A TOP-DOWN APPROACH FOR IDENTIFYING AND PRIORITIZING THE FINAL ECOSYSTEM GOODS & SERVICES PRODUCED BY ECOLOGICAL RESTORATION
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The goals for restoration projects are often framed in terms of the benefits that will be derived from remediation activities. In many cases, the restored benefits include the direct uses of nature by people (aka, final ecosystem goods & services, or FEGS), such as enhanced recreational viewing of native wildlife, improved fishing for desired species, or increased protection of property due to wave attenuation by native vegetation. Consideration of the direct benefits that people could obtain from a restored site informs development of monitoring plans that include FEGS-relevant metrics, which can be used for adaptive management decisions and aid in communicating restoration progress toward people-centric goals to stakeholders and the public. We will present a top-down approach to identifying the FEGS that are relevant to restoration of a site using EPA’s National Ecosystem Service Classification System Plus (NESCS Plus). One advantage of a top-down approach to use a generalized, systematic method to ensure that a full suite of potential FEGS is identified from which restoration practitioners can identify a suite of relevant metrics to incorporate into restoration planning, monitoring, and adaptive management design. Using NESCS Plus, we identified more than 85 FEGS that may be produced by tidal wetlands (our example system), distributed across 29 classes of beneficiaries (defined as the roles assumed by people as they use, appreciate, or enjoy tidal wetlands) and seven classes of ecological endpoints representing a coarse categorization of the biophysical attributes that beneficiaries use. To determine which of these FEGS are of greatest interest (i.e., cited most frequently) for tidal wetland restoration, we conducted a data mining exercise of management plans and mission statements for organizations charged with managing, conserving, or restoring tidal wetlands (i.e., National Estuary Programs, National Estuarine Research Reserves, land trusts, and select non-governmental organizations) using the results of the NESCS Plus search. The results of this analysis will guide our development of FEGS metrics for tidal wetlands and models to link wetland condition to FEGS production for use by restoration practitioners and decision makers to measure progress toward a restoration project’s benefit-based goals.