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Field experiments and meta-analysis reveal wetland vegetation as a crucial element in the coastal protection paradigm
Silliman, B.R.; He, Q.; Angelini, C.; Smith, C.S.; Kirwan, M.L.; Daleo, P.; Renzi, J.J.; Butler, J.; Osborne, T.Z.; Nifong, J.C.; van de Koppel, J. (2019). Field experiments and meta-analysis reveal wetland vegetation as a crucial element in the coastal protection paradigm. Curr. Biol. 29(11): 1800-1806.e3. https://dx.doi.org/10.1016/j.cub.2019.05.017
In: Current Biology. Cell Press: London. ISSN 0960-9822; e-ISSN 1879-0445, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Author keywords
    coastal protection; coastal wetlands; living shorelines; sea-level rise; coastal erosion; salt marshes; shoreline defense; disturbance

Auteurs  Top 
  • Silliman, B.R.
  • He, Q.
  • Angelini, C.
  • Smith, C.S.
  • Kirwan, M.L.
  • Daleo, P.
  • Renzi, J.J.
  • Butler, J.
  • Osborne, T.Z.
  • Nifong, J.C.
  • van de Koppel, J., meer

Abstract
    Increasing rates of sea-level rise and wave action threaten coastal populations. Defense of shorelines by protection and restoration of wetlands has been invoked as a win-win strategy for humans and nature, yet evidence from field experiments supporting the wetland protection function is uncommon, as is the understanding of its context dependency. Here we provide evidence from field manipulations showing that the loss of wetland vegetation, regardless of disturbance size, increases the rate of erosion on wave-stressed shorelines. Vegetation removal (simulated disturbance) along the edge of salt marshes reveals that loss of wetland plants elevates the rate of lateral erosion and that extensive root systems, rather than aboveground biomass, are primarily responsible for protection against edge erosion in marshes. Meta-analysis further shows that disturbances that generate plant die-off on salt marsh edges generally hasten edge erosion in coastal marshes and that the erosion protection function of wetlands relates more to lateral than vertical edge-erosional processes and is positively correlated with the amount of belowground plant biomass lost. Collectively, our findings substantiate a coastal protection paradigm that incorporates preservation of shoreline vegetation, illuminate key context dependencies in this theory, and highlight local disturbances (e.g., oil spills) that kill wetland plants as agents that can accelerate coastal erosion.

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