Pregermination heat shock and seedling growth of fire-following Fabaceae from four Mediterranean-climate regions
Pregermination heat shock and seedling growth of fire-following Fabaceae from four Mediterranean-climate regions
The role of heat-shock in stimulating the germination of soil-stored seeds from fire-following plant species is well known. However, the effects of high pre-germination temperatures on subsequent seedling growth are less well understood. In this study, we examined the effect of pre-germination heat shock at five temperatures (60°, 75°, 90°, 105° and 120°C, each applied for 5 min) on the seedling growth of four, fire-following Fabaceae species from four Mediterranean-type ecosystems; Hippocrepis multisiliquosa (Israel), Gastrolobium villosum (Western Australia), Cyclopia pubescens (South Africa) and Lupinus succulentus (California). Following heat treatment and subsequent germination, seedlings were grown in controlled conditions before being harvested at either 10, 20- or 40 d old. A significant increase in mean dry weight biomass was found at 10 days for Hippocrepis seedlings germinated from seeds pre-heated to 90°C. However, subsequent comparison of mean dry weight biomass for seedlings of this species at 20 and 40 d old showed no significant response to heat shock pre-treatment. Similarly, an initial increase in growth of Gastrolobium seedlings germinated from seeds heated to 90° and 105°C disappeared as the plants matured. Seedling growth of Lupinus and Cyclopia was unaffected by the pre-germination heat treatment of their seeds. Since seedling competition is influenced by the size and growth rates of neighbouring plants, any changes in seedling growth rates as a consequence of the temperature environment experienced by their seeds, may therefore influence patterns of post-fire plant community recovery.
fire, hardseededness, heat shock proteins, seeds, thermal scarification
315-320
Hanley, Mick E.
dd3d272e-0ced-44f8-a6c5-5a9a2ec8c441
Fenner, Michael
626d4c13-0ba8-4b20-b2f2-11e11cc10ae8
Ne'eman, Gidi
2dcd642d-0779-4432-9565-48995eb5792e
September 2001
Hanley, Mick E.
dd3d272e-0ced-44f8-a6c5-5a9a2ec8c441
Fenner, Michael
626d4c13-0ba8-4b20-b2f2-11e11cc10ae8
Ne'eman, Gidi
2dcd642d-0779-4432-9565-48995eb5792e
Hanley, Mick E., Fenner, Michael and Ne'eman, Gidi
(2001)
Pregermination heat shock and seedling growth of fire-following Fabaceae from four Mediterranean-climate regions.
Acta Oecologica, 22 (5-6), .
(doi:10.1016/S1146-609X(01)01124-9).
Abstract
The role of heat-shock in stimulating the germination of soil-stored seeds from fire-following plant species is well known. However, the effects of high pre-germination temperatures on subsequent seedling growth are less well understood. In this study, we examined the effect of pre-germination heat shock at five temperatures (60°, 75°, 90°, 105° and 120°C, each applied for 5 min) on the seedling growth of four, fire-following Fabaceae species from four Mediterranean-type ecosystems; Hippocrepis multisiliquosa (Israel), Gastrolobium villosum (Western Australia), Cyclopia pubescens (South Africa) and Lupinus succulentus (California). Following heat treatment and subsequent germination, seedlings were grown in controlled conditions before being harvested at either 10, 20- or 40 d old. A significant increase in mean dry weight biomass was found at 10 days for Hippocrepis seedlings germinated from seeds pre-heated to 90°C. However, subsequent comparison of mean dry weight biomass for seedlings of this species at 20 and 40 d old showed no significant response to heat shock pre-treatment. Similarly, an initial increase in growth of Gastrolobium seedlings germinated from seeds heated to 90° and 105°C disappeared as the plants matured. Seedling growth of Lupinus and Cyclopia was unaffected by the pre-germination heat treatment of their seeds. Since seedling competition is influenced by the size and growth rates of neighbouring plants, any changes in seedling growth rates as a consequence of the temperature environment experienced by their seeds, may therefore influence patterns of post-fire plant community recovery.
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Submitted date: 17 August 2000
Published date: September 2001
Keywords:
fire, hardseededness, heat shock proteins, seeds, thermal scarification
Identifiers
Local EPrints ID: 55675
URI: http://eprints.soton.ac.uk/id/eprint/55675
ISSN: 1146-609X
PURE UUID: 2f3af820-6b36-487b-b2c5-883993f55adc
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Date deposited: 05 Aug 2008
Last modified: 15 Mar 2024 10:56
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Author:
Mick E. Hanley
Author:
Michael Fenner
Author:
Gidi Ne'eman
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