Florida Coastal Everglades Long Term Ecological Research
Florida Coastal Everglades LTER - Site Information: TS/Ph7a
Site Information - TS/Ph7a

 
FCE LTER site*
* Site information should be complete for FCE LTER sites.
Information for related sites might be incomplete.


Select a different site
Author or dataset originator
Keyword
   
tsph7a
Publications

Journal articles
McKay, G., W. Huang, C. Romera-Castillo, J. Crouch, F. Rosario-Ortiz, R. Jaffe 2017. Predicting Reactive Intermediate Quantum Yields from Dissolved Organic Matter Photolysis Using Optical Properties and Antioxidant Capacity. Environmental Science & Technology, 51(10): 5404-5413.

Sandoval, E., R.M. Price, D. Whitman, A. Melesse 2016. Long-term (11 years) study of water balance, flushing times and water chemistry of a coastal wetland undergoing restoration, Everglades, Florida, USA. Catena, 144: 74-83.

Long, S.A., G.I. Tachiev, R. Fennema, A.M. Cook, M. Sukop, F. Miralles-Wilhelm 2015. Modeling the impact of restoration efforts on phosphorus loading and transport through Everglades National Park, FL, USA. Science of The Total Environment, 520(1): 81-95.

Romera-Castillo, C., R. Jaffe 2015. Free radical scavenging (antioxidant activity) of natural dissolved organic matter. Marine Chemistry, 177: 668-676.

Wagner, S., R. Jaffe, K.M. Cawley, T. Dittmar, A. Stubbins 2015. Associations between the molecular and optical properties of dissolved organic matter in the Florida Everglades: a model coastal wetland system. Frontiers in Chemistry, 3: 66.

Briceno, H.O., G. Miller, S.E. Davis 2014. Relating freshwater flow with estuarine water quality in the southern Everglades mangrove ecotone. Wetlands, 34(Suppl 1): 101-111.

Zapata-Rios, X., R.M. Price 2012. Estimates of groundwater discharge to a coastal wetland using multiple techniques: Taylor Slough, Everglades National Park, USA . Hydrogeology Journal, 20 : 1651-1668.

Chen, M., R.M. Price, Y. Yamashita, R. Jaffe 2010. Comparative study of dissolved organic matter from groundwater and surface water in the Florida coastal Everglades using multi-dimensional spectrofluorometry combined with multivariate statistics. Applied Geochemistry, 25(6): 872-880.

Ikenaga, M., R. Guevara, C. Pisani, A. Dean, J.N. Boyer 2010. Changes in Community Structure of Sediment Bacteria Along the Florida Coastal Everglades Marsh-Mangrove-Seagrass Salinity Gradient. Microbial Ecology, 59(2): 284-295.

Wachnicka, A., E.E. Gaiser, L. Collins, T.A. Frankovich, J. Boyer 2010. Distribution of Diatoms and Development of Diatom-Based Models for Inferring Salinity and Nutrient Concentrations in Florida Bay and Adjacent Coastal Wetlands of South Florida (USA). Estuaries and Coasts, 33(5): 1080-1098.

Xu, Y., R. Jaffe 2010. Occurrence, distribution and origin of C30 cyclobotryococcenes in a subtropical wetland/estuarine ecosystem. Chemosphere, 81(7): 918-924.

Williams, C.J., J.N. Boyer, F.J. Jochem 2009. Microbial activity and carbon, nitrogen, and phosphorus content in a subtropical seagrass estuary (Florida Bay): evidence for limited bacterial use of seagrass production. Marine Biology, 156(3): 341-353.

Williams, C.J., J.N. Boyer, F.J. Jochem 2008. Indirect hurricane effects on resource availability and microbial communities in a subtropical wetland - estuary transition zone. Estuaries and Coasts, 31(1): 204-214.

Maie, N., N.M. Scully, O. Pisani, R. Jaffe 2007. Composition of a protein-like fluorophore of dissolved organic matter in coastal wetland and estuarine ecosystems. Water Research, 41: 563-570.

Xu, Y., R. Jaffe 2007. Lipid biomarkers in suspended particulates from a subtropical estuary: Assessment of seasonal changes in sources and transport of organic matter. Marine Environmental Research, 64: 666-678.

Chambers, R.M., K.A. Pederson 2006. Variation in soil phosphorus, sulfur, and iron pools among south Florida wetlands. Hydrobiologia, 569(1): 63-70.

Williams, C.J., F.J. Jochem 2006. Ectoenzyme kinetics in Florida Bay: Implications for bacterial carbon source and nutrient status. Hydrobiologia, 569(1): 113-127.

Maie, N., C. Yang, T. Miyoshi, K. Parish, R. Jaffe 2005. Chemical characteristics of dissolved organic matter in an oligotrophic subtropical wetland/estuarine ecosystem. Limnology and Oceanography, 50(1): 23-35.

Mead, R.N., Y. Xu, J. Chong, R. Jaffe 2005. Sedimentary organic matter source assessment in a sub-tropical wetland and estuarine environment using the molecular distribution and carbon isotopic composition of n-alkanes. Organic Geochemistry, 36(3): 363-370.

Davis, S.E., D.L. Childers, J.W. Day, D.T. Rudnick, F.H. Sklar 2003. Factors affecting the concentration and flux of materials in two southern Everglades mangrove wetlands. Marine Ecology Progress Series, 253: 85-96.

Jaffe, R., R. Mead, M.E. Hernandez, M.C. Peralba, O.A. DiGuida 2001. Origin and transport of sedimentary organic matter in two subtropical estuaries: A comparative, biomarker-based study. Organic Geochemistry, 32(4): 507-526.



















Other LTER sites:
Website Map Privacy Policy  | En Español
National Science Foundation logo This material is based upon work supported by the National Science Foundation through the Florida Coastal Everglades Long-Term Ecological Research program under Cooperative Agreements #DEB-1237517, #DBI-0620409, and #DEB-9910514. Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
Please address questions or comments about this website to: fcelter@fiu.edu.
LTER Network logo