AUTHOR=Gobler Christopher J. , Doall Michael H. , Peterson Bradley J. , Young Craig S. , DeLaney Flynn , Wallace Ryan B. , Tomasetti Stephen J. , Curtin Timothy P. , Morrell Brooke K. , Lamoureux Elizabeth M. , Ueoka Berry , Griffith Andrew W. , Carroll John M. , Nanjappa Deepak , Jankowiak Jennifer G. , Goleski Jennifer A. , Famularo Ann Marie E. , Kang Yoonja , Pikitch Ellen K. , Santora Christine , Heck Stephen M. , Cottrell Dylan M. , Chin Diana W. , Kulp Rebecca E. TITLE=Rebuilding A Collapsed Bivalve Population, Restoring Seagrass Meadows, and Eradicating Harmful Algal Blooms In A Temperate Lagoon Using Spawner Sanctuaries JOURNAL=Frontiers in Marine Science VOLUME=9 YEAR=2022 URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2022.911731 DOI=10.3389/fmars.2022.911731 ISSN=2296-7745 ABSTRACT=

During the past century, bivalve populations across the globe have collapsed, resulting in negative ecosystem consequences due to their outsized impact on shallow estuaries. In response, there has been strong interest in the restoration of marine bivalve populations. Here, we present a decade-long restoration effort that sought to rebuild a collapsed (99.5% reduction in harvest) and recruitment-limited population of hard clams (Mercenaria mercenaria) in Shinnecock Bay, NY, USA, using spawner sanctuaries: no-harvest zones where adults were planted at high densities (~27 m-2). Between 2012 to 2019, more than 3.2 million clams were planted in 64 discrete sanctuary plots (~1,850 m2 each) located in zones with maximal larval retention and sediment and seawater characteristics that would maximize the conditioning and spawning of adults. Hydrodynamic models, quantification of hard clam larvae, and spatial recruitment patterns demonstrated larvae spawned within sanctuaries were transported to regions where clam densities significantly increased 18-fold over seven years (2015-2021; p<0.001) and harvests significantly increased more than 16-fold over nine years (2012-2021; p<0.0001). Increases in populations and harvests were caused by smaller clams recruited within the time frame of the creation of spawner sanctuaries. Higher clam densities caused biological filtration times of the bay to decrease from up to three months at the start of the project to as low as 10 days in 2021. Concurrently, concentrations of the harmful brown tide alga, Aureococcus anophagefferens, and chlorophyll a significantly decreased (p<0.005) while water clarity and the extent of seagrass beds significantly increased (p<0.05). Increases in clam landings and improvements in water quality were not observed in adjacent lagoonal estuaries where restoration did not occur. Given these outcomes and the global need for rebuilding marine life, the implementation of spawner sanctuaries using the criteria set forth herein may be a promising approach for restoring hard clam and other bivalve populations in estuaries elsewhere.