![]() ![]() Many of the flumes are designed for engineering studies, and are almost perfect in mimicking the physical processes. These allow studying hydrodynamic processes under different flow regimes and/or wave climates. Many flume systems are used at various institutes around the world. With a fundamental understanding of the ecosystem functioning in a biophysical context, we can provide the knowledge base for sustainable use of these valuable ecosystems, e.g. ![]() Ultimately, we aim to understand how the bio-physical interaction between the above mentioned items i & ii affects spatial development, functioning and resilience of the estuarine and coastal ecological landscape.įurthermore, we want to know how the biophysical interactions affects the sensitivity of these coastal systems to global-scale processes like, for instance, sea level rise and climate change, and to local-scale anthropogenic disturbances such as dredging and eutrophication. A flume is like a wind tunnel that serves to control water movement by a combination of flow and waves. ![]() To study these biophysical interactions we use flume systems and wave mesocosms. Ii) how marine and estuarine organisms alter the physical environment by changing hydrodynamic forces, thereby affecting sediment transport and pore-water fluxes I) how the forces originating from tidal currents and waves affect species performance, community structure and community interactions NIOZ-Yerseke has a long tradition in studying these bio-physical interactions. These coastal and marine ecosystems are strongly influenced by hydrodynamic forces originating from tidal currents and waves. Estuarine and marine ecosystems are highly valuable ecosystems that provide many ecosystem services to society. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |