2021
DOI: 10.1007/s12237-021-00935-0
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Estimating and Applying Fish and Invertebrate Density and Production Enhancement from Seagrass, Salt Marsh Edge, and Oyster Reef Nursery Habitats in the Gulf of Mexico

Abstract: Seagrasses, oyster reefs, and salt marshes are critical coastal habitats that support high densities of juvenile fish and invertebrates. Yet which species are enhanced through these nursery habitats, and to what degree, remains largely unquantified. Densities of young-of-year fish and invertebrates in seagrasses, oyster reefs, and salt marsh edges as well as in paired adjacent unstructured habitats of the northern Gulf of Mexico were compiled. Species consistently found at higher densities in the structured ha… Show more

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Cited by 30 publications
(28 citation statements)
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“…As productive coastal ecosystems continue to be modified with infrastructure and restoration efforts, it is critical to understand the functional roles of constructed or modified habitats in supporting fisheries species [31]. Quantitative estimates of fish densities across a range of habitats can guide the design of future infrastructure to maximize benefits for biodiversity [38], and support the derivation of production enhancement estimates in support of decision making [14]. The use of simple underwater video cameras for surveying fish communities is becoming widespread [17], yet the majority of studies derive only indices of relative abundance [19,29].…”
Section: Discussionmentioning
confidence: 99%
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“…As productive coastal ecosystems continue to be modified with infrastructure and restoration efforts, it is critical to understand the functional roles of constructed or modified habitats in supporting fisheries species [31]. Quantitative estimates of fish densities across a range of habitats can guide the design of future infrastructure to maximize benefits for biodiversity [38], and support the derivation of production enhancement estimates in support of decision making [14]. The use of simple underwater video cameras for surveying fish communities is becoming widespread [17], yet the majority of studies derive only indices of relative abundance [19,29].…”
Section: Discussionmentioning
confidence: 99%
“…FoO and MaxN are logistically and conceptually simple metrics of relative abundance. However, they fall short of supporting the derivation of production enhancement estimates desired by many coastal resource managers and restoration practitioners for justifying and promoting management and restoration decisions [14]. Using our simple camera systems, we derived density estimates for the more abundant fisheries species from habitats that preclude the use of other quantitative sampling gears.…”
Section: Comparison Of Metrics For Quantifying Fish Assemblagesmentioning
confidence: 99%
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“…These are outlined in detail within six core perspectives articles, which appear throughout the special issue. These articles open with Ziegler et al (2021), who provide a foundational appraisal of the key drivers of variation in tidal marsh structure and function that is observed in the literature. This is important, since tidal marsh studies are necessarily place based, but advancement of our understanding of these systems at a conceptual level relies on drawing out common themes in the structure and function of these systems across different geographic locations, at the same time as identifying the proximal factors that are responsible for this geographic variability.…”
mentioning
confidence: 99%
“…These perspective articles are interspersed with contemporary case studies in support of the concepts outlined above. The structural and functional characteristics of tidal marshes are considered in several studies (James et al 2020;Jones et al 2020;Curran et al 2021;Kimball and Eash-Loucks 2021;Smith and Pellew 2021), supported with examples that apply contemporary approaches for exploring these characteristics (Bennett et al 2020;Baker et al 2021;Colombano et al 2021a;zu Ermgassen et al 2021a). System change within tidal marshes is considered in the context of factors that impact their health, resilience and productivity (Crosby et al 2021), and the implications for marsh nekton (Harris et al 2020).…”
mentioning
confidence: 99%