Abstract
The temporal variability of particulate (POC) and dissolved (DOC) organic carbon concentrations was analyzed in the Enxoé temporary river, southern Portugal, between September, 2010 and August, 2013. The overall aim was to study the variability of those elements during storm events, and determine their origin and the main transfer mechanisms to the river. Twenty-one flood events were observed. An empirical model was used to describe changes in solute concentrations, and the magnitude and rotational patterns of the hysteretic loops during flood events. POC and DOC concentrations varied between 0.49–88.93 and 0.25–25.75 mg L−1, respectively. POC and DOC annual yields varied between 0.06–2.15 and 0.03–1.47 t km−2, respectively. Flood events had greater effect in POC than in DOC variability. POC had mostly a terrestrial origin, with exports being related to soil erosion and runoff. POC revealed a flushing behavior during the entire monitored period, and clockwise or anticlockwise trajectory loops whenever the predominant origin of the exports was in river bed deposits or arable lands, respectively. DOC had also a terrestrial origin, but it revealed a contrasting dilution behavior and, in general, anticlockwise hysteresis loops. DOC showed a delay in the arrival of solutes to the river, consistent with mass flow through subsurface flow. DOC exports were thus associated with soil weathering and crop mineralization. This work highlights the main processes involved in POC and DOC loads in a temporary river during flood events, with a precise quantification of those elements.
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References
Alexander RB, Slack J, Ludtke AS, Fitzgerald KK, Schertz TL (1996) Data from selected US geological survey national stream water-quality monitoring networks. Water Resour Res 34:2401–2405
APHA (1998) Standard methods for the examination of water and wastewater. Prepared and published jointly by American Public Health Association, American Water Works Association and Water Environment Federation, Washington DC
Asselman NEM (1999) Suspended sediment dynamics in a large drainage basin: the River Rhine. Hydrol Process 13:1437–1450
Bowes MJ, House WA, Hodgkinson RA, Leach DV (2005) Phosphorus-discharge hysteresis during storm events along a river catchment: the River Swale, UK. Water Res 39:751–762
Butturini A, Gallart F, Latron J, Vazquez E, Sabater F (2006) Cross-site comparison of variability of DOC and nitrate C–Q hysteresis during the autumn–winter period in three Mediterranean headwater streams: a synthetic approach. Biogeochemistry 77:327–349
Butturini A, Alvarez M, Bernal S, Vazquez E, Sabater F (2008) Diversity and temporal sequences of forms of DOC and NO3−discharge responses in an intermittent stream: predictable or random succession? J Geophys Res 113:G03016. doi:10.1029/2008JG000721
Cerro I, Sanchez-Perez JM, Ruiz-Romera E, Antigüedad I (2013) Variability of particulate (SS, POC) and dissolved (DOC, NO3) matter during storm events in the Alegria agricultural watershed. Hydrol Process. doi:10.1002/hyp.9850
Evans C, Davies TD (1998) Causes of concentration/discharge relationship hysteresis and its potential as tool for analysis of episode hydrochemistry. Water Resour Res 34:129–137
Hall FR (1970) Dissolved solids-discharge relationships: 1. Mixing models. Water Resour Res 6:845–850. doi:10.1029/WR006i003p00845
Hélie JF, Hillaire-Marcel C (2006) Sources of particulate and dissolved organic carbon in the St. Lawrence River: isotopic approach. Hydrol Process 20:1945–1959
Hope D, Billett MF, Milne R, Brown TAW (1997) Exports of organic carbon in British rivers. Hydrol Process 11:325–344
House WA, Warwick MS (1998) Hysteresis of the solute concentration/discharge relationship in rivers during storms. Water Resour 32:2279–2290
Instituto da Água (2008) Poluição provocada por nitratos de origem agrícola. Relatório (2004–2007). Publicação conjunta do MAOTDR e MADRP, Lisboa, Portugal
