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Bio
I work towards a paradigm change to understand the feedbacks and interactions between flow and biota at a fundamental level, as part of a physical and biological continuum more complex than the sum of its parts. I envision a substrate-to-surface approach to characterize the interconnected physical and biological processes at multiple scales within dynamic living environments from the sediment-water to the water-air interface, from rivers to coastal areas. Focusing on fundamental hydrodynamic interactions between flow and biota allows us to develop new theoretical frameworks based on turbulent features of the flow, leading to more accurate descriptions of ecohydraulic processes than traditional models which didn’t consider turbulence metrics. Through laboratory experiments, we aim to develop process-based models and predictors to be incorporated in large-scale long-term models of ecosystem alterations and morphodynamic change. Our process-based, substrate-to-surface, continuum approach allows us to address a broad range of ecohydraulic processes and applications, such as river management and restoration, coastal protection, and design and implementation of nature-based solutions.
Research Interests
Papers共 56 篇Author StatisticsCo-AuthorSimilar Experts
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JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACEno. 1 (2024)
Journal of Environmental Management (2024): 121574-121574
WATER RESOURCES RESEARCHno. 3 (2024)
WATER RESOURCES RESEARCHno. 2 (2023)
PROCEEDINGS OF THE 39TH IAHR WORLD CONGRESSpp.1292-1297, (2022)
Resources, Conservation and Recycling (2022): 106610-106610
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