S.P.C. Groot scite author profile

Plant genetic resources are conserved by genebanks mainly in the form of seeds. In most of the cases, the dried seeds can be stored for a considerable period of time, but eventually seed deterioration results in the inability to generate healthy seedlings. Prolonging seed longevity during storage reduces the frequency of regeneration, which is beneficial from a genetic as well as a management point of view. To reduce the rate of deterioration, cool and dry storage conditions are usually practised for long-term seed storage. In spite of the growing body of evidence that seed deterioration is predominantly caused by oxidative processes, the importance of seed storage under anoxic conditions has received little attention from the genebank community. Herein, we report on the effects of anoxia on seed viability, the oxygen uptake by dry seeds in closed containers and the permeability for oxygen of various seed storage containers. Our results confirm that the ageing of dry seeds is accelerated by the presence of oxygen in the storage environment. Therefore, we recommend that genebanks store dry seeds under anoxic conditions to prolong their longevity during ex situ conservation. To reduce the initial rate of viability loss, we further recommend that the period of temporary storage after seed harvest be minimized and also that the seeds are kept during this period under controlled conditions, including anoxia.

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A fast ethanol assay to detect seed deterioration

Kodde¹,

Buckley

Groot

et al. 2011

Seed Sci. Res.

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The most common way to test seed quality is to use a simple and reliable but time-and space-consuming germination test. In this paper we present a fast and simple method to analyse cabbage seed deterioration by measuring ethanol production from partially imbibed seeds. The method uses a modified breath analyser and is simple compared to gas chromatographic or enzymatic procedures. A modified method using elevated temperatures (408C instead of 208C) shortened the assay time and improved its sensitivity. The analysis showed an inverse correlation between ethanol production and seed quality (e.g. the final percentages or speed of germination and the number of normal seedlings). The increase in ethanol production was observed when cabbage seeds were deteriorated by storage under ambient conditions or hot water treatments, both of which reduced the number of normal seedlings. Premature seeds produced more ethanol upon imbibition than mature seeds. Ethanol production occurred simultaneously with oxygen consumption, indicating that lack of oxygen is not the major trigger for ethanol production.

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Genotypic variation of rootstocks for growth and production in cucumber; possibilities for improving the root system by plant breeding

Zijlstra

Groot

Jansen

1994

Scientia Horticulturae

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Disinfection of vegetable seed by treatment with essential oils, organic acids and plant extracts

Wolf¹,

Birnbaum²,

Zouwen³

et al. 2008

Seed Sci. Technol.

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S.P.C. Groot

Key Role for Endogenous Gibberellins in the Control of Seed Germination

Prolonging the longevity of ex situ conserved seeds by storage under anoxia

A fast ethanol assay to detect seed deterioration

Genotypic variation of rootstocks for growth and production in cucumber; possibilities for improving the root system by plant breeding

Disinfection of vegetable seed by treatment with essential oils, organic acids and plant extracts

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