Analysis of non-linear inundation from sea-level rise using LIDAR data: a case study for South Florida

Analysis of non-linear inundation from sea-level rise using LIDAR data: a case study for South Florida  

Publication Date:  2010
Creator:  Keqi Zhang
Publisher.Display:  Springer Science & Business Media B.V.
Subjects.Display:  Florida
Sea Level rise
Climatic change
inundations
Topography
Source Institution:  Florida International University
Analysis of non-linear inundation from sea-level rise using LIDAR data: a case study for South Florida
Assessing municipal vulnerability to predicted sea level rise

Assessing municipal vulnerability to predicted sea level rise  

Publication Date:  2011
Creator:  Parkinson, Randall W.
McCue, Tara
Publisher.Display:  Springer Science + Business Media B.V.
Subjects.Display:  Florida
Climate change
flooding
Satellite Beach (Fla.)
Source Institution:  Florida International University
Assessing municipal vulnerability to predicted sea level rise
Hurricane effects on subtropical pine rocklands of the Florida Keys

Hurricane effects on subtropical pine rocklands of the Florida Keys  

Publication Date:  2011
Creator:  Ruiz, Pablo L.
Ross, Michael S.
Saha, Sonali
Bradley, Keith
Hughes, Phillip
Wilmers, Thomas
Bergh, Chris
Publisher.Display:  Springer Science + Business Media B.V.
Subjects.Display:  Hurricanes
Climate change
Sea Level rise
unknownFlorida
unknownFlorida Keys (Fla.)
Pine trees
Source Institution:  Florida International University
Hurricane effects on subtropical pine rocklands of the Florida Keys
Sea leve rise and South Florida coastal forests

Sea leve rise and South Florida coastal forests  

Publication Date:  2011-03-31
Creator:  Ross, Michael S.
Saha, Sonali
Saha, Amartya K.
Sadle, Jimi
Jiang,Jiang
Price, Rene M.
Sternberg, Leonel S.L.O.
Wendelberger, Kristie S.
Publisher.Display:  Springer Science + Business Media B.V.
Subjects.Display:  Everglades National Park (Fla.)
Climate change
Sea Level rise
Coastal Forests
Hammocks
Source Institution:  Florida International University
Sea leve rise and South Florida coastal forests