SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2263125006> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2263125006 endingPage "8465" @default.
W2263125006 startingPage "8439" @default.
W2263125006 abstract "Simulating the sediment transport in a high-turbidity region with spatially varying bed properties is challenging. A comprehensive strategy that integrates multiple methods is applied here to retrieve the critical shear stress for erosion, which plays a major role in suspended sediment dynamics in the Changjiang Estuary (CE). Time-series of sea surface suspended sediment concentration (SSC) were retrieved from the Geostationary Ocean Color Imager (GOCI) satellite data at hourly intervals (for 8 h each day) and combined with hydrodynamic modeling of high-resolution CE Finite-Volume Community Ocean Model (CE-FVCOM) to estimate the near-bed critical shear stress in the clay-dominated bed region (plasticity index > 7%). An experimental algorithm to determine the in situ critical shear stress via the plasticity index method was also used to verify the GOCI-derived critical shear stress. Implemented with this new critical shear stress, the sediment transport model significantly improved the simulation of the distribution and spatial variability of the SSC during the spring and neap tidal cycles in the CE. The results suggest that a significant lateral water exchange between channels and shoals occurred during the spring flood tide, which led to a broader high-SSC area in the CE throughout the water column." @default.
W2263125006 created "2016-06-24" @default.
W2263125006 creator A5028189532 @default.
W2263125006 creator A5036719875 @default.
W2263125006 creator A5054555211 @default.
W2263125006 creator A5055082130 @default.
W2263125006 creator A5074684372 @default.
W2263125006 date "2015-12-01" @default.
W2263125006 modified "2023-10-16" @default.
W2263125006 title "Estimation of critical shear stress for erosion in the <scp>C</scp> hangjiang <scp>E</scp> stuary: A synergy research of observation, <scp>GOCI</scp> sensing and modeling" @default.
W2263125006 cites W1523827028 @default.
W2263125006 cites W1764425612 @default.
W2263125006 cites W1966174559 @default.
W2263125006 cites W1967708252 @default.
W2263125006 cites W1968416755 @default.
W2263125006 cites W1970222608 @default.
W2263125006 cites W1970348916 @default.
W2263125006 cites W1974830158 @default.
W2263125006 cites W1979220565 @default.
W2263125006 cites W1982187447 @default.
W2263125006 cites W1983359531 @default.
W2263125006 cites W1984228365 @default.
W2263125006 cites W1984547519 @default.
W2263125006 cites W1987737965 @default.
W2263125006 cites W1989969177 @default.
W2263125006 cites W1998096948 @default.
W2263125006 cites W1998278755 @default.
W2263125006 cites W1999676742 @default.
W2263125006 cites W2001317684 @default.
W2263125006 cites W2004440397 @default.
W2263125006 cites W2019515143 @default.
W2263125006 cites W2020099513 @default.
W2263125006 cites W2020286182 @default.
W2263125006 cites W2025502570 @default.
W2263125006 cites W2026452644 @default.
W2263125006 cites W2026580727 @default.
W2263125006 cites W2028608228 @default.
W2263125006 cites W2030285186 @default.
W2263125006 cites W2032559073 @default.
W2263125006 cites W2036708810 @default.
W2263125006 cites W2043641841 @default.
W2263125006 cites W2048273964 @default.
W2263125006 cites W2049581673 @default.
W2263125006 cites W2066403940 @default.
W2263125006 cites W2067318016 @default.
W2263125006 cites W2068275788 @default.
W2263125006 cites W2072771368 @default.
W2263125006 cites W2074611011 @default.
W2263125006 cites W2076363928 @default.
W2263125006 cites W2077048844 @default.
W2263125006 cites W2080027150 @default.
W2263125006 cites W2082156555 @default.
W2263125006 cites W2082632661 @default.
W2263125006 cites W2084519134 @default.
W2263125006 cites W2085666551 @default.
W2263125006 cites W2086951911 @default.
W2263125006 cites W2090003532 @default.
W2263125006 cites W2090430536 @default.
W2263125006 cites W2090873761 @default.
W2263125006 cites W2097419181 @default.
W2263125006 cites W2102768814 @default.
W2263125006 cites W2104885467 @default.
W2263125006 cites W2120530427 @default.
W2263125006 cites W2121484925 @default.
W2263125006 cites W2124017065 @default.
W2263125006 cites W2130017444 @default.
W2263125006 cites W2130084914 @default.
W2263125006 cites W2132420005 @default.
W2263125006 cites W2134882873 @default.
W2263125006 cites W2135750567 @default.
W2263125006 cites W2158739039 @default.
W2263125006 cites W2161265506 @default.
W2263125006 cites W2165641092 @default.
W2263125006 cites W2166431417 @default.
W2263125006 cites W2167422715 @default.
W2263125006 cites W2171934953 @default.
W2263125006 cites W2315264731 @default.
W2263125006 cites W590181280 @default.
W2263125006 doi "https://doi.org/10.1002/2015jc010992" @default.
W2263125006 hasPublicationYear "2015" @default.
W2263125006 type Work @default.
W2263125006 sameAs 2263125006 @default.
W2263125006 citedByCount "46" @default.
W2263125006 countsByYear W22631250062016 @default.
W2263125006 countsByYear W22631250062017 @default.
W2263125006 countsByYear W22631250062018 @default.
W2263125006 countsByYear W22631250062019 @default.
W2263125006 countsByYear W22631250062020 @default.
W2263125006 countsByYear W22631250062021 @default.
W2263125006 countsByYear W22631250062022 @default.
W2263125006 countsByYear W22631250062023 @default.
W2263125006 crossrefType "journal-article" @default.
W2263125006 hasAuthorship W2263125006A5028189532 @default.
W2263125006 hasAuthorship W2263125006A5036719875 @default.
W2263125006 hasAuthorship W2263125006A5054555211 @default.
W2263125006 hasAuthorship W2263125006A5055082130 @default.
W2263125006 hasAuthorship W2263125006A5074684372 @default.
W2263125006 hasBestOaLocation W22631250061 @default.