All Outputs (2)

Application of a seismic network to baleen whale call detection and localization in the Panama basin-a Bryde's whale example. (2024)
Journal Article
Tary, J. B., Peirce, C., Hobbs, R., Bonilla Walker, F., De La Hoz, C., Bird, A., & Vargas, C. A. (2024). Application of a seismic network to baleen whale call detection and localization in the Panama basin-a Bryde's whale example. The Journal of the Acoustical Society of America, 155(3), 2075-2086. https://doi.org/10.1121/10.0025290

Baleen whales use sounds of various characteristics for different tasks and interactions. This study focuses on recordings from the Costa Rica Rift, in the Eastern Tropical Pacific Ocean, made by 25 ocean-bottom seismographs and a vertical array of 1... Read More about Application of a seismic network to baleen whale call detection and localization in the Panama basin-a Bryde's whale example..

Older than you think: using U–Pb calcite geochronology to better constrain basin-bounding fault reactivation, Inner Moray Firth Basin, western North Sea (2023)
Journal Article
Tamas, A., Holdsworth, R. E., Tamas, D. M., Dempsey, E. D., Hardman, K., Bird, A., …Selby, D. (2023). Older than you think: using U–Pb calcite geochronology to better constrain basin-bounding fault reactivation, Inner Moray Firth Basin, western North Sea. Journal of the Geological Society, 180(5), https://doi.org/10.1144/jgs2022-166

Like many rift basins worldwide, the Inner Moray Firth Basin (IMFB) is bounded by major reactivated fault zones, including the Helmsdale Fault and the Great Glen Fault (GGF). The Jurassic successions exposed onshore close to these faults at Helmsdale... Read More about Older than you think: using U–Pb calcite geochronology to better constrain basin-bounding fault reactivation, Inner Moray Firth Basin, western North Sea.