Denitrification from the root zone to streams

Plant Congress 2006 January 10 and 11, 2006 Denitrification from the root zone to streams Gitte Blicher-Mathiesen NERI Department of Freshwater Ecology

Nitrate reduction from the root zone to the sea • Nitrate reduction: about 100.000 tonnes N/year • Nitrate leaching from the root zone: 168.000 tonnes N/year • N run off to the sea: 67.000 tonnes N/year

Nitrate reduction occurs • in aquifers • in wetlands and riparian areas • in the stream bottom • during water transport in streams and lakes

N-retention (%) i 26 catchments FromFYNS AMT

Measured N-reduction inRiparian Areas (Hoffmann, 1998)

Measured N-reduction i Riparian Areas, irrigated with drain - or stream water (Hoffmann, 1998)

Outline of groundwater flow through riparian areas

Riparian area

Conclusion • N-reduction for DK about 100.000 tonnes N per y • N-retention between root zone and streams • sandy catchments 38 - 89 % • loamy catchments 12- 47 % • geology, discharge, tile drainage, lakes and wetlands/riparian areas • Riparian areas • reduction 32 - 2,100 kg N/ha/year • N-load, geology, groundwater flowpath

Denitrification from the root zone to streams

Denitrification from the root zone to streams

Presentation Transcript

From Root to Fruition to Modern Function

THE ROOT

The Four Streams

Inspiration from the endangered zone

Returning from the War Zone

From STEM to Root

Leadership Lessons from the Transition Zone

From Unit Root To Cointegration

On Queries to the Root

From Unit Root To Cointegration

Deep Bed Denitrification Performance

Extracting Events from Probabilistic Streams

Biochar for Sand-Based Root-Zone Modification

Nitrification and Denitrification

From Searching Text to Querying XML Streams

1. Movement to the root

FROM STREAMS TO RIVERS

Consists of four zones: - The root cap - Zone of cell division - Zone of elongation

Lessons from the LEUTL Zone

Spotify Streams from Fanzter

How To Recover From Root Canal Treatment?