SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2897738081> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W2897738081 endingPage "2924" @default.
W2897738081 startingPage "2901" @default.
W2897738081 abstract "Subtidal flows driven by density gradients affect the tide-averaged sediment transport in estuaries and, therefore, can influence their long-term morphodynamic evolution. The three-dimensional Coupled Ocean-Atmosphere-Wave-Sediment Transport modeling system is applied to numerically analyze the effects of baroclinicity and Earth's rotation on the long-term morphodynamic evolution of idealized funnel-shaped estuaries. The morphodynamic evolution in all the analyzed cases reproduced structures identified in many tide-dominated estuaries: a meandering region in the fluvial-tidal transition zone, a tidal maximum area close to the head, and a turbidity maxima region in the brackish zone. As the morphology of the estuaries evolved, the tidal propagation (including its asymmetry), the salinity gradient, and the strength of subtidal flows changed, which reflects the strong bathymetric control of these systems. The comparison with barotropic simulations showed that the three-dimensional structure of the flow (induced by density gradients) has leading order effects on the morphodynamic evolution. Density gradient-driven subtidal flows (1) promote near-bed flood dominance and, consequently, the import of sediment into the estuary, (2) accelerate the morphodynamic evolution of the upper/middle estuary, (3) promote a more concave shape of the upper estuary and reduce the ebb-tidal delta volume, and (4) produce an asymmetric bathymetry and inhibit the formation of alternate bars that would form under barotropic conditions. This latter effect is the consequence of the combined effect of Earth's rotation and baroclinicity." @default.
W2897738081 created "2018-10-26" @default.
W2897738081 creator A5043686349 @default.
W2897738081 creator A5047084201 @default.
W2897738081 creator A5068425973 @default.
W2897738081 creator A5072600079 @default.
W2897738081 creator A5079250086 @default.
W2897738081 date "2018-11-01" @default.
W2897738081 modified "2023-10-16" @default.
W2897738081 title "Effects of Density‐Driven Flows on the Long‐Term Morphodynamic Evolution of Funnel‐Shaped Estuaries" @default.
W2897738081 cites W104113404 @default.
W2897738081 cites W1507344130 @default.
W2897738081 cites W1548037420 @default.
W2897738081 cites W1572702949 @default.
W2897738081 cites W1586826975 @default.
W2897738081 cites W1588062114 @default.
W2897738081 cites W1670416979 @default.
W2897738081 cites W1938045417 @default.
W2897738081 cites W1966670921 @default.
W2897738081 cites W1966981265 @default.
W2897738081 cites W1973950773 @default.
W2897738081 cites W1975360915 @default.
W2897738081 cites W1988338859 @default.
W2897738081 cites W1988377292 @default.
W2897738081 cites W1991121489 @default.
W2897738081 cites W1992751620 @default.
W2897738081 cites W1996290568 @default.
W2897738081 cites W1997887142 @default.
W2897738081 cites W2021242499 @default.
W2897738081 cites W2024506915 @default.
W2897738081 cites W2026419585 @default.
W2897738081 cites W2027339295 @default.
W2897738081 cites W2030269387 @default.
W2897738081 cites W2031273536 @default.
W2897738081 cites W2032089122 @default.
W2897738081 cites W2032258089 @default.
W2897738081 cites W2038846128 @default.
W2897738081 cites W2040800702 @default.
W2897738081 cites W2042610352 @default.
W2897738081 cites W2047894679 @default.
W2897738081 cites W2049853794 @default.
W2897738081 cites W2051659740 @default.
W2897738081 cites W2054529442 @default.
W2897738081 cites W2056266266 @default.
W2897738081 cites W2061412128 @default.
W2897738081 cites W2061515896 @default.
W2897738081 cites W2068007949 @default.
W2897738081 cites W2068303138 @default.
W2897738081 cites W2068633490 @default.
W2897738081 cites W2069298791 @default.
W2897738081 cites W2072238352 @default.
W2897738081 cites W2072636200 @default.
W2897738081 cites W2074731869 @default.
W2897738081 cites W2083778668 @default.
W2897738081 cites W2084421227 @default.
W2897738081 cites W2091062184 @default.
W2897738081 cites W2094581504 @default.
W2897738081 cites W2099210305 @default.
W2897738081 cites W2099581206 @default.
W2897738081 cites W2100986500 @default.
W2897738081 cites W2101870069 @default.
W2897738081 cites W2106496318 @default.
W2897738081 cites W2108564379 @default.
W2897738081 cites W2114510124 @default.
W2897738081 cites W2117076883 @default.
W2897738081 cites W2121484925 @default.
W2897738081 cites W2122790995 @default.
W2897738081 cites W2123658005 @default.
W2897738081 cites W2129239116 @default.
W2897738081 cites W2132264794 @default.
W2897738081 cites W2138568451 @default.
W2897738081 cites W2143275222 @default.
W2897738081 cites W2145852904 @default.
W2897738081 cites W2147195399 @default.
W2897738081 cites W2158345841 @default.
W2897738081 cites W2160076844 @default.
W2897738081 cites W2166009585 @default.
W2897738081 cites W2179601251 @default.
W2897738081 cites W2189296520 @default.
W2897738081 cites W2491990249 @default.
W2897738081 cites W2564373625 @default.
W2897738081 cites W2585516974 @default.
W2897738081 cites W2588761496 @default.
W2897738081 cites W2603526413 @default.
W2897738081 cites W2616177930 @default.
W2897738081 cites W2697055940 @default.
W2897738081 cites W4206356425 @default.
W2897738081 cites W4233594374 @default.
W2897738081 cites W755025044 @default.
W2897738081 doi "https://doi.org/10.1029/2017jf004527" @default.
W2897738081 hasPublicationYear "2018" @default.
W2897738081 type Work @default.
W2897738081 sameAs 2897738081 @default.
W2897738081 citedByCount "33" @default.
W2897738081 countsByYear W28977380812019 @default.
W2897738081 countsByYear W28977380812020 @default.
W2897738081 countsByYear W28977380812021 @default.
W2897738081 countsByYear W28977380812022 @default.