1. Please note: this presentation has not received Director’s approval and is subject to revision.

2. Aquatic Ecology Research William F. Loftus, P.I. Robert Kobza Delissa Padilla Florida Integrated Science Center Miami

3. Cooperators USGS Donald DeAngelis Simulation Modeling Ken Rice Ecosystem Studies Kevin Cunningham Geomorphology John Jones Remote Sensing Leo Nico Introduced Species National Park Service Cristina Bruno Invertebrate Research Sue Perry Long-term Monitoring Florida International University Joel Trexler Population Dynamics and Tim Collins Ecology, Genetics Florida Atlantic University John Volin Introduced Species South Florida Water Management District Christopher McVoySoil Ecology

4. To understand the ecology of South Florida wetlands through research that supports system restoration. Objective

5. Reasons for Studying Biota Fishes are the most numerous vertebrates Play important roles in the food web, as predators, consumers, and prey Indicators of contamination Indicators of changes in salinity, nutrients, and hydropattern A large database exists for use in modeling

6. Study Design

7. Background Work Inventory studies: what species inhabit the landscape and its habitats? Species-specific studies: autecology and biology of native and exotic fishes and invertebrates Population and community-level studies: food-web patterns and dynamics related to hydrology

8. Fish Distribution Patterns Gambusia holbrooki – eastern mosquitofish

9. Food-web Studies

10. NMDS Ordination

11. Community Sampling – Throw Trap

12. Throw-trapping network sampled 5X per year

13. Current Aquatic Ecology Studies Spatial/Temporal Patterns Long-term I&M data analysis BICY aquatic-community study Aquatic refuges Introduced species Remote sensing of refuges Ecological Processes Life history of fishes Experimental studies of biotic interactions Population genetics

14. Density and relative abundance patterns of fishes related to days since drydown

15. Large fish CPUE in relation to hydroperiod and to soil TP

16. Community Patterns

17. BICY Community Study

18. The Role of Aquatic Refuges in the Wetland Complex of Southern Florida in Relation to System Restoration  Community patterns in refuges and on marsh?  Source of colonists after dry season: local refuges or distant sources?  Patterns of fish dispersal related to water flow?  Will hydrological restoration provide additional refuge and greater survival?

19. Drift-fence Array

20. Solution Hole Sampling HH\\out

21. Influence of Hydrology on Life- History Parameters of Common Freshwater Fishes A study of age, growth, and reproductive patterns in response to hydrology Large species sampled from canals Small fishes collected in marshes.

22. Cross section of fish otolith: daily growth increments

23. Age at Size of Sailfin Molly (Konnert 2002)

24. Experimental Studies of Population Growth and Predator-Prey Interactions Mesocosm tanks and field cages used to study biotic interactions difficult to assess in smaller scale field or laboratory studies. Studies include: effects of intraguild predation and cannibalism; nutrient effects on food webs; exotic/native fish interactions.

25. Experimental Mesocosm - ENP

26. Number of Mosquitofish around Spotted Sunfish Nests in relation to Depth (Pagan M.S. 2000)

28. Introduced Fishes

29. Temporal Invasion Pattern in Everglades Region 1950s - 1960s:Black acara 1960s - 1970s:Oscar, walking catfish, spotted tilapia, blue tilapia Mid-1980s:Mayan cichlid, pike killifish Late 90s - 00s:Jewel cichlid, jaguar cichlid, peacock bass, brown hoplo, Asian swamp eel

30. Additional species in the canal system likely to invade the Everglades in the future Heros severusC. salvini C. citrinellum Pterygoplicthy s Monopterus sp. O. mossambicus Ctenophyrgnodon

31. MalbH MalbT MalbM2 MalbM1 NMDS Plot with Swamp Eel Diets

32. Future Directions Remote sensing to estimate solution-hole density and distribution on landscape Isotopes and otolith microchemistry to look for spatial signals of fish origins Study ecology and movements in and out of refuges Radio-track fish movements Continue to apply data in simulation modeling