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Interaction of Light Quality and EC of Nutrition Solution on Seedling Quality, Growth, and Physiology of Cucumber Seedlings | ||
International Journal of Horticultural Science and Technology | ||
دوره 10، Special issue (Light in horticulture)، اسفند 2023، صفحه 97-112 اصل مقاله (1.08 M) | ||
نوع مقاله: Research paper | ||
شناسه دیجیتال (DOI): 10.22059/ijhst.2023.356905.628 | ||
نویسندگان | ||
Saber Gilani1؛ Naser Askari* 2؛ Hossein Meighani2؛ Amanollah Soleimani1؛ Reza Ghahremani3 | ||
1Department of Agronomy and Plant breeding, Faculty of Agriculture, University of Jiroft, Jiroft, Iran | ||
2Department of Horticultural Science, Faculty of Agriculture, University of Jiroft, Jiroft, Iran | ||
3Department of Horticulture, College of Aburaihan, University of Tehran, Tehran, Iran | ||
چکیده | ||
Optimizing light and nutrient supply has a key role in seedling quality and yield of cucumber seedlings. The combined effects of light quality {blue (B), white [W; 41% B, 39% intermediate, and 20% red (R)], RB [red (80%) and blue (20%)], and red (R)} and EC value of the nutrient solution (1, 1.7, and 3 ds m-1) were evaluated on the growth and physio-logical responses of cucumber seedlings. The measurements were aimed at the growth rate, biomass distribution, water status, seedling quality, yield, and concentration of photosynthetic pigments, protein, proline, potassium, and phosphorous. The results showed that the effects of light quality on cucumber seedlings depended on the EC values of the nutrient solution. The RB treatment at EC 1.7 of the irrigation water had the highest value of seedling quality parameters and the maximum amount of osmolytes, elements, and pigments, showing adequate water performance. Moreover, in contrast to the conventional seedling production, yield and biomass production increased by 70% and 92%, respectively, in the transplanting phase. This probably resulted from a more efficient elemental uptake, higher biomass distribution, and low vegetative growth in the seedling production phase. These results can contribute to seedling production of vegetables as an efficient protocol for yield productivity. In sum, our findings showed that determining the ideal light spectrum for seedling growth should be considered together with the EC of the nutrient solution. | ||
کلیدواژهها | ||
Cucumis sativus؛ LED؛ Nutrient solution؛ Transplant quality؛ Water relation؛ Yield productivity | ||
مراجع | ||
Ben Abdallah S, Aung B, Amyot L, Lalin I, Lachâal M, Karray-Bouraoui N, Hannoufa A. 2016. Salt stress (NaCl) affects plant growth and branch pathways of carotenoid and flavonoid biosyntheses in Solanum nigrum. Acta Physiologiae Plantarum 38(3), 1–13.
Asahina M, Yamauchi Y, Hanada A, Kamiya Y, Kamada H, Satoh S, Yamaguchi S. 2007. Effects of the removal of cotyledons on endogenous gibberellin levels in hypocotyls of young cucumber and tomato seedlings. Plant biotechnology 24(1), 99–106.
Asayesh EJ, Aliniaeifard S, Askari N, Roozban MR, Sobhani M, Tsaniklidis G, Woltering EJ, Fanourakis D. 2021. Supplementary light with increased blue fraction accelerates emergence and improves development of the inflorescence in aechmea, guzmania and vriesea. Horticulturae 7(11), 485.
Ashry NM, Alaidaroos BA, Mohamed SA, Badr OAM, ElSaadony MT, Esmael A. 2022. Utilization of droughttolerant bacterial strains isolated from harsh soils as a plant growth-promoting rhizobacteria (PGPR): Utilization of drought-tolerant bacterial strains. Saudi Journal of Biological Sciences 29(3), 1760–1769.
Askari N, Aliniaeifard S, Visser RGF. 2022. Low CO2 levels are detrimental for in vitro plantlets through disturbance of photosynthetic functionality and accumulation of reactive oxygen species. Horticulturae 8(1), 44.
Barro F, De La Haba P, Maldonado JM, Fontes AG. 1989. Effect of light quality on growth, contents of carbohydrates, protein and pigments, and nitrate reductase activity in soybean plants. Journal of Plant Physiology 134(5), 586–591.
Behzadi Rad P, Roozban MR, Karimi S, Ghahremani R, Vahdati K. 2021. Osmolyte accumulation and sodium compartmentation has a key role in salinity tolerance of pistachios rootstocks. Agriculture 11(8), 708.
Chatzistathis T, Fanourakis D, Aliniaeifard S, Kotsiras A, Delis C, Tsaniklidis G. 2021. Leaf age-dependent effects of boron toxicity in two cucumis melo varieties. Agronomy 11(4), 759.
Chen Y, Fanourakis D, Tsaniklidis G, Aliniaeifard S, Yang Q, Li T. 2021. