Solute transport dynamics in small, shallow groundwater-dominated agricultural catchments: insights from a high-frequency, multisolute 10 yr-long monitoring study

Aubert, Alice H.; Gascuel‐Odoux, Chantal; Gruau, Gérard; Akkal, N.; Faucheux, M.; Fauvel, Yannick; Grimaldi, C.; Hamon, Yannick; Jaffrézic, Anne; Lecoz-Boutnik, M.; Molénat, Jérôme; Petitjean, Patrice; Ruiz, Laurent; Mérot, Philippe

doi:10.5194/hess-17-1379-2013

Cited by 87 publications

(113 citation statements)

References 46 publications

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“…DOC is also transport rather than supply limited at this site, showing a slight increase in concentration with increasing discharge, and a more pronounced increase in spring which is not associated with a rise in discharge. In fact all three sites -on Chalk, Greensand, and clay -have elevated DOC concentrations in spring, which could arise from production, leaching and export of DOC from catchment soils as soil temperatures rise (Aubert et al, 2013), and/or in-stream production.…”

Section: Seasonal Controls On Nitrate and Doc Exportmentioning

confidence: 99%

“…In addition, there is an increased understanding that establishing the factors that control water-borne carbon fluxes is key to predicting the likely implications of climate change for patterns and magnitude of organic carbon transport through freshwaters (Aitkenhead and McDowell, 2000). Although dissolved organic carbon (DOC) plays a crucial role in stream ecology (influencing processes such as nutrient uptake and the balance between heterotrophy and autotrophy) our understanding of terrestrial-to-aquatic transfers, aquatic processing of DOC, and its character in lowland, agricultural streams is incomplete (Aubert et al, 2013;Stanley et al, 2012;Yates et al, 2016), as much of the effort in this area has been focused o forested catchments, boreal peatlands, and/or upland landscapes with significant wetland cover (Frost et al, 2006;Ågren et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, integrated annual measurements risk masking important seasonal patterns in terrestrial-to-aquatic transfers and export of DOC and nitrate, arising from variations in hydrological pathways throughout the year, such as the interplay between groundwater and shallower lateral flows due to wetting-up of upper soil horizons in response to autumn rain (Prior and Johnes, 2002;Sandford et al, 2013;Outram et al, 2014;Yates and Johnes, 2013). Such intra-annual variations in solute chemistry have been termed the "hydrochemical signature" of the catchment (Aubert et al, 2013). This hydrochemical signature is espe-cially important to consider across an agricultural landscape characterized by a wide range of baseflow index (BFI).…”

Section: Introductionmentioning

confidence: 99%

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Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

Heppell

Binley

Trimmer

et al. 2017

Hydrol. Earth Syst. Sci.

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Abstract. The role that hydrology plays in governing the interactions between dissolved organic carbon (DOC) and nitrogen in rivers draining lowland, agricultural landscapes is currently poorly understood. In light of the potential changes to the production and delivery of DOC and nitrate to rivers arising from climate change and land use management, there is a pressing need to improve our understanding of hydrological controls on DOC and nitrate dynamics in such catchments. We measured DOC and nitrate concentrations in river water of six reaches of the lowland river Hampshire Avon (Wiltshire, southern UK) in order to quantify the relationship between BFI (BFI) and DOC : nitrate molar ratios across contrasting geologies (Chalk, Greensand, and clay). We found a significant positive relationship between nitrate and BFI (p < 0.0001), and a significant negative relationship between DOC and BFI (p < 0.0001), resulting in a non-linear negative correlation between DOC : nitrate molar ratio and BFI. In the Hampshire Avon, headwater reaches which are underlain by clay and characterized by a more flashy hydrological regime are associated with DOC : nitrate ratios > 5 throughout the year, whilst groundwater-dominated reaches underlain by Chalk, with a high BFI have DOC : nitrate ratios in surface waters that are an order of magnitude lower (< 0.5). Our analysis also reveals significant seasonal variations in DOC : nitrate transport and highlights critical periods of nitrate export (e.g. winter in sub-catchments underlain by Chalk and Greensand, and autumn in drained, clay subcatchments) when DOC : nitrate molar ratios are low, suggesting low potential for in-stream uptake of inorganic forms of nitrogen. Consequently, our study emphasizes the tight relationship between DOC and nitrate availability in agricultural catchments, and further reveals that this relationship is controlled to a great extent by the hydrological setting.

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Section: Seasonal Controls On Nitrate and Doc Exportmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

Heppell

Binley

Trimmer

et al. 2017

Hydrol. Earth Syst. Sci.

