Difference between revisions of "Adjust land use to develop riparian vegetation"

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(Adjust land use to develop riparian vegetation)
(Expected effect of measure on (including literature citations):)
 
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=Adjust land use to develop riparian vegetation=
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==General description ==
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[[File:Adjust land use in riparian zones.jpg|300px|thumbnail|River Pielach in Austria : Extensification of land use along the river (source : BOKU, IHG)]]
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Intensive anthropogenic use and alteration of riverine landscapes have led to severe degradation of river-floodplain systems, especially in highly industrialized countries. River bed erosion and loss of riparian habitat and species are among the most prominent consequences of these engineering works (Rohde et al. 2005).<br />
  
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The extensification of the land use at the adjacent areas of the river will lead to wider space for the development of riparian vegetation. The ability of restoration measures to host typical riparian species and to increase local plant diversity depends on the distance to near-natural stretches as the presence of a viable seed bank is an important prerequisite for the rehabilitation of natural vegetation. Passive restoration of riparian areas may be effective if invasive species do not compete with native vegetation (Roni et al. 2005).<br />
  
==General description ==
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Flood risk can be reduced through reduced runoff and increased soil water storage. Higher vegetation coverage and reduced surface flow often result in greater filtration of pollutants. Well managed meadows and pastures nearby the riparian buffers contribute to this effect by additionally reducing runoff, slowing surface flow and increasing infiltration (Kedziora et al. 2011). This would need to be coordinated at catchment scale.
Adjust land use (e.g. buffer strips) to develop riparian vegetation directly adjacent water bodies.
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==Applicability ==
 
==Applicability ==
When degraded buffer zones are present and neighbouring land use is heavily affecting aquatic habitat quality.
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Species dispersal and establishment might be hampered by decisions taken outside the scope of the restoration project due to catchment influences (Rohde et al. 2005). It is important to ensure a coordinated riparian management effort along a catchment to achieve improvements in many chemical and ecological parameters of streams.
  
 
==Expected effect of measure on (including literature citations): ==
 
==Expected effect of measure on (including literature citations): ==
*HYMO (general and specified per HYMO element)  
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{| border="1" style="border-collapse:collapse"
*physico � chemical parameters
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| align="center" style="background:#f0f0f0;"|'''Category'''
*Biota (general and specified per Biological quality elements)
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| align="center" style="background:#f0f0f0;"|'''Description'''
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| align="center" style="background:#f0f0f0;"|'''Source (citation)'''
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|-
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| Hydromorphology||||
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|-
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| Vegetation||Riparian habitat improvement||Gundersen et al. 2010
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|-
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| Physico-chemical parameters||Reduced nutrient loads, improved water quality||Gundersen et al. 2010; Parkyn et al. 2003
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|-
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| Macroinvertebrats||||
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|-
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| Fish||||
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|}
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==Temporal and spatial response  ==
 
==Temporal and spatial response  ==
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No available.
 
==Pressures that can be addressed by this measure ==
 
==Pressures that can be addressed by this measure ==
 
<Forecasterlink type="getPressuresForMeasures" code="M51" />
 
<Forecasterlink type="getPressuresForMeasures" code="M51" />
 
==Cost-efficiency ==
 
==Cost-efficiency ==
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Not available.
 
