Journal
ECOLOGICAL MODELLING
Volume 222, Issue 19, Pages 3541-3558Publisher
ELSEVIER
DOI: 10.1016/j.ecolmodel.2011.07.017
Keywords
Taxodium distichum; Nyssa aquatica; Individual-based forest model; Flooding; Salinity; Forested wetland
Categories
Funding
- NOAA [674139-04-6A]
- Southeastern Louisiana University [674139-04-6A]
- Louisiana Governor's Office for Coastal Affairs (GOCA) [C175682]
- University of New Orleans
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Coastal swamps are among the rapidly vanishing wetland habitats in Louisiana. Increased flooding, nutrient and sediment deprivation, and salt-water intrusion have been implicated as probable causes of the decline of coastal swamps. We developed a two-species individual-based forest succession model to compare the growth and composition of a cypress-tupelo swamp under various combinations of flooding intensity and salinity levels, using historical time-series of stage and salinity data as inputs. Our model simulates forest succession over 500 years by representing the growth, mortality, and reproduction of individual Taxodium distichum (baldcypress) and Nyssa aquatica (water tupelo) trees in a 1-km(2) spatial grid of 1 m x 10 m cells that vary in water levels and salinity through differences in elevation. We independently adjusted the elevations of each cell to obtain different grid-wide mean elevations and standard deviations of elevation; this affected the temporal and spatial pattern of flooding. We calibrated the model by adjusting selected parameters until averaged basal area, stem density and wood production rates under two different mean elevations (partially versus highly flooded) were qualitatively similar to comparable values reported for swamps in the literature. Corroboration involved comparing model predictions to four well-monitored contrasting habitat sites within the Maurepas Basin, Louisiana, USA. Model predictions of both species combined showed the same patterns among sites as the data, but the model overestimated wood production and the dominance of T. distichum. Exploratory simulations predicted that increased flooding leads to swamps with reduced basal areas and stem densities, while increased salinity resulted in lower basal areas at low salinity concentration (similar to 1-3 psu) and complete tree mortality at higher salinity concentrations (similar to 2-6 psu). Our model can provide insight into the succession dynamics of coastal swamps and information for the effective design of restoration actions. (C) 2011 Elsevier B.V. All rights reserved.
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