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Impact of microforms on nitrate transport at the groundwater –surface water interface

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published
  • Haizhu Hu
  • Andrew Binley
  • Catherine Heppell
  • Katrina Lansdown
  • Xiaomin Mao
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<mark>Journal publication date</mark>11/2014
<mark>Journal</mark>Advances in Water Resources
Volume73
Number of pages13
Pages (from-to)185-197
Publication StatusPublished
Early online date8/08/14
<mark>Original language</mark>English

Abstract

Small streambed structures (or microforms, 0.01-1 m in length) exist ubiquitously in riverbed systems. Small-scale topography is potentially important in controlling hyporheic exchange flow and transport of conservative and reactive solutes at the groundwater-surface water interface. The role of microforms on NO3- transfer in a riffle-scale (macroforms of > 1 m length) hyporheic zone within a gaining river setting is investigated using a 2-D flow and transport model which accounts for both nitrification and denitrification. Results show that the short pathlines caused by microforms lead to more NO3- discharge to the river compared with a macroform-only condition due to shortened residence times of both surface water and groundwater in mixing zones. Short hyporheic exchange flow pathways caused by microforms could remain oxic along their entire length or switch from nitrate producing to nitrate consuming as oxygen concentrations decline. Microforms affect net NO3- flux by the combined effect of introducing more stream mass flux and reducing their residence time in mixing zones under different hydrological and biogeochemical conditions. Our findings underscore that ignoring microforms in river beds may underestimate NO3- load to the river and have practical implications for porewater sampling strategies in groundwater-surface water studies.

Bibliographic note

Date of Acceptance: 28/07/2014