Zebrafish learn to forage in the dark

Carrillo, Andres; McHenry, Matthew J.

doi:10.1242/jeb.128918

Cited by 46 publications

(33 citation statements)

References 38 publications

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“…The fish fed from 7 to 32 dpf under constant light reached 6 mm, suggesting extremely unfavorable food conditions. There is, however, an agreement that zebrafish larvae cannot feed in the dark, even on prey as small and slow as Paramecium, 27 although Carrillo and McHenry 28 argued to the contrary. The latter authors performed experiments where zebrafish larvae initially fed with rotifers (5-10 dpf) were then forced into dark conditions in 3 mm deep containers and offered Artemia nauplii.…”

Section: Introductionmentioning

confidence: 99%

Contested Paradigm in Raising Zebrafish (Danio rerio)

Dąbrowski

Miller

2018

Zebrafish

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The current body of work on rearing larval/juvenile zebrafish is based on (1) utilization of freshwater and (2) diurnal light/dark cycle, (3) provision of live feed at modest density, and (4) culture in high visibility environment. We challenged these rearing approaches by maintaining zebrafish under constant light for 46-48 days (days postfertilization [dpf]), while securing continuous feeding in high turbidity and saline (1.8-2.1 parts per thousand) environment for the experiment's duration, allowing 24 h feeding/growth of fish from first exogenous feeding to maturation. There was no evidence of negative effects on zebrafish larvae behavior, growth, survival, and life cycle duration at constant illumination when food was continuously available. Zebrafish were stocked at high initial density (100 larvae/L) in a static system and fed high densities of rotifers (Brachionus plicatilis) (200-400/mL) from 6 to 12 dpf. Fish density was then reduced by 50% and two diet treatments, live rotifers or brine shrimp (Artemia) nauplii (10/mL), followed. Fish were reared on these two diets until first maturation. Performance of adult zebrafish fed live rotifer followed by Artemia nauplii diet was the highest recorded in the literature after 42 dpf, 250 ± 29 (males) and 430 ± 5 mg (females). Use of these rearing conditions, during the entire life cycle, until reproduction, resulted in the shortest ever recorded generation time (from egg to egg) of 43-45 dpf and fertilization rate (1 dpf) of 80.3%-94%.

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Section: Introductionmentioning

confidence: 99%

Contested Paradigm in Raising Zebrafish (Danio rerio)

Dąbrowski

Miller

2018

Zebrafish

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“…Fishes make up about 50% of all existing vertebrate species, and most of them have a sensory system called the mechanosensory lateral line that detects flow in the water (Coombs and Van Netten, 2005;Mogdans and Bleckmann, 2012;Coombs et al, 2014;Webb et al, 2014). In fish, the lateral line system is involved in many behaviors such as detection of predators (McHenry et al, 2009;Stewart et al, 2013;Nair et al, 2017) and prey (Schwalbe et al, 2012;Carrillo and McHenry, 2016;Schwalbe et al, 2016), rheotaxis (Patton et al, 2010;Oteiza et al, 2017), obstacle avoidance (Teyke, 1985;Windsor et al, 2008), and local interactions within groups of fish (Partridge and Pitcher, 1980;Coombs and Van Netten, 2005;Chicoli et al, 2014;Coombs et al, 2014). In particular, most fishes and other aquatic amphibians seem to rely on the lateral line system, along with the visual system, for schooling behavior (Pitcher et al, 1976;Partridge and Pitcher, 1980;Mogdans and Bleckmann, 2012;Coombs et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

The effects of lateral line ablation and regeneration in schooling giant danios

Mekdara

Schwalbe

Coughlin

et al. 2018

Journal of Experimental Biology

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Fish use multiple sensory systems, including vision and their lateral line system, to maintain position and speed within a school. Although previous studies have shown that ablating the lateral line alters schooling behavior, no one has examined how the behavior recovers as the sensory system regenerates. We studied how schooling behavior changes in giant danios, , when their lateral line system is chemically ablated and after the sensory hair cells regenerate. We found that fish could school normally immediately after chemical ablation, but that they had trouble schooling 1-2 weeks after the chemical treatment, when the hair cells had fully regenerated. We filmed groups of giant danios with two high-speed cameras and reconstructed the three-dimensional positions of each fish within a group. One fish in the school was treated with gentamycin to ablate all hair cells. Both types of neuromasts (canal and superficial) were completely ablated after treatment, but fully regenerated after 1 week. We quantified the structure of the school using nearest neighbor distance, bearing, elevation, and the cross-correlation of velocity between each pair of fish. Treated fish maintained a normal position within the school immediately after the lateral line ablation, but could not school normally 1 or 2 weeks after treatment, even though the neuromasts had fully regenerated. By 4-8 weeks post-treatment, the treated fish could again school normally. These results demonstrate that the behavioral recovery after lateral line ablation is a longer process than the regeneration of the hair cells themselves.

