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Spatial and temporal variation in long-term sediment accumulation in a back-barrier salt marsh
Cornacchia, L.; Bakker, J.P.; Koppenaal, E.C.; De Groot, A.V.; Olff, H.; van de Koppel, J.; van der Wal, D.; Bouma, T.J. (2024). Spatial and temporal variation in long-term sediment accumulation in a back-barrier salt marsh. Geomorphology (Amst.) 456: 109191. https://dx.doi.org/10.1016/j.geomorph.2024.109191
In: Geomorphology. Elsevier: Amsterdam; New York; Oxford; Tokyo. ISSN 0169-555X; e-ISSN 1872-695X, more
Peer reviewed article  

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Author keywords

    Chronosequence; Elevation; Intertidal flats; Sediment accretion; Sea-level rise; Tidal creeks; Wadden Sea


Authors  Top 
  • Cornacchia, L., more
  • Bakker, J.P.
  • Koppenaal, E.C.
  • De Groot, A.V.
  • Olff, H.
  • van de Koppel, J., more
  • van der Wal, D., more
  • Bouma, T.J., more

Abstract
    In situ persistence of salt marshes in the face of sea-level rise relies on their ability to maintain substrate elevation through sufficient vertical accretion of sediment. However, sedimentation rates in salt marshes vary spatially and temporally, which complicates the assessment of their ability to keep up with sea-level rise. Here, we explore the spatial and temporal variation in sediment accumulation in a single back-barrier salt marsh site. Using one-time in situ measurements at the landscape scale, we obtained synoptic information of elevation and sediment thickness over the entire salt marsh in a chronosequence over centuries. Repeated measurements along short elevation transects (0.3–0.9 m +MHT) revealed decadal changes, complementing the broader marsh data with detailed information on elevation, thickness of the marsh deposits and accumulation rates. Thickness of the deposits was largely related to the elevation gradient: the sediment layer was thinner at the higher marsh (near the dunes and far away from the intertidal flats), and thicker at the lower marsh (near the intertidal flats). Moreover, the thickness of the layer increased with salt marsh age along the chronosequence, and age accounted for 72 % of variability in sediment accumulation. The rate of sediment accumulation was higher than the local rate of sea-level rise in the younger marsh, whereas it was equal to the rate of sea-level rise in the older marsh. In the older salt marsh, sediment accumulation was lower, possibly due to autocompaction in the thicker, older layers. Both at the landscape scale and along short elevation transects within individual drainage basins, sediment accumulation decreased with distance to sediment supply routes. However, their relative importance depended on the scale of observation. Distance to creeks accounted for 17 % of the variability in sediment accumulation at the landscape scale, compared to 4 % at the smaller scale. Similarly, the influence of distance to intertidal flats varied from 1 % at the landscape scale to 13 % at the smaller scale. Our main findings indicate that lower-elevation older marshes and higher-elevation younger marshes far away from sediment sources are at risk of not keeping pace with the local rate of sea-level rise and are potentially vulnerable to increased flooding.

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