Evaluating the promise and pitfalls of a potential climate change–tolerant sea urchin fishery in southern California

Sato, Kirk N.; Powell, Jackson; Rudie, Dave; Levin, Lisa A.

doi:10.1093/icesjms/fsx225

Cited by 23 publications

(35 citation statements)

References 62 publications

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“…However, this in practicality might face new challenges, such as selecting species that also thrive under aquaculture conditions and avoiding selecting non-native species (Arismendi et al, 2009), and might require strategic management plants. In order to optimise protein supply and secure socio-economic benefits of mollusc aquaculture, research needs to focus on identifying and selecting native aquaculture species that are resilient to future climate conditions, and able to retain their beneficial nutritional properties (Cooley et al, 2012;Sato et al, 2018), without introducing new challenges.…”

Section: Mineral Contentmentioning

confidence: 99%

Changes in the biochemical and nutrient composition of seafood due to ocean acidification and warming

Lemasson

Hall‐Spencer

Kuri

et al. 2019

Marine Environmental Research

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Ocean acidification and warming may threaten future seafood production, safety and quality by negatively impacting the fitness of marine species. Identifying changes in nutritional quality, as well as species most at risk, is crucial if societies are to secure food production. Here, changes in the biochemical composition and nutritional properties of the commercially valuable oysters, Magallana gigas and Ostrea edulis, were evaluated following a 12-week exposure to six ocean acidification and warming scenarios that were designed to reflect the temperature (+3°C above ambient) and atmospheric pCO 2 conditions (increase of 350-600ppm) predicted for the mid-to end-of-century. Results suggest that O. edulis, and especially M. gigas, are likely to become less nutritious (i.e. containing lower levels of protein, lipid, and carbohydrate), and have reduced caloric content under ocean acidification and warming. Important changes to essential mineral composition under ocean acidification and warming were evident in both species; enhanced accumulation of copper in M. gigas may

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Section: Mineral Contentmentioning

confidence: 99%

Changes in the biochemical and nutrient composition of seafood due to ocean acidification and warming

Lemasson

Hall‐Spencer

Kuri

et al. 2019

Marine Environmental Research

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“…In these cases, the survival of released fish remains unknown, underestimating the total mortality caused by fishing. This underestimation may affect the proper management of the fishery, which is based on the periodic review of daily catches and fishing effort [24]. The immediate mortality estimated in this study under average environmental conditions was low (average survival percentage of 99.9%, CI: 97.9-100%), but the asymptotic delayed mortality was considerably high (average survival percentage of 47.2%) and highly variable (CI between 33.8% and 65.8%).…”

Section: Mortality Of the Target Speciesmentioning

confidence: 70%

“…In addition, a co-management committee was created with the participation of the public administration, fishers' associations, researchers, and nongovernmental organizations. This committee periodically revises the daily catches and the fishing effort and, if required (for example, if the monthly threshold is not reached), implements more restrictive measures (i.e., closing days) for sustaining the sale price and resources [24].…”

Section: Methodsmentioning

confidence: 99%

“…The survival of released fish may be affected by several biological processes, such as barotrauma, temperature shock, desiccation/air exposure/anoxia, light-related damage to the eyes, trauma related to handling or alteration of antipredator behavior [6,9,19]. In the case of the target species in the transparent goby fishery, desiccation/air exposure/anoxia seems to be irrelevant because fish from the codend are immediately released into a barrel with sea water for sorting or are collected using a hand net with the net still in the water (the target species tend to remain near the surface, which facilitates sorting) [24]. Furthermore, in the case of slipping, fish are directly released to the sea; thus, mortality related to desiccation/air exposure/ anoxia or even to onboard handling should be considered negligible.…”

