Andrea Nocentini
FCE Site Role
Project Collaborator
Affiliation
Everglades National Park
FCE Working groups
Detritus & Microbes
- Contact
- Mailing address:
- Department of Biological Sciences
- Florida International University
- 11200 SW 8th St.
- Miami, FL 33199
- Email: anocenti@fiu.edu
- FCE Publications (2)Journal Articles
- Datasets (2)FCE Datasets
Vegetation data collected from Northeast Shark River Slough, Everglades National Park, Florida, from September 2006 to present
Creators: Hoffman, Sophia; Rizzie, Chris B.; Nocentini, Andrea; Tobias, Franco; Kominoski, John S.; Gaiser, Evelyn;Biogeochemical data collected in the eastern marl prairies of the Everglades (Florida, USA) before and after fire, between the years 2018 and 2021
Creators: Nocentini, Andrea; Kominoski, John S;
- Recent FCE Leveraged ProjectsQuantifying how variability in hydroperiod and fire mediate plant-soil biogeochemical cycling and productivity in boundary wetlands of Everglades National Park
Authors: Kominoski, J., E.E. Gaiser, A. Nocentini
Funding organization: National Park Service - Department of the Interior
Time period: 01 Aug 2018 - 01 Aug 2021
- Recent FCE Presentations
Hoffman, S., J. Kominoski, K.J. Anderson, A. Nocentini, E.E. Gaiser, and J. Redwine. 2022. Freshwater rehydration increases primary production and mobilizes legacy phosphorus in Everglades marshes. Joint Aquatic Sciences Meeting (JASM), Grand Rapids, Michigan, May 18, 2022.
Anderson, K.J., J. Kominoski, A. Nocentini, S. Hoffman, and M.A. Smith. 2022. Nutrient limitation interacts with carbon sources and hydrology to drive dissolved organic matter in wetlands. Joint Aquatic Sciences Meeting (JASM), Grand Rapids, Michigan, May 17, 2022.
Anderson, K.J., J. Kominoski, A. Nocentini, and S. Hoffman. 2022. Nutrient limitation interacts with carbon sources and hydrology to drive dissolved organic matter in wetlands. 2022 FCE LTER All Scientists Meeting, Fairchild Tropical Garden, Coral Gables, Florida, March 2, 2022.
Hoffman, S., J. Kominoski, K.J. Anderson, A. Nocentini, E.E. Gaiser, and J. Redwine. 2022. Freshwater rehydration increases primary production and mobilizes legacy phosphorus in Everglades marshes. 2022 FCE LTER All Scientists Meeting, Fairchild Tropical Garden, Coral Gables, Florida, March 2, 2022.
Nocentini, A., J. Kominoski, J. O'Brien, and J. Redwine. 2021. Fire causes a stronger release of nutrient limitation in higher than lower phosphorus-limited subtropical wetlands. Ecological Society of America Annual Meeting 2021, Virtual, August 2, 2021 - August 6, 2021.
Anderson, K.J., J. Kominoski, S. Hoffman, A. Nocentini, and M. Zeller. 2021. How does phosphorus limitation differentially affect dissolved organic carbon composition in peat and marl freshwater marshes? Association of the Sciences of Limnology and Oceanography Virtual Meeting, Virtual, June 22, 2021 - June 27, 2021.
Nocentini, A.. 2021. Coupling Fire and Water Management to Control Wetland Nutrient Cycling During Everglades Restoration. Greater Everglades Ecosystem Restoration (GEER) Meeting, Virtual, April 21, 2021.
Nocentini, A., J. Kominoski, J.P. Sah, and J. Redwine. 2021. Coupling fire and water management to control wetland nutrient cycling during Everglades restoration. Greater Everglades Ecosystem Restoration (GEER) Meeting, Virtual, April 21, 2021.
Redwine, J., C.J. Saunders, C. Zweig, A. Atkinson, A. Nocentini, D.T. Rudnick, J. Kominoski, and J.P. Sah. 2021. Bridging towards restoration: how expanding adaptive management processes will influence the next decade of ecological conditions in Northeast Shark River Slough. Greater Everglades Ecosystem Restoration (GEER) Meeting, Virtual, April 20, 2021.