Sjöman, Henrik
- Department of Landscape Architecture, Planning and Management, Swedish University of Agricultural Sciences
- Gothenburg Botanical Garden
- Royal Botanic Gardens Kew
- University of Gothenburg
Research article2023Peer reviewedOpen access
Sjoman, Henrik; Ignell, Sanna; Hirons, Andrew
comprise a very large proportion of the plant material used in public as well as private green spaces. Yet, there is currently a lack of quantitative assess-ments of stress tolerance in a large proportion of available species and cultivars of shrubs, thus complicating any design process involving shrubs. The aim of this study was to evaluate drought tolerance of many common and less traditional shrubs in-tended for public planting. Through this compilation, a first contribution (dataset) to species selection to obtain expected ecosystem services of shrubs is offered. As water stress is a major constraint for landscape plants in urban environments and is likely to increase in many regions under future climate scenarios, the quantitative drought tolerance of a species or genotype must be a fundamental consideration for plant selection for urban environments. In this study, we used water potential at the turgor loss point (TP0) as a key trait for evaluating drought tolerance of different species of shrubs. TP0 is a highly instructive trait because it represents a quantifiable measure of physiological drought tolerance. More negative TP0 values represent greater drought tolerance by allowing the leaf to maintain physiological function over a greater range of leaf water potentials. TP0 was estimated for a wide range of shrubs, representing a total of 44 genera and 120 species and cultivars. The mean TP0 value for all 120 shrub species and cultivars was -2.76 MPa, with the overall species TP0 value ranging from -1.48 MPa to -4.23 MPa. Intraspecific variation (variation between cultivars) was evaluated using five cultivars of Spiraea japonica and one wild collected genotype. Within this species, there was a range of TP0 values of 1.66 MPa, with S. japonica 'Little Princess' having the highest estimated drought tolerance (TP0 = -2.78) and the wild-type S. japonica having the lowest (TP0 = -4.44 MPa).
climate change; drought; plant selection; urban environments
HortScience
2023, Volume: 58, number: 5, pages: 573-579 Publisher: AMER SOC HORTICULTURAL SCIENCE
Landscape Architecture
DOI: https://doi.org/10.21273/HORTSCI17063-22
https://res.slu.se/id/publ/122428