Water table fluctuations in the riparian zone: comparative results from a pan-European experiment

Burt, T. P.; Pinay, Gilles; Matheson, Fleur E.; Haycock, N. E.; Butturini, Andrea; Clément, Jean Christophe; Danielescu, Serban; Dowrick, David J.; Hefting, Mariet M.; Hillbricht-Ilkowska, A.; Maître, V.

doi:10.1016/s0022-1694(02)00102-6

Cited by 144 publications

(136 citation statements)

References 23 publications

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“…The importance of riparian zone hydrology in influencing the extent of denitrification has been emphasised in many studies (e.g. Burt et al 2002;Rassam et al 2006).The classical conceptual model suggests that groundwater travels laterally and interacts with riparian sediments before discharging to the stream. This conceptual model for denitrification implies that a shallow water table intercepts the carbon-rich root zone, thus providing anoxic conditions.…”

Section: Introductionmentioning

confidence: 99%

“…The hydraulic conductivity of the floodplain plays a critical role. Burt et al (2002) reported that soils of medium hydraulic conductivities are most conducive to denitrification. Rassam (2005) conducted numerical modelling for coupled flow and solute transport and showed that soils with medium conductivities that range from 0.1 to 1 m day −1 are the most conducive to denitrification.…”

Section: Introductionmentioning

confidence: 99%

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Development and application of the Riparian Mapping Tool to identify priority rehabilitation areas for nitrogen removal in the Tully - Murray basin, Queensland, Australia

Rassam

Pagendam

2009

Mar. Freshwater Res.

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Abstract. One feature of riparian zones is their ability to significantly reduce the nitrogen loads entering streams by removing nitrate from the groundwater. A novel GIS model was used to prioritise riparian rehabilitation in catchments. It is proposed that high-priority areas are those with a high potential for riparian denitrification and have nearby land uses that generate high nitrogen loads. For this purpose, we defined the Rehabilitation Index, which is the product of two other indices, the Nitrate Removal Index and the Nitrate Interception Index. The latter identifies the nitrate contamination potential for each raster cell in the riparian zone by examining the extent and proximity of agricultural urban land uses. The former is estimated using a conceptual model for surface-groundwater interactions in riparian zones associated with middle-order gaining perennial streams, where nitrate is removed via denitrification when the base flow interacts with the carbon-rich riparian sediments before discharging to the streams. Riparian zones that are relatively low in the landscape, have a flat topography, and have soils of medium hydraulic conductivity are most conducive to denitrification. In the present study, the model was implemented in the Tully-Murray basin, Queensland, Australia, to produce priority riparian rehabilitation area maps.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Development and application of the Riparian Mapping Tool to identify priority rehabilitation areas for nitrogen removal in the Tully - Murray basin, Queensland, Australia

Rassam

Pagendam

2009

Mar. Freshwater Res.

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“…A lo largo de los márgenes del cauce de corrientes fluviales se encuentran franjas angostas de vegetación que pueden definirse como la interfase entre los ecosistemas acuáticos y terrestres (Burt et al, 2002;Granados, Hernández y López, 2006). A este tipo de comunidades vegetales que actúan como ecotonos se les conoce con el término de vegetación ribereña o riparia (Ceccon, 2003).…”

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“…Por ejemplo, estas comunidades vegetales sirven de filtro entre el río y los ambientes adyacentes, lo que impide o retarda el flujo de la escorrentía hacia el cauce, la cual en muchas ocasiones trae consigo agroquímicos, nutrientes (principalmente nitrógeno y fósforo) y productos orgánicos provenientes de las actividades antropogénicas y de los cambios en los usos del suelo (Burt et al, 2002;Carlyle y Hill, 2001;Dhondt, Boeckx, Verdehoest, Hofman y Van Cleemput, 2006;Granados et al, 2006). También, permite amortiguar los procesos de sedimentación de los lechos de los ríos y de erosión en las riberas (González y García, 1998;Pinay y Decamps, 1988;Timoney, Peterson y Wein, 1997), poseen una gran influencia sobre la calidad del agua y del ecosistema fluvial, debido a que la vegetación, principalmente la arbórea, sombrea el cauce del sistema acuático y contribuye al control del nivel de insolación y del régimen de temperaturas de las aguas; además, aumenta la cantidad de oxígeno disuelto, regula la entrada de luz al sistema y retarda el crecimiento de las algas (Ahola, 1990y Dawson y Haslam, 1983, citados por González y García, 1998Granados et al, 2006).…”

