Dormancy breakage and germination are tightly controlled by hypoxic submergence-water on Echinochloa crus-galli seeds from an accession resistant to anaerobic germination

ECHEVERRY J; CREPY M; STRIKER GG; MOLLARD FPO

SEED SCIENCE RESEARCH

CAMBRIDGE UNIV PRESS

Lugar: Cambridge; Año: 2020 vol. 30 p. 262 - 267

0960-2585

In wetlands, dormancy may be a key functional trait enabling seeds to avoid underwater germination, which could be lethal for seedling establishment. Our objectives were to find out (i) if shallow dormant (i.e. conditionally dormant) Echinochloa crus-galli seeds from an anaerobic germination resistant accession can break dormancy under hypoxic submergence, and (ii) if underwater germination can be restored in scarified, non- dormant seeds. Shallow dormant E. crus-galli seeds perceived diurnally alternating temperatures (AT) and red light (R) pulses (i.e. dormancy breaking cues) under hypoxic submergence; however, an inhibitory far red light pulse given at the end of the 4-d inundation period demonstrated that most of the seeds (85%) were unable to break dormancy. Scarified E. crus-galli seeds, which did not express dormancy under drained conditions, were unable to germinate under hypoxic submergence, despite being exposed to dormancy breaking cues (AT+R). Lastly, the temporal window for germination sensitivity to the inhibitory action of hypoxia, once dormancy breaking signals have been applied, is progressively lost and bounded to approximately 18 h for half of the seed lot. These results highlight the importance of dormancy as a trait enabling E. crus-galli seeds to avoid underwater germination, a risky scenario for seedling emergence and establishment in this facultative hydrophyte.