Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation
Urban vegetation can influence urban hydrology and reduce the risk of flooding. Urban forestry studies have suggested that tree type and species choice affect the amount of rainwater intercepted and retained. Little information exists, however, for other landscape typologies, and the sorts of ground...
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my.utm.1075222024-09-23T04:02:07Z http://eprints.utm.my/107522/ Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation Ismail, Siti Nur Hannah Stovin, Virginia Cameron, Ross W. F. SB469-476 Landcsape architecture Urban vegetation can influence urban hydrology and reduce the risk of flooding. Urban forestry studies have suggested that tree type and species choice affect the amount of rainwater intercepted and retained. Little information exists, however, for other landscape typologies, and the sorts of ground-cover plants that are best used to retain/detain rainwater during storm events. This is important as many urban spaces are too small to facilitate trees, but can accommodate roadside vegetation, buffer strips, rain gardens, green roofs and stormwater planters. Thus, this research aimed to determine how choice of ground-cover taxa affected rainwater interception and retention. Six model species with contrasting leaf morphologies were used to determine how well rainwater was intercepted, but also dissipated through evapotranspiration (ET). A pot-based system was used to determine how plant water balance changed during late summer in the UK, with the aim to understand how leaf traits affected hydrological processes. Plant choice was important, with fine-leaved taxa, Festuca glauca and Dianthus ‘Haytor White’ showing best rainwater interception and Festuca demonstrating highest rates of dissipation from the substrate. Overall, compared to non-planted pots, those with plants present were more effective at capturing water (by 2.3–3.0x), and evapo-transpiring water (by 2.5-4.0x). Results indicate that ground cover vegetation has potential to aid urban water management in those localities where space is limited for trees. Plant choice and community-structure should be considered, especially when there is a desire to dry out soil/substrate quickly and restore maximum soil moisture holding capacity. Springer Nature 2023-08-09 Article PeerReviewed application/pdf en http://eprints.utm.my/107522/1/SitiNurHannah2023_FunctionalUrbanGroundCoverPlants.pdf Ismail, Siti Nur Hannah and Stovin, Virginia and Cameron, Ross W. F. (2023) Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation. Urban Ecosystems, 26 (6). pp. 1709-1724. ISSN 1083-8155 http://dx.doi.org/10.1007/s11252-023-01417-w DOI:10.1007/s11252-023-01417-w |
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SB469-476 Landcsape architecture Ismail, Siti Nur Hannah Stovin, Virginia Cameron, Ross W. F. Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| description |
Urban vegetation can influence urban hydrology and reduce the risk of flooding. Urban forestry studies have suggested that tree type and species choice affect the amount of rainwater intercepted and retained. Little information exists, however, for other landscape typologies, and the sorts of ground-cover plants that are best used to retain/detain rainwater during storm events. This is important as many urban spaces are too small to facilitate trees, but can accommodate roadside vegetation, buffer strips, rain gardens, green roofs and stormwater planters. Thus, this research aimed to determine how choice of ground-cover taxa affected rainwater interception and retention. Six model species with contrasting leaf morphologies were used to determine how well rainwater was intercepted, but also dissipated through evapotranspiration (ET). A pot-based system was used to determine how plant water balance changed during late summer in the UK, with the aim to understand how leaf traits affected hydrological processes. Plant choice was important, with fine-leaved taxa, Festuca glauca and Dianthus ‘Haytor White’ showing best rainwater interception and Festuca demonstrating highest rates of dissipation from the substrate. Overall, compared to non-planted pots, those with plants present were more effective at capturing water (by 2.3–3.0x), and evapo-transpiring water (by 2.5-4.0x). Results indicate that ground cover vegetation has potential to aid urban water management in those localities where space is limited for trees. Plant choice and community-structure should be considered, especially when there is a desire to dry out soil/substrate quickly and restore maximum soil moisture holding capacity. |
| format |
Article |
| author |
Ismail, Siti Nur Hannah Stovin, Virginia Cameron, Ross W. F. |
| author_facet |
Ismail, Siti Nur Hannah Stovin, Virginia Cameron, Ross W. F. |
| author_sort |
Ismail, Siti Nur Hannah |
| title |
Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| title_short |
Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| title_full |
Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| title_fullStr |
Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| title_full_unstemmed |
Functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| title_sort |
functional urban ground-cover plants: identifying traits that promote rainwater retention and dissipation |
| publisher |
Springer Nature |
| publishDate |
2023 |
| url |
http://eprints.utm.my/107522/1/SitiNurHannah2023_FunctionalUrbanGroundCoverPlants.pdf http://eprints.utm.my/107522/ http://dx.doi.org/10.1007/s11252-023-01417-w |
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