Role of Active Floodplains for Nutrient Retention in the River Rhine.

Harry Olde Venterink, Frank Wiegman, Guda E.m. Van Der Lee, Jan E. Vermaat

Research output: Contribution to journalArticlepeer-review

61 Citations (Scopus)

Abstract

We evaluated the importance of floodplains for nutrient retention in two distributaries of the river Rhine (Waal and IJssel) by monitoring N and P retention in a body of water during downstream transport. We hypothesized that (i) retention of P is much larger than retention of N and (ii) nutrient retention increases with an increasing amount of the discharge flowing through floodplains (Q F). The second hypothesis was tested by comparing retention between the rivers Waal (low Q F) and IJssel (high Q F), as well as at different discharges. Total nitrogen (TN) did not decrease significantly during downstream transport in both rivers, whereas 20 to 45% of total phosphorus (TP) disappeared during transport in the river IJssel. This difference between N and P retention--supporting the first hypothesis--was probably caused by differences in sedimentation through a much lower proportion of N adsorbed to particles than of P (2-3% of N vs. 50-70% of P). Phosphorus retention was only observed in the IJssel and not in the Waal, and absolute P retention (g P s?1 km?1) in the IJssel increased with increasing Q F The second hypothesis was, nevertheless, not fully supported, because the percentage P retention (% of P load) decreased (instead of increased) with increasing Q F. The percentage P retention increased with decreasing river depth and flow velocity; it seemed related to the efficiency of sediment trapping.
Original languageEnglish
Pages (from-to)1430-1435
Number of pages6
JournalJournal of Environmental Quality
Volume32
Publication statusPublished - 2003

Keywords

  • nutrient cycling

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