home    about    browse    search    latest    help 
Login | Create Account

Effect of deep and shallow root systems on the dynamics of soil inorganic N during 3-year crop rotations

Thorup-Kristensen, K. (2006) Effect of deep and shallow root systems on the dynamics of soil inorganic N during 3-year crop rotations. Plant and Soil (288), pp. 233-248.

[img] PDF
Limited to [Depositor and staff only]

918Kb

Summary

Unused inorganic N (Ninorg) left in agricultural soils will typically leach to deeper soil layers. If it moves below the root zone it will be lost from the system, but the depth of the root zone depends on the crop species grown. In this experiment we studied the effect of three-year crop sequences, with different combinations of deep and shallow rooted crops, on soil Ninorg dynamics to 2.5 m soil depth and the possibility of crop utilization of N leached to deep soil layers.
We grew 10 different crop sequences for three years. The crops and catch crops grown were selected to allow different sequences of deep and shallow rooted crops. Very different rooting depths were obtained, from only 0.5 m (leek), to approximately 1.0 m (ryegrass and barley), 1.5 m (red beet), 2.0 m (fodder radish and white cabbage) and more than 2.5 m by the chicory catch crop.
The results showed a significant retention of Ninorg within the 2.5 m soil profile from one year to the next, but the retained N was moved to larger soil depths during the winter season. Only little Ninorg was retained over two winter seasons. The retention in the deeper soil layers allowed Ninorg to be taken up by succeeding deep rooted main crops or catch crops. The effects of crop rooting depth on Ninorg in the subsoil layers from 1.0 to 2.5 m were striking. White cabbage reduced Ninorg below 1.0 m with up to 100 kg N ha 1 during its growth. Grown after catch crops, leek and red beet left on average 60 kg N ha 1 less below 1.0 m than leek and red beet grown without a preceding catch crop.
We conclude that it is possible to design crop rotations with improved nitrogen use efficiency by using the differences in crop rooting patterns; deep rooted crops or catch crops can be used to recover Ninorg leached after previous crops, and catch crops can be grown before shallow rooted crops to lift the available Ninorg from deep soil layers to upper layers where these crops have their roots.


EPrint Type:Journal paper
Keywords:Barley; cabbage; leek; ryegrass; chicory; fodder radish; root growth; rooting depth; nitrogen leaching; cropping system; catch crop; crop sequence; nitrogen uptake;
Subjects: Crop husbandry > Production systems > Cereals, pulses and oilseeds
Crop husbandry > Production systems > Root crops
Crop husbandry > Production systems > Vegetables
Environmental aspects > Air and water emissions
Crop husbandry > Composting and manuring
Research affiliation: Denmark > DARCOF II (2000-2005) > I.10 (VegCatch) Organic vegetable cultivation methods and use of catch crops
Deposited By: Thorup-Kristensen, Professor Kristian
ID Code:7905
Deposited On:04 Apr 2006
Last Modified:07 Aug 2012 07:35
Document Language:English
Status:Published
Refereed:Peer-reviewed and accepted

Repository Staff Only: item control page