Difference between revisions of "Role of vegetation"

From REFORM wiki
Jump to: navigation, search
(Created page with "Landing page of the role of vegetation in river systems. Under construction.")
 
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
Landing page of the role of vegetation in river systems. Under construction.
+
[[File:Luca Solari role of vegetation 1.jpg|thumb|300px|right|Figure 1: The Tagliamento river (Italy); riparian plants grow on the sediment bars in the middle of the river and along the river margins.]]
 +
 
 +
Vegetation is a key element in rivers. Riparian vegetation (such as herbaceous plants, shrubs and trees) can be found on sediment deposits, on banks and along river margins (see the examples in Figure 1 and 2), while aquatic vegetation grows in or near water.
 +
<br /><br />
 +
 
 +
[[File:Luca Solari role of vegetation 2.jpg|thumb|300px|right|Figure 2: The Cecina river (Italy); riparian plants (herbaceous plants, shrubs and trees) colonize the sediment deposit, the floodplain and the banks while woody debris (dead trees) is deposited in the main channel.]]
 +
 
 +
In river systems, vegetation interacts with hydromorphology in different ways:
 +
* river hydromorphology  plays a significant role in all plant life stages, from seed dispersal to colonization, recruitment, growth, succession and mortality. Successful riparian plants often adopt a combination of adaptive strategies during different life stages in order to ensure their survival. Examples are high dispersal rates, adaptations to resist stress, and vegetative reproduction;
 +
* vegetation actively interacts with river hydromorphology. Above-ground plant biomass can affect the flow, by blocking it or changing flow resistance and sediment transport, for instance inducing sediment deposition. Below-ground plant biomass modifies the hydraulic and mechanical properties of the substrate, including the sediments retained by the above-ground biomass, and consequently the moisture regime and erodibility of the soil on the river bed and on banks.
 +
Plants therefore can actively interact with river morphology by changing river bed topography, river planform shape and bed sediment composition, and by promoting the development of distinctive vegetated landforms.
 +
<br /><br />
 +
 
 +
Although there is still much to be learnt about the interactions between plants and hydromorphology, various [[:Category:Vegetation_Models|models]] are available in the scientific and technical literature for the interpretation of these interactions. Examples are [[:Category:Vegetation_Models|models]] for evaluating the effect of vegetation on flow resistance, river bank dynamics, river bed development and river planform evolution.
 +
<br />
 +
<br />
 +
More details on the recent advances on modelling riparian vegetation - hydromorphology interactions can be found in:
 +
* [http://www.reformrivers.eu/system/files/2.2%20Natural%20HyMo%20Biota%20Ecol%20Function%20part%201%20FINAL.pdf REFORM Deliverable D2.2 Part 1, Section 2.3];
 +
* [http://doi.org/DOI:10.1002/rra.2910 Solari et al (2015)];
 +
* [http://onlinelibrary.wiley.com/doi/10.1002/rra.2928/abstract Gurnell et al (2015)]
 +
* [http://onlinelibrary.wiley.com/doi/10.1002/esp.3397/abstract Gurnell (2014)];

Latest revision as of 14:21, 18 December 2018

Figure 1: The Tagliamento river (Italy); riparian plants grow on the sediment bars in the middle of the river and along the river margins.

Vegetation is a key element in rivers. Riparian vegetation (such as herbaceous plants, shrubs and trees) can be found on sediment deposits, on banks and along river margins (see the examples in Figure 1 and 2), while aquatic vegetation grows in or near water.

Figure 2: The Cecina river (Italy); riparian plants (herbaceous plants, shrubs and trees) colonize the sediment deposit, the floodplain and the banks while woody debris (dead trees) is deposited in the main channel.

In river systems, vegetation interacts with hydromorphology in different ways:

  • river hydromorphology plays a significant role in all plant life stages, from seed dispersal to colonization, recruitment, growth, succession and mortality. Successful riparian plants often adopt a combination of adaptive strategies during different life stages in order to ensure their survival. Examples are high dispersal rates, adaptations to resist stress, and vegetative reproduction;
  • vegetation actively interacts with river hydromorphology. Above-ground plant biomass can affect the flow, by blocking it or changing flow resistance and sediment transport, for instance inducing sediment deposition. Below-ground plant biomass modifies the hydraulic and mechanical properties of the substrate, including the sediments retained by the above-ground biomass, and consequently the moisture regime and erodibility of the soil on the river bed and on banks.

Plants therefore can actively interact with river morphology by changing river bed topography, river planform shape and bed sediment composition, and by promoting the development of distinctive vegetated landforms.

Although there is still much to be learnt about the interactions between plants and hydromorphology, various models are available in the scientific and technical literature for the interpretation of these interactions. Examples are models for evaluating the effect of vegetation on flow resistance, river bank dynamics, river bed development and river planform evolution.

More details on the recent advances on modelling riparian vegetation - hydromorphology interactions can be found in: