Abstract
Many organisms have dormant stages with an extension of their life span to increase longevity, and deeper dormancy is usually related to greater longevity. In cereal crops, seed dormancy is significantly associated with pre-harvest sprouting tolerance during seed development, as seed longevity is a valuable trait for seed banks and providing reliable crop seeds to farmers. In this study, we evaluated both seed dormancy and longevity in bread wheat based on germination and artificial aging tests. According to phenotypic clustering analysis, relative germination rate/potential and relative seedling vigor index were more effective to indicate seed longevity than relative electrical conductivity in wheat, while all the four investigated phenotypes of relative germination potential, relative germination rate, germination index and degree of seed dormancy fit well as a reflex of wheat seed dormancy. In the correlation analysis, the germination level of newly harvested grain negatively reflected its degree of seed dormancy, while the germination ability of grain after artificial aging reflected its seed longevity. However, in contrast to the current opinion in plant, seed dormancy was significantly negatively correlated to seed longevity in our study, and it was not an accidental phenomenon, for that the majority of accessions with high degree of seed dormancy had short seed longevity. To our knowledge, this is the first to report the negative association between seed dormancy and longevity in cereal crops. It would lead to further concerns about how to breed wheat with both prolonged seed longevity and deep dormancy to avoid pre-harvest sprouting.
Highlights
Dormancy is described as a condition of apparent metabolic arrest with life activities reduced or brought to a halt
For the measurement of seed dormancy, 4 germination related indexes including, relative germination potential, relative germination rate, germination index and degree of seed dormancy were used for indicating seed dormancy
A total of 4 indexes were calculated for the measurement of seed longevity, as relative germination potential, relative germination rate, relative vigor index and relative electrical conductivity after artificial aging
Summary
Dormancy is described as a condition of apparent metabolic arrest with life activities reduced or brought to a halt. Many organisms have dormant stages, which have been related to an extension of their life span to increase longevity [1] Cereal crops such wheat [2], rice [3] [4] and maize [5] [6] [7] usually produce dormant seeds at maturity stage, which is called as seed (innate) dormancy and described as the temporary failure of an intact viable seed to complete germination under favorable conditions [8]. Seed longevity is often negatively correlated with the advancement of germination [16] It is a complex trait influenced by two most important environmental factors: 1) relative humidity, which is related to seed moisture content; 2) temperature, which affects the rate of biochemical processes in seeds [17] [18]. In the case of wheat seed longevity has negative relation with temperature and moisture [19], and it shows their diversification in different varieties [20]
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