Effects of the pericarp on imbibition, seed germination, and seedling establishment in seeds of <i>Hedysarum scoparium</i> Fisch. et Mey

Hu, Xiao Wen; Wang, Yan Rong; Wu, Yan

doi:10.1007/s11284-008-0524-y

Cited by 40 publications

(36 citation statements)

References 11 publications

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“…Based on our results, the lemmas significantly increased the amount of water uptake, especially during the initial 10 h. This characteristic might protect the seeds under dry conditions because the seeds can absorb more water and increase the water use efficiency to resist the drought stress. However, this result is not in agreement with that of Hu, Wang & Wu (2009) for Hedysarum scoparium . This discrepancy might be the result of the different plant species, seed size, adaptive mechanism and living environments of the two species.…”

Section: Resultscontrasting

confidence: 89%

“…Therefore, several research efforts have tried to explore how to remove the lemmas by artificial means and enhance the seed germination percentage of Leymus chinensis . However, certain researchers reported that the seed coat was assumed to be beneficial for long-term seed survival in the soil, especially in harsh, dry environments (Chacón & Bustamante, 2001; Hu, Wang & Wu, 2009). In the Songnen grassland of China, Leymus chinensis exists as the dominant species.…”

Section: Introductionmentioning

confidence: 99%

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Lemmas induce dormancy but help the seed ofLeymus chinensisto resist drought and salinity conditions in Northeast China

Lin

Shao

Zhang

et al. 2016

PeerJ

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Leymus chinensis is a dominant grass in the Songnen grassland of Northern China. The lower germination caused by the presence of lemmas has proved to be an obstacle for the use of the seeds of this plant by humans. However, it is still unknown if the lemmas have other ecological roles such as resisting drought and saline conditions. Three experiments were designed to investigate the ecological roles of the lemmas in Leymus chinensis seeds. The results showed that lemmas significantly improved the amount of water uptake and slowed down the dehydration rate of the seeds under dry conditions. Likewise, the lemmas induced seed dormancy, and removal of the lemmas improved the germination at all temperatures. Although germination percentage of the seeds without lemmas were higher than that of seeds with lemmas under salinity stress, the recovery and total percentage were significantly lower than the seeds with lemmas, especially at 400 mM stress. These results suggest that the lemmas play a vital function in water uptake, dehydration and salt tolerance during the germination stage of the seeds as a response to adverse environmental conditions. Although lemmas showed a dormancy effect, if we want to plant this species in salinity soil in Northeast China, the approach of removing the lemmas by artificial means and improving the seed germination percentage is not feasible.

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Section: Resultscontrasting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Lemmas induce dormancy but help the seed ofLeymus chinensisto resist drought and salinity conditions in Northeast China

Lin

Shao

Zhang

et al. 2016

PeerJ

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“…This delay in germination can favour the formation of a seed bank in the soil if seed viability is maintained. The structures surrounding the seeds, such as the endocarp and pericarp, were associated with delayed germination of primary tropical species (Hopkins & Graham 1987), and in some species, these structures play an important role in preventing water loss in seeds, thereby helping maintain the viability and extending the longevity of buried seeds (Lobova et al 2003;Hu et al 2009), including Lauraceae species (Chacón & Bustamante 2001). These roles may be particularly important for the formation of a seed bank in the soil in desiccation-sensitive species.…”

Section: Introductionmentioning

confidence: 99%

Seed survival of the tropical treeCryptocarya aschersoniana(Lauraceae): Consequences of habitat disturbance

et al. 2015

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Seed survival in soil could be strongly influenced by habitat characteristics, but little is known about the behaviour of seeds sensitive to desiccation in seed banks installed in natural or disturbed habitats. Cryptocarya aschersoniana seeds disperse at the end of the rainy season but do not germinate immediately; thus, they may form seed banks in soil. This study evaluated the behaviour of C. aschersoniana seed banks induced in the natural environment of the species and in a disturbed area. Recently harvested C. aschersoniana germination units were characterized according to their water content, germination and viability. In 2011 and 2012, seed banks were established by burying samples of seeds in the understory of a semi-deciduous forest. In 2012, samples were also buried in a disturbed area. The seed banks were sampled at certain time intervals, and the samples were characterized as described above. Precipitation and air temperature data were collected. As a result, seeds in the seed bank established in the natural environment form a transient seed bank and showed the same behaviour in both years studied. A germination peak was observed starting 210 days after burial (coinciding with the onset of the rainy season) and reached germination percentages higher than 80% at the end of the experiment for both years. Seed mortality did not exceeded 28% in the natural environment. However, in the disturbed environment, the seeds lost their viability more rapidly, with 90% of the seeds becoming unviable 240 days after burial. Germinated seeds in the disturbed environment (maximum 21%) were not able to establish seedlings. These results underscore the importance of maintaining a natural, undisturbed forest for the conservation of this species.

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“…Although a flesh cover is beneficial for seed longevity in arid environments (Hu et al, 2009), it may delay rapid germination possibilities of recalcitrant seeds. The fresh 'intact fruit' (26%) germination success was as low as that of the stored 'true seed', indicating that humans, monkeys and other animals may be important in assisting the seed germination process when consuming the pulp.…”

Section: Tablementioning

confidence: 99%

Seed predation and moisture limit germination of recalcitrant Dobera glabra (Salvadoraceae) seeds in the Afar rangelands, Ethiopia

Tsegaye

Moe

Haile

2011

Journal of Arid Environments

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Effects of the pericarp on imbibition, seed germination, and seedling establishment in seeds of Hedysarum scoparium Fisch. et Mey

Cited by 40 publications

References 11 publications

Lemmas induce dormancy but help the seed ofLeymus chinensisto resist drought and salinity conditions in Northeast China

Lemmas induce dormancy but help the seed ofLeymus chinensisto resist drought and salinity conditions in Northeast China

Seed survival of the tropical treeCryptocarya aschersoniana(Lauraceae): Consequences of habitat disturbance

Seed predation and moisture limit germination of recalcitrant Dobera glabra (Salvadoraceae) seeds in the Afar rangelands, Ethiopia

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