On a recent afternoon, University of Florida watershed ecologist David Kaplan and Ph.D. candidate Katie Glodzik hiked through the Withlacoochee Gulf Preserve, on the Big Bend coast of northwestern Florida. Not long ago, red cedar, live oaks, and cabbage palms grew in profusion on the raised “hammock island” forests set amid the preserve’s wetlands. But as the researchers walked through thigh-high marsh grass, the barren trunks of dead cedars were silhouetted against passing clouds. Dead snag cabbage palms stood like toothpicks snapped at the top. Other trees and shrubs, such as wax myrtle, had long been replaced by more salt-tolerant black needlerush marsh grass.
Saltwater, flowing into this swampy, freshwater-dependent ecosystem as a result of rising sea levels, is turning these stands of hardwoods into “ghost forests” of dead and dying trees.
“The loss of these islands changes the landscape from a mosaic to one dominated by a single habitat — salt marsh,” said Kaplan, noting that the change means reduced habitat for some species of wading and migratory birds, as well as for turtles and snakes.
A similar transformation is occurring in coastal floodplains across the southeastern and mid-Atlantic regions of the United States, representing what scientists say is the leading edge of climate change in what were once largely freshwater ecosystems. From Florida’s hammock islands to North Carolina’s swamp forests, rising sea levels, often compounded by regional water management practices, continue to push saline water further inland, wiping out swampy woodlands.
Continue reading at the Yale Environment 360
Photo: Ecologist David Kaplan surveys dying coastal trees in the Withlacoochee Gulf Preserve in Yankeetown, Florida.
Photo Credits: Roger Drouin / Yale Environment 360
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