RT Journal Article SR Electronic T1 Evaluating Multiple Oyster Reef Restoration Practices Across Space and Time in Coastal Rhode Island JF Ecological Restoration FD University of Wisconsin Press SP 193 OP 204 DO 10.3368/er.42.3.193 VO 42 IS 3 A1 Barrett, Patrick D. A1 Schneider, Eric G. A1 Grabowski, Jonathan H. A1 Hanley, Torrance C. A1 McManus, M. Conor A1 Helt, William A1 Kinney, Heather A1 Hughes, A. Randall YR 2024 UL http://er.uwpress.org/content/42/3/193.abstract AB Determining the efficacy of restoration practices is critical for enhancing and rebuilding degraded ecosystems. A fundamental question in marine restoration design is whether to employ active (e.g., using living plants or oysters that form the biogenic habitat) or passive (e.g., restoring the hydrology and sediment materials at the site) restoration strategies. Furthermore, the identity of sources used in restoring biogenic habitats could influence the effectiveness of restoration efforts. We present results from two independent experimental restoration efforts designed to explore the efficacy of these different approaches for the recovery of Crassostrea virginica (eastern oyster) reef habitat. Conducted from 2015–2020 in Rhode Island, USA, the restoration experiments compared 1) passive (unseeded shell) vs. active (seeded spat on shell) restoration methods in Ninigret Pond, and 2) restored reefs seeded with hatchery sourced vs. wild oyster lineages in Quonochontaug Pond. In Quonochontaug Pond, the hatchery-sourced line exhibited greater mortality than the wild lines. Restored reefs in both projects remained viable all four years post-restoration; however, low recruitment continues to limit the long-term sustainability of restored reefs in these Rhode Island systems. Natural mortality varied spatially within each coastal pond, ranging from 33–81% per year. Across both experiments, oyster mortality increased with rising temperature, salinity, and disease prevalence. Our results suggest that utilizing active restoration with spat spawned from multiple sources, including wild populations, may improve the success of oyster restoration. Future habitat restoration efforts should consider the environmental variability associated with restoration sites and the source of restoration species during project planning.