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Modificación del índice de calidad de riberas: Inclusión del componente social en la evaluación de la calidad ribereña de la microcuenca del río Burío-Quebrada Seca

Araya-Yannarella

Fernández-Hernández²

2017

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Esta investigación se basó en la comparación de los resultados obtenidos mediante la aplicación del índice de calidad de riberas-QBR (Munné et al., 2003) y el índice de calidad de riberas modificado-QBRm (Araya y Fernández, 2011) en seis zonas de la microcuenca del río Burío y su tributario Quebrada Seca, ubicada en las provincias de Heredia y Alajuela, Costa Rica. El objetivo fue analizar el estado de la vegetación ribereña mediante la modificación del índice original (QBR) con la inclusión del componente social. Los resultados obtenidos de la aplicación del índice QBR fueron de 95 puntos (“muy buena” calidad) en los puntos de muestreo 1 y 2 (zona alta), 40 y 45 puntos (“mala” calidad) en los puntos de muestreo 3 y 4 (zona media), respectivamente y 15 y 10 puntos (“muy mala” calidad) en los puntos de muestreo 5 y 6, respectivamente (zona baja). Los resultados obtenidos a partir de la aplicación del índice QBRm mantienen la misma tendencia y no presentaron diferencias estadísticamente significativas (IC 95% p: 0, 092). El índice QBRm puede ser utilizado para complementar el componente estrictamente biológico del índice QBR y así contribuir a la toma de decisiones relacionadas con el manejo integral de la microcuenca.

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“…Soil in riparian zones tend to have both an overall higher moisture status due to proximity to the channel and a frequent change in redox conditions as a result of seasonal changes in the water table (Burt et al 2002;. Redox sensitive elements such, As, Cr, Cu, Fe, Mn, and U, are of particular interest, as the mobility of these elements within the soil profile are linked to the redox potential of the environment (Borch et al 2010).…”

Section: Geochemistry and Implications For Sediment Fingerprintingmentioning

confidence: 99%

It's sedimentary, my dear Watson : implications of watershed processes on the sediment fingerprinting approach

Koiter¹

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The sediment source fingerprinting approach is based on the assumption that the potential sources of sediment within a watershed can be linked to in-stream sediment by using the inherent physical or biogeochemical characteristics of the sediment (i.e., sediment properties) as fingerprints. At present, one of the main limitations of the sediment source fingerprinting approach is the ability to link sediment back to their sources due to the nonconservative nature of many sediment properties. Ideally, sediment properties do not change as the sediment (i.e., transported unconsolidated soil or rock particles) move through a watershed allowing for a direct comparison between sources and sediment. However, sediment collected downslope or downstream from its source is often found to have a finer grain-size distribution and a higher organic matter content as compared to the source material as the smaller and less dense particles are preferentially mobilized and transported.Accounting for changes in both particle size distribution and organic matter content are important as many fingerprint concentrations are correlated with both properties, but it is unclear as to what is the best approach to account for these changes. In an effort to provide a more reliable and robust link between sources and sediment, a series of experimental and observational studies were conducted to investigate the factors that control particle size and organic matter selectivity and their subsequent effect on a broad suite of geochemical fingerprints. These studies investigated particle selectivity at the landscape scale, represented by a sequence of hillslope, riparian and fluvial environments. Processes within each of these three environments were found to preferentially mobilize and transport fine-grained and organic-rich particles. Many commonly used particle size and organic matter correction ii factors assume that the relation between both particle size and fingerprint concentrations are similar for all fingerprints. However, this research has demonstrated that these relations are fingerprint specific in terms of the magnitude, direction and linearity which suggests that the use of correction factors needs to be given careful consideration. In addition, a watershedscale application of the sediment fingerprinting approach found that the scale of observation and the geomorphic connectivity of the watershed influenced the apportionment results.Overall, this research can be used to guide sampling design and protocols, fingerprint selection, data correction factors and the interpretation of apportionment results.iii

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Water table fluctuations in the riparian zone: comparative results from a pan-European experiment

Cited by 144 publications

References 23 publications

Development and application of the Riparian Mapping Tool to identify priority rehabilitation areas for nitrogen removal in the Tully - Murray basin, Queensland, Australia

Development and application of the Riparian Mapping Tool to identify priority rehabilitation areas for nitrogen removal in the Tully - Murray basin, Queensland, Australia

Modificación del índice de calidad de riberas: Inclusión del componente social en la evaluación de la calidad ribereña de la microcuenca del río Burío-Quebrada Seca

It's sedimentary, my dear Watson : implications of watershed processes on the sediment fingerprinting approach

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