A Comparison of Fish Community Structure at Mesophotic Artificial Reefs and Natural Banks in the Western Gulf of Mexico

Streich, Matthew K.; Ajemian, Matthew J.; Wetz, Jennifer J.; Stunz, Gregory W.

doi:10.1080/19425120.2017.1282897

Cited by 39 publications

(36 citation statements)

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“…Because Red Snapper can form dense aggregations (Stanley and Wilson 1997), gear saturation may have been a potential issue affecting estimates of relative abundance, as the SEAMAP vertical lines used in this study consisted of only 10 hooks per backbone. Although vertical lines were not close to being fully saturated (i.e., one fish per hook), relative abundance in our study was similar among artificial reefs, standing platforms, and natural banks surveyed-a finding that is inconsistent with previous studies demonstrating higher relative abundance of Red Snapper at artificial habitats than at natural habitats (Patterson et al 2014;Karnauskas et al 2017;Streich et al 2017). For example, remotely operated vehicle transects conducted at artificial reefs and natural banks in the same region estimated that Red Snapper density was nearly eight times greater at artificial reefs (Streich et al 2017).…”

Section: Discussioncontrasting

confidence: 99%

“…Although vertical lines were not close to being fully saturated (i.e., one fish per hook), relative abundance in our study was similar among artificial reefs, standing platforms, and natural banks surveyed-a finding that is inconsistent with previous studies demonstrating higher relative abundance of Red Snapper at artificial habitats than at natural habitats (Patterson et al 2014;Karnauskas et al 2017;Streich et al 2017). For example, remotely operated vehicle transects conducted at artificial reefs and natural banks in the same region estimated that Red Snapper density was nearly eight times greater at artificial reefs (Streich et al 2017). These previous studies relied on video-based surveys, which are generally less affected by gear saturation and may provide less-biased indices of abundance given adequate environmental conditions (e.g., visibility; Harvey et al 2012;Ajemian et al 2015b).…”

Section: Discussioncontrasting

confidence: 99%

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A Comparison of Size Structure, Age, and Growth of Red Snapper from Artificial and Natural Habitats in the Western Gulf of Mexico

et al. 2017

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Red Snapper Lutjanus campechanus support economically important fisheries in the Gulf of Mexico (GOM) and have been classified as overfished since the first stock assessment was conducted in 1988. Although the stock is now showing signs of recovery, management could benefit from a better understanding of regional or even habitat‐level differences in stock demographics, as these dynamics ultimately determine overall stock productivity. From 2012 to 2014, we used a fishery‐independent vertical line survey to assess Red Snapper relative abundance, size and age structure, and growth parameters at standing oil and gas platforms, decommissioned platform artificial reefs, and natural banks in the western GOM. We captured 1,170 Red Snapper ranging from 275 to 855 mm TL. Vertical line CPUE data showed no differences among the three habitat types. Ages determined for 1,143 individuals ranged from 2 to 30 years; however, most (90%) were younger than age 8. Size and age frequencies revealed that natural banks supported a greater proportion of large and relatively old fish compared to standing platforms or artificial reefs, although this difference was heavily influenced by a single bank that had significantly larger and older Red Snapper than other sites. Mean age was not significantly different among habitat types. Among a suite of growth models fitted to size‐at‐age data, the logistic model provided the best fit and suggested that fish from artificial reefs reached larger sizes at age than fish from either standing platforms or natural banks. Our study provides the first estimates of habitat‐specific growth parameters for Red Snapper in the western GOM, and this information can benefit future stock assessments. This study also highlights the potential benefits of artificial reefs to Red Snapper and indicates that all habitats could contribute similarly to stock productivity on a per‐unit‐area basis. Received December 21, 2016; accepted March 14, 2017 Published online May 26, 2017

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Section: Discussioncontrasting

confidence: 99%

Section: Discussioncontrasting

confidence: 99%

A Comparison of Size Structure, Age, and Growth of Red Snapper from Artificial and Natural Habitats in the Western Gulf of Mexico

et al. 2017

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“…; Streich et al. ). However, large portions of the Gulf are dominated by mud bottom, with relatively few areas of natural hard‐bottom bank, which may be a limiting factor for Red Snapper populations (Shipp and Bortone ).…”

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confidence: 97%

“…; Streich et al. ). There is evidence that in some locales, Red Snapper associate with artificial structures over long periods of time (Szedlmayer and Schroepfer ), whereas in other areas, Red Snapper exhibit low site fidelity to artificial structure (Peabody and Wilson ).…”

