Use este identificador para citar ou linkar para este item: http://repositorio.ufc.br/handle/riufc/67805
Tipo: Artigo de Periódico
Título: Eutrophication amplifies the diel variability of carbonate chemistry in an equatorial, semi-arid, and negative estuary
Autor(es): Cotovicz Júnior, Luiz Carlos
Marins, Rozane Valente
Silva, Agda Raquel Facundo da
Palavras-chave: Climate change;Coastal eutrophication;Coastal acidification;Mudança climática;Costal - Eutrophication;Costal - Acidificação
Data do documento: 2022
Instituição/Editor/Publicador: Frontiers In Marine Science
Citação: COTOVICZ JJúnior, Luiz Carlos; MARINS, Rozane Valente; SILVA, Agda Raquel Facundo da. Eutrophication amplifies the diel variability of carbonate chemistry in an equatorial, semi-arid, and negative. Frontiers In Marine Science, Switzerland, v. 9, p. 767632, 2022.
Abstract: This study presents high-resolution data on diel variations of carbonate chemistry in a semi-arid estuary (Jaguaribe River) in NE Brazil, which has witnessed decreasing annual rainfall and freshwater inputs due to climate change and river damming. In addition, the estuary has been suffering with increasing discharges from shrimp farm and urban effluents. We monitored surface water and atmospheric CO2 partial pressure (pCO2), temperature, salinity, and wind speed with continuous real-time measurements during two eulerian surveys in October 2017 (33 h) and September 2018 (44 h), during spring tides in the dry season. Additionally, pH, total alkalinity (TA), dissolved inorganic carbon (DIC), carbonate (CO3 2−), and saturation state of calcite ( cal) and aragonite ( ara) were monitored hourly. Higher salinity (>38) during ebb tides confirmed the hypersalinity and negative estuarine circulation. TA and DIC concentrations in the estuary were higher than in the adjacent coastal ocean due to evaporation, showing positive correlation with salinity and negative correlation with tidal height. Measured TA and DIC concentrations were slightly higher than those calculated by the conservative evaporation model, suggesting their production in the estuary by aerobic and anaerobic processes. CO3 2−, cal, and ara showed a clear semi-diurnal (tidal-driven) and diel (24 h; biological-driven) patterns: lowest values occurred at flood tide during night-time (respectively, 185 µmol kg−1 , 4.3 and 2.8), whereas highest occurred during ebb tide and daytime (respectively, 251 µmol kg−1 , 5.7 and 3.8). DIC/TA ratios were higher at night-time supporting a diel control (linked to solar irradiance) of the carbonate buffering capacity. pCO2 was oversaturated comparing to the atmosphere (512–860 µatm) and the estuary was a source of CO2, with fluxes ranging from 2.2 to 200.0 mmol C m−2 d −1 (51.9 ± 26.7 mmol C m−2 d −1 ), which are higher than emissions normally found in low-inflow, marinedominated estuaries. The diel variability of DIC indicated a net heterotrophic metabolism averaging −5.17 ± 7.39 mmol C m−2 h −1 . Eutrophication amplifies the diel variability of the CO2 system generating large differences between daytime and night-time. The results highlight the importance of considering diel variability when estimating CO2 fluxes and carbonate chemistry in eutrophic, semi-arid, and tidally dominated estuaries under rapid environmental changes, and may represent future conditions in estuaries worldwide experiencing warming, increasing aridity and eutrophication.
URI: http://www.repositorio.ufc.br/handle/riufc/67805
ISSN: 2014-9999
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