Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days
Shorter photoperiod and lower daily light integral (DLI) limit the winter greenhouse production. Extending the photoperiod by supplemental light increases biomass production but inhibits flowering in short-day plants such as Chrysanthemum morifolium. Previously, we reported that flowering in growth-chamber grown chrysanthemum with red (R) and blue (B) LED-light could also be induced in long photoperiods by applying only blue light during the last 4h of 15h long-days. This study investigates the possibility to induce flowering by extending short-days in greenhouses with 4h of blue light. Furthermore, flower induction after 4h of red light extension was tested after short-days RB-LED light in a growth-chamber and after natural solar light in a greenhouse. Plants were grown at 11h of sole source RB light (60:40) in a growth-chamber or solar light in the greenhouse (short-days). Additionally, plants were grown under long-days, which either consisted of short-days as described above extended with 4h of B or R light to long-days or of 15h continuous RB light or natural solar light. Flower initiation and normal capitulum development occurred in the blue-extended long-days in the growth-chamber after 11h of sole source RB, similarly as in short-days. However, when the blue extension was applied after 11h of full-spectrum solar light in a greenhouse, no flower initiation occurred. With red-extended long-days after 11h RB (growth-chamber) flower initiation occurred, but capitulum development was hindered. No flower initiation occurred in red-extended long-days in the greenhouse. These results indicate that multiple components of the daylight spectrum influence different phases in photoperiodic flowering in chrysanthemum in a time-dependent manner. This research shows that smart use of LED-light can open avenues for a more efficient year-round cultivation of chrysanthemum by circumventing the short-day requirement for flowering when applied in emerging vertical farm or plant factories that operate without natural solar light. In current year-round greenhouses’ production, however, extension of the natural solar light during the first 11 h of the photoperiod with either red or blue sole LED light, did inhibit flowering.
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| Subjects: | blue extended long-day, chrysanthemum, morphology, photoperiodic flowering, supplemental lighting, vertical farm, |
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dig-wur-nl-wurpubs-5797102025-01-14 SharathKumar, Malleshaiah Heuvelink, Ep Marcelis, Leo F.M. van Ieperen, Wim Article/Letter to editor Frontiers in Plant Science 11 (2021) ISSN: 1664-462X Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days 2021 Shorter photoperiod and lower daily light integral (DLI) limit the winter greenhouse production. Extending the photoperiod by supplemental light increases biomass production but inhibits flowering in short-day plants such as Chrysanthemum morifolium. Previously, we reported that flowering in growth-chamber grown chrysanthemum with red (R) and blue (B) LED-light could also be induced in long photoperiods by applying only blue light during the last 4h of 15h long-days. This study investigates the possibility to induce flowering by extending short-days in greenhouses with 4h of blue light. Furthermore, flower induction after 4h of red light extension was tested after short-days RB-LED light in a growth-chamber and after natural solar light in a greenhouse. Plants were grown at 11h of sole source RB light (60:40) in a growth-chamber or solar light in the greenhouse (short-days). Additionally, plants were grown under long-days, which either consisted of short-days as described above extended with 4h of B or R light to long-days or of 15h continuous RB light or natural solar light. Flower initiation and normal capitulum development occurred in the blue-extended long-days in the growth-chamber after 11h of sole source RB, similarly as in short-days. However, when the blue extension was applied after 11h of full-spectrum solar light in a greenhouse, no flower initiation occurred. With red-extended long-days after 11h RB (growth-chamber) flower initiation occurred, but capitulum development was hindered. No flower initiation occurred in red-extended long-days in the greenhouse. These results indicate that multiple components of the daylight spectrum influence different phases in photoperiodic flowering in chrysanthemum in a time-dependent manner. This research shows that smart use of LED-light can open avenues for a more efficient year-round cultivation of chrysanthemum by circumventing the short-day requirement for flowering when applied in emerging vertical farm or plant factories that operate without natural solar light. In current year-round greenhouses’ production, however, extension of the natural solar light during the first 11 h of the photoperiod with either red or blue sole LED light, did inhibit flowering. en application/pdf https://research.wur.nl/en/publications/floral-induction-in-the-short-day-plant-chrysanthemum-under-blue- 10.3389/fpls.2020.610041 https://edepot.wur.nl/542455 blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm |
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blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm SharathKumar, Malleshaiah Heuvelink, Ep Marcelis, Leo F.M. van Ieperen, Wim Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| description |
Shorter photoperiod and lower daily light integral (DLI) limit the winter greenhouse production. Extending the photoperiod by supplemental light increases biomass production but inhibits flowering in short-day plants such as Chrysanthemum morifolium. Previously, we reported that flowering in growth-chamber grown chrysanthemum with red (R) and blue (B) LED-light could also be induced in long photoperiods by applying only blue light during the last 4h of 15h long-days. This study investigates the possibility to induce flowering by extending short-days in greenhouses with 4h of blue light. Furthermore, flower induction after 4h of red light extension was tested after short-days RB-LED light in a growth-chamber and after natural solar light in a greenhouse. Plants were grown at 11h of sole source RB light (60:40) in a growth-chamber or solar light in the greenhouse (short-days). Additionally, plants were grown under long-days, which either consisted of short-days as described above extended with 4h of B or R light to long-days or of 15h continuous RB light or natural solar light. Flower initiation and normal capitulum development occurred in the blue-extended long-days in the growth-chamber after 11h of sole source RB, similarly as in short-days. However, when the blue extension was applied after 11h of full-spectrum solar light in a greenhouse, no flower initiation occurred. With red-extended long-days after 11h RB (growth-chamber) flower initiation occurred, but capitulum development was hindered. No flower initiation occurred in red-extended long-days in the greenhouse. These results indicate that multiple components of the daylight spectrum influence different phases in photoperiodic flowering in chrysanthemum in a time-dependent manner. This research shows that smart use of LED-light can open avenues for a more efficient year-round cultivation of chrysanthemum by circumventing the short-day requirement for flowering when applied in emerging vertical farm or plant factories that operate without natural solar light. In current year-round greenhouses’ production, however, extension of the natural solar light during the first 11 h of the photoperiod with either red or blue sole LED light, did inhibit flowering. |
| format |
Article/Letter to editor |
| topic_facet |
blue extended long-day chrysanthemum morphology photoperiodic flowering supplemental lighting vertical farm |
| author |
SharathKumar, Malleshaiah Heuvelink, Ep Marcelis, Leo F.M. van Ieperen, Wim |
| author_facet |
SharathKumar, Malleshaiah Heuvelink, Ep Marcelis, Leo F.M. van Ieperen, Wim |
| author_sort |
SharathKumar, Malleshaiah |
| title |
Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| title_short |
Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| title_full |
Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| title_fullStr |
Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| title_full_unstemmed |
Floral Induction in the Short-Day Plant Chrysanthemum Under Blue and Red Extended Long-Days |
| title_sort |
floral induction in the short-day plant chrysanthemum under blue and red extended long-days |
| url |
https://research.wur.nl/en/publications/floral-induction-in-the-short-day-plant-chrysanthemum-under-blue- |
| work_keys_str_mv |
AT sharathkumarmalleshaiah floralinductionintheshortdayplantchrysanthemumunderblueandredextendedlongdays AT heuvelinkep floralinductionintheshortdayplantchrysanthemumunderblueandredextendedlongdays AT marcelisleofm floralinductionintheshortdayplantchrysanthemumunderblueandredextendedlongdays AT vanieperenwim floralinductionintheshortdayplantchrysanthemumunderblueandredextendedlongdays |
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