Abstract
Estuarine sediment dynamics are a consequence of various forcings (barotropic, estuarine circulation, and fluvial) that vary in space and time. Here, we present a study examining sediment dynamics in a narrow microtidal estuary, the Lower Passaic River in New Jersey, USA. The analysis incorporates measurements of suspended sediments, morphological change, sediment erodibility, and a numerical hydrodynamic model. The former two datasets are used to develop an understanding of sediment dynamics over the full range of hydrologic conditions, and the latter two datasets are used to interpret the behavior of the system. Subsequently, a conceptual picture is developed, one that classifies the morphological status of the system at any given time into three regimes dependent on river flow—regime I includes conditions when the system is importing sediments, regime II includes conditions when the system is exporting sediments by flushing a thin easily erodible surficial stratum termed the fluff layer, and regime III includes conditions when the system is exporting sediments by scouring more consolidated strata underneath the fluff layer. Regime III is relevant for the long-term morphodynamic equilibrium of the estuary by providing a mechanism that erodes and exports sediment accumulated under regime I conditions. Consequently, sediment dynamics depend not only on short time-scale processes such as the instantaneous river flow rate, but also on the time-history of river flow, and the long-term morphological progression of the system. These regimes represent a conceptualization of estuarine sediment transport dynamics and can be useful in the development of effective estuarine sediment management strategies.
Highlights
Estuarine sediment dynamics are a consequence of the advective and dispersive transport of suspended sediment originating from freshwater and marine sources, and the bed-water exchange processes of erosion and deposition
Due to its morphology, the Lower Passaic River (LPR) is characterized by flood-dominance in currents, and suspended sediment concentrations (SSC) tends to be higher during flood than ebb
Sediment dynamics during low river flow conditions are primarily influenced by the formation and persistence of a thin layer of erodible sediments termed the fluff layer, deposited around slack water and eroded during the following flood or ebb phase of the tide
Summary
Estuarine sediment dynamics are a consequence of the advective and dispersive transport of suspended sediment originating from freshwater and marine sources, and the bed-water exchange processes of erosion and deposition. CDM Smith, 14 Wall St, Suite 1702, New York, NY 10005, USA sediment dynamics include barotropic circulation induced by coastal setup and setdown, wind-induced circulation and mixing, local wind-waves, and ocean waves (Dyer 1997) The latter three are mainly relevant for relatively wide estuaries, estuaries subject to the propagation of ocean waves, and/ or estuaries with large tidal shallows. Since the estuary reported upon in this paper is relatively narrow (i.e., fetch-limited for wind-waves) and is not directly influenced by ocean waves, the impacts of winds and waves are not examined further in this paper Given their relevance to the analyses in this paper, the impact of the primary forcings (barotropic, estuarine, riverine) on sediment dynamics is briefly summarized first followed by a discussion of the present research
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