Effects of supplemental lighting using HPS and LED lamps with different light spectra on growth and yield of the cucumber (Cucumis sativus L.) during winter cultivation in greenhouse
References
- A
l -Mulla , Y. A., Al -Balushi , M. I., Al -Busaidi , H. A., Al -Mahdouri , A. A., Kittas , C.,and Katsoulas , N. (2018). Analysis of microclimate and cucumber fruit yield in a screenhouse and an evaporatively cooled greenhouse in a semi-arid location. Transactions of the ASABE, 61(2), 619–629. - B
lom , T. J.,and Ingratta , F. J. (1984). The effect of high-pressure sodium lighting on the production of tomatoes, cucumbers and roses. Acta Horticulturae, 148, 905–914. - B
razaitytė , A., Duchovskis , P., Urbonavičiūtė , A., Samuolienė , G., Jankauskienė , J., Kasiulevičiūtė -Bonakėrė , A., Bliznikas , Z., Novičkovas , A., Breivė , K.,and Žukauskas , A. (2009). The effect of light-emitting diodes lighting on cucumber transplants and after-effect on yield. Zemdirbyste–Agriculture, 96, 102–118. - G
ajc -Wolska , J., Kowalczyk , K., Metera , A., Mazur , K., Bujalski , D.,and Hemka , L. (2013). Effect of supplementary lighting on selected physiological parameters and yielding of tomato plants. Folia Horticulturae, 25(2), 153–159. - G
ómez , C.,and Mitchell , C. A. (2014). Supplemental lighting for greenhouse-grown tomatoes: Intracanopy LED towers vs. overhead HPS lamps. Acta Horticulturae, 1037, 855–862. - G
rzelakowska , A., Cieślewicz , J.,and Łudzińska , M. (2013). The dynamics of vitamin C content in fresh and processed cucumber (Cucumis sativus L.) Versita. Chemistry-Didactics-Ecology-Metrology, 8(1–2): 97–102. - H
ao , X., Zheng , J. M., Little , C., Khosla , S. Hernández , R., Dragotakes , A.,and Kubota , C. (2012). Pulsing effects of supplemental LED lighting on cucumber seedlings growth and morphology in greenhouse. Acta Horticulture, 1037, 875–880. - H
ovi -Pekkanent , T.,and Tahvonen , R. (2008). Effects of interlighting on yield and external fruit quality in year-round cultivated cucumber. Scientia Horticulturae, 116, 152–161. - H
ovi , T., Nakkila , J.,and Tahvonen , R. (2004). Interlighting improves production of year-round cucumber. Scientia Horticulturae, 102, 283–294. - J
oshia , N. C., Ratner , K., Eidelman , O., Bednarczyk , D., Zur , N., Many , Y., Shahak , Y., Aviv -Sharon , E., Achiam , M., Gilad , Z.,and Charuvi , D. (2019). Effects of daytime intra-canopy LED illumination on photosynthesis and productivity of bell pepper grown in protected cultivation. Scientia Horticulturae, 250, 81–88. - K
owalczyk , K., Gajc -Wolska , J., Bujalski , D., Mirgos , M., Niedzińska , M., Mazur , K.,Żołnierczyk , P., Szatkowski , D., Cichoń , M.,and Łęczycka , N. (2018). The effects of supplemental assimilation lighting with HPS and LED lamps on the cucumber yielding and fruit quality in autumn crop. Acta Scientiarium Polonorum Hortorum Cultus, 17(4), 193–200. - K
owalczyk , K., Gajc -Wolska , J., Mirgos , M., Geszprych , A., Kowalczyk , W., Sieczko , L., Niedzińska , M.,and Gajewski , M. (2020). Mineral nutrients needs of cucumber and its yield in protected winter cultivation, with HPS and LED supplementary lighting. Scientia Horticulturae, 265, 109–217. - K
owalczyk , K., Olewnicki , D., Mirgos , M.,and Gajc -Wolska , J. (2020). Comparison of selected costs in greenhouse cucumber production with LED and HPS supplemental assimilation lighting. Agronomy, 10, 1342, doi: 10.3390/agronomy10091342. - M
assa , G. D., Kim , H-H., Wheeler , R. M.,and Mitchell , C. A. (2008). Plant productivity in response to LED lighting. HortScience, 43, 1951–1956. - M
enard , C., Dorais , M., Hovi , T.,and Gosselin , A. (2006). Developmental and physiological responses of tomato and cucumber to additional blue light. Acta Horticulturae, 711, 291–296. - M
igut , D., Skrobacz , K.,and Gorzelany , J. (2018). Evaluation of vitamin C content in fresh and pickled cucumber fruits. Applied Biosciences, 1(3), 27–28. - M
itchell , C. A., Both , A. J., Bourget , M. C, Burr , J. F., Kubota , C., Lopez , R. G., Morrow , R. C.,and Runkle , E. S. (2012). LEDs: The future of greenhouse lighting. Chronica Horticulture, 52, 6–12. - M
orrow , R. C. (2008). LED lighting in horticulture. HortScience, 43(7), 1947–1950. - O
lle , M.,and Viršile , A. (2013). The effect of light emmiting diode lighting on greenhouse plant growth and quality. Agricultural and Food Sciences, 22(2), 223–234. - P
attison , P. M., Tsao , J. Y.and Krames , M. R. (2016). Light-emitting diode technology status and directions: opportunities for horticultural lighting. Acta Horticulturae,1134, 413–426. - P
ettersen , R. I., Moe , R.,and Gislerod , H. R. (2008). Effects of intracanopy lighting on photosynthetic characteristics of cucumber. In R. I. Pettersen (Ed.), The role of supplemental light duration in production of cucumber and roses. Ås, Norway: Norwegian University of Life Sciences. - R
eddy , M. S., Chauhan , A. S.,and Maloo , S. (2018). Impact of enzymatic treatment on physicochemical properties of various vegetable juices. The Pharma Innovation Journal, 7(11), 318–323. - S
amuolienė , G., Brazaitytė , A.,and Vaštakaitė , V. (2017). Light emitting diodes (LEDs) for improved nutritional quality. S. Dutta Gupta (Ed.), Light emitting diodes for agriculture (pp. 149–190). Singapore: Springer. - S
arkka , L. E., Jokinen , K., Ottosen , C. O.,and Kaukoranta , T. (2017). Effects of HPS and LED lighting on cucumber leaf photosynthesis, light penetration and temperature in the canopy, plant morphology and yield. Agricultural and Food Sciences, 26(2), 102–110. - T
rouwborst , G., Oosterkamp , J., Hogewoning , S. W., Harbinson , J.,and Van Ieperen , W. (2010). The responses of light interception, photosynthesis and fruit yield of cucumber to LED-lighting within the canopy. Physiologia Plantarum, 138, 289–300. - V
irṧile , A., Olle , M.,and Duchovskis , P. (2017). LED lighting in horticulture. S. Dutta Gupta (Ed.), Light emitting diodes for agriculture (pp. 113–147). Singapore: Springer. - W
ierzbicka , B.,and Kuskowska , M. (2002). Wpływ wybranych czynników na zawartość witaminy C w warzywach. Acta Scientiarium Polonorum, Hortorum Cultus, 1(2), 49–57.
Language: English
Page range: 9 - 15
Submitted on: Oct 11, 2020
Accepted on: Dec 31, 2020
Published on: Mar 21, 2021
Published by: Polish Society for Horticultural Sciences (PSHS)
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
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© 2021 Jadwiga Treder, Anna Borkowska, Waldemar Treder, Kalina Sikorska-Zimny, published by Polish Society for Horticultural Sciences (PSHS)
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.