and blue berries on the ground create very different visual signals to animals. Furthermore, elaborate animal colour patterns have evolved to render them conspicuous or camouflaged against their background. Despite the ecological and evolutionary importance of animal colour patterns, little is known about how larger colour contrasts and complex patterns are perceived by animals. This project aim ....How different is different: highly contrasting colours in animal patterns. Red apples in green trees and blue berries on the ground create very different visual signals to animals. Furthermore, elaborate animal colour patterns have evolved to render them conspicuous or camouflaged against their background. Despite the ecological and evolutionary importance of animal colour patterns, little is known about how larger colour contrasts and complex patterns are perceived by animals. This project aims to fill this knowledge gap specifically it endeavours: to provide useful tools for behavioural ecologists and visual neuroscientists, and to understand for the first time the full gamut of colour signalling in both terrestrial and aquatic environments.Read moreRead less
From gene to duty: the emergence of the complex brain. This project aims to determine the molecular code (genes and their products) responsible for the expansion of the nonhuman primate visual cortex, which underpins the formation of discrete functional and anatomical areas. The project will detail all the genes expressed at key stages of brain development and how interfering with their expression inhibits the normal formation of areas. The expected outcomes are a chronological and functional ma ....From gene to duty: the emergence of the complex brain. This project aims to determine the molecular code (genes and their products) responsible for the expansion of the nonhuman primate visual cortex, which underpins the formation of discrete functional and anatomical areas. The project will detail all the genes expressed at key stages of brain development and how interfering with their expression inhibits the normal formation of areas. The expected outcomes are a chronological and functional map of the molecular code that underpins the formation of the complex primate visual cortex. This will contribute to defining the mechanisms leading to the evolution of the complex primate visual brain and complement the numerous brain connectome studies being undertaken globally.Read moreRead less