Recent and historic drivers of landscape change in the Everglades ridge, slough, and Tree Island mosaic

Laurel G. Larsen; Nicholas Aumen; Christopher E. Bernhardt; Vic Engel; Thomas J. Givnish; P McCormick S Hagerthey; Judson Harvey; Lynn Leonard; P. McCormick; Christopher McVoy; Gregory B. Noe; Martha K. Nungesser; K. Rutchey; Fred Sklar; Tiffany G. Troxler; John C. Volin; Debra A. Willard

doi:10.1080/10643389.2010.531219

Recent and historic drivers of landscape change in the Everglades ridge, slough, and Tree Island mosaic

Critical Reviews in Environmental Science and Technology

By: Laurel G. Larsen, Nicholas Aumen, Christopher E. Bernhardt, Vic Engel, Thomas J. Givnish, P McCormick S Hagerthey, Judson Harvey, Lynn Leonard, P. McCormick, Christopher McVoy, Gregory B. Noe, Martha K. Nungesser, K. Rutchey, Fred Sklar, Tiffany G. Troxler, John C. Volin, and Debra A. Willard

https://doi.org/10.1080/10643389.2010.531219

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Abstract

More than half of the original Everglades extent formed a patterned peat mosaic of elevated ridges, lower and more open sloughs, and tree islands aligned parallel to the dominant flow direction. This ecologically important landscape structure remained in a dynamic equilibrium for millennia prior to rapid degradation over the past century in response to human manipulation of the hydrologic system. Restoration of the patterned landscape structure is one of the primary objectives of the Everglades restoration effort. Recent research has revealed that three main drivers regulated feedbacks that initiated and maintained landscape structure: the spatial and temporal distribution of surface water depths, surface and subsurface flow, and phosphorus supply. Causes of recent degradation include but are not limited to perturbations to these historically important controls; shifts in mineral and sulfate supply may have also contributed to degradation. Restoring predrainage hydrologic conditions will likely preserve remaining landscape pattern structure, provided a sufficient supply of surface water with low nutrient and low total dissolved solids content exists to maintain a rainfall-driven water chemistry. However, because of hysteresis in landscape evolution trajectories, restoration of areas with a fully degraded landscape could require additional human intervention.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Recent and historic drivers of landscape change in the Everglades ridge, slough, and Tree Island mosaic
Series title	Critical Reviews in Environmental Science and Technology
DOI	10.1080/10643389.2010.531219
Volume	41
Issue	1
Year Published	2011
Language	English
Publisher	CRC Press
Publisher location	Boca Raton, FL
Contributing office(s)	National Research Program - Eastern Branch
Description	33 p.
First page	344
Last page	381
Online Only (Y/N)	N
Additional Online Files (Y/N)	N
Google Analytic Metrics	Metrics page