Mesozooplankton carbon requirement in the southern Adriatic Sea: vertical distribution, diel and seasonal variability, relation to particle flux

Minutoli, Roberta; Granata, Antonia; Brugnano, Cinzia; Zagami, Giacomo; Guglielmo, Letterio

doi:10.3354/meps10562

Cited by 9 publications

(2 citation statements)

References 58 publications

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“…Our results show that in the Adriatic and Ionian Seas, the highest abundances occur in spring (up to > 5000 ind. m −2 d −1 in March'98) with lower values in winter, as also previously reported by Minutoli et al (2014) comparing zooplankton abundance between November and April in the southern Adriatic Sea. Inputs of TN and nutrient availability are dependent upon circulation dynamics and can influence the primary production rates of phytoplankton, and hence zooplankton assemblages.…”

Section: Temporal Zooplankton Dynamicssupporting

confidence: 85%

Deep-water zooplankton in the Mediterranean Sea: Results from a continuous, synchronous sampling over different regions using sediment traps

Danovaro

Carugati

Boldrin

et al. 2017

Deep Sea Research Part I: Oceanographic Research Papers

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Section: Temporal Zooplankton Dynamicssupporting

confidence: 85%

Deep-water zooplankton in the Mediterranean Sea: Results from a continuous, synchronous sampling over different regions using sediment traps

Danovaro

Carugati

Boldrin

et al. 2017

Deep Sea Research Part I: Oceanographic Research Papers

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“…Foram avaliadas as associações de exposição (fase lunar, local de coleta e esquema de randomização dos tratamentos) baseada nos dados de captura através de gráficos NMDS, teste PERMANOVA e tabelas de contingência de Chi-quadrado. Os táxons mais abundantes nas capturas foram dois gêneros de copépodes Calanoida (Acar- A biomassa do plâncton marinho é a chave, em termos de magnitude, para o entendimento de vários processos ecológicos e oceanográficos pois dela podemos estabelecer características particulares das comunidades como por exemplo: as taxas de mortalidade, as taxas fisiológicas de respiração e exsudados bioquímicos, fluxo de carbono, fluxo de matéria orgânica e fluxo de energia ao longo da cadeia trófica (BELGRANO et al, 2005;CARLOTTI et al, 2008;MINUTOLI et al, 2014).…”

Section: Introductionunclassified

Deslocamento Seletivo Induzido do Zooplâncton Marinho em Resposta a Percepção Espectral da Luz Visível

Baldasso¹

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tia sp e Temora sp) seguidos pela família Podonidae e Brachyura. Demonstramos que os organismos capturados do zooplâncton marinho expressaram seleção espectral induzidos pela fototaxia positiva. O tratamento luminoso verde exerceu maior atração nos organismos em detrimento ao tratamento luminoso vermelho. A influência das fases lunares ou dos esquemas de randomização dos tratamentos luminosos dependem da sensibilidade espectral de cada táxon. Porém local não implicou em diferenças entre as coletas. Estas particularidades da fototaxia positiva seletiva podem explicar a variação vertical da biomassa do zooplâncton marinho na coluna d'água inclusive no entendimento da MVD. Palavras-chave: Fototaxia positiva seletiva. qualidade espectral da luz. migração vertical diurna. armadilha de luz. AbstractThe distribution of plankton biomass is the key for understanding many processes including diel vertical migration (DVM). Understand the positive phototaxis, as responsible for this distribution, with a focus on spectral quality of light is a vast field to be explored. We investigate the spectral light perception of the marine mesozooplankton through quantification of catches in a new art with light trap. These traps were tested with light treatments in red, green, blue and white. They were anchored in the Flamengo and Ubatuba bay (Ubatuba-SP) in late summer and autumn of 2015 during the full moon and new moon on three consecutive nights. Exposure associations were evaluated (lunar phase, site and treatment randomization scheme) based on the data capture through NMDS graphics, PERMANOVA test and Chi-square contingency tables. Most abundant taxa catched were two kinds of copepods Calanoida (Acartia sp and Temora sp) followed by Podonidae and Brachyura. We have demonstrated that the captured marine zooplankton showed spectral selection induced by positive phototaxis. The green light treatment exerted biggest attraction in organisms over the red light treatment. The influence of lunar phases or randomization schemes of bright treatments depend on the spectral sensitivity of each taxon. But location did not result in differences between collections. These specifics of selective phototaxis may explain the vertical variation of marine zooplankton biomass in water column including the understanding of DVM. Keywords: Selective positive phototaxis. spectral quality of light. diel vertical migration. light trap.

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Zooplankton electron transport system activity and biomass in the western Ross Sea (Antarctica) during austral summer 2014

et al. 2016

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Mesozooplankton carbon requirement in the southern Adriatic Sea: vertical distribution, diel and seasonal variability, relation to particle flux

Cited by 9 publications

References 58 publications

Deep-water zooplankton in the Mediterranean Sea: Results from a continuous, synchronous sampling over different regions using sediment traps

Deep-water zooplankton in the Mediterranean Sea: Results from a continuous, synchronous sampling over different regions using sediment traps

Deslocamento Seletivo Induzido do Zooplâncton Marinho em Resposta a Percepção Espectral da Luz Visível

Zooplankton electron transport system activity and biomass in the western Ross Sea (Antarctica) during austral summer 2014

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