Effectiveness of the Aquatic Halophyte Sarcocornia perennis spp. perennis as a Biotool for Ecological Restoration of Salt Marshes

Ecological restoration and creation of salt marshes is needed to compensate for their degradation and loss, but little is known about halophytes as plant biotools in restoration projects. The aim of this study was to evaluate Sarcocornia perennis spp. perennis, a common halophyte in European, Southe...

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Bibliographic Details
Published in:Water, air, and soil pollution air, and soil pollution, 2014-09, Vol.225 (9), p.1-14, Article 2108
Main Authors: Curado, Guillermo, Grewell, Brenda J, Figueroa, Enrique, Castillo, Jesús M
Format: Article
Language:English
Subjects:
aboveground biomass
aluminum
Analysis
Aquatic plants
arsenic
Atmospheric Protection/Air Quality Control/Air Pollution
Bioaccumulation
Biomass
biomass production
Cadmium
Carbon
carbon sinks
Chromium
Climate change
Climate Change/Climate Change Impacts
Climate effects
concentration of production
Copper
Earth and Environmental Science
Ecological restoration
Environment
Environmental monitoring
Environmental restoration
Eutrophication
Flowers & plants
habitats
Halophytes
Hydrogeology
iron
Lead
Metal concentrations
Metals
Natural populations
nickel
Nitrogen
phytoremediation
Plantations
Pollutants
Prairies
roots
Salt marshes
Sarcocornia perennis
Soil erosion
Soil Science & Conservation
Studies
Tidal marshes
Translocation
Vegetation
Water Quality/Water Pollution
Wetlands
zinc
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Summary:Ecological restoration and creation of salt marshes is needed to compensate for their degradation and loss, but little is known about halophytes as plant biotools in restoration projects. The aim of this study was to evaluate Sarcocornia perennis spp. perennis, a common halophyte in European, Southern Africa and South America salt marshes, as a restoration biotool. We analysed S. perennis sedimentary habitat and quantified its biomass production and the concentration and stock of carbon, nitrogen and nine metals (Al, As, Cd, Cr, Cu, Fe, Ni, Pb and Zn) in the tissues of S. perennis, 28 months after plantation in an innovative restoration project in the Odiel Marshes. S. perennis had accumulated above-ground biomass values (ca. 1,600 g dry weight (DW) m⁻²) within the range recorded previously for natural populations, but root biomass was lower than for mature natural populations. S. perennis prairies accumulated 299 g C m⁻² year⁻¹ and 25 g N m⁻² year⁻¹. With the exception of Pb and As, plant transfer coefficient results document the ability of transplanted S. perennis to hyperaccumulate nearly every metal we measured. The highest metal concentrations were recorded in S. perennis ssp. perennis roots (translocation coefficient lower than 1.0 for every metal). Our results provide strong support for the use of S. perennis ssp. perennis transplants as a biotool for salt marsh restoration at low–medium elevations in the tidal gradient. Use of live vegetation for metal extraction may enhance other restoration functions including phytostabilization, reduced eutrophication and negative effects of climate change.
ISSN:0049-6979
1573-2932
DOI:10.1007/s11270-014-2108-5