Variability of the partial pressure of CO<sub>2</sub> on a daily-to-seasonal time scale in a shallow coastal system affected by intensive aquaculture activities (Bay of Cadiz, SW Iberian Peninsula)期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Variability of the partial pressure of CO₂ on a daily-to-seasonal time scale in a shallow coastal system affected by intensive aquaculture activities (Bay of Cadiz, SW Iberian Peninsula)

Authors:	Mercedes de la Paz Abelardo Gmez-Parra Jesús Forja

Institution:	^aDepartamento de Química-Física, Facultad de Ciencias del Mar y Ambientales, Universidad de Cádiz, Campus Río San Pedro s/n, Puerto Real (Cádiz) 11510, Spain

Abstract:	The present study describes the temporal variability of the water fCO₂ as well as the different driving forces controlling this variability, on time scales from daily to seasonal, in the Rio San Pedro, a tidal creek located in a salt marsh area in the Bay of Cadiz (SW Iberian Peninsula). This shallow tidal creek system is affected by effluents of organic matter and nutrients from the surrounding marine fish farms. Continuous pCO₂, salinity and temperature were recorded for four periods of approximately one month, between February and September in 2004.Major processes controlling the CO₂ variability are related to three different time scales. Daily variations in fCO₂ are controlled by tidal advection and mixing of the water from within the creek and the seawater that enters from the Bay of Cadiz. Significant cyclical variations of the fCO₂ have been observed with the maximum values occurring at low tide. On a fortnightly time scale, the amplitude of the daily variability of fCO₂ is modulated by the variations in the residence time of the water within the creek, which are related to the spring–neap tide sequence.On a third time scale, high seasonal variability is observed for the temperature, salinity and fCO₂. Maximum and minimum values for fCO₂ were 380 µatm and 3760 µatm for February and July respectively. Data suggest that seasonal variability is related to the seasonal variability in discharges from the fish farm and to the increase with temperature of organic matter respiratory processes in the tidal creek. The fCO₂ values observed are in the same range as several highly polluted European estuaries or waters surrounding mangrove forests. From the air–water CO₂ flux computed, it can be concluded that the Rio San Pedro acts as a source of CO₂ to the atmosphere throughout the year, with the summer accounting for the higher average monthly flux.

Keywords:	Carbon dioxide Salt marshes Seasonal variations Air– water exchange Aquaculture Bay of Cadiz
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