Biological–physical interactions are fundamental to understanding and managing coastal dynamics Article Swipe

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Forcing (mathematics) Observational study Computer science Environmental resource management Risk analysis (engineering) Management science Data science Environmental science Business Engineering Climatology Medicine Pathology Geology

Martin Solan , Tom Spencer , David M. Paterson , Chris Unsworth , Elizabeth Christie , Andrew J. Blight , Jennifer Brown , Helen Brooks , Ian D. Lichtman , Xiaoyan Wei , Xiaorong Li , Pete Thorne , Julian Leyland , Jasmin A. Godbold , Charlotte Thompson , Megan E. Williams , Andy Plater , Iris Möller , Laurent O. Amoudry ·

YOU? · · 2023 · Open Access · · DOI: https://doi.org/10.1098/rsos.230155 · OA: W4384068202

There is an urgent need to address coastal dynamics as a fundamental interaction between physical and biological processes, particularly when trying to predict future biological–physical linkages under anticipated changes in environmental forcing. More integrated modelling, support for observational networks and the use of management interventions as controlled experimental exercises should now be vigorously pursued.