From documented impacts to cross-taxa perspectives: Towards a framework for assessing vulnerability to underwater noise
Calonge, A.; Eicher, H.; Krång, A.-S.; Debusschere, E.; De Jong, K.; McQueen, K.; Ainslie, M.A.; den Held, M.; Rumes, B.; Schnitzler, J. (2026). From documented impacts to cross-taxa perspectives: Towards a framework for assessing vulnerability to underwater noise, in: Popper, A.N. et al. The effects of noise on aquatic life IV. pp. 1-10. https://dx.doi.org/10.1007/978-3-031-94229-7_31-1
|  |
| Author keywords |
Impact · Ecosystem-based assessment · Sensitivity · Auditory mechanism · Marine Strategy Framework Directive (MSFD) · DEMASK |
| Authors | | Top |
- Calonge, A.
- Eicher, H.
- Krång, A.-S.
- Debusschere, E., more
|
- De Jong, K.
- McQueen, K.
- Ainslie, M.A.
|
- den Held, M.
- Rumes, B., more
- Schnitzler, J., more
|
| Abstract |
The escalating threat of aquatic noise to marine life underscores the urgency of setting scientifically grounded underwater noise limits. The Marine Strategy Framework Directive (MSFD) Descriptor 11 provides a policy lever to mitigate pressures arising from underwater noise. Achieving this goal requires that underwater radiated noise (URN) management shifts from a primarily pressure-based approach, focused on quantifying environmental sound pressure, towards a risk-based, ecosystem-oriented framework. This approach requires the selection of indicator species to relate noise vulnerability to impacts on populations. As part of the Interreg North Sea DEMASK project, the need for a multi-criteria framework for selecting indicator species from multiple taxa is introduced, with the overarching goal of assessing vulnerability to URN. The framework should combine a range of attributes related to the sound sensitivity and production of the animal, documented impacts of URN, and attributes describing the species’ general vulnerability related to life-history traits and socio-ecological status. Here, an overview of documented impacts of URN on mammals, fish, and invertebrates in the North Sea is presented, with the aim of motivating a multi-criteria, cross-taxa framework in selecting indicator species to support an adaptive and impact-focused vulnerability assessment |
|
