Asymmetry across international borders: Research, fishery and management trends and economic value of the giant sea bass (<i>Stereolepis gigas</i>)

Ramírez-Valdez, Arturo; Rowell, Timothy J.; Dale, Katherine E.; Craig, Matthew T.; Allen, Larry G.; Villaseñor-Derbez, Juan Carlos; Cisneros‐Montemayor, Andrés M.; Hernández‐Velasco, Arturo; Torre, Jorge; Hofmeister, Jennifer K. K.; Erisman, Brad

doi:10.1111/faf.12594

Cited by 14 publications

(9 citation statements)

References 113 publications

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“…All the deep-sea fishes had otolith chemistry significantly different from the giant sea 615 bass, Stereolepis gigas. The giant sea bass occurs within relatively shallow waters up to ~ 30 616 deep (Ramírez-Valdez et al, 2021). At this depth, oxygen and pH conditions vary, but values are 617 consistently higher than those found for our deep OMZ fishes (Table 1).…”

mentioning

confidence: 52%

Otoliths of marine fishes record evidence of low oxygen, temperature and pH conditions of deep Oxygen Minimum Zones

Cavole

Limburg

Gallo

et al. 2023

Deep Sea Research Part I: Oceanographic Research Papers

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mentioning

confidence: 52%

Otoliths of marine fishes record evidence of low oxygen, temperature and pH conditions of deep Oxygen Minimum Zones

Cavole

Limburg

Gallo

et al. 2023

Deep Sea Research Part I: Oceanographic Research Papers

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“…One study that looked at the impact of Macrocystis pyrifera deforestation caused by urchin grazing on kelp forest food web structure found that the negative impacts of deforestation were not as strong at higher trophic levels similar to those occupied by giant sea bass (Graham 2004). Furthermore, a portion of the geographic range of giant sea bass does not coincide with the range of kelp (Ramírez-Valdez et al 2021), and there are anecdotal reports of the local extirpation of kelp from rocky reefs in the Channel Islands having no apparent influence on their presence (Domeier 2001). These findings suggest that threats to kelp forests do not necessarily equate to threats to giant sea bass.…”

Section: Discussionmentioning

confidence: 99%

“…Sampling took place from 2017 to 2020, and spanned the core range of giant sea bass, which is south of Pt. Conception, California, along the Pacific coast of Baja California and the upper Gulf of California, Mexico (Domeier 2001, Ramírez-Valdez et al 2021) (Fig. 1).…”

Section: Sample Collectionmentioning

confidence: 99%

“…Giant sea bass Stereolepis gigas are Critically Endangered (Cornish 2004) large-bodied predators that were once abundant in the kelp forests and rocky reefs of southern California, USA, and Baja California, Mexico (Dayton et al 1998, Domeier 2001, Cornish 2004, Hawk & Allen 2014, Erauskin-Extramiana et al 2017. Historically a sought after recreational and commercial fisheries species, giant sea bass experienced severe population declines in the USA due to overfishing in the early 20th century (Baldwin & Keiser 2008, Allen 2017, Ramírez-Valdez et al 2021. Despite near extirpation in California, recent scientific evidence suggests that they are recovering after implementation of fishing regulations that de creased intentional and incidental catch of the species in the USA (Pondella & Allen 2008, Allen & Andrews 2012, House et al 2016.…”

Section: Introductionmentioning

confidence: 99%

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Giant appetites: exploring the trophic ecology of California’s largest kelp forest predator, the giant sea bass Stereolepis gigas

Blincow

Swalethorp

Ramírez-Valdez

et al. 2022

Mar. Ecol. Prog. Ser.

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The recovery of endangered predators has the potential to influence the ecosystems they inhabit. After suffering severe population declines due to fishing pressure, giant sea bass Stereolepis gigas in southern California, USA, are beginning to recover. As large-bodied predators often associated with the kelp forest and rocky reef environments of southern California and Baja California, Mexico, the local recovery of this species could influence trophic dynamics in these systems. Here we leverage stable isotope and gut content analysis to describe the trophic ecology of adult giant sea bass. We found that they are generalist predators, with larger individuals relying more heavily on macroalgae-derived carbon, occupying a larger trophic niche, and obtaining higher trophic positions. Using these results, we speculate about the relationship between giant sea bass and kelp forest ecosystems, a vulnerable yet key habitat, including the impact of the return of these predators, as well as how contemporary threats to kelp forests might mediate their continued recovery.

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“…As oceanic conditions ( i.e ., sea surface temperature, productivity) change, aggregation cues may cause shifts in the timing and location of these aggregation events. Although recent genetic analyses have shown fish in Mexican waters may have helped US populations recover (Chabot et al ., 2015 ; Gaffney et al ., 2007 ; Ramírez‐Valdez et al ., 2021 ), there is no evidence to date documenting movement of fish between Mexico and the US. Currently, the only confirmed aggregation sites in U.S. waters are around Anacapa Island (Domeier, 2005 ), Santa Catalina Island (Clevenstine & Lowe, 2021 ; House et al ., 2016 ) and La Jolla, California (Blincow, unpubl.…”

mentioning

confidence: 99%

Network analysis reveals aggregation behaviour for an endangered predator at an offshore island

Spector

Clevenstine

Cajandig

et al. 2022

Journal of Fish Biology

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Site fidelity and aggregation behaviour were assessed for giant sea bass Stereolepis gigas (GSB) at Santa Barbara Island, California, USA, from 2018 to 2020. Results indicate seasonal variation in GSB presence, and network analyses revealed a preferred location in a spatially constrained pattern, indicative of aggregation behaviour.Results show GSB aggregated annually during spawning months in the same location, confirming the first known aggregation of GSB at Santa Barbara Island. Identifying and monitoring aggregation sites is vital to ensuring proper protection and ultimate recovery for this protected species in a changing climate.

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Asymmetry across international borders: Research, fishery and management trends and economic value of the giant sea bass (Stereolepis gigas)

Cited by 14 publications

References 113 publications

Otoliths of marine fishes record evidence of low oxygen, temperature and pH conditions of deep Oxygen Minimum Zones

Otoliths of marine fishes record evidence of low oxygen, temperature and pH conditions of deep Oxygen Minimum Zones

Giant appetites: exploring the trophic ecology of California’s largest kelp forest predator, the giant sea bass Stereolepis gigas

Network analysis reveals aggregation behaviour for an endangered predator at an offshore island

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