A novel marine mesocosm facility to study global warming, water quality, and ocean acidification. - National Genomics Data Center (CNCB-NGDC)

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A novel marine mesocosm facility to study global warming, water quality, and ocean acidification.

Gustavo Duarte, Emiliano N Calderon, Cristiano M Pereira, Laura F B Marangoni, Henrique F Santos, Raquel S Peixoto, Adalto Bianchini, Clovis B Castro

Author Information

Gustavo Duarte: Instituto Coral Vivo Rio de Janeiro Brazil ; Museu Nacional Universidade Federal do Rio de Janeiro Rio de Janeiro Brazil.
Emiliano N Calderon: Instituto Coral Vivo Rio de Janeiro Brazil.
Cristiano M Pereira: Instituto Coral Vivo Rio de Janeiro Brazil.
Laura F B Marangoni: Instituto Coral Vivo Rio de Janeiro Brazil ; Pós-Graduação em Oceanografia Biológica Instituto de Oceanografia Universidade Federal do Rio Grande Rio Grande Brazil.
Henrique F Santos: Instituto Coral Vivo Rio de Janeiro Brazil ; Instituto de Microbiologia Paulo de Góes UFRJ Rio de Janeiro Brazil.
Raquel S Peixoto: Instituto Coral Vivo Rio de Janeiro Brazil ; Instituto de Microbiologia Paulo de Góes UFRJ Rio de Janeiro Brazil.
Adalto Bianchini: Instituto Coral Vivo Rio de Janeiro Brazil ; Instituto de Ciências Biológicas Universidade Federal do Rio Grande Rio Grande Brazil.
Clovis B Castro: Instituto Coral Vivo Rio de Janeiro Brazil ; Museu Nacional Universidade Federal do Rio de Janeiro Rio de Janeiro Brazil.

PMID: 26668722 DOI: 10.1002/ece3.1670

We describe a completely randomizable flow-through outdoor mesocosm for climate change and ecotoxicology studies that was built with inexpensive materials. The 16 raceway tanks allow up to 6× water renewal per hour, avoiding changes in natural abiotic seawater conditions. We use an open-source hardware board (Arduino) that was adapted to control heaters and an innovative CO 2 injection system. This system reduced seawater pH up to -0.9 units and increased temperature up to +6°C in three treatments and a control. Treatments can be continuously compared with the control and vary according to diel fluctuations, thus following the diel range observed in the sea. The mesocosm facility also includes an integrated secondary system of 48 aquaria for ecotoxicology studies. We validated the reproducibility and relevance of our experimental system by analyzing the variation of the total DNA of the microbial community extracted from corals in three elevated temperature scenarios during a 40-day experiment. We also present data from temperature, acidification, and copper contamination trials, which allowed continuous, reliable, and consistent treatment manipulations.

Experimental biology flow‐through system marine mesocosm open‐source board control system pCO2 reactor realism stress physiology

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Journal Article

A low-cost, accessible, and high-performing Arduino-based seawater pH control system for biological applications.A novel marine mesocosm facility to study global warming, water quality, and ocean acidification.A transportable temperature and heatwave control device (TENTACLE) for laboratory and field simulations of different climate change scenarios in aquatic micro- and mesocosms.Adaptable mesocosm facility to study oil spill impacts on corals.Seagrass can mitigate negative ocean acidification effects on calcifying algae.The Western South Atlantic Ocean in a High-CO2 World: Current Measurement Capabilities and Perspectives.Marine mesocosm system: A reliable tool for testing bioaccumulation and effects of seawater enrichment with dissolved iron in reef organisms.Elevated Temperature and Exposure to Copper Leads to Changes in the Antioxidant Defense System of the Reef-Building Coral .