Mussels realize Weierstrassian Levy walks as composite correlated random walks

Composite correlated random walks (CCRW) have been posited as a potential replacement for Levy walks and it has also been suggested that CCRWs have been mistaken for Levy walks. Here I test an alternative, emerging hypothesis: namely that some organisms approximate Levy walks as an innate CCRW. It is shown that the tri-modal CCRW found to describe accurately the movement patterns of mussels (Mytilus edulis)during spatial pattern formation in mussel beds can be regarded as being the first three levels in a hierarchyof nested movement patterns which if extended indefinitely would correspond to a Levy walk whose characteristic (power-law) exponent is tuned to nearly minimize the time required to form patterned beds. The mussels realise this Levy walk to good approximation across a biologically meaningful range of scales. This demonstrates that the CCRW not only describes mussel movement patterns, it explains them.