Thermal shock and germination in North-West European Genisteae: implications for heathland management and invasive weed control using fire

Question: Is the stimulation of germination by thermal shock (resulting from the passage of fire) commonly observed for Mediterranean-climate Fabaceae also apparent for NW European Genisteae (Fabaceae) species? Location: Southern England and NW France. Methods: The germination of Cytisus scopiarius,...

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Bibliographic Details
Published in:Applied vegetation science 2009-08, Vol.12 (3), p.385-390
Main Author: Hanley, M.E
Format: Article
Language:English
Subjects:
Climate change
Cytisus scoparius
Ecology
Ecoregions
Fabaceae
Fire ecology
Genista
Genista anglica
geographical variation
Germination
Heat shock
heat stress
heat treatment
Heathland
Heathlands
Invasive species
land management
natural regeneration
plant establishment
Plants
Population ecology
Post-fire regeneration
prescribed burning
provenance
seed germination
shrublands
Spartium junceum
Species
species differences
Thermal shock
Ulex
Ulex gallii
Ulex minor
Weed management
wild plants
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Summary:Question: Is the stimulation of germination by thermal shock (resulting from the passage of fire) commonly observed for Mediterranean-climate Fabaceae also apparent for NW European Genisteae (Fabaceae) species? Location: Southern England and NW France. Methods: The germination of Cytisus scopiarius, Genista anglica, Ulex europaeus, Ulex gallii and Ulex minor was examined following exposure to a range of temperatures (50°C, 65°C, 80°C, 95°C and 110°C) applied to seeds for 5 min. A sixth Mediterranean-origin species (Spartium junceum) was also included since it is a common invasive in NW Europe and North America. Results: All five native NW European species displayed increased germination following thermal shock, even when seeds were heated to 110°C. However, there was some variation depending on provenance: in contrast to seeds collected from southern England, germination of French C. scopiarius seeds was unaffected by temperature. Spartium junceum germinated most at 95°C, but was the only species to show reduced germination when seeds were heated to 110°C. Conclusions: The NW European Genisteae appear to be pre-adapted to the high temperatures associated with fire; a response attributable to their evolutionary origins in the fire-prone ecosystems of the Mediterranean Basin. Consequently, projected increases in fire frequency linked to climate change may stimulate their regeneration in NW European heathlands, potentially altering the species composition of these ecosystems. Additionally, a clearer understanding of the interaction between thermal shock and germination may explain why fire has so frequently been ineffective in controlling invasive Genisteae populations worldwide.
ISSN:1402-2001
1654-109X
DOI:10.1111/j.1654-109X.2009.01038.x