Difference between revisions of "Restoration of the riparian zone vegetation"

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[[file:icon_habitat.png|right|150px|link=[[Habitat]]]]
 
=Introduction=
 
=Introduction=
[[file:restoration_riparian_stjordal.png|thumb|500px|Figure 1: Riparian zone vegetation along Stjørdalselva and one of its tributaries in central Norway. The riparian is on most section in place, providing shelter and reducing runoff of particles and nutrients from the agriculture (source: www.norgeibilder.no).]]
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[[file:restoration_riparian_stjordal.png|thumb|250px|Figure 1: Riparian zone vegetation along Stjørdalselva and one of its tributaries in central Norway. The riparian is on most section in place, providing shelter and reducing runoff of particles and nutrients from the agriculture]]
  
 
The riparian zone or riparian area is the interface between land and a river or stream. The vegetation along the riparian zone provides multiple functions to the river and its ecosystem. The vegetation will provide allochthonous, organic material to the river, shelter and shading to the areas near the shore, and stabilize the soil by the river, thus reduce the runoff of erodible particles, nutrients and potentially other pollutants from the land areas. Vegetation along the river can lead to higher biodiversity in the river, as well as along the shore.  
 
The riparian zone or riparian area is the interface between land and a river or stream. The vegetation along the riparian zone provides multiple functions to the river and its ecosystem. The vegetation will provide allochthonous, organic material to the river, shelter and shading to the areas near the shore, and stabilize the soil by the river, thus reduce the runoff of erodible particles, nutrients and potentially other pollutants from the land areas. Vegetation along the river can lead to higher biodiversity in the river, as well as along the shore.  
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The easiest way to assess the potential for introducing this measure is simply by having a site visit and see if there are any parts of the riparian areas where vegetation has been removed and where trees, bushes and other vegetation can be reinstated. Re-planting of vegetation should be made from local plants.
 
The easiest way to assess the potential for introducing this measure is simply by having a site visit and see if there are any parts of the riparian areas where vegetation has been removed and where trees, bushes and other vegetation can be reinstated. Re-planting of vegetation should be made from local plants.
  
It should be assessed if the reinstating of vegetation will affect the peaks of the floods in the rivers, as vegetation can lead to lower capacities to convey floods. Vegetation might increase the roughness of the river channel, preventing the water from flowing into the areas beside the river in situations with high flows. Such assessments can be made with use of hydraulic tools, such as HEC-RAS (see Chapter 9.1 for references).
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It should be assessed if the reinstating of vegetation will affect the peaks of the floods in the rivers, as vegetation can lead to lower capacities to convey floods. Vegetation might increase the roughness of the river channel, preventing the water from flowing into the areas beside the river in situations with high flows. Such assessments can be made with use of hydraulic tools, such as [[HEC-RAS]].
  
 
==During implementation==
 
==During implementation==
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==During operation==
 
==During operation==
 
The growth of the new vegetation can be controlled simply by a site visit, or by analysing satellite or aerial photos. No maintenance should be needed if a natural flood regime controls the expansion of the vegetation. If the vegetation grows into the river channel and this might be a risk to the flood capacity of the river, the vegetation at these locations should be cut regularity, e.g. every 2-3 years.   
 
The growth of the new vegetation can be controlled simply by a site visit, or by analysing satellite or aerial photos. No maintenance should be needed if a natural flood regime controls the expansion of the vegetation. If the vegetation grows into the river channel and this might be a risk to the flood capacity of the river, the vegetation at these locations should be cut regularity, e.g. every 2-3 years.   
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=Relevant MTDs and test cases=
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{{Suitable MTDs for Restoration of the riparian zone vegetation}}
  
 
=Classification Table=
 
=Classification Table=
<table border="1">
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{{Restoration of the riparian zone vegetation}}
<tr>
+
 
<td width="243">
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=Relevant Literature=
<p><strong>Classification</strong></p>
 
<p><strong>&nbsp;</strong></p>
 
</td>
 
<td colspan="2" width="363">
 
<p><strong>Selection (multiple)</strong></p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Fish species measure designed for</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>All</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Does the measure require loss of power production?</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Structural (requires no additional flow release)</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Recurrence of maintenance</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Less often than yearly</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Which life-stage of fish is measure aimed at?</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>All</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Which physical parameter mitigated?</p>
 
<p>&nbsp;</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Substrate</p>
 
<p>Water temperature</p>
 
<p>Ice</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Hydropower type the measure is suitable for</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Plant in dam</p>
 
