Abstract
Abstract: Dormancy, a process that allows seeds to survive in adverse environments, needs to be broken for germination to start, for example, by the disruption of the impermeable layer of seeds. Mature seeds of Erythrina speciosa present seed coat impermeability, whose degree depends on the year of production. The objective of this study was to analyze the physical, physiological, anatomical, and ultrastructural seed coat modifications, according to the environmental conditions in which seeds were produced, as well as the seed sensitivity to treatments as for breaking dormancy. E. speciosa seeds were collected for six years in a row and were analyzed as for dormancy degree. Moreover, chemical scarifications by different immersion times were applied on seeds from two production years, as well as mechanical scarification, which was an efficient methodology to overcome dormancy. Different immersion times by acid scarification were necessary to break dormancy in each harvest year. It was possible to conclude that the climatic conditions under which the mother plant is submitted can influence the dormancy degree of E. speciosa seeds, but the expected anatomical changes between dormant and non-dormant seeds were not found in seeds from this species.
Highlights
The seed coat is an essential structure, both physically and physiologically
Evaluations were carried out every other day for 30 days, and seeds that emitted a primary root with an equal to or greater than 0.5 cm size were recorded for the calculation of germination percentage and mean germination time (Santana and Ranal, 2004)
Germination results from the different samples showed the variation in dormancy intensity, which was lower in the 2010 and 2014 collections and higher in the 2011, 2012 and 2015 ones
Summary
The seed coat is an essential structure, both physically and physiologically. As well as being a protective barrier between the embryo and the environment, the structural and molecular variations found among different coats deeply influence the physiology of the seed. The variations found in the coat thickness affect germination and dormancy (Coen and Magnani, 2018). Seed coat impermeability to water or gas is known as physical exogenous dormancy and is a common phenomenon among Fabaceae species. This type of dormancy can be caused by several factors, which can be isolated or combined. The application of sulfuric acid for five minutes breaks the dormancy of Stylosanthes humilis seeds (Chaves et al, 2017)
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