Evaluation and application of the time model V 2.0

Evaluation and application of the time model V 2.0  

Publication Date:  2013-01
Creator:  National Park Service
South Florida Natural Resources Center
Everglades National Park
Kiren E. Bahm
Robert J. Fennema
Publisher.Display:  South Florida Natural Resources Center Everglades National Park
Format:  PDF, 108 pages, maps, tables, charts, illustrations
Subjects.Display:  Everglades National Park (Fla.)
Homestead (Fla.)
Sea Level rise
Restoration
Source Institution:  Florida International University
Evaluation and application of the time model V 2.0
Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: current status and needs for inter-site comparisons

Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: current status and needs for inter-site comparisons  

Publication Date:  2013
Creator:  Jaffe, Rudolf
Gaiser, Evelyn E.
Troxler, Tiffany G.
Barr, Jordan
Fuentes, Joseph D.
Publisher.Display:  The Oceanography Society
Subjects.Display:  Coastal ecology -- Florida -- Everglades
Sea level -- Florida -- Everglades
Carbon -- Florida -- Everglades
Periphyton -- Florida -- Everglades
Source Institution:  Florida International University
Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: current status and needs for inter-site comparisons
Timescales for detecting a significant acceleration in sea level rise

Timescales for detecting a significant acceleration in sea level rise  

Publication Date:  2014-04-14
Creator:  Haigh, Ivan D.
Wahl, Thomas
Rohling, Eelco J.
Price, René M.
Pattiaratchi, Charitha B.
Calafat, Francisco M.
Dangendorf, Sönke
Publisher.Display:  Macmillan Publishers Limited.
Subjects.Display:  Sea level
Coastal ecology
Source Institution:  Florida International University
Timescales for detecting a significant acceleration in sea level rise
Tracking rates of ecotone migration due to salt-water encroachment using fossil mollusks in coastal South Florida

Tracking rates of ecotone migration due to salt-water encroachment using fossil mollusks in coastal South Florida  

Publication Date:  2006
Creator:  Gaiser, Evelyn E.
Ruiz, Pablo L.
Ross, Michael S.
Zafiris, Angelikie
Tobias, Franco A. C.
Publisher.Display:  Springer
Subjects.Display:  Mangrove forests -- Florida -- Everglades
Sea level -- Florida -- Everglades
Wetlands -- Florida -- Everglades
Mangrove swamps -- Florida -- Everglades
Salt water encroachment -- Florida -- Everglades
Paleoecology -- Florida -- Everglades
Mollusks -- Florida -- Everglades
Source Institution:  Florida International University
Tracking rates of ecotone migration due to salt-water encroachment using fossil mollusks in coastal South Florida