Decoding the decisive role of seed moisture content in physical dormancy break: filling the missing links

Document Type

Article

Publication Date

1-2024

Journal Title

Plant Biology

ISSN

ISSN: 1435-8603 eISSN: 1438-8677

Keywords

Hydrolysis, impermeable seed coat, lipid changes, preconditioning, shallow and absolute py, water gap

Disciplines

Agricultural Science | Agronomy and Crop Sciences

Abstract

Species producing seeds with a water-impermeable seed coat, i.e., physical dormancy (PY), dominate the dry tropical forests. Despite increasing interest and understanding of the germination ecology of a PY species, less is known about how PY break occurs, particularly what changes lead to the opening of the ‘water gap’. Based on the moisture conent (MC) attained, two ranges of PY may exist: shallow PY, a state with higher MC and seeds could reverse to a permeable state when the relative humidity increases; and absolute PY, a completely dry state. Here, we demonstrate that this MC variation between seeds affects preconditioning and the ‘water-gap’ opening stages. A conceptual model developed shows a strong relationship between temperature and duration, with high temperature breaking PY in seconds, but seasonal temperature fluctuations and constant temperatures require a longer time. The duration required at any conditions to break PY is purported to depend on the hydrophobic bonds of the lipids, which are likely weakened during the preconditioning, and the amount of water influences hydrolysis, leading to the ‘water-gap’ opening. We argue that the moisture content of the seeds and its interaction with biochemical compounds are a possible explanation for why only a proportion of PY seeds become permeable to water each year. Nonetheless, empirical investigations must validate these notions.

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Digital Object Identifier (DOI)

https://doi.org/10.1111/plb.13602