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- Physiology of Cynoglossum officinale seed dormancy...
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Physiology of Cynoglossum officinale seed dormancy and germination Stabell, Elisa Ulrika
Abstract
The role of the seed coat in inhibiting seed germination of Cynoglossum officinale, a rangeland weed in British Columbia, was studied. Pricking, acid and mechanical scarification increased germination significantly. These treatments increased O₂ uptake only slightly, with the exception of an initial burst in O₂ uptake by seeds mechanically scarified for 6 h. The results suggest that only a small percent of the six-fold increase in O₂ uptake following decoating, reported in an earlier study, is necessary for seed germination. Germination of seeds incubated at a high O₂ level was greater than that of seeds incubated in air, and O₂ uptake by seeds in O₂-saturated water was 150% higher than for seeds in air-saturated water. O₂ consumption by the seed coat was not a major factor in limiting O₂ availability to the embryo in the intact seed. These results taken together suggest that C. officinale seed coat regulates germination by restricting O₂ diffusion. The seed coat may also inhibit germination by mechanically restricting embryo expansion. The methanol-insoluble phenolics constitute <1% of the total phenolic pool in the embryo. Potential oxidation of methanol-insoluble phenolics can only account for a small percentage of the large increase in O₂ uptake following decoating. The relationship between seed phenolics and appearance of seed coat-imposed dormancy during seed development was studied. During the later maturation stages, the O₂ uptake by intact, and decoated seeds declined, with a larger decrease in intact seeds. In the most mature seeds there was a three-fold increase in O₂ uptake after decoating. Decoating also increased germination from 0% to 100%. As the seeds maturated, the methanol-soluble phenolic content of the embryo remained stable but that of the seed coat declined. This decline was associated with a large increase in thioglycolic acid-soluble phenolics, presumably lignin, in the seed coat. The results suggest that during later seed maturation stages, methanol-soluble phenolics in the seed coat are polymerized to lignin. The lignin may contribute to the formation of an O₂-impermeable and mechanically hard seed coat, which in turn may render the seed dormant.
Item Metadata
| Title |
Physiology of Cynoglossum officinale seed dormancy and germination
|
| Creator | |
| Publisher |
University of British Columbia
|
| Date Issued |
1995
|
| Description |
The role of the seed coat in inhibiting seed germination of Cynoglossum officinale,
a rangeland weed in British Columbia, was studied. Pricking, acid and mechanical
scarification increased germination significantly. These treatments increased O₂ uptake
only slightly, with the exception of an initial burst in O₂ uptake by seeds mechanically
scarified for 6 h. The results suggest that only a small percent of the six-fold increase in
O₂ uptake following decoating, reported in an earlier study, is necessary for seed
germination. Germination of seeds incubated at a high O₂ level was greater than that of
seeds incubated in air, and O₂ uptake by seeds in O₂-saturated water was 150% higher
than for seeds in air-saturated water. O₂ consumption by the seed coat was not a major
factor in limiting O₂ availability to the embryo in the intact seed. These results taken
together suggest that C. officinale seed coat regulates germination by restricting O₂
diffusion. The seed coat may also inhibit germination by mechanically restricting embryo expansion.
The methanol-insoluble phenolics constitute <1% of the total phenolic pool in the
embryo. Potential oxidation of methanol-insoluble phenolics can only account for a small
percentage of the large increase in O₂ uptake following decoating.
The relationship between seed phenolics and appearance of seed coat-imposed
dormancy during seed development was studied. During the later maturation stages, the
O₂ uptake by intact, and decoated seeds declined, with a larger decrease in intact seeds. In
the most mature seeds there was a three-fold increase in O₂ uptake after decoating.
Decoating also increased germination from 0% to 100%. As the seeds maturated, the methanol-soluble phenolic content of the embryo remained stable but that of the seed coat
declined. This decline was associated with a large increase in thioglycolic acid-soluble
phenolics, presumably lignin, in the seed coat. The results suggest that during later seed
maturation stages, methanol-soluble phenolics in the seed coat are polymerized to lignin.
The lignin may contribute to the formation of an O₂-impermeable and mechanically hard
seed coat, which in turn may render the seed dormant.
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| Extent |
4245040 bytes
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| Genre | |
| Type | |
| File Format |
application/pdf
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| Language |
eng
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| Date Available |
2009-01-27
|
| Provider |
Vancouver : University of British Columbia Library
|
| Rights |
For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
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| DOI |
10.14288/1.0086955
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| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
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| Graduation Date |
1995-11
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| Campus | |
| Scholarly Level |
Graduate
|
| Aggregated Source Repository |
DSpace
|
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Rights
For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.