Difference between revisions of "Loss of vertical connectivity"
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+ | Hancock, P.J., 2002. Human impacts on the stream–groundwater exchange zone. Environmental Management 29: 763–781. | ||
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==Other relevant information== | ==Other relevant information== | ||
[[Category:Pressures]][[Category:04. Morphological alterations]] | [[Category:Pressures]][[Category:04. Morphological alterations]] |
Revision as of 17:37, 16 February 2015
Contents
Loss of vertical connectivity
04. Morphological alterations
General description
Vertical fragmentation can be produced by physical processes that reduce river bed permeability such as siltation of the riverbed surface and clogging of pore spaces within stream bed gravels (Hancock 2002[1]). This may result from increased delivery of fine sediment to the river as a result of for example changes in land use or agricultural practices, as well from reduced flow energy, for example due to flow regulation. In either case, the balance between sediment supply and sediment transport is disrupted, leading to the accumulation of fine sediments within the river bed (Kondolf and Wilcock, 1996). In addition, physical modification of river channels, such as straightening and simplifying channel form (Kondolf et al., 2006) may reduce water depth and retention within the channel, adversely affecting vertical connectivity.
Effect/Impact on (including literature citations)
- HYMO (general and specified per HYMO element)
- physico - chemical parameters
- Biota (general and specified per Biological quality elements)
Case studies where this pressure is present
- Heessen_-_Optimisation_of_the_pSCI_“Lippe_floodplain_between_Hamm_and_Hangfort”_(LIFE05/NAT/D/000057)
- Ahlen-Dolberg_-_Optimisation_of_the_pSCI_“Lippe_floodplain_between_Hamm_and_Hangfort”_(LIFE05/NAT/D/000057)
- Eggenstein-Leopoldshafen_-_Living_Rhine_floodplain_near_Karlsruhe_(LIFE04_NAT/DE/000025
- Klebach_-_Side_channel
- Bakenhof_-_Dyke_relocation
- Niederwerrieser_Weg_-_Optimisation_of_the_pSCI_“Lippe_floodplain_between_Hamm_and_Hangfort”_(LIFE05/NAT/D/000057)
- Soest_-_Optimisation_of_the_pSCI_“Lippe_floodplain_between_Hamm_and_Hangfort”_(LIFE05/NAT/D/000057)
- Bouxweerd
- Sella
- Asseltse_Plassen_-_Bank_erosion
- Beneden-Leeuwen_-_Side_channel
- Vreugderijkerwaard_-_Side_channel
- Uilenkamp
- Oberwerries_-_Optimisation_of_the_pSCI_“Lippe_floodplain_between_Hamm_and_Hangfort”_(LIFE05/NAT/D/000057)
- Buiten_Ooij_-_Sluice_operation_
- Karlsruhe_–_Living_Rhine_floodplain_near_Karlsruhe_(LIFE04_NAT/DE/000025)
- IJssel
- River_Cole_EU-LIFE
- Hampshire_Avon_-_Hale
- Restoration_and_remeandering_of_the_Müggelspree_-_downstream_Mönchwinkel
- Drava_-_River_Widening_Amlach/St._Peter
- Drava_-_River_Widening_Obergottesfeld
- Drava_-_River_Widening_Rosenheim
- Meuse_-_Overdiepse_Polder
- Rhine_-_Ontpoldering_Noordwaard
- Drava_-_Kleblach
- Thur_
- Töss
- KUIVAJOKI
Possible restoration, rehabilitation and mitigation measures
- Prevent sediment accumulation in reservoirs
- Favour morphogenic flows
- Reduce erosion
- Remove sediments
- Adjust land use to reduce nutrient, sediment input or shore erosion
Useful references
Hancock, P.J., 2002. Human impacts on the stream–groundwater exchange zone. Environmental Management 29: 763–781.
Other relevant information
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