Salt marshes are highly productive intertidal wetlands providing important ecological
services for maintaining coastal biodiversity, buffering against oceanic storms, and acting as …

Vegetation creates a complicated system of feedbacks and linkages across the fluvial
system that is realized through river planform shape. Interactions occur among flow …

This paper highlights some recent trends in vegetation hydrodynamics, focusing on
conditions within channels and spanning spatial scales from individual blades, to canopies …

Natural riparian vegetation generally presents a complex hydrodynamic behavior governed
by plant morphology and flexibility. By contrast, hydrodynamic processes in partly vegetated …

The paper addresses the fluid–structure interaction of submerged aquatic canopies, with
particular focus on the complex interplay between coherent flow structures and the motion of …

Riparian shrubs and trees present a complex, seasonally variable morphology, with flexible
stems and leaves efficiently adapting to the flow forcing (reconfiguration). The aim of this …

Both the foliage and stem essentially influence the flow resistance of woody plants, but their
different biomechanical properties complicate the parameterization of foliated vegetation for …

河流潜流带是地表-地下水连通和交换的主要区域, 地表-地下水过程不仅促进了生源物质的迁移
转化过程, 还能涵养水源, 稳定区域生境, 为水生生物提供良好的栖息环境 …

Moving water exerts drag forces on vegetation. The susceptibility of vegetation to bending
and breakage determines its flow resistance, and chances of survival, under hydrodynamic …

Flow and sediment regimes shape alluvial river channels; yet the influence of these abiotic
drivers can be strongly mediated by biotic factors such as the size and density of riparian …