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Coastal Marsh Degradation Into Ponds Induces Irreversible Elevation Loss Relative to Sea Level in a Microtidal System

Lennert Schepers, Patrick Brennand, Matthew L. Kirwan, Glenn R. Guntenspergen, Stijn Temmerman

2020Geophysical Research Letters39 citationsDOI

Abstract

Abstract Coastal marshes and their valuable ecosystem services are feared to be lost by sea level rise, yet the mechanisms of marsh degradation into ponds and potential recovery are poorly understood. We quantified and analyzed elevations of marsh surfaces and pond bottoms along a marsh loss gradient (Blackwater River, Maryland, USA). Our analyses show that ponds deepen with increasing tidal channel width connecting the ponds to the river, indicating a new feedback mechanism where channels lead to enhanced tidal export of pond bottom material. Pond elevations also decrease with increasing pond size, consistent with previous work identifying a positive feedback between wind wave erosion and pond size. These two positive feedbacks, combined with bimodal elevation distributions and sharp topographic boundaries between interior ponds and the marsh platform, indicate alternative elevation states and imply that marsh loss by pond formation is nearly irreversible once pond deepening exceeds a critical level.

Topics & Concepts

MarshElevation (ballistics)Salt marshEnvironmental scienceSea levelEcosystemOceanographyHydrology (agriculture)Channel (broadcasting)Sea level riseEstuaryWater levelWetlandGeologyEcologyClimate changeGeographyEngineeringGeometryMathematicsCartographyElectrical engineeringGeotechnical engineeringBiologyCoastal wetland ecosystem dynamicsCoastal and Marine DynamicsAeolian processes and effects
Coastal Marsh Degradation Into Ponds Induces Irreversible Elevation Loss Relative to Sea Level in a Microtidal System | Litcius