Achieving sustainable and climate‐resilient fisheries requires marine ecosystem forecasts to include fish condition

Bolin, Jessica A.; Schoeman, David S.; Evans, Karen; Cummins, Scott F.; Scales, Kylie L.

doi:10.1111/faf.12569

Cited by 18 publications

(9 citation statements)

References 170 publications

(250 reference statements)

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“…Therefore, it cannot be assumed that intrinsic drivers of species movement such as spawning cycles are being represented adequately. Ecosystem models that incorporate multiple components, including mechanistic links between the physical environment and living marine resources across several trophic levels as well as human dimensions, may provide a better predictive skill than simple correlative models (Bolin et al, 2021). However, these must be developed at the appropriate scale and resolution to provide utility for fisheries management (Audzijonyte et al, 2019; Pethybridge et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Forecast‐ready models to support fisheries' adaptation to global variability and change

Scales

Moore

Sloyan

et al. 2023

Fisheries Oceanography

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Ocean and climate drivers affect the distribution and abundance of marine life on a global scale. Marine ecological forecasting seeks to predict how living marine resources respond to physical variability and change, enabling proactive decisionmaking to support climate adaptation. However, the skill of ecological forecasts is constrained by the skill of underlying models of both ocean state and speciesenvironment relationships. As a test of the skill of data-driven forecasts for fisheries, we developed predictive models of catch-per-unit-effort (CPUE) of tuna and billfish across the south-west Pacific Ocean, using a 12-year time series of catch data and a large ensemble climate reanalysis. Descriptors of water column structure, particularly temperature at depth and upper ocean heat content, emerged as useful predictors of CPUE across species. Enhancing forecast skill over sub-seasonal to multi-year timescales in any system is likely to require the inclusion of sub-surface ocean data and explicit consideration of regional physical dynamics.

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Section: Discussionmentioning

confidence: 99%

Forecast‐ready models to support fisheries' adaptation to global variability and change

Scales

Moore

Sloyan

et al. 2023

Fisheries Oceanography

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“…Fishing practices that are targeted at maximising seafood quality yields may become a focus for future management with the growing impacts of climate change on fisheries. The growing impacts of climate change on marine resource use and food security are driving the need for future fisheries forecasts to include multiple biological parameters such as seafood quality and epidemiological status (Bolin et al, 2021). Indeed, seasonal to sub‐seasonal forecasting of other species' responses to environmental variability is already transforming marine resource management from being reactive to proactive (Tommasi et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Nutritional quality of eastern school whiting (Sillago flindersi) under contemporary and future environmental conditions

Shalders,

Champion,

Benkendorff

et al. 2023

Fisheries Oceanography

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Climate‐driven environmental change is increasingly impacting global fisheries and marine resource use. Fisheries provide a broad range of economic, social and cultural benefits while delivering essential contributions to nutrient security and human health. Despite this, little is known about how climate change will impact the availability and quality of seafood‐derived nutrients. Here, we quantified spatial and temporal changes in the nutritional quality of the commercially harvested eastern school whiting, Sillago flindersi, sampled throughout the south‐east Australian ocean warming hotspot. Several nutrients measured in S. flindersi, including protein, ash, polyunsaturated fatty acids (PUFA) and the omega‐3 PUFA–docosahexaenoic acid (DHA, 22:6ɷ3), were related to one or more environmental factors (sea bottom temperature, depth and chlorophyll). We also detected seasonal variability in DHA and ash composition throughout the species' commercially harvested distribution. Historical and future spatial modelling predicted a decrease in DHA of up to 6% with increasing ocean temperature under future Representative Concentration Pathway (RCP) 4.5 and 8.5 emission scenarios. Overall, our results identified S. flindersi as a rich source of protein and essential PUFAs for human consumers and supported emerging evidence that reductions in seafood‐derived essential nutrients may occur under future ocean warming, specifically reductions in omega‐3 fatty acids. The development of nutritional quality forecasting tools for seafood holds the potential to inform fishers and managers of locations and times of the year to target species with optimal nutritional quality.

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“…Such information could then be used in stock assessment and the associated decision‐making. Many authors therefore generally recommend the use of condition index in fisheries management but do not provide practical means of doing so (Anderson & Neumann, 1996; Blackwell et al, 2000; Bolin et al, 2021; Lloret et al, 2012; Stevenson & Woods, 2006). The true potential of condition index for fisheries management cannot be realized because understanding of correlations between individual‐level processes and population‐level responses is lacking.…”

Section: Introductionmentioning

confidence: 99%

Fish condition as an indicator of stock status: Insights from condition index in a food‐limiting environment

2023

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Individual performance defines population dynamics. Condition index -a ratio of weight and some function of length -has been louded as an indicator of individual performance and recommended as a tool in fisheries management and conservation.However, insufficient understanding of the correlation between individual-level processes and population-level responses hinders its adoption. To this end, we use composite modelling to link individual's condition, expressed through the condition index, to population-level status. We start by modelling ontogeny of European pilchard (Sardina pilchardus, Clupeidae) as a function of food and constant temperature using Dynamic Energy Budget theory. We then provide a framework to simultaneously track the individual-and population-level statistics by incorporating the dynamic energy budget model into an individual-based model. Lastly, we explore the effects of fishing pressure on the statistics in two constant and food-limited environmental carrying capacity scenarios. Results show that, regardless of the species' environmental carrying capacity, individual condition index will increase with fishing mortality, that is, with reduction of stock size. Same patterns are observed for gilthead seabream (Sparus aurata, Sparidae), a significantly different species. Condition index can, therefore, in food-limited populations, be used to (i) estimate population size relative to carrying capacity and (ii) distinguish overfished from underfished populations. Our findings promote a practical way to operationally incorporate the condition index into fisheries management and marine conservation, thus providing additional use for the commonly collected biometric data. Some real-world applications, however, may require additional research to account for other variables such as fluctuating environmental conditions and individual variability.

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Achieving sustainable and climate‐resilient fisheries requires marine ecosystem forecasts to include fish condition

Cited by 18 publications

References 170 publications

Forecast‐ready models to support fisheries' adaptation to global variability and change

Forecast‐ready models to support fisheries' adaptation to global variability and change

Nutritional quality of eastern school whiting (Sillago flindersi) under contemporary and future environmental conditions

Fish condition as an indicator of stock status: Insights from condition index in a food‐limiting environment

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