Evaluating the relative storability of IDS-treated and untreated Pinus patula seeds by accelerated ageing


Citation

Demelash L., . and Tigabu M., . and Oden P. C., . Evaluating the relative storability of IDS-treated and untreated Pinus patula seeds by accelerated ageing. pp. 206-217. ISSN 0128-1283

Abstract

Evaluating the relative storability of IDS (Incubation. Drying and Separation)-treated and untreated Pinus patula seeds were subjected to nine accelerated ageing regimes in 100 relative humidity at 41 degree C to evaluate their relative storability. Germination capacity mean germination time and leachate conductivity were measured before and after ageing treatments. All accelerated ageing treatments decreased the germination capacity (viability) and speed of germination (vigour).The reduction of viability and vigour was greater for untreated seeds. Seed moisture content and leachate conductivity also increase with ageing. The latter was significantly higher in untreated seeds. Leachate conductivity was negatively correlated with germination capacity and positively correlated with mean germination time for both seeds. Since IDS-treated seeds tolerated the stress induced by accelerated ageing better than untreated seeds it can be concluded that IDS-treated seeds will have better storability. The strong positive correlation found between leachate conductivity and mean germination time indicates that leachate conductivity can be used as a quick test of vigour for P. patula seeds.


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Abstract

Evaluating the relative storability of IDS (Incubation. Drying and Separation)-treated and untreated Pinus patula seeds were subjected to nine accelerated ageing regimes in 100 relative humidity at 41 degree C to evaluate their relative storability. Germination capacity mean germination time and leachate conductivity were measured before and after ageing treatments. All accelerated ageing treatments decreased the germination capacity (viability) and speed of germination (vigour).The reduction of viability and vigour was greater for untreated seeds. Seed moisture content and leachate conductivity also increase with ageing. The latter was significantly higher in untreated seeds. Leachate conductivity was negatively correlated with germination capacity and positively correlated with mean germination time for both seeds. Since IDS-treated seeds tolerated the stress induced by accelerated ageing better than untreated seeds it can be concluded that IDS-treated seeds will have better storability. The strong positive correlation found between leachate conductivity and mean germination time indicates that leachate conductivity can be used as a quick test of vigour for P. patula seeds.

Additional Metadata

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Item Type: Article
AGROVOC Term: Pinus patula
AGROVOC Term: Seed
AGROVOC Term: Storability
AGROVOC Term: Ageing
AGROVOC Term: Germination
AGROVOC Term: Drying
AGROVOC Term: Separation
AGROVOC Term: Relative humidity
AGROVOC Term: Leachates
AGROVOC Term: Viability
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 24 Apr 2025 06:27
URI: http://webagris.upm.edu.my/id/eprint/22198

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