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“…Entre as medidas bem sucedidas que poderiam ser estimuladas para promover avanços na área, especialmente nos ecossistemas de água doce, que são menos estudados do que os marinhos, estão os experimentos, que permitem detectar as habilidades que as larvas desenvolvem mediante uma pequena mudança em uma variável, que dificilmente seriam percebidas em campo (e.g. Carrillo & McHenry 2016). As modelagens também devem ser estimuladas, pois viabilizam analisar, por exemplo, as probabilidades das desovas de uma determinada espécie ocorrerem em determinados habitats (Schismenou et al 2008), fornecendo uma ampla noção dos possíveis locais de ocorrência dos ovos de uma determinada espécie para gestores e pesquisadores.…”

Section: Discussionunclassified

Ecologia De Ictioplâncton: Uma Abordagem Cienciométrica

2016

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A história inicial de vida dos peixes envolve múltiplos processos e estratégias para garantir a sobrevivência e seu estudo fornece importantes informações sobre o estado de conservação das espécies e dos estoques pesqueiros. Neste estudo foi utilizada uma abordagem cienciométrica para investigar o panorama atual da ecologia do ictioplâncton e avaliar a produção científica global, no período de 1990 a 2015, indexada na base Web of Knowledge, com considerações sobre a posição do Brasil no cenário mundial. Os dados investigados foram referentes ao país de origem, aos tipos de ambiente amostrados (marinho ou água doce) e aos tipos de estudos desenvolvidos (experimental, descritivo, modelagem ou preditivo). Também foram investigadas as denominações atribuídas ao ictioplâncton (larva, juvenil, young of the year, etc.) nos títulos e resumos dos artigos. Foram encontrados 1104 artigos publicados por autores de 66 países, cuja maior parte foi classificada como descritiva e relacionada a ambientes marinhos. O Brasil foi o quarto país mais produtivo, depois dos EUA, Austrália e Canadá. A Suíça se destacou pela publicação de estudos experimentais e a Noruega por desenvolver estudos de modelagem. Os estudos preditivos advieram, principalmente, do Canadá, Austrália e Alemanha. Os temas mais frequentes, em nível global, foram "distribuição" e "estrutura das assembleias", seguidos de alguns classicamente voltados para ecologia e monitoramento dos recursos pesqueiros, como "locais de desova" e "recrutamento". Outros tópicos de ecologia, como "competição", "predação", "impactos antropogênicos" e "invasões biológicas" ficaram entre os menos estudados. Os resultados permitem sugerir desafios para o futuro dessa ciência no mundo: desenvolver trabalhos ecologicamente mais abrangentes, de maneira a testar hipóteses e responder a perguntas que vislumbram problemáticas atuais, amplamente discutidas em outras áreas, e.g. as influências de mudanças globais, ainda pouco abordadas por ictioplanctólogos. No Brasil, as pesquisas poderiam visar o conhecimento acerca dos milhares de espécies de peixes, sobre os quais pouco se sabe a respeito dos requerimentos ambientais durante as fases iniciais de vida, porém sem perder o foco nas questões ecológicas de interesse global. Palavras-chave: coortes jovens; fase larval ; história inicial de vida; ovos e larvas; zooplankton. ABSTRACT-ECOLOGY OF ICHTHYOPLANKTON: A SCIENTOMETRIC APPROACH The early life history of fish involves multiple processes and strategies to ensure the survival, and the knowledge on this field provides important information about the conservation of species and fish stocks. We used a scientometric approach to investigate the current situation of ichthyoplankton ecology and to assess the overall scientific production indexed in the Web of Knowledge databank from 1990 to 2015. We additionally analyzed Brazil's position on the world ranking. The information collected covered the country where the study was developed, the different sampled environments (marine or freshwater), and the ...

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Zebrafish learn to forage in the dark

Cited by 46 publications

References 38 publications

Contested Paradigm in Raising Zebrafish (Danio rerio)

Contested Paradigm in Raising Zebrafish (Danio rerio)

The effects of lateral line ablation and regeneration in schooling giant danios

Ecologia De Ictioplâncton: Uma Abordagem Cienciométrica

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