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  1. Coastal and estuarine habitats that provide crucial nursery areas for many economically and ecologically important fish species are in decline. Restoration of benthic habitats can improve fish populations, biomass, and feeding opportunities, but there is limited research on how restoration impacts growth and survival with ontogeny. To address this knowledge gap, here we examine the biometrics (size, biomass, and body condition), recruitment, size structure, and trophic shifts of a sportfish (mangrove snapper,Lutjanus griseus) at restored oyster reefs and stabilized living shorelines to better understand how fish use restored habitats as they grow. Biomass and body condition ofL. griseusjuveniles and subadults, and post‐settlement recruitment, at restored/stabilized sites was similar, and in some cases greater than natural sites, correlating with benthic habitat, reef location, and lunar phase at oyster reefs. Living shorelines exhibited greater recruitment potential, while oyster reefs supported more juveniles and subadults, as evidenced by differences in fish size and biomass between habitats. Dietary overlap implies subadultL. griseuslikely foraged across habitats more than juveniles, while there was greater diet similarity within habitats. Furthermore, ontogenetic shifts also occurred within oyster reef habitats, highlighting the importance of quality habitat to support various sportfish life stages, which can be achieved through restoration. These findings suggest life history attributes can be indicators of habitat restoration success, and specifically provide actionable science to guide the development of more effective strategies for restoring inshore nursery habitats and thus augment production of offshore reef fisheries.

     
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  2. Abstract

    Striped MulletMugil cephalusare numerically abundant forage fish, highly valuable as prey, and commercially valuable to humans. From September to December, Striped Mullet in the Indian River Lagoon (IRL), Florida, undergo an annual migration from inshore foraging habitats to oceanic spawning sites. However, their migratory pathways—particularly their intra‐estuarine movement pathways—remain unknown. To address this knowledge gap, we utilized passive acoustic telemetry to assess the movement patterns of Striped Mullet within the IRL. Thirty‐two fish were tagged, generating usable tracks from 18 individuals. The mean (±SD) time that fish were detected in the array was about 38 ± 90 d, with the longest detection period being 444 d. We also document the first evidence of skipped spawning in Striped Mullet inhabiting waters of the southeastern United States. These data suggest that impoundments around the Merritt Island National Wildlife Refuge serve as important refugia for Striped Mullet, while the Banana and Indian rivers act as corridors during their inshore migratory movements. Through spatial fisheries management, high‐value habitat and connective elements utilized by Striped Mullet and other vital forage fish may be identified so as to benefit both natural and human dynamics in estuarine systems.

     
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