Denitrification from the root zone to streams
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National Environmental Research Institute Denitrification from the root zone to streams Gitte Blicher-Mathiesen NERI Department of Freshwater Ecology Plant Congress 2006 January 10 and 11, 2006
description
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 - PowerPoint PPT Presentation
Transcript of Denitrification from the root zone to streams
National Environmental Research Institute
Denitrification from the root zone to streams
Gitte Blicher-Mathiesen
NERI
Department of Freshwater Ecology
Plant Congress 2006 January 10 and 11, 2006
National Environmental Research Institute
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
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Nitrate reduction occurs
• in aquifers• in wetlands and riparian areas• in the stream bottom• during water transport in streams and
lakes
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% N-retention
n_ret_1dec
< 20.0
20 - 25
25 - 30
30 - 35
35 - 40
40 - 45
45 - 50
50 - 55
55 - 60
60 - 63
N-retention (%) i 26 catchments
FromFYNS AMT
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Measured N-reduction inRiparian Areas
Study site Reduction(kg N/ha/year)
N-retention(%)
River Stevns 57 97
Rabis brook 398 56
River Gjern,4 meadows and fen 42 – 2,179 67-99
River Brede 92 71 (Hoffmann, 1998)
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Measured N-reduction i Riparian Areas, irrigated with drain - or stream water
Study site Reduction(kg N/ha/year)
N-retention(%)
Glumsø, reed forest* 520-2,725 54-65
River Stevns 350 99
Syv brook 300 72
River Store 530 48
River Gjern* 30-196 90-98
* Study with variable hydraulic load (Hoffmann, 1998)
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Outline of groundwater flow through riparian areas
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Riparian area
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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
