Spatial contributions of diffuse inputs and within-channel processes to the form of stream water phosphorus over storm events

Concentrations of suspended particulate matter (SPM), NO 3-N and P fractions: PO 4-P, dissolved organic P (DOP), particulate P (PP) and bioavailable exchangeable P were examined over 5 storm events in two nested agricultural catchments in NE Scotland: a (51 km 2) catchment and its headwater (4 km 2)...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2008-02, Vol.350 (3), p.203-214
Main Authors: Stutter, M.I., Langan, S.J., Cooper, R.J.
Format: Article
Language:English
Subjects:
agricultural watersheds
animal manures
Freshwater
Hysteresis
nitrate nitrogen
nonpoint source pollution
phosphates
Phosphorus
seasonal variation
sediment yield
Sediments
soil amendments
Spatial scales
Storms
stormwater
streams
summer
suspended particulate matter
Transport
water erosion
water quality
winter
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Summary:Concentrations of suspended particulate matter (SPM), NO 3-N and P fractions: PO 4-P, dissolved organic P (DOP), particulate P (PP) and bioavailable exchangeable P were examined over 5 storm events in two nested agricultural catchments in NE Scotland: a (51 km 2) catchment and its headwater (4 km 2). NO 3-N showed anticlockwise hysteresis for all storms in both catchments. In contrast, the headwater showed strong clockwise hysteresis of SPM, dissolved and particulate P concentrations, but which weakened through summer to spring. Less pronounced hysteresis of P forms in the larger catchment was attributed to a combination of factors: a less energetic system, nutrient leaching from the floodplain, a point source of a small sewage treatment works and the occurrence of coarser soil and sediment parent materials with less P adsorption and transport capacity. The headwater exhibited a strong ‘first flush’ effect of sediment and dissolved P, particularly following dry conditions, received a significant transfer of readily-solubilized organic P from the surrounding soils in late summer and after manure applications in winter, and was the likely cause of large sediment associated P signals observed in the 51 km 2 catchment. Our results suggest that steeper gradient headwaters should be targeted for riparian improvements to mitigate soil erosion from headwater fields. The efficiency of riparian erosion controls is also dependant on the size of the store of fine sediment material within the stream channel and this may be large.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2007.10.045