<p>Plant with bypass section</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Dam height [m] the measure is suitable for</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>All</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Section in the regulated system measure is designed for</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Bypass section</p>
 
<p>Downstream outlet</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>River type implemented</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>All, but should always be made from local vegetation</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Level of certainty in effect</p>
 
</td>
 
<td colspan="2" width="363">
 
<p>Very certain (but maybe limited effect in some cases</p>
 
</td>
 
</tr>
 
<tr>
 
<td width="243">
 
<p>Technology readiness level</p>
 
</td>
 
<td width="62">
 
<p>TRL 9</p>
 
</td>
 
<td width="302">
 
<p>actual system proven in operational environment</p>
 
</td>
 
</tr>
 
</table>
 
  
[[category:Habitat measures]][[category:Measures]]
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[[category:Habitat measures]][[category:Solutions]]
[[category:Habitat measures]][[category:Measures]]
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[[category:Habitat measures]][[category:Solutions]]

Latest revision as of 10:00, 26 October 2020

Icon habitat.png

Introduction

Figure 1: Riparian zone vegetation along Stjørdalselva and one of its tributaries in central Norway. The riparian is on most section in place, providing shelter and reducing runoff of particles and nutrients from the agriculture

The riparian zone or riparian area is the interface between land and a river or stream. The vegetation along the riparian zone provides multiple functions to the river and its ecosystem. The vegetation will provide allochthonous, organic material to the river, shelter and shading to the areas near the shore, and stabilize the soil by the river, thus reduce the runoff of erodible particles, nutrients and potentially other pollutants from the land areas. Vegetation along the river can lead to higher biodiversity in the river, as well as along the shore. This measure simply refers to reinstate the vegetations along the river in order to provide the benefits of vegetation to the river and its ecosystem, hence reducing the impacts of lack of vegetation along the river.

Methods, tools, and devices

During planning

The easiest way to assess the potential for introducing this measure is simply by having a site visit and see if there are any parts of the riparian areas where vegetation has been removed and where trees, bushes and other vegetation can be reinstated. Re-planting of vegetation should be made from local plants.

It should be assessed if the reinstating of vegetation will affect the peaks of the floods in the rivers, as vegetation can lead to lower capacities to convey floods. Vegetation might increase the roughness of the river channel, preventing the water from flowing into the areas beside the river in situations with high flows. Such assessments can be made with use of hydraulic tools, such as HEC-RAS.

During implementation

No specific device should be needed to re-plant vegetation along the river. As soon as local plants are re-instated, they would naturally reproduce. It should be avoided to plant mono-cultures, but rather a mix of local plants. As new planted trees and bushes are less resistible to floods, the timing the vegetation is re-established should consider the risk of being flushed out, if planted in a flood-prone area. If grazing animals are nearby, the area of the new vegetation should be protected.

During operation

The growth of the new vegetation can be controlled simply by a site visit, or by analysing satellite or aerial photos. No maintenance should be needed if a natural flood regime controls the expansion of the vegetation. If the vegetation grows into the river channel and this might be a risk to the flood capacity of the river, the vegetation at these locations should be cut regularity, e.g. every 2-3 years.

Relevant MTDs and test cases

Relevant MTDs
BASEMENT
CASiMiR
FLOW-3D
HEC-RAS
LiDAR
OpenFOAM
River2D
Sediment simulation in intakes with Multiblock option (SSIIM)
Shelter measurements
Structure from motion (SfM)
TELEMAC
Relevant test cases Applied in test case?
N/A -

Classification Table

Classification Selection
Fish species for the measure All
Does the measure require loss of power production -
-
Structural (requires no additional flow release)
Recurrence of maintenance Less often than yearly
Which life-stage of fish is measure aimed at Spawning / Recruitment
Juveniles
Adult fish
Movements of migration of fish
Which physical parameter is addressed -
-
-
Substrate and hyporheic zone
Water temperature
Ice
-
-
Hydropower type the measure is suitable for Plant in dam
Plant with bypass section
Dam height (m) the measure is suitable for All
Section in the regulated system measure is designed for -
-
Bypass section
Downstream outlet
River type implemented Steep gradient (up to 0.4 %)
Fairly steep with rocks, boulders (from 0.4 to 0.05 %)
Slow flowing, lowland, sandy (less than 0.05 %)
Level of certainty in effect Very certain
Technology readiness level TRL 9: actual system proven in operational environment
Cost of solution See cost table

Relevant Literature