Spatio-temporal controls of C-N-P dynamics across headwater catchments of a temperate agricultural region from public data analysis - l'unam - université nantes angers le mans Accéder directement au contenu
Article Dans Une Revue Hydrology and Earth System Sciences Année : 2021

Spatio-temporal controls of C-N-P dynamics across headwater catchments of a temperate agricultural region from public data analysis

Résumé

Characterizing and understanding spatial variability in water quality for a variety of chemical elements is an issue for present and future water resource management. However, most studies of spatial variability in water quality focus on a single element and rarely consider headwater catchments. Moreover, they assess few catchments and focus on annual means without considering seasonal variations. To overcome these limitations, we studied spatial variability and seasonal variation in dissolved C, N, and P concentrations at the scale of an intensively farmed region of France (Brittany). We analyzed 185 headwater catchments (from 5–179 km2) for which 10-year time series of monthly concentrations and daily stream flow were available from public databases. We calculated interannual loads, concentration percentiles, and seasonal metrics for each element to assess their spatial patterns and correlations. We then performed rank correlation analyses between water quality, human pressures, and soil and climate features. Results show that nitrate (NO3) concentrations increased with increasing agricultural pressures and base flow contribution; dissolved organic carbon (DOC) concentrations decreased with increasing rainfall, base flow contribution, and topography; and soluble reactive phosphorus (SRP) concentrations showed weaker positive correlations with diffuse and point sources, rainfall and topography. An opposite pattern was found between DOC and NO3: spatially, between their median concentrations, and temporally, according to their seasonal cycles. The annual maximum NO3 concentration was in-phase with maximum flow when the base flow index was low, but this synchrony disappeared when flow flashiness was lower. The annual maximum SRP concentration occurred during the low-flow period in nearly all catchments. The approach shows that despite the relatively low frequency of public water quality data, such databases can provide consistent pictures of the spatio-temporal variability of water quality and of its drivers as soon as they contain a large number of catchments to compare and a sufficient length of concentration time series.

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Hydrologie
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hal-03266520 , version 1 (19-05-2022)

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Stella Guillemot, Ophélie Fovet, Chantal Gascuel, Gérard Gruau, Antoine Casquin, et al.. Spatio-temporal controls of C-N-P dynamics across headwater catchments of a temperate agricultural region from public data analysis. Hydrology and Earth System Sciences, 2021, 25 (5), pp.2491-2511. ⟨10.5194/hess-25-2491-2021⟩. ⟨hal-03266520⟩
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