Assessing the likelihood of catchments across England and Wales meeting 'good ecological status' due to sediment contributions from agricultural sources
In: Environmental science & policy, Band 11, Heft 2, S. 163-170
ISSN: 1462-9011
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In: Environmental science & policy, Band 11, Heft 2, S. 163-170
ISSN: 1462-9011
In: Environmental science and pollution research: ESPR, Band 26, Heft 27, S. 28401-28414
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR
ISSN: 1614-7499
AbstractSediment source fingerprinting using biomarker properties has led to new insights in our understanding of land use contributions to time-integrated suspended sediment samples at catchment scale. A time-integrated mass-flux sampler (TIMS; also known as the 'Phillips' sampler), a cost-effective approach for suspended sediment collection in situ. Such samplers are widely being used to collect sediment samples for source fingerprinting purposes, including studies using biomarkers as opposed to more conventional tracer properties. Here, we assessed the performance of TIMS for collecting representative sediment samples for biomarkers during high discharge events in a small lowland grassland-dominated catchment. Concentrations of long odd-chain n-alkanes (> C23) and both saturated free and bound fatty acids (C14-C32), as well as compound-specific 13C were compared between sediment collected by both TIMS and autosamplers (ISCO). The results showed that concentrations of alkanes, free fatty acids, and bound fatty acids are consistently comparable between TIMS and ISCO suspended sediment samples. Similarly, compound-specific 13C signals were not found to be significantly different in the suspended sediment samples collected using the different samplers. However, different magnitudes of resemblance in biomarker concentrations and compositions between the samples collected using the two sediment collection methods were confirmed by overlapping index and symmetric coordinates-based correlation analysis. Here, the difference is attributed to the contrasting temporal basis of TIMS (time-integrated) vs. ISCO (discrete) samples, as well as potential differences in the particle sizes collected by these different sediment sampling methods. Nevertheless, our findings suggest that TIMS can be used to generate representative biomarker data for suspended sediment samples collected during high discharge events.
In: Environmental science and pollution research: ESPR, Band 28, Heft 29, S. 39432-39450
ISSN: 1614-7499
SSRN
In: Environmental science and pollution research: ESPR, Band 27, Heft 33, S. 42022-42039
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 26, Heft 13, S. 13560-13579
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 26, Heft 22, S. 23206-23206
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 25, Heft 31, S. 30979-30997
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 27, Heft 25, S. 31578-31594
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 25, Heft 18, S. 17620-17633
ISSN: 1614-7499
In: Environmental science and pollution research: ESPR, Band 26, Heft 32, S. 33532-33540
ISSN: 1614-7499
In: STOTEN-D-21-29690
SSRN
In: Environmental science and pollution research: ESPR, Band 25, Heft 34, S. 34426-34437
ISSN: 1614-7499
The Demonstration Test Catchments (DTC) project is a UK Government funded initiative to test the effectiveness of on-farm mitigation measures designed to reduce agricultural pollution without compromising farm productivity. Three distinct catchments in England have been chosen to test the efficacy of mitigation measures on working farms in small tributary sub-catchments equipped with continuous water quality monitoring stations. The Hampshire Avon in the south is a mixed livestock and arable farming catchment, the River Wensum in the east is a lowland catchment with predominantly arable farming and land use in the River Eden catchment in the north-west is predominantly livestock farming. One of the many strengths of the DTC as a national research platform is that it provides the ability to investigate catchment hydrology and biogeochemical response across different landscapes and geoclimatic characteristics, with a range of differing flow behaviours, geochemistries and nutrient chemistries. Although numerous authors present studies of individual catchment responses to storms, no studies exist of multiple catchment responses to the same rainfall event captured with in situ high-resolution nutrient monitoring at a national scale. This paper brings together findings from all three DTC research groups to compare the response of the catchments to a major storm event in April 2012. This was one of the first weather fronts to track across the country following a prolonged drought period affecting much of the UK through 2011–2012, marking an unusual meteorological transition when a rapid shift from drought to flood risk occurred. The effects of the weather front on discharge and water chemistry parameters, including nitrogen species (NO3-N and NH4-N) and phosphorus fractions (total P (TP) and total reactive P (TRP)), measured at a half-hourly time step are examined. When considered in the context of one hydrological year, flow and concentration duration curves reveal that the weather fronts resulted in extreme flow, ...
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