Winter energy allocation and deficit of juvenile walleye pollock Theragra chalcogramma in the Doto area, northern Japan

Kooka, Kouji; Yamamura, Orio

doi:10.1007/s10641-011-9957-1

Cited by 14 publications

(10 citation statements)

References 42 publications

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“…Many 0group fish use energy to grow rapidly to reduce predation pressure (Anthony et al, 2000), with some maintaining lipid levels just above the minimum required to survive, even when physiologically capable of allocating energy to reserves (Biro et al, 2005). Once a threshold size is reached, sandeels, like many other species, begin to store considerably more lipid (Robards et al, 1999;Post and Parkinson, 2001;Biro et al, 2005;Kooka and Yamamura, 2012). This threshold size corresponds to the minimum length of an overwintering sandeel (Holland et al, 2005), suggesting the onset of overwintering is determined by lipid stores (Robards et al, 1999;Holland et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

Exploring the Influence of Food and Temperature on North Sea Sandeels Using a New Dynamic Energy Budget Model

et al. 2018

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The zooplanktivorous schooling fish sandeels A. marinus comprise a quarter of North Sea fish biomass and are essential food for a number of marine mammals and birds. However, in recent decades there has been a decline in the abundance of older sandeels, with increased overwinter mortality proposed as a contributor. To survive winter animals require a minimum energy reserve which is determined by temperature, prey abundance, and possibly prey size. Here a new dynamic energy budget model is created to determine the influence of food and temperature on sandeel energy dynamics. The model hindcasts changes in energy and survival between 2000 and 2008, a period of pronounced stock decline in the northwestern North Sea. Overwinter starvation mortality was a large contributor toward a recent decline in sandeels in northern UK waters. Highest overwinter mortality rates were recorded for juveniles and not individuals aged 1 or over due to the effect of weight-specific metabolism. However, a sensitivity analysis of the model suggests that mortality rates are more sensitive to changes in copepod abundance in the build up to overwintering rather than temperature during overwintering. Further, projections show that temperature rises are negated by increases in large, but not small copepods. The conclusion is that food-driven size-selective starvation mortality contributed to the northwestern North Sea stock decline and that indirect food web effects of climate change are greater than direct physiological effects on sandeels.

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Section: Introductionmentioning

confidence: 99%

Exploring the Influence of Food and Temperature on North Sea Sandeels Using a New Dynamic Energy Budget Model

et al. 2018

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“…Energy reserves and growth-Trade-off theory suggests that resources are shifted among life history components based on need when resources are limited (Gadgil and Basert 1970;Charnov and Krebs 1973;Stearns 1992). Our study shows that when internal resource budgets are exceeded, ectotherms may increase intake to supplement growing needs (MacKay 1985; Kooka et al 2009). Further, this supplementation may result in a resource surplus that the body can redistribute to growth or potentially other life history components.…”

Section: Discussionmentioning

confidence: 85%

Life history trade-offs in ectotherms impart a pseudo-hormetic response, not hormesis

McCallum

Mary

Trauth

2018

Preprint

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All organisms are faced with survival and fitness challenges. However, differences in how ectotherms and endotherms deal with these challenges causes confusion when theoretical explanations are proposed. Herein, an immunochallenged, immature ectothermic vertebrate increased growth in the face of immunochallenge, reminiscent of up-regulated physiological efficiency termed hormesis. The immunochallenged subjects increased food intake relative to control animals, a largely ignored possibility in previous studies. This likely led to an energy surplus that fueled additional growth. Although there was increased resource demand from the immune response that exceeded internal stores, the acceptably sized food items contained more resources than immunologically-driven demand required. We theorize that because ectotherms lack significant internally-stored resources compared to endotherms, they must feed to fuel increased physiological demand. This can lead to excess resource intake because the minimum acceptably sized prey contains more available resources than upregulation required. This creates a pseudohormetic hormetic response, fueled by excess food intake rather than significant improved physiological efficiency. Further, we speculate that lifespan and/or maturity may interact with resource management ectotherms, though our data are inconclusive on this matter. Ultimately, our data suggest additional growth when ectotherms face stressors is a pseudo-hormetic response stemming from increased food intake instead of upregulated physiological efficiency.

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“…Triglyceride concentrations increased in Wapiti and DS2 sites from August to September, yet remained lowest at DS2, indicating that spottail from this location were not accumulating the same critical triglyceride stores as their upstream counterparts in the lead up to winter. The non‐significant trend of decreasing triglyceride slopes across the sites suggest that the observed increases across months may have been preceding the loss of lipid reserves observed in other species in winter (Biro et al, 2004; Kooka, Yamamura, Ohkubo, & Honda, 2009). The overall trend of lower triglyceride concentrations at DS2 relative to sites receiving no or lesser hydropeaking effects is perhaps the strongest evidence from this study that hydropeaking may interact with shore morphology to act as a chronic stressor.…”

Section: Discussionmentioning

confidence: 88%

Energy stores and mercury concentrations in a common minnow (spottail shiner, Notropis hudsonius) associated with a peaking hydroelectric dam

Green

Jardine

Weber

et al. 2020

River Research & Apps

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Peaking hydroelectric facilities release water from dams to match energy production with demand, often on a daily cycle. These fluctuating flows downstream can exert several potential stressors on organisms that may inhibit their growth, indirectly causing higher contaminant concentrations through reduced growth dilution. We collected spottail shiner (Notropis hudsonius) at two sites upstream and two sites downstream of a peaking hydroelectric dam in east‐central Saskatchewan, Canada, and compared their body condition, triglyceride concentrations, and mercury concentrations. Condition decline was observed in one of two downstream sites from August to September, and the lowest triglyceride concentrations were consistently found downstream of the dam where hydropeaking had the most perceptible effects on the shoreline. Mercury concentrations were significantly greater at both downstream sites relative to upstream. Despite these results, inconsistencies in response parameters across sites and time limited our ability to isolate the effects of hydropeaking as a causative agent and suggest indirect effects such as shifts in algal and macroinvertebrate communities may be responsible for our observations. These results suggest that hydroelectric power generation may indirectly increase mercury concentrations in downstream fish, but more research will be required to determine the specific mechanisms by which this occurs. The results and data also provide useful insights into the physiology of wild spottail shiner populations, which can help to inform the development of these fish as a North American sentinel species.

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Winter energy allocation and deficit of juvenile walleye pollock Theragra chalcogramma in the Doto area, northern Japan

Cited by 14 publications

References 42 publications

Exploring the Influence of Food and Temperature on North Sea Sandeels Using a New Dynamic Energy Budget Model

Exploring the Influence of Food and Temperature on North Sea Sandeels Using a New Dynamic Energy Budget Model

Life history trade-offs in ectotherms impart a pseudo-hormetic response, not hormesis

Energy stores and mercury concentrations in a common minnow (spottail shiner, Notropis hudsonius) associated with a peaking hydroelectric dam

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