FIU Discovery

Controls on Nutrient Cycling in Estuarine Mangrove Lake Sediments.  Journal of Marine Science and Engineering.  9.

Quantifying effects of increased hydroperiod on wetland nutrient concentrations during early phases of freshwater restoration of the Florida Everglades.  Restoration Ecology.  28:1561-1573.

Experimental Saltwater Intrusion Drives Rapid Soil Elevation and Carbon Loss in Freshwater and Brackish Everglades Marshes.  Estuaries and Coasts.  42:1868-1881.

Salinity pulses interact with seasonal dry-down to increase ecosystem carbon loss in marshes of the Florida Everglades.  Ecological Applications.  28:2092-2108.

Functional and Compositional Responses of Periphyton Mats to Simulated Saltwater Intrusion in the Southern Everglades.  Estuaries and Coasts.  41:2105-2119.

Light attenuation in estuarine mangrove lakes.  Estuarine, Coastal and Shelf Science.  184:191-201.

Climate Change Projected Effects on Coastal Foundation Communities of the Greater Everglades Using a 2060 Scenario: Need for a New Management Paradigm.  Environmental Management.  55:857-875.

Potential N processing by southern Everglades freshwater marshes: Are Everglades marshes passive conduits for nitrogen?.  Estuarine, Coastal and Shelf Science.  96:60-68.

Ecological indicators for assessing and communicating seagrass status and trends in Florida Bay.  Ecological Indicators.  9:S68-S82.

Phytoplankton bloom status: Chlorophyll a biomass as an indicator of water quality condition in the southern estuaries of Florida, USA.  Ecological Indicators.  9:S56-S67.

An in situ mesocosm method for quantifying nitrogen cycling rates in oligotrophic wetlands using ¹⁵N tracer techniques.  Wetlands.  28:502-512.

A conceptual ecological model of Florida Bay.  Wetlands.  25:870-883.

Factors affecting the concentration and flux of materials in two southern Everglades mangrove wetlands.  Marine Ecology Progress Series.  253:85-96.

Wetland-water column exchanges of carbon, nitrogen, and phosphorus in a southern Everglades dwarf mangrove.  Estuaries and Coasts.  24:610-622.

Hydrological and nutrient budgets of freshwater and estuarine wetlands of Taylor Slough in Southern Everglades, Florida (U.S.A.).  Biogeochemistry.  56:287-310.

Nutrient dynamics in vegetated and unvegetated areas of a southern Everglades Mangrove Creek.  Estuarine, Coastal and Shelf Science.  52:753-768.

Solid-phase phosphorus pools in highly organic carbonate sediments of northeastern Florida Bay.  Estuarine, Coastal and Shelf Science.  52:279-291.

Time-averaged fluxes of lead and fallout radionuclides to sediments in Florida Bay.  Journal of Geophysical Research (JGR): Oceans.  105:28805-28821.

Early diagenetic alteration of chlorophyll-a and bacteriochlorophyll-a in a contemporaneous marl ecosystem; Florida Bay.  Organic Geochemistry.  31:1561-1580.

Phosphorus and nitrogen inputs to Florida Bay: The importance of the everglades watershed.  Estuaries and Coasts.  22:398-416.

Phosphorus and nitrogen inputs to Florida Bay: The importance of the everglades watershed.  Estuaries and Coasts.  22:398-416.

The use of proxy chemical records in coral skeletons to ascertain past environmental conditions in Florida Bay.  Estuaries and Coasts.  22:384-397.

Importance of storm events in controlling ecosystem structure and function in a Florida gulf coast estuary.  Journal of Coastal Research.  20:1198-1208.

The salinity transition zone between the southern everglades and Florida Bay: System functioning and implications for coastal zone management.  1-24.

The Past, Present, and Future Hydrology and Ecology of Lake Okeechobee and Its Watersheds.  43-62.

Peat collapse in the southwestern Everglades: Understanding the matrix level response to salinization and its implications for biogenic gas fluxes from peat soils.  49-52.

Relating precipitation and water management to nutrient concentrations in the oligotrophic "upside-down" estuaries of the Florida Everglades.  Limnology and Oceanography. 602-616.

Wetland Ecosystem Response to Hydrologic Restoration and Management: The Everglades and its Urban-Agricultural Boundary (FL, USA).  Wetlands. S1-S8.

The Role of the Everglades Mangrove Ecotone Region (EMER) in Regulating Nutrient Cycling and Wetland Productivity in South Florida.  Critical Reviews in Environmental Science and Technology. 633-669.

Factors affecting spatial and temporal variability in material exchange between the Southern Everglades wetlands and Florida Bay (USA).  Estuarine, Coastal and Shelf Science. 757-781.