Physiological and environmental control of seed germination timing in Mediterranean mountain populations of Gundelia tournefortii

Fruit and seed morphology interact with embryo physiology and environmental conditions to control seed germination timing. This interaction plays a pivotal role in ecosystems with narrow windows for seedling establishment, such as the Mediterranean mountains. In this study, we investigated the germination responses of the secondary capitula (disseminules) of Gundelia tournefortii from East Mediterranean mountain populations. When incubated at 15 degrees C, intact capitula did not reach 20% of final germination, with or without the addition in the germination substrate of GA(3) (250 mg L-1), while extracted fruits reached 50% of germination, which increased to ca. 70% when treated with GA(3). Cold stratification enhanced final germination of the capitula at 15 degrees C to ca. 65%, although almost half of the initially sown capitula germinated during the second month of stratification at 5 degrees C. During the stratification at 5 degrees C, peak puncture force needed to pierce the basal part of the capitula decreased linearly and capitula started germinating after one month, which corresponded to a peak puncture force of 0.41-0.35 N. These findings highlight the presence of mechanical and hormonal components of physiological seed dormancy. The morphology of the disseminules controls seed germination timing, by interacting with cold winter temperatures and starting seed germination only in early winter. These findings not only provide new insights on the reproduction from seeds of this plant, but by highlighting high germination of cold-stratified intact capitula, can also support plant propagation programmes for this key wild edible species, very important for food security and the livelihoods of local communities in the East Mediterranean region.

Automated summary

The study investigated the germination responses of the secondary capitula of Gundelia tournefortii from East Mediterranean mountain populations. Results showed that temperature and plant morphology play a crucial role in controlling seed germination timing, with cold stratification enhancing germination rates. The findings highlight the presence of mechanical and hormonal components of physiological seed dormancy, which can be valuable for plant propagation programs and food security in the East Mediterranean region.