4.6 Article

Restoration of tropical seagrass beds using wild bird fertilization and sediment regrading

Journal

ECOLOGICAL ENGINEERING
Volume 112, Issue -, Pages 72-81

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.ecoleng.2017.12.008

Keywords

Halodule wrightii; Thalassia testudinum; Seagrass disturbance; Vessel injury; Succession; Recovery

Funding

  1. Center for Coastal Fisheries and Habitat Research, NCCOS, NOS
  2. Office of Response and Restoration, NOS, NOAA
  3. Office of National Marine Sanctuaries, NOS, NOAA
  4. Florida Fish and Wildlife Conservation Commission through U.S. Fish and Wildlife Service's Wildlife Conservation and Restoration Grants Program
  5. NOAA

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Shallow water seagrass meadows are frequently damaged by recreational and commercial vessels. Severe injury occurs where propeller scarring, hull groundings and mooring anchors uproot entire plants, excavate sediments, and modify the biophysical properties of the substrate. In climax tropical seagrass communities dominated by Thalassia testudinum (turtlegrass), natural recovery in these disturbances can take several years to decades, and in some environmental conditions may not occur at all. During the recovery period, important ecological services provided by seagrasses are absent or substantially diminished and injured meadows can degrade further in response to natural disturbances, e.g. strong currents and severe storms. To determine if we could accelerate rehabilitation and prevent further degradation of injured turtlegrass meadows, we evaluated a restoration method called modified compressed succession using the fast-growing, opportunistic species Halodule wrightii to temporarily substitute ecological services for the slower-growing, climax species T. testudinum. In three experiments we showed statistically significant increases in density and coverage rates of H. wrightii transplants fertilized by wild bird feces as compared to unfertilized treatments. In one experiment, we further demonstrated that regrading excavated injuries with sediment-filled biodegradable tubes in combination with wild bird fertilization and H. wrightii transplants also accelerated seagrass recovery. Specific recommendations are presented for the best practical application of this restoration method in the calcium carbonate-based sediments of south Florida and the wider Caribbean region.

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