Natural humic substances effects on the life history traits of Latonopsis australis SARS (1888) (Cladocera – Crustacea)

•NR treatments: trade-off between survival and reproduction to L. australis.•HA treatments: adverse results among L. australis life history traits analyzed.•NR20 (mgDOCL−1): recommended as supplement to L. australis artificial cultivation. Cultivation medium is one of the first aspects to be conside...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2015-02, Vol.120, p.165-170
Main Authors: Carvalho-Pereira, Ticiana Soares de Andrade de, Santos, Thirza de Santana, Pestana, Edilene M.S., Souza, Fábio Neves, Lage, Vivian Marina Gomes Barbosa, Nunesmaia, Bárbara Janaína Bezerra, Sena, Palloma Thaís Souza, Mariano-Neto, Eduardo, da Silva, Eduardo Mendes
Format: Article
Language:English
Subjects:
Animals
Artificial cultivation
Brazil
Cladocera
Cladocera - drug effects
Cladocera - genetics
Cladocera - physiology
Control equipment
Crustacea
Cultivation
Dissolved organic carbon
Eisenia andrei
Female
Females
Fitness
Genetic Fitness
Humic Substances - toxicity
Hydroxyapatite
Latonopsis australis
Life cycle engineering
Life history traits
Maximization
Population Dynamics
Rivers
SARS
SARS coronavirus
Trade-off
Water Pollutants, Chemical - toxicity
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Summary:•NR treatments: trade-off between survival and reproduction to L. australis.•HA treatments: adverse results among L. australis life history traits analyzed.•NR20 (mgDOCL−1): recommended as supplement to L. australis artificial cultivation. Cultivation medium is one of the first aspects to be considered in zooplankton laboratory cultivation. The use of artificial media does not concern to reproduce natural conditions to the cultivations, which may be achieved by using natural organic compounds like humic substances (HS). This study aimed to evaluate the effects of a concentrate of dissolved organic carbon (DOC) from the Negro River (NR1NR, for Negro River.1) and an extraction of humic acids (HA) from humus produced by Eisenia andrei on the life history traits of laboratory-based Latonopsis australis SARS (1888). A cohort life table approach was used to provide information about the effectiveness of NR and HA as supplements for the artificial cultivation of L. australis. Additionally, we seek to observe a maximization of L. australis artificial cultivation fitness by expanding the range of HS concentrations. The first experiment demonstrated that the females of L. australis reared under NR10 (mgDOCL−1) may have experienced an acceleration of the population life cycle, as the females have proportionally reproduced more and lived shorter than controls. By contrast, the use of the HA did not improve life history traits considered. The expansion of the concentration range (5, 10, 20 and 50mgDOCL−1) corroborated the patterns observed on the first assay. Results for the fitness estimates combined with shorter lifespans than controls demonstrated trade-offs between reproductive output and female longevity reared under NR conditions, with NR20 been suggested as the best L. australis cultivation medium. This response might be associated with hormone-like effects.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2014.06.025