Low-intensity (≈ 2 μmol·m−2·s−1) photoperiodic lighting is often delivered at night to promote flowering of long-day greenhouse ornamentals when natural days are short. Adding sufficient far-red (FR) light to red (R) light is necessary for the most rapid flowering in some crops, including snapdragon (Antirrhinum majus) and petunia (Petunia × hybrida). Specialty light-emitting diodes (LEDs) that include R FR light are effective at floral promotion but cost-prohibitive, whereas common warm-white (WW) LEDs lack sufficient FR light and can delay flowering. Because the duration to saturate flowering is longer than currently used (e.g., 4–8 hours) for some long-day plants, we conducted a replicated greenhouse experiment to determine how the WW or R FR LED lighting duration influenced flowering. We grew snapdragon ‘Liberty Classic Yellow’, petunia ‘Easy Wave Burgundy Star’, and petunia ‘Wave Purple Improved’ under truncated 8-hour natural short days with or without WW or R FR (1:1) LEDs operating for 0, 4, 8, 12, or 16 hours in the middle of each night throughout the experiment. Snapdragon flowered 13–16 days earlier under R FR LEDs than under WW LEDs regardless of the lighting duration. Increasing the lighting duration from 0 to 16 hours decreased flowering time by up to 16 days and decreased plant height and leaf number at flowering under R FR LEDs, but not under WW LEDs. For petunia ‘Easy Wave Burgundy Star’, although WW LEDs delayed flowering by 6–13 days but promoted lateral branching compared to R FR LEDs, the gap in flowering time narrowed as the lighting duration increased from 4 to 16 hours. Increasing the lighting duration improved the efficacy of WW LEDs, but not R FR LEDs. Flowering of petunia ‘Wave Purple Improved’ was unaffected as the lighting duration increased from 4 to 16 hours regardless of the lamp type and was delayed by 6–10 days under WW LEDs than under R FR LEDs. For both petunia cultivars, flowering time was similar under 16-hour WW LEDs and 4-hour R FR LEDs. In conclusion, increasing the nighttime lighting duration increased the efficacy of WW LEDs at promoting flowering of petunia and increased the efficacy of R FR LED lamps at promoting flowering of snapdragon. Delivering WW LEDs all night long can minimize flowering delay in petunia compared to R FR LEDs. In contrast, sufficient FR light was indispensable to promote flowering of snapdragon, for which WW LEDs were ineffective.