==Case studies where this measure has been applied ==
 
==Case studies where this measure has been applied ==
 
<Forecasterlink type="getProjectsForMeasures" code="M51" />
 
<Forecasterlink type="getProjectsForMeasures" code="M51" />
 
==Useful references ==
 
==Useful references ==
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*Gundersen, P., A. Laure´n, L. Fine´r, E. Ring, H. Koivusalo, M. Sætersdal, J.-O. Weslien, B. D. Sigurdsson, L. Ho¨gbom, J. Laine, and K. Hansen (2010). Environmental Services Provided from Riparian Forests in the Nordic Countries. AMBIO, 39, 555–566.
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*Kedziora, A., Zerihun Negussie Y, Tenaw Asres M, and Zalewski M (2011). Shaping of an agricultural landscape to increase water and nutrient retention. Ecohydrology & Hydrobiology, 11(3-4), 205-222.
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*Parkyn, S. M., R. J. Davies-Colley, N. J. Halliday, K. J. Costley, and G. F. Croker (2003). Planted riparian buffer zones in New Zealand: do they live up to expectations? Restoration Ecology, 11, 436–447.
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*Rohde, S., M. Schutz, F. Kienast, and P. Englmaier (2005). River widening: an approach to restoring riparian habitats and plant species. River Research and Applications, 21, 1075–1094.
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*Roni, P., K. Hanson, T. Beechie, G. Pess, M. Pollock, and D. M. Bartley (2005). Habitat rehabilitation for inland fisheries. Global review of effectiveness and guidance for rehabilitation of freshwater ecosystems. FAO Fisheries Technical Paper, 484.
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==Other relevant information ==
 
==Other relevant information ==
  
 
[[Category:Measures]][[Category:07. Riparian zone improvement]]
 
[[Category:Measures]][[Category:07. Riparian zone improvement]]

Latest revision as of 11:43, 7 January 2019

General description

River Pielach in Austria : Extensification of land use along the river (source : BOKU, IHG)

Intensive anthropogenic use and alteration of riverine landscapes have led to severe degradation of river-floodplain systems, especially in highly industrialized countries. River bed erosion and loss of riparian habitat and species are among the most prominent consequences of these engineering works (Rohde et al. 2005).

The extensification of the land use at the adjacent areas of the river will lead to wider space for the development of riparian vegetation. The ability of restoration measures to host typical riparian species and to increase local plant diversity depends on the distance to near-natural stretches as the presence of a viable seed bank is an important prerequisite for the rehabilitation of natural vegetation. Passive restoration of riparian areas may be effective if invasive species do not compete with native vegetation (Roni et al. 2005).

Flood risk can be reduced through reduced runoff and increased soil water storage. Higher vegetation coverage and reduced surface flow often result in greater filtration of pollutants. Well managed meadows and pastures nearby the riparian buffers contribute to this effect by additionally reducing runoff, slowing surface flow and increasing infiltration (Kedziora et al. 2011). This would need to be coordinated at catchment scale.

Applicability

Species dispersal and establishment might be hampered by decisions taken outside the scope of the restoration project due to catchment influences (Rohde et al. 2005). It is important to ensure a coordinated riparian management effort along a catchment to achieve improvements in many chemical and ecological parameters of streams.

Expected effect of measure on (including literature citations):

Category Description Source (citation)
Hydromorphology
Vegetation Riparian habitat improvement Gundersen et al. 2010
Physico-chemical parameters Reduced nutrient loads, improved water quality Gundersen et al. 2010; Parkyn et al. 2003
Macroinvertebrats
Fish

Temporal and spatial response

No available.

Pressures that can be addressed by this measure

Cost-efficiency

Not available.

Case studies where this measure has been applied

Useful references

  • Gundersen, P., A. Laure´n, L. Fine´r, E. Ring, H. Koivusalo, M. Sætersdal, J.-O. Weslien, B. D. Sigurdsson, L. Ho¨gbom, J. Laine, and K. Hansen (2010). Environmental Services Provided from Riparian Forests in the Nordic Countries. AMBIO, 39, 555–566.
  • Kedziora, A., Zerihun Negussie Y, Tenaw Asres M, and Zalewski M (2011). Shaping of an agricultural landscape to increase water and nutrient retention. Ecohydrology & Hydrobiology, 11(3-4), 205-222.
  • Parkyn, S. M., R. J. Davies-Colley, N. J. Halliday, K. J. Costley, and G. F. Croker (2003). Planted riparian buffer zones in New Zealand: do they live up to expectations? Restoration Ecology, 11, 436–447.
  • Rohde, S., M. Schutz, F. Kienast, and P. Englmaier (2005). River widening: an approach to restoring riparian habitats and plant species. River Research and Applications, 21, 1075–1094.
  • Roni, P., K. Hanson, T. Beechie, G. Pess, M. Pollock, and D. M. Bartley (2005). Habitat rehabilitation for inland fisheries. Global review of effectiveness and guidance for rehabilitation of freshwater ecosystems. FAO Fisheries Technical Paper, 484.

Other relevant information