Butenolides from Plant-Derived Smoke: Natural Plant-Growth Regulators with Antagonistic Actions on Seed Germination

Light, M.E.; Burger, B. V.; Stærk, Dan; Kohout, Ladislav; Staden, J. Van

doi:10.1021/np900630w

Cited by 106 publications

(78 citation statements)

References 18 publications

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“…This elevated plant mass production in response to the fire-related treatments has been repeatedly shown for a range of agricultural and horticultural crops (Kulkarni et al 2010). Although the mechanisms responsible for the elevated growth rate are not fully understood, there is a general suggestion that the active compound(s) present in plant-derived smoke perhaps influence enzyme systems which control growth rate (Light et al 2010). Findings of this greenhouse experiment suggest that not only are smoke-responsive species more likely to germinate following a fire in the field, but also that a faster growth rate of some smoke-responsive species will increase their competitive ability for limiting resources (Tilman 1988).…”

Section: Discussionmentioning

confidence: 86%

Smoke and heat: influence on seedling emergence from the germinable soil seed bank of mesic grassland in South Africa

et al. 2011

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We examined if germination and seedling emergence of species from the soil seed bank of mesic grassland in South Africa differed in their response to smoke or heat treatments alone or combined. Soil seed bank samples taken from 0 to 5 cm depth of the topsoil were treated with smoke-water solution, heat and heat ? smoke-water combined and subsequent emergence of seedlings monitored over 90 days. In total, 790 individuals from 11 different plant families representing 37 graminoid (Poaceae) and non-graminoid species of flowering plants were identified. The most abundant plant families that emerged were Poaceae followed by Asteraceae. Grasses contributed 18% of the germinable seed bank, while non-grass (forbs and trees) species contributed [80%. The most abundant grass species that emerged was Themeda triandra and the most common forb species was Centella asiatica. Compared to the control, smoke-water (SW) and/or smoke-water ? heat (H ? SW) treatment resulted in a 1.6-fold increase in mean number of seedling emergence. SW and H ? SW treatment of soil seed bank also resulted in fourfold to fivefold greater biomass production. These results suggest that emergence of some smoke-responsive perennial grasses (e.g. Themeda triandra) from the soil seed bank can be enhanced using smoke techniques. Moreover, plant-derived smoke could potentially have a significant role in the restoration of degraded grasslands in South Africa and elsewhere.

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Section: Discussionmentioning

confidence: 86%

Smoke and heat: influence on seedling emergence from the germinable soil seed bank of mesic grassland in South Africa

et al. 2011

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“…It is a heat-stable, long-lasting and water-soluble compound that can stimulate seed germination and seedling growth at very low concentrations (1-100 nM) [25,[27][28][29][30]. At present, butenolide can be artificially synthesized and has wide applicability as a germination and growth stimulant with potential implications for both weed management and improving crop seedling growth [31][32][33].…”

Section: Introductionmentioning

confidence: 99%

Effects of smoke water and karrikin on seed germination of 13 species growing in China

JunFang¹,

Silva

2014

Open Life Sciences

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Plant-derived smoke water (SW), derived from combusted plant material, has been shown to stimulate seed germination and improve seedling vigor of a number of plant species from fire-dependent Mediterranean-type climate areas. The effects of SW on seed germination of 13 plant species from southern tropical and subtropical monsoon climate regions of South China are reported for the first time in this study using laboratory and pot trials. Among the 13 species tested, only Aristolochia debilis showed a significant positive response to commercial SW when diluted 1:10. Seed germination of A. debilis was also stimulated by 1-100 nM 3-methyl-2H-furo [2, 3-c] pyran-2-one (karrikin 1 or KAR 1 ) and by 10-1000 µM gibberellic acid (GA 3 ). GA 3 stimulated seed germination of Santalum album and significantly elongated the radicles of A. debilis while SW could not. The functions and/or metabolic pathways of Kar 1 and GA 3 are likely to be separate and/or distinct.

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“…There are also examples showing that KAR 1 and smoke are not equally effective in all species. Smoke contains many compounds besides the KAR 1 , some of which may inhibit germination (Light et al 2010). Both smoke and the KAR 1 stimulate germination of partially dormant caryopses (seeds) of Avena fatua, an important widespread, persistent weed, which infests agricultural soils for several years (Adkins and Peters 2001;Kępczyński et al 2006b;Daws et al 2007;Stevens et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Interaction of karrikinolide and ethylene in controlling germination of dormant Avena fatua L. caryopses

Kępczyński

Staden

2012

Plant Growth Regul

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Caryopses of Avena fatua L. are dormant after harvest and germinate poorly at 20°C. Dormancy was released by after-ripening the dry caryopses in the dark at 25°C for 3 months. Karrikinolide (butenolide, 3-methyl-2H-furo[2,3-c]pyran-2-one, KAR 1 ), in contrast to exogenous ethylene and the precursor of ethylene biosynthesis 1-aminocyclopropane-1-carboxylic acid (ACC), completely overcame dormancy. The effect of KAR 1 was not affected by aminoethoxyvinylglycine (AVG), a-aminoisobutyric acid (AIB) and CoCl 2 , inhibitors of ACC synthase and oxidase, respectively. 2,5-Norbornadiene (NBD), a reversible inhibitor of ethylene binding to its receptor, counteracted the stimulatory effect of KAR 1 . Ethylene, ethephon and ACC counteracted and AVG reinforced inhibition caused by norbornadiene. Inhibition due to norbornadiene, applied during the first 3 days of imbibition in the presence of KAR 1 , disappeared after transfer to air or ethylene. The obtained results confirm that KAR 1 breaks dormancy and indicate that ethylene alone plays no role in releasing dormancy of Avena fatua caryopses. KAR 1 probably did not relieve dormancy via the stimulation of ethylene biosynthesis. Some level of endogenous ethylene is probably required for ethylene action, which might be required for releasing dormancy by KAR 1 or for subsequent germination of caryopses after removing dormancy.

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Butenolides from Plant-Derived Smoke: Natural Plant-Growth Regulators with Antagonistic Actions on Seed Germination

Cited by 106 publications

References 18 publications

Smoke and heat: influence on seedling emergence from the germinable soil seed bank of mesic grassland in South Africa

Smoke and heat: influence on seedling emergence from the germinable soil seed bank of mesic grassland in South Africa

Effects of smoke water and karrikin on seed germination of 13 species growing in China

Interaction of karrikinolide and ethylene in controlling germination of dormant Avena fatua L. caryopses

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