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Ecosystem Development after Mangrove Wetland Creation: Plant-Soil Change across a 20-year Chronosequence
OSLAND, M. J., A. C. SPIVAK, J. NESTLERODE, J. M. LESSMANN, A. ALMARIO, P. T. HEITMULLER, M. J. RUSSELL, K. W. KRAUSS, F. ALVAREZ, D. D. DANTIN, J. E. HARVEY, A. S. FROM, N. CORMIER, AND C. L. STAGG. Ecosystem Development after Mangrove Wetland Creation: Plant-Soil Change across a 20-year Chronosequence. ECOSYSTEMS. Springer, New York, NY, 15(5):848-866, (2012).
A 20-year chronosequence of created tidal wetlands in Tampa Bay, Florida was used to investigate the rate and trajectory of ecosystem development following mangrove wetland creation.
Mangrove wetland restoration and creation efforts are increasingly proposed as mechanisms to compensate for mangrove wetland loss. However, ecosystem development and functional equivalence in restored and created mangrove wetlands is poorly understood. We compared a 20-yr chronosequence of created tidal wetland sites in Tampa Bay, Florida (USA) to natural reference mangrove wetlands. Across the chronosequence, our sites represent the succession from salt marsh to mangrove forest communities. Our results identify important soil and plant structural differences between the created and natural reference wetland sites; however, they also depict a positive developmental trajectory for the created wetland sites that reflects tightly coupled plant-soil development. Because upland soils and/or dredge spoils were used to create the new mangrove habitats, the soils at younger created sites and at lower depths (10-30 cm) had higher bulk densities, higher sand content, lower soil organic matter (SOM), lower total carbon (TC), and lower total nitrogen (TN) than did natural reference wetland soils. However, in the upper soil layer (0-10 cm), SOM, TC, and TN increased with created wetland site age simultaneously with mangrove forest growth. The rate of created wetland soil C accumulation was comparable to literature values for natural mangrove wetlands. Notably, the time to equivalence for the upper soil layer of created mangrove wetlands appears to be faster than for many other wetland ecosystem types. Collectively, our findings characterize the rate and trajectory of above- and below-ground changes associated with ecosystem development in created mangrove wetlands; this is valuable information for environmental managers planning to sustain existing mangrove wetlands or mitigate for mangrove wetland losses.
Record Details:Record Type: DOCUMENT (JOURNAL/PEER REVIEWED JOURNAL)
Organization:U.S. ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF RESEARCH AND DEVELOPMENT
NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY
GULF ECOLOGY DIVISION
ECOSYSTEM ASSESSMENT BRANCH