Inferring collective behaviour from a fossilized fish shoal

Mizumoto, Nobuaki; Miyata, Shinya; Pratt, Stephen C.

doi:10.1098/rspb.2019.0891

Cited by 12 publications

(6 citation statements)

References 44 publications

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“…There is fossil evidence from freshwater deposits that schooling has existed as a fish behavior since, at least, 30-40 Ma earlier than when extreme gigantism arose in rorqual whales (18,19). The transition to the age of giants was coincident with changes in oceanographic processes that encouraged upwelling and the formation of dense swarms of zooplankton (19).…”

Section: Significancementioning

confidence: 99%

Predator-informed looming stimulus experiments reveal how large filter feeding whales capture highly maneuverable forage fish

Cade

Carey

Domenici

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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The unique engulfment filtration strategy of microphagous rorqual whales has evolved relatively recently (<5 Ma) and exploits extreme predator/prey size ratios to overcome the maneuverability advantages of swarms of small prey, such as krill. Forage fish, in contrast, have been engaged in evolutionary arms races with their predators for more than 100 million years and have performance capabilities that suggest they should easily evade whale-sized predators, yet they are regularly hunted by some species of rorqual whales. To explore this phenomenon, we determined, in a laboratory setting, when individual anchovies initiated escape from virtually approaching whales, then used these results along with in situ humpback whale attack data to model how predator speed and engulfment timing affected capture rates. Anchovies were found to respond to approaching visual looming stimuli at expansion rates that give ample chance to escape from a sea lion-sized predator, but humpback whales could capture as much as 30–60% of a school at once because the increase in their apparent (visual) size does not cross their prey’s response threshold until after rapid jaw expansion. Humpback whales are, thus, incentivized to delay engulfment until they are very close to a prey school, even if this results in higher hydrodynamic drag. This potential exaptation of a microphagous filter feeding strategy for fish foraging enables humpback whales to achieve 7× the energetic efficiency (per lunge) of krill foraging, allowing for flexible foraging strategies that may underlie their ecological success in fluctuating oceanic conditions.

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Section: Significancementioning

confidence: 99%

Predator-informed looming stimulus experiments reveal how large filter feeding whales capture highly maneuverable forage fish

Cade

Carey

Domenici

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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“…Tunstrøm et al [18] performed a systematic analysis of the emergent states of shoaling fish via order parameters at fine temporal scale; the decoupling of social and boundary interactions, and bursting and coasting movements, were addressed in [19,20]; and Heras et al [21] used artificial neural networks to infer interaction rules, including work to understand which independent variables are most important in the determination of such rules. The ambition of recent work has even extended to inference of repulsion and attraction behaviour in ancient, and extinct, species through the structure of fossilized fish shoals [22]. A number of studies over the last decade have also sought to construct collective motion models informed by, or derived directly as part of, the process of estimating rules of interaction [19,20,[23][24][25].…”

Section: Introductionmentioning

confidence: 99%

A statistical method for identifying different rules of interaction between individuals in moving animal groups

Schaerf

Herbert‐Read

Ward

2021

J. R. Soc. Interface.

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The emergent patterns of collective motion are thought to arise from application of individual-level rules that govern how individuals adjust their velocity as a function of the relative position and behaviours of their neighbours. Empirical studies have sought to determine such rules of interaction applied by ‘average’ individuals by aggregating data from multiple individuals across multiple trajectory sets. In reality, some individuals within a group may interact differently from others, and such individual differences can have an effect on overall group movement. However, comparisons of rules of interaction used by individuals in different contexts have been largely qualitative. Here we introduce a set of randomization methods designed to determine statistical differences in the rules of interaction between individuals. We apply these methods to a case study of leaders and followers in pairs of freely exploring eastern mosquitofish ( Gambusia holbrooki ). We find that each of the randomization methods is reliable in terms of: repeatability of p -values, consistency in identification of significant differences and similarity between distributions of randomization-based test statistics. We observe convergence of the distributions of randomization-based test statistics across repeat calculations, and resolution of any ambiguities regarding significant differences as the number of randomization iterations increases.

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“…2009; Mizumoto et al . 2019; Carnevale & Bannikov 2020), detailed records of specific larval characters, such as pigmentation patterns, are rare. In fact, we are only aware of a single publication describing fossil larval pigmentations (Marramà & Carnevale 2015, fig.…”

Section: Discussionmentioning

confidence: 99%

Crypsis in the pelagic realm: evidence from exceptionally preserved fossil fish larvae from the Eocene Stolleklint Clay of Denmark

et al. 2021

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Marine deposits of earliest Eocene age in northern Jutland, Denmark, are renowned for yielding diverse teleost assemblages that have proved central for enhancing our understanding of the early evolution of many extant actinopterygian clades. In this study, we investigate diminutive larval fish fossils from the Stolleklint Clay, Ølst Formation, that retain multiple soft‐tissue features preserved as distinct dark‐coloured stains. To examine the elemental and molecular composition of these soft parts, we employed a combination of time‐of‐flight secondary ion mass spectrometry (ToF‐SIMS), scanning electron microscopy (SEM) and energy‐dispersive x‐ray spectroscopy (EDS). Our analyses revealed that the preserved structures contain chemically identifiable eumelanin intimately associated with densely aggregated microbodies that are morphologically consistent with melanosome organelles. Thus, we conclude that the carbonaceous structures represent traces of originally melanized body parts, including the eyes and peritoneum. Comparable pigmentation patterns are seen in many extant teleost larvae that use semi‐transparency as a means of camouflage in pelagic environments, to suggest a similar visual appearance of the Stolleklint Clay fish fossils. This in turn suggests that adaptations for concealment and UV‐protection had already evolved by the beginning of the Eocene, notably during a time interval characterized by an extreme greenhouse climate, when the global fish fauna become increasingly modern in composition.

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Inferring collective behaviour from a fossilized fish shoal

Cited by 12 publications

References 44 publications

Predator-informed looming stimulus experiments reveal how large filter feeding whales capture highly maneuverable forage fish

Predator-informed looming stimulus experiments reveal how large filter feeding whales capture highly maneuverable forage fish

A statistical method for identifying different rules of interaction between individuals in moving animal groups

Crypsis in the pelagic realm: evidence from exceptionally preserved fossil fish larvae from the Eocene Stolleklint Clay of Denmark

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