Colin D. Bull scite author profile

Animals can use fat reserves as a source of energy w henever dem and exceeds intake. T he size of this 'insurance* is dep en d en t on a trade-off betw een storage costs and anticipated needs. Previous theoretical and em pirical studies in birds have shown th at fat levels are tailored to short-term needs. How ever, in some situations anim als m ust m atch intake to longer term requirem ents. H ere we develop a m odel of this situation, and com pare it with experim ental d a ta from juvenile A tlantic salm on, which become anorexic and g radually deplete their energy reserves over w inter. Responses to experim entally-accelerated depletion of reserves m atched theoretical pred ictio n s: an elevation of appetite to restore lost reserves was dependent not on cu rren t energy state, but on projected energy state at the end of the w inter. This is the first dem onstration of an adaptive regulation of appetite tailored to long-term requirem ents for an energy insurance ra th e r th an short-term needs.

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The likely suspects framework: the need for a life cycle approach for managing Atlantic salmon (Salmo salar) stocks across multiple scales

Bull

Gregory

Rivot

et al. 2022

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The ongoing declines in Atlantic salmon populations across its range underscore the need for co-ordinated scientific-based knowledge to support management and decisions for their conservation. Current salmon management actions remain largely focused on addressing bottlenecks to production in the freshwater phase of the life-cycle, whereas the continued declines observed in the recent decades are thought to be driven primarily by constraints on the marine phase. The challenges brought by global warming and other emerging stressors require immediate actions, requiring us to re-think the methods behind stock assessment and forge stronger linkages between data, models and policies to promote more effective management actions. We outline a scientific framework that takes a wider ecosystem view, designed to evaluate holistically a suite of indicators and potential drivers of salmon mortality at key phases of the life cycle. The aims of the proposed “Likely Suspects Framework” are to enhance cross-fertilisation of ideas between assessment processes at the stock-complex scale and stock-specific focused management activities, and to develop new decision support tools to improve management efficiencies and scenario testing. Adopting such an approach provides a new way to catalyse the acquisition and deployment of both existing and new data and models that are urgently needed for assisting the conservation and future stewardship of salmon stocks on both sides of the Atlantic.

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All change at the water’s edge: invasion by non-native riparian plants negatively impacts terrestrial invertebrates

et al. 2019

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Riparian zones are complex, dynamic habitats that play a critical role in river ecosystem functioning. Terrestrial invertebrates comprise much of the diversity found in riparian habitats and facilitate the transfer of energy between aquatic and terrestrial systems. However, the consequences for terrestrial invertebrates of invasion of riparian zones by invasive non-native plants (INNP) remain poorly understood. Responses of terrestrial macroinvertebrate morphospecies to invasion by two common INNP, Fallopia japonica (Japanese knotweed) and Impatiens glandulifera (Himalayan balsam) were assessed, relative to local environmental factors. Terrestrial invertebrates were collected from 20 sites on low order streams in June and August alongside data on physical attributes and land use. Greater cover of F. japonica and I. glandulifera cover reduced total invertebrate abundance and morphospecies diversity at the individual sample scale, whilst increasing spatial heterogeneity of invertebrates at the site scale. Impatiens glandulifera reduced morphospecies diversity at the site scale with increasing cover, but this was not observed for F. japonica. INNP affected terrestrial invertebrate morphospecies abundance and diversity, to a greater extent than prevailing environmental conditions. Our findings therefore offer support for managing riparian plant invasions to improve habitat heterogeneity, restore terrestrial invertebrate diversity and repair aquatic-terrestrial linkages.

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Colin D. Bull

Regulation of hyperphagia in response to varying energy deficits in overwintering juvenile Atlantic salmon

Seasonal matching of foraging to anticipated energy requirements in anorexic juvenile salmon

The likely suspects framework: the need for a life cycle approach for managing Atlantic salmon (Salmo salar) stocks across multiple scales

All change at the water’s edge: invasion by non-native riparian plants negatively impacts terrestrial invertebrates

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