Comparative habits and habitat in extant and extinct nautiloid cephalopods from acoustic telemetry and stable oxygen isotope analyses
This study uses acoustic tracking and oxygen isotope analysis to reveal depth behavior in Nautilus and Allonautilus. Adults consistently occupy warmer, shallower waters than juveniles, while only select species migrate daily. Comparison with 18 extinct nautiloids shows generally warmer growth temperatures, refining interpretations of fossil cephalopod habitats.
Subject Tags
- Data Science and Artificial Intelligence
Abstract
Information about behavior and habitat depths of Nautilus and Allonautilus species, the last remaining nautiloid cephalopod genera, is relevant both to paleobiologists trying to interpret the lives of extinct chambered cephalopods as well as to ecologists seeking to better understand the food webs of the Mesophotic Zone (200–800 m), fore-reef slope communities of the tropical Indopacific where these archaic animals live. One long-standing question is whether the extant nautiloid species live in deeper water than the many extinct species; a second is whether there are habitation depth differences of adult nautiloids compared to juveniles - either now or in the past. Using shell-mounted acoustic transmitters on seven different species in the two extant genera, and oxygen isotope shell thermometry on these same species as well as from fossils of 18 extinct fossil nautiloid species, we found regular, diurnal migration in only one species of each extant genus. Mature individuals in all tracked species of both genera were found to inhabit significantly shallower (and warmer) depths (~ 200 m) than the immature nautiluses and allonautiluses of the same populations (~ 350–400 m). Extinct nautiloid genera showed significantly warmer shell growth temperatures, with the single exception of Eocene through Miocene-aged species of the ammonoid-like genus Aturia, although diagenesis from not only ancient, but modern carbonates cannot be ruled out.
Citation
Ward, P. D., Barord, G., Carlson, B., Dooley, F., Dunstan, A., Gowep, N., ... & Veloso, J. (2026). Comparative habits and habitat in extant and extinct nautiloid cephalopods from acoustic telemetry and stable oxygen isotope analyses. Scientific Reports.
TNC Authors
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Richard Hamilton
Senior Conservation & Science Advisor • Asia Pacific Office
The Nature Conservancy
Email: rhamilton@tnc.org