SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311113602> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4311113602 endingPage "849" @default.
W4311113602 startingPage "830" @default.
W4311113602 abstract "A hybrid coastal defense consisting of a salt-marsh system at the seaward side and dykes on the landward side has been globally implemented to improve coastal resilience. In this approach, marshes are valuable ecosystems that dampen storm surges and have an intrinsic ability to keep up with sea-level rise (SLR). Dykes instead, prevent the surge from penetrating inland. Therefore, dyke retreat is now considered a valuable option that allows the creation of new marshland in front of the relocated dyke, thus maximizing surge damping. The studies investigating the effect of dyke retreat on surge modification do not incorporate the morphodynamic expansion of tidal networks in the de-reclaimed land, which is modeled as an unchannelized marsh. Here, we use the morphodynamic model Delft3D and a marsh evolution module to study the formation of tidal networks in a de-reclaimed land after dyke retreat and evaluate their effect on surge modification (damping or amplification), and thus, the maximum water level reached at the dyke during a storm surge event. For this purpose, we consider different combinations of hydrodynamic (storm surge peak and duration, SLR), and morphodynamic (sediment input, dyke retreat distance, and de-reclaimed land slope) parameters. Our results suggest that an increase in tidal prism, which depends on retreat distance, de-reclaimed land slope, and SLR, drives the century-scale morphodynamic evolution of the marsh. Results also show that surge damping is overestimated if the morphodynamic evolution of the tidal network after dyke retreat is neglected since the new creeks favor the landward propagation of the surge. Finally, a genetic algorithm is used to determine a relationship between surge modification, marsh morphology, and the morphodynamic and hydrodynamic parameters of the simulations. The relationship indicates that relative surge damping increases for shallower tidal networks, smaller surge peaks, higher marsh platforms, and smaller percentages of channelized area." @default.
W4311113602 created "2022-12-23" @default.
W4311113602 creator A5013911168 @default.
W4311113602 creator A5052084887 @default.
W4311113602 creator A5082110607 @default.
W4311113602 date "2022-12-18" @default.
W4311113602 modified "2023-10-08" @default.
W4311113602 title "Managing dyke retreat: Importance of century‐scale channel network evolution on storm surge modification over salt marshes under rising sea levels" @default.
W4311113602 cites W1496416953 @default.
W4311113602 cites W1513641610 @default.
W4311113602 cites W1517530461 @default.
W4311113602 cites W1542029578 @default.
W4311113602 cites W1966061962 @default.
W4311113602 cites W1969620240 @default.
W4311113602 cites W1970265291 @default.
W4311113602 cites W1974011857 @default.
W4311113602 cites W1974331217 @default.
W4311113602 cites W1977458148 @default.
W4311113602 cites W1983554980 @default.
W4311113602 cites W1983893851 @default.
W4311113602 cites W1986688497 @default.
W4311113602 cites W1988519695 @default.
W4311113602 cites W1994260860 @default.
W4311113602 cites W1997421919 @default.
W4311113602 cites W2013241953 @default.
W4311113602 cites W2017039996 @default.
W4311113602 cites W2023902329 @default.
W4311113602 cites W2027585432 @default.
W4311113602 cites W2028332996 @default.
W4311113602 cites W2032258089 @default.
W4311113602 cites W2042829903 @default.
W4311113602 cites W2049154505 @default.
W4311113602 cites W2055076627 @default.
W4311113602 cites W2057321544 @default.
W4311113602 cites W2060672891 @default.
W4311113602 cites W2066840476 @default.
W4311113602 cites W2072238352 @default.
W4311113602 cites W2073148129 @default.
W4311113602 cites W2074904672 @default.
W4311113602 cites W2076465415 @default.
W4311113602 cites W2089628957 @default.
W4311113602 cites W2095657822 @default.
W4311113602 cites W2096786997 @default.
W4311113602 cites W2098927694 @default.
W4311113602 cites W2106408385 @default.
W4311113602 cites W2107409402 @default.
W4311113602 cites W2110010578 @default.
W4311113602 cites W2111299770 @default.
W4311113602 cites W2114417679 @default.
W4311113602 cites W2122524442 @default.
W4311113602 cites W2126154792 @default.
W4311113602 cites W2140213892 @default.
W4311113602 cites W2143243246 @default.
W4311113602 cites W2144466886 @default.
W4311113602 cites W2147924102 @default.
W4311113602 cites W2160939576 @default.
W4311113602 cites W2161275812 @default.
W4311113602 cites W2162083984 @default.
W4311113602 cites W2166504538 @default.
W4311113602 cites W2167905626 @default.
W4311113602 cites W2182109173 @default.
W4311113602 cites W2223405014 @default.
W4311113602 cites W2270476443 @default.
W4311113602 cites W2313366129 @default.
W4311113602 cites W2339167114 @default.
W4311113602 cites W2345862122 @default.
W4311113602 cites W2564373625 @default.
W4311113602 cites W2586383561 @default.
W4311113602 cites W2607039820 @default.
W4311113602 cites W2624630205 @default.
W4311113602 cites W2746399681 @default.
W4311113602 cites W2797637105 @default.
W4311113602 cites W2896095861 @default.
W4311113602 cites W2915768663 @default.
W4311113602 cites W2990268214 @default.
W4311113602 cites W2999752083 @default.
W4311113602 cites W3027686308 @default.
W4311113602 cites W3033845523 @default.
W4311113602 cites W3035235624 @default.
W4311113602 cites W3044530642 @default.
W4311113602 cites W3082985050 @default.
W4311113602 cites W3118242204 @default.
W4311113602 cites W3164099687 @default.
W4311113602 cites W3214604493 @default.
W4311113602 cites W3217135046 @default.
W4311113602 cites W4221101914 @default.
W4311113602 cites W4303579739 @default.
W4311113602 doi "https://doi.org/10.1002/esp.5521" @default.
W4311113602 hasPublicationYear "2022" @default.
W4311113602 type Work @default.
W4311113602 citedByCount "0" @default.
W4311113602 crossrefType "journal-article" @default.
W4311113602 hasAuthorship W4311113602A5013911168 @default.
W4311113602 hasAuthorship W4311113602A5052084887 @default.
W4311113602 hasAuthorship W4311113602A5082110607 @default.
W4311113602 hasConcept C105306849 @default.
W4311113602 hasConcept C111368507 @default.
W4311113602 hasConcept C114793014 @default.