Scientific Reports (Oct 2021)

Resistance, resilience, and recovery of salt marshes in the Florida Panhandle following Hurricane Michael

  • Katherine A. Castagno,
  • Tori Tomiczek,
  • Christine C. Shepard,
  • Michael W. Beck,
  • Alison A. Bowden,
  • Kiera O’Donnell,
  • Steven B. Scyphers

DOI
https://doi.org/10.1038/s41598-021-99779-8
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 10

Abstract

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Abstract Characterizing the fragility, resistance, and resilience of marshes is critical for understanding their role in reducing storm damages and for helping to manage the recovery of these natural defenses. This study uses high-resolution aerial imagery to quantify the impacts of Hurricane Michael, a category 5 hurricane, on coastal salt marshes in the Florida Panhandle, USA. Marsh damage was classified into several categories, including deposition of sediment or wrack, fallen trees, vegetation loss, and conversion to open water. The marshes were highly resistant to storm damages even under extreme conditions; only 2% of the 173,259 km2 of marshes in the study area were damaged—a failure rate much lower than that of artificial defenses. Marshes may be more resistant than resilient to storm impacts; damaged marshes were slow to recover, and only 16% of damaged marshes had recovered 6 months after landfall. Marsh management mattered for resistance and resilience; marshes on publicly-managed lands were less likely to be damaged and more likely to recover quickly from storm impacts than marshes on private land, emphasizing the need to incentivize marsh management on private lands. These results directly inform policy and practice for hazard mitigation, disaster recovery, adaptation, and conservation, particularly given the potential for more intense hurricane landfalls as the climate changes.