Litcius/Paper detail

Prioritizing riparian corridors for ecosystem restoration in urbanizing watersheds

Samuel F. Atkinson, Matthew C. Lake

2020PeerJ30 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Riparian corridors can affect nutrient, organic matter, and sediment transport, all of which shape water quality in streams and connected downstream waters. When functioning riparian corridors remain intact, they provide highly valued water quality ecosystem services. However, in rapidly urbanizing watersheds, riparian corridors are susceptible to development modifications that adversely affect those ecosystem services. Protecting high quality riparian corridors or restoring low quality corridors are widely advocated as watershed level water quality management options for protecting those ecosystem services. The two approaches, protection or restoration, should be viewed as complementary by watershed managers and provide a foundation for targeting highly functioning riparian corridors for protection or for identifying poorly functioning corridors for restoration. Ascertaining which strategy to use is often motivated by a specific ecosystem service, for example water quality, upon which watershed management is focused. We have previously reported on a spatially explicit model that focused on identifying riparian corridors that have specific characteristics that make them well suited for purposes of preservation and protection focused on water quality. Here we hypothesize that focusing on restoration, rather than protection, can be the basis for developing a watershed level strategy for improving water quality in urbanizing watersheds. METHODS: The model described here represents a geographic information system (GIS) based approach that utilizes riparian characteristics extracted from 40-meter wide corridors centered on streams and rivers. The model focuses on drinking water reservoir watersheds that can be analyzed at the sub-watershed level. Sub-watershed riparian data (vegetation, soil erodibility and surface slope) are scaled and weighted based on watershed management theories for water quality, and riparian restoration scores are assigned. Those scores are used to rank order riparian zones -the lower the score the higher the priority for riparian restoration. RESULTS: < 0.0001). Scores allow watershed managers to rapidly focus on riparian corridors most in need of restoration. A beneficial feature of the model is that it also allows investigation of multiple scenarios of restoration strategies (e.g., revegetation, soil stabilization, flood plain leveling), giving watershed managers a tool to compare and contrast watershed level management plans.

Topics & Concepts

Riparian zoneWatershedEnvironmental scienceEcosystem servicesWater qualityEnvironmental resource managementRiparian forestWatershed managementRiparian bufferHydrology (agriculture)EcosystemWater resource managementEcologyHabitatComputer scienceEngineeringGeotechnical engineeringMachine learningBiologySoil and Water Nutrient DynamicsHydrology and Sediment Transport ProcessesFreshwater macroinvertebrate diversity and ecology