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Landscape Modeling for Everglades Ecosystem Restoration (1998)

DeAngelis, Donald L. ; Gross, Louis J. ; Huston, Michael A. ; [et al.]

Springer

Ecosystems 1 (1998), S. 64-75

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ISSN: 1435-0629

Keywords: Key words: Everglades; landscape model; ecosystem model; indicator species; wetlands; computer simulation.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: ABSTRACT A major environmental restoration effort is under way that will affect the Everglades and its neighboring ecosystems in southern Florida. Ecosystem and population-level modeling is being used to help in the planning and evaluation of this restoration. The specific objective of one of these modeling approaches, the Across Trophic Level System Simulation (ATLSS), is to predict the responses of a suite of higher trophic level species to several proposed alterations in Everglades hydrology. These include several species of wading birds, the snail kite, Cape Sable seaside sparrow, Florida panther, white-tailed deer, American alligator, and American crocodile. ATLSS is an ecosystem landscape-modeling approach and uses Geographic Information System (GIS) vegetation data and existing hydrology models for South Florida to provide the basic landscape for these species. A method of pseudotopography provides estimates of water depths through time at 28 × 28-m resolution across the landscape of southern Florida. Hydrologic model output drives models of habitat and prey availability for the higher trophic level species. Spatially explicit, individual-based computer models simulate these species. ATLSS simulations can compare the landscape dynamic spatial pattern of the species resulting from different proposed water management strategies. Here we compare the predicted effects of one possible change in water management in South Florida with the base case of no change. Preliminary model results predict substantial differences between these alternatives in some biotic spatial patterns.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100219900006

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Modeling fish dynamics and effects of stress in a hydrologically pulsed ecosystem (1997)

DeAngelis, Donald L. ; Loftus, William F. ; Trexler, Joel C. ; [et al.]

Springer

Journal of aquatic ecosystem stress and recovery 6 (1997), S. 1-13

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ISSN: 1573-5141

Keywords: wetlands ; fish population model ; seasonal cycles ; predator–prey relationships ; hydrology ; anthropogenic stresses

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Many wetlands undergo seasonal cycles in precipitation and water depth.This environmental seasonality is echoed in patterns of production of fishbiomass, which, in turn, influence the phenology of other components of thefood web, including wading birds. Human activities, such as drainage orother alterations of the hydrology, can exacerbate these natural cycles andresult in detrimental stresses on fish production and the higher trophic levels dependent on this production. In this paper we model theseasonal pattern of fish production in a freshwater marsh, with specialreference to the Everglades/Big Cypress region of southern Florida.The model illustrates the temporal pattern of production through theyear, which can result in very high densities of fish at the end of ahydroperiod (period of flooding), aswell as the importance of ponds and other deep depressions, both as refugia and sinks during dry periods. The model predicts that: (1) there is an effective threshold in the length of the hydroperiod that must beexceeded for high fish-population densities to be produced, (2) large,piscivorous fishes do not appear tohave a major impact on smaller fishes in the marsh habitat, and (3) therecovery of small-fish populations in the marsh following a major droughtmay require up to a year. The last of these results is relevant toassessing anthropogenic impacts on marsh production, as these effectsmay increase the severity and frequency of droughts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008228706210

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