4. ConclusionsThe interaction betwe

4. Conclusions

The interaction between macrophytes and stream
velocity is pivotal in determining NH4-N retention.
Reduction in plant biomass in stream channels as a result
of riparian shading will have different effects on velocity
and hence, on retention of NH4-N. Because marginal
plants reduce effective channel cross-section areas, their
removal results in reduced velocities (increased travel
times) and greater opportunity for retention of NH4-N.
Shading to regulate excessive growth of submerged
macrophytes is likely to have the opposite effect (i.e.
reduced capacity to take up NH4-N because of reduced
travel times) and it is suggested that water resource
managers utilise riparian shading in concert with unshaded
vegetated reaches to achieve a balance between
favourable habitat conditions and nutrient processing
capacity.

Acknowledgements

We are grateful to Auckland Regional Council for
permitting us to use data collected on their behalf. The
study was funded by the Foundation for Research,
Science and Technology contract number CO1X0022

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