ASHS 2024 Conference

Soybean is a short-day plant, which means that days must be shorter than a critical value to induce flowering. Manipulating the photoperiod regime is a well-known way to shorten plant cycles in speeding breeding programs. However, the impact of the photoperiod on the quality of the produced seeds is not well understood. Here, we investigate how photoperiod affected the seed and seedling quality in soybean plants, grown in a controlled environment. Soybean (Glycine max) plants (var. S16-14801C and CZ7570LL) were grown in growth chambers with controlled temperature (27 ± 0.5˚C), CO2 (475 ± 15 µmol mol-1), humidity (70 ± 5.0%), and light (300 ± 5 µmol m-2 s-1 at table; 20% blue,10% green, 70% red). One week after germination, seedlings were exposed to different photoperiod regimes: i) 10 h (0 w at 18 h), ii) two weeks at 18 h and then 10 h (2 w at 18 h), iii) four weeks at 18 h and then 10 h (4 w at 18 h); iv) six weeks at 18 h and then 10 h (6 w at 18 h). The plants were grown in the described treatments until the R8 stage (95% brown pods), without changing the light fixture height (industry standard practice). A sample of seeds was harvested and analyzed regarding quality while other samples were placed to germinate in seed germination paper to evaluate germination rate and seedling growth for 10 days. Similar results were found for both varieties; plants of all treatments presented different heights, in which plants at 0 w at 18 h were shorter (50 cm) and 6 w at 18 h taller (180 cm). Treatments did not affect the moisture or weight of 100 seeds. Conversely, germination and seedling survival were 30% lower in seeds from plants 0 w at 18 h than in other treatments. Similar results were found for the root (13% lower in 0 w at 18 h) and shoot length (19% lower in 0 w at 18 h) of seedlings. However, the dry weight of seedlings was similar among treatments. Manipulating the photoperiod can speed up the plant cycle and is a good alternative for speed-breading programs. However, extreme photoperiods and low daily light integral can produce seeds and seedlings with lower quality that can influence the production of plants of the next generation.