Rapid shoreline flooding enhances water turbidity by sediment resuspension: An example in a large Tibetan lake

Mi, Huan; Fichot, Cédric G.; Bryan, Karin R.; Qiao, Gang; Fagherazzi, Sergio

doi:10.1002/esp.5000

Cited by 3 publications

(3 citation statements)

References 54 publications

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“…Sediment transport along the YRD is mainly controlled by seasonal winds, because surface currents are weak (Wang et al, 2010). In shallow water environments, wave‐induced bed shear stress generally represents the primary mechanism for sediment resuspension (Fagherazzi & Priestas, 2010; La Forgia et al, 2019; Mi et al, 2020). Here, we calculated the bed shear stress using waves and water depth to further explore drivers of TSS variability.…”

Section: Study Area Data and Methodologymentioning

confidence: 99%

Drivers of suspended sediment dynamics along the shorelines of the Yellow River Delta detected from satellite data

Jin,

Fagherazzi,

Fichot

et al. 2023

Earth Surf Processes Landf

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Total suspended solids (TSS) can be a useful indicator of environmental change in nearshore coastal environments. Understanding the mechanisms of TSS variations in response to environmental drivers is of broad interest for ecology and geomorphology. The Yellow River Delta (YRD) in China is a fragile coastal region that has been affected by human activities and climate change. Here, we investigated TSS along the YRD shoreline over two decades with time‐series satellite data (2002–2020). We observed that TSS concentration decreased significantly in nearshore waters (5‐m isobath) surrounding the YRD, especially in the LaiZhou Bay. During the same time period, wave height (WH) along the deltaic shoreline and sediment load from the Yellow River have decreased, while sea surface height (SSH) has displayed a positive trend. Our results indicate that WH and SSH play a major role in sediment resuspension and dispersion, while the YSD mildly affected TSS variability along the coast. Monthly bed shear stress triggered by waves was then computed using WH, wave period (WP), and SSH. Bed shear stress and TSS displayed a positive correlation. We concluded that seasonal oscillations in SSH in conjunction with wind waves are responsible for TSS variability in the shallow waters in front of the YRD.

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Section: Study Area Data and Methodologymentioning

confidence: 99%

Drivers of suspended sediment dynamics along the shorelines of the Yellow River Delta detected from satellite data

Jin,

Fagherazzi,

Fichot

et al. 2023

Earth Surf Processes Landf

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“…Within lakes, the connections between water quantity F I G U R E 5 An inspection of the publications on satellite remote sensing of both water quantity and water quality between 1991 and 2021 (represented in Figure 4a) indicated that only 225 of the initially identified 486 publications distinctly assess both types of parameters. fluctuations and TSS are often explored through changes in water elevation causing redistribution and mobilization of sediment (e.g., Mi et al, 2020). Another area of interest for these studies is water temperature.…”

Section: Research Trends In Remote Sensing Of Inland Watermentioning

confidence: 99%

“…Of the publications, 18% ( N = 41) of studies mention TSS (Figure 5b), with over half of them relating specifically to river discharge or flow. Within lakes, the connections between water quantity fluctuations and TSS are often explored through changes in water elevation causing redistribution and mobilization of sediment (e.g., Mi et al, 2020). Another area of interest for these studies is water temperature.…”

Section: Research Trends In Remote Sensing Of Inland Watermentioning

confidence: 99%

Bridging the divide between inland water quantity and quality with satellite remote sensing: An interdisciplinary review

Ellis,

Allen,

Riggs

et al. 2024

WIREs Water

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The quantity and quality of surface water are inherently connected yet are overwhelmingly studied separately in the field of remote sensing. Remotely observable water quantity (e.g., water extent, water elevation, lake/reservoir volume, and river discharge) and water quality (e.g., color, turbidity, total suspended solids, chlorophyll a, colored dissolved organic matter, and temperature) parameters of inland waterbodies interact through a series of hydrological and biogeochemical processes. In this review, we analyzed trends in remote sensing publications to understand the prevalence of studies on the quantity versus quality of open‐surface inland waterbodies (rivers, streams, lakes, and reservoirs) as well as identified opportunities for integrating both water quality and quantity sensing in future work. Our bibliometric analysis found that despite the increasing number of publications using remote sensing for inland waterbodies, few studies to date have used remote sensing tools or approaches to simultaneously study water quantity and quality. Ultimately, by providing insights into potential integration of the water quality and quantity studies, we aim to identify a pathway to advance the understanding of inland water dynamics and freshwater resources through remote sensing.This article is categorized under: Water and Life > Methods Science of Water > Water Quality Water and Life > Nature of Freshwater Ecosystems Science of Water > Methods

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Multi-scenario analysis in the Apulia shoreline: A multi-tiers analytical framework for the combined evaluation and management of coastal erosion and water quality risks

Dal Barco,

Furlan,

Pham

et al. 2024

Environmental Science & Policy

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Rapid shoreline flooding enhances water turbidity by sediment resuspension: An example in a large Tibetan lake

Cited by 3 publications

References 54 publications

Drivers of suspended sediment dynamics along the shorelines of the Yellow River Delta detected from satellite data

Drivers of suspended sediment dynamics along the shorelines of the Yellow River Delta detected from satellite data

Bridging the divide between inland water quantity and quality with satellite remote sensing: An interdisciplinary review

Multi-scenario analysis in the Apulia shoreline: A multi-tiers analytical framework for the combined evaluation and management of coastal erosion and water quality risks

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