Litcius/Paper detail

Nutrient Retention in Ecologically Functional Floodplains: A Review

Brad A. Gordon, Olivia Dorothy, Christian Lenhart

2020Water70 citationsDOIOpen Access PDF

Abstract

Nutrient loads in fresh and coastal waters continue to lead to harmful algal blooms across the globe. Historically, floodplains—low-lying areas adjacent to streams and rivers that become inundated during high-flow events—would have been nutrient deposition and/or removal sites within riparian corridors, but many floodplains have been developed and/or disconnected. This review synthesizes literature and data available from field studies quantifying nitrogen (N) and phosphorus (P) removal within floodplains across North America and Europe to determine how effective floodplain restoration is at removing nutrients. The mean removal of nitrate-N (NO3−-N), the primary form of N in floodplain studies, was 200 (SD = 198) kg-N ha−1 year−1, and of total or particulate P was 21.0 (SD = 31.4) kg-P ha−1 year−1. Based on the literature, more effective designs of restored floodplains should include optimal hydraulic load, permanent wetlands, geomorphic diversity, and dense vegetation. Floodplain restorations along waterways with higher nutrient concentrations could lead to a more effective investment for nutrient removal. Overall, restoring and reconnecting floodplains throughout watersheds is a viable and effective means of removing nutrients while also restoring the many other benefits that floodplains provide.

Topics & Concepts

FloodplainEnvironmental scienceNutrientRiparian zoneWetlandHydrology (agriculture)PhosphorusFlood mythSTREAMSVegetation (pathology)EcologyGeographyGeologyBiologyHabitatChemistryComputer networkArchaeologyOrganic chemistryGeotechnical engineeringComputer scienceMedicinePathologySoil and Water Nutrient DynamicsCoastal wetland ecosystem dynamicsSoil erosion and sediment transport