Section: Plos Onementioning

confidence: 99%

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Assessing relative post-release mortality for the transparent goby fishery: Environmental drivers and the utility of vitality metrics

et al. 2020

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The target species (Aphia minuta and Pseudaphya ferreri) of the transparent goby fishery on Mallorca Island (Balearic Islands, western Mediterranean) are currently discarded when the maximum daily catch is exceeded or when the sorting process is unworkable. The mortality suffered by this discarded fraction remains unknown, although it may be important for resource management. Accordingly, the aims of this study were to (1) assess the environmental drivers of the relative post-release survival of the discarded target species and (2) test the correlations between post-release survival and two behavior-related variables (swimming speed and its increase after a stimulus, assessed via video recording). To do so, mortality of the target species from 47 hauls sampled under normal fishing boat operations was monitored when the gear was onboard and after a few hours. At the reference level (an average depth of 25.7 m and temperature of 15.7 ºC), the immediate survival was 99.9% (95% CI: 97.9 to 100%), but the estimated post-release survival decreased to 47.2% (33.8 to 65.8%). Relative post-release mortality doubled when the water temperature increased by 2.8 ºC or when the fishing depth increased up to 32 m. Furthermore, the swimming speed of the target species was significantly correlated with the estimated post-release survival; thus, this vitality metric may offer a promising strategy for more easily estimating postrelease mortality in other fisheries.

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“…Given the considerable ecological and economic importance of M. franciscanus, determining how this species will be affected by continuing environmental change in coastal oceans remains an overlooked and critical area of research [11]. Due to their habitat and life history, these urchins are threatened by climate change impacts [12] such as ocean warming, which may include sudden and extreme marine heat waves [13,14], and ocean acidi cation, which may amplify the low pH conditions that episodically occur in upwelling regions [15]. Furthermore, these urchins may be particularly vulnerable to stress during early development.…”

Section: Introductionmentioning

confidence: 99%

Gene Expression Patterns of Red Sea Urchins (Mesocentrotus Franciscanus) Exposed to Different Combinations of Temperature and pCO2 During Early Development

Hofmann

2020

Preprint

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Abstract Background: The red sea urchin Mesocentrotus franciscanus is an ecologically important kelp forest herbivore and an economically valuable wild fishery species. To examine of how M. franciscanus responds to its environment on a molecular level, differences in gene expression patterns were observed in embryos raised under combinations of two temperatures (13 °C and 17 °C) and two pCO2 levels (475 matm and 1050 matm). The transcriptomic responses of the embryos were assessed at two developmental stages (gastrula and prism) in light of previously described plasticity in body size and thermotolerance under these temperature and pCO2 treatments.Results: Although transcriptomic patterns primarily varied by developmental stage, there were pronounced differences in gene expression as a result of the treatment conditions. Temperature and pCO2 treatments led to the differential expression of genes related to the cellular stress response, transmembrane transport, metabolic processes, and the regulation of gene expression. Temperature had a greater influence on gene expression than pCO2, and may have contributed to positive effects of temperature on body size and thermotolerance at the prism stage. On the other hand, a relatively muted transcriptomic response to pCO2 may have permitted the stunting effect of elevated pCO2 on embryo body size.Conclusions: M. franciscanus exhibited both transcriptomic and phenotypic plasticity in response to temperature and pCO2 stress during early development. As climate change continues, red sea urchins may benefit from moderate ocean warming, whereas they will be negatively affected by ocean acidification. Present-day pCO2 conditions that occur due to coastal upwelling may already be detrimental to populations of M. franciscanus.

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Evaluating the promise and pitfalls of a potential climate change–tolerant sea urchin fishery in southern California

Cited by 23 publications

References 62 publications

Changes in the biochemical and nutrient composition of seafood due to ocean acidification and warming

Changes in the biochemical and nutrient composition of seafood due to ocean acidification and warming

Assessing relative post-release mortality for the transparent goby fishery: Environmental drivers and the utility of vitality metrics

Gene Expression Patterns of Red Sea Urchins (Mesocentrotus Franciscanus) Exposed to Different Combinations of Temperature and pCO2 During Early Development

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