Earliest octopuses were giant top predators in Cretaceous oceans
Summary
Top predators drive changes in ecosystem structure. For the last ~370 million years, large-sized vertebrates have dominated the apex of the marine food chain, while invertebrates have served as smaller prey. Here we describe invertebrate top predators from this "age of vertebrates," the earliest finned octopuses (Cirrata) from Late Cretaceous sediments (~100 to 72 million years ago), as identified based on huge, exceptionally well-preserved fossil jaws and their wear. This extensive wear s
Content
# Earliest octopuses were giant top predators in Cretaceous oceans
*Published: 2026 Apr 23*
Top predators drive changes in ecosystem structure. For the last ~370 million
years, large-sized vertebrates have dominated the apex of the marine food chain,
while invertebrates have served as smaller prey. Here we describe invertebrate
top predators from this "age of vertebrates," the earliest finned octopuses
(Cirrata) from Late Cretaceous sediments (~100 to 72 million years ago), as
identified based on huge, exceptionally well-preserved fossil jaws and their
wear. This extensive wear suggests dynamic crushing of hard skeletons.
Asymmetric wear patterns further indicate lateralized behavior, suggesting
advanced intelligence. With a calculated total length of ~7 to 19 meters, these
octopuses may represent the largest invertebrates thus described, rivaling
contemporaneous giant marine reptiles. Our findings show that powerful jaws, and
the loss of superficial skeletons, convergently transformed cephalopods and
marine vertebrates into huge, intelligent predators.
DOI: 10.1126/science.aea6285