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“…Previous studies conducted on this site provide evidence for the structuration of the hydrological year into three different periods: period A, where the water table reaches the surface in down-slope wetlands but stays below the surface in the slope; period B, where rainfall intensification is responsible for the rise of water table in the slope which creates a hydrological connection between the slope soils, riparian soils and stream (Fig. 2); and period C, which is characterized by the return of the water table to deep soil horizons, resulting in the progressive drying of wetland soils (Aubert et al, 2013;Humbert et al, 2015;Lambert et al, 2013;Molenat et al, 2008). With the water table rise during period B, the water flow path geometry in riparian wetlands changes from a vertical to horizontal circulation.…”

Section: Study Sitementioning

confidence: 99%

New molecular evidence for surface and sub-surface soil erosion controls on the composition of stream DOM during storm events

et al. 2017

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Abstract. Storm events are responsible for more than 60 % of the export of dissolved organic matter (DOM) from headwater catchments due to an increase in both the discharge and concentration. The latter was attributed to changing water pathways inducing the mobilization of DOM from the surface soil horizons. Recent molecular investigations have challenged this view and hypothesized (i) a contribution of an in-stream partition of organic matter (OM) between eroded particles and the dissolved fraction and (ii) the modification of the composition of soil DOM during storm events. To investigate these assumptions, soil solutions in the macropores, surface runoff and stream outlet were sampled at high frequency during three storm events in the KervidyNaizin catchment, part of the French critical zone observatory AgrHyS. The molecular composition of the DOM was analysed by thermally assisted hydrolysis and methylation (THM) with tetramethylammonium hydroxide (TMAH) coupled to a gas chromatograph and a quadrupole mass spectrometer. These analyses highlighted a modification of the DOM composition in soil solution controlled by the watertable dynamic and pre-event hydrological conditions. These findings fit with the mechanism of colloidal and particulate destabilization in the soil macroporosity. The different behaviour observed for lignins, carbohydrates and fatty acids highlights a potential chemical segregation based on their hydrophobicity. The composition of surface runoff DOM is similar to the DOM composition in soil solution and could be generated by the same mechanism. The DOM composition in both soil solution and surface runoff corresponds to the stream DOM composition observed during storm events. On the basis of these results, modifications of the stream DOM composition during storm events seem to be due to surface and sub-surface soil erosion rather than in-stream production.

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“…The project is focused on multi-scale temporal variation of water and solute transfers under the effects of agriculture and climate. The knowledge produced has improved our understanding of hydrological processes (Aubert et al 2013), but such stations can also be directly useful to comprehend the water security issues of surrounding basins, thus tackling the challenges of both Panta Rhei and PUB (Hrachowitz et al 2013, Montanari et al 2013. …”

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confidence: 99%

Valuing knowledge on temporal dynamics from long-term monitored basins for neighbouring sites

et al. 2015

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Long-term monitored stations are important investments (of time, money and labour) which enable the evaluation of hydrological responses over the years. An example is the Coët-Dan basin near the city of Naizin (ORE AgrHys, Brittany, France) which has been instrumented since 1992 by INRA, www6.inra.fr/ore_agrhys_eng/. The project is focused on multi-scale temporal variation of water and solute transfers under the effects of agriculture and climate. The knowledge produced has improved our understanding of hydrological processes (Aubert et al. 2013), but such stations can also be directly useful to comprehend the water security issues of surrounding basins, thus tackling the challenges of both Panta Rhei and PUB (Hrachowitz et al. 2013, Montanari et al. 2013. GENERALIZING HYDROLOGICAL KNOWLEDGE TO SURROUNDING BASINSWe propose to apply a methodology which enables the transposition of hydrographs measured in gauged stations to ungauged stations. The gauged station is the long-term monitored basin of the Coët-Dan River and is used to simulate the hydrographs of five surrounding basins of the Blavet and the Oust rivers (Fig. 1). The hydrograph transposition follows three main steps (Fig. 2).

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Solute transport dynamics in small, shallow groundwater-dominated agricultural catchments: insights from a high-frequency, multisolute 10 yr-long monitoring study

Cited by 87 publications

References 46 publications

Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

New molecular evidence for surface and sub-surface soil erosion controls on the composition of stream DOM during storm events

Valuing knowledge on temporal dynamics from long-term monitored basins for neighbouring sites

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Solute transport dynamics in small, shallow groundwater-dominated agricultural catchments: insights from a high-frequency, multisolute 10 yr-long monitoring study

Cited by 87 publications

References 46 publications

Hydrological controls on DOC : nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

Hydrological controls on DOC : nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

New molecular evidence for surface and sub-surface soil erosion controls on the composition of stream DOM during storm events

Valuing knowledge on temporal dynamics from long-term monitored basins for neighbouring sites

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Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK

Hydrological controls on DOC  :  nitrate resource stoichiometry in a lowland, agricultural catchment, southern UK