Skip to Main Content

Personnel Profiles

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 (3)
Journal Articles
Anderson, K.J., J. Kominoski, A. Nocentini, and S. Hoffman. 2023. Dissolved organic matter in peat and marl marshes vary with nutrient enrichment and restored hydrology. Restoration Ecology DOI: 10.1111/rec.13905.

Nocentini, A., J. Kominoski, J.J. O'Brien, and J. Redwine. 2022. Fire intensity and ecosystem oligotrophic status drive relative phosphorus release and retention in freshwater marshes. Ecosphere 13: e4263.

Nocentini, A., J. Kominoski, and J.P. Sah. 2021. Interactive effects of hydrology and fire drive differential biogeochemical legacies in subtropical wetlands. Ecosphere 12: e03408.

Datasets (2)
FCE Datasets
Vegetation data collected from Northeast Shark River Slough, Everglades National Park, Florida, USA, September 2006 - ongoing
Creators: Pope, Julia; 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 Projects

Quantifying 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
Nocentini, A.. 2023. Rehydration drives landscape-scale shifts in wetland vegetation relative to patch-scale effects of chemistry and fire. Greater Everglades Ecosystem Restoration (GEER) Meeting, Coral Springs, Florida, April 20, 2023.

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.