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confidence: 97%

Habitat‐Specific Reproductive Potential of Red Snapper: A Comparison of Artificial and Natural Reefs in the Western Gulf of Mexico

et al. 2018

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Energy exploration in the Gulf of Mexico (hereafter, Gulf) has resulted in the addition of numerous oil and gas production platforms that create structurally complex habitat in an area otherwise dominated by barren mud/sand bottom. How these artificial structures affect fish populations is largely unknown, and there is ongoing debate regarding their value as surrogate habitats for ecologically and economically important reef fish species. Thus, the purpose of this study was to characterize trends in Red Snapper Lutjanus campechanus reproductive potential in the western Gulf at oil and gas platform reefs relative to reproductive potential at natural banks. Red Snapper (n = 1,585) were collected during 2013–2015 from standing platforms, decommissioned platform artificial reefs, and natural banks by using standardized vertical line gear. Comparisons of gonadosomatic index, male : female ratios, batch fecundity, annual fecundity, spawning frequency, and number of spawning‐capable individuals indicated that Red Snapper reproductive biology was similar among natural bank, standing platform, and artificial reef habitats. These results suggest that in terms of reproductive output, fish inhabiting artificial reefs are functionally similar to similar‐aged fish on natural banks. This work can be used to make informed management decisions and suggests that there are benefits to converting decommissioned platforms into designated artificial reefs. Future studies should consider site‐specific characteristics, such as depth, vertical relief, and proximity to other structures, to elucidate how habitat characteristics may influence reproduction, ultimately improving future artificial reef deployments for fisheries enhancement in the western Gulf.

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“…In the western Gulf off the Texas coast, Red Snapper diets were found to be similar among natural reefs and standing and toppled oil platforms (Downey 2016). The natural reefs sampled by Simonsen et al (2015), Tarnecki and Patterson (2015), Davis et al (2015), and Downey (2016) are of lower habitat complexity than the natural reefs on the western part of the Louisiana shelf edge (Rezak et al 1985;Gardner and Beaudoin 2005;Streich et al 2017;T. A. Langland, personal observation), so additional information on Red Snapper diets from more complex reefs is needed to further assess differences in feeding ecology.…”

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Habitat Selection Important for Red Snapper Feeding Ecology in the Northwestern Gulf of Mexico

2017

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The present study compared Red Snapper Lutjanus campechanus feeding ecology among seasons, sizes, and natural reefs, and between natural and artificial reefs located on the Louisiana shelf edge. As low‐quality diets may hinder growth, reduce condition, and lead to poor reproductive output, information on diets for various habitat types occupied by Red Snapper is critical. This study utilized both stomach content analysis and nitrogen (δ15N) and carbon (δ13C) stable isotope analysis of muscle tissue. Fishes dominated Red Snapper diets at all sites, in all seasons, and generally for all size‐classes. A high biomass of zooplankton was consumed at the artificial reef area and during spring. The largest natural reef provided the widest diversity of prey items, and there was little overlap in prey species consumed between natural and artificial reef habitats. Higher δ15N and lower δ13C values were found for Red Snapper at the artificial reef area, and contrary to the diet results, distinct isotopic niches were found between natural reefs. Differences in Red Snapper isotopic niches between natural reefs indicate that individuals may remain in residence on a specific reef for an extended period. Red Snapper at natural reefs were found to feed on and above the reef, whereas feeding at artificial reefs predominantly occurred on the surrounding seafloor and up in the water column. The quality of habitats underlying reefs is important, as Red Snapper diets reflected the substrate at the occupied reefs. In the northwestern Gulf of Mexico, large, complex natural reefs may provide higher habitat quality for Red Snapper with respect to prey resources than artificial reefs located on mud substrates. Determining which habitats provide high‐quality prey resources for Red Snapper in the Gulf of Mexico may assist decisions on policies and regulations for habitat protection as well as decisions on the future placement of artificial reefs.

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A Comparison of Fish Community Structure at Mesophotic Artificial Reefs and Natural Banks in the Western Gulf of Mexico

Cited by 39 publications

References 58 publications

A Comparison of Size Structure, Age, and Growth of Red Snapper from Artificial and Natural Habitats in the Western Gulf of Mexico

A Comparison of Size Structure, Age, and Growth of Red Snapper from Artificial and Natural Habitats in the Western Gulf of Mexico

Habitat‐Specific Reproductive Potential of Red Snapper: A Comparison of Artificial and Natural Reefs in the Western Gulf of Mexico

Habitat Selection Important for Red Snapper Feeding Ecology in the Northwestern Gulf of Mexico

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