Jung BJ, Lee HJ, Jeong JJ, Owen J, Kim B, Meusburger K, Alewell C, Gebauer G, Shope C, Park JH (2012) Storm pulses and varying sources of hydrologic carbon export from a mountainous watershed. J Hydrol 440–441:90–101
Lillebø AI, Morais M, Guilherme P, Fonseca R, Serafim A, Neves R (2007) Nutrient dynamics in Mediterranean temporary streams: a case study in Pardiela catchment (Degebe River, Portugal). Limnologica 37:337–348
Lloret E, Dessert C, Pastor L, Lajeunesse E, Crispi O, Gaillardet J, Benedetti MF (2013) Dynamic of particulate and dissolved organic carbon in small volcanic mountainous tropical watersheds. Chem Geol 351:229–244
Lu XX, Li S, He M, Zhou Y, Li L, Ziegler AD (2012) Organic carbon fluxes from the upper Yangtze basin: an example of the Longchuanjian River, China. Hydrol Process 26:1604–1616
Moreira-Turcq P, Seyler P, Guyot JL, Etcheber H (2003) Exportation of organic carbon from the Amazon River and its main tributaries. Hydrol Process 17:1329–1344
Némery J, Mano V, Coynel A, Etcheber H, Moatar F, Maybeck M, Belleudy P, Poirel A (2013) Carbon and suspended sediment transport in an impounded alpine river (Isère, France). Hydrol Process 27:2498–2508
Oeurng C, Sauvage S, Coynel A, Maneux E, Etcheber H, Sánchez-Pérez JM (2011) Fluvial transport of suspended sediment and organic carbon during flood events in a large agricultural catchment in southwest France. Hydrol Process 25:2365–2378
Oh NH, Pellerin BA, Bachand PAM, Hernes PJ, Bachand SM, Ohara N, Kavvas ML, Bergamaschi BA, Horwath WR (2013) The role of irrigation runoff and winter rainfall on dissolved organic carbon loads in an agricultural watershed. Agric Ecosyst Environ 179:1–10
Ramos TB, Gonçalves MC, Branco MA, Brito D, Rodrigues S, Sánchez-Pérez JM, Sauvage S, Prazeres A, Martins JC, Fernandes ML, Pires FP (2014) Sediment and nutriente dynamics during storm events in the Enxoé temporary river, Southern Portugal. Catena (under review)
Raymond PA, Bauer JE (2001) Riverine export of aged terrestrial organic matter to the North Atlantic Ocean. Nature 409:497–500
Strohmeier S, Knorr KH, Reichert M, Frei S, Fleckenstein JH, Peiffer S, Matzner E (2013) Concentrations and fluxes of dissolved organic carbon in runoff from a forested catchment: insights from high frequency measurements. Biogeosci Disc 10:905–916
Tzoraki O, Nikolaidis NP (2007) A generalized framework for modeling the hydrologic and biochemical response of a Mediterranean temporary river basin. J Hydrol 346:112–121
Veum KS, Goyne KW, Motavalli PP, Udawatta RP (2009) Runoff and dissolved organic carbon loss from a paired-watershed study of three adjacent agricultural watersheds. Agric Ecosyst Environ 130:115–122
Veyssy E, Etcheber H, Lin RG, Buat-Menard P, Maneux E (1999) Seasonal variation and origin of particulate organic carbon in the lower Garonne River at La Reole (Southwestern France). Hydrobiologia 391:113–126
Worrall F, Swank WT, Burt T (2005) Fluxes of inorganic carbon from two forested catchments in the Appalachian Mountains. Hydrol Process 19:3021–3035
Worrall F, Davies H, Bhogal A, Lilly A, Evans M, Turner K, Burt T, Barraclough D, Smith P, Merrington G (2012) The flux of DOC from the UK–Predicting the role of soils, land use and net watershed losses. J Hydrol 448–449:149–160
Zhu Q, Schmidt JP, Bryant RB (2012) Hot moments and hot spots of nutrient losses from a mixed land use watershed. J Hydrol 414–415:393–404
Acknowledgments
This research was performed within the framework of the AGUAFLASH project (SOE1/P2/F146, EU Interreg SUDOE IVB program, http://www.aguaflash-sudoe.eu), and the EUTROPHOS project (PTDC/AGR-AAM/098100/2008, Fundação para a Ciência e a Tecnologia).
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Ramos, T.B., Rodrigues, S., Branco, M.A. et al. Temporal variability of soil organic carbon transport in the Enxoé agricultural watershed. Environ Earth Sci 73, 6663–6676 (2015). https://doi.org/10.1007/s12665-014-3888-z
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DOI: https://doi.org/10.1007/s12665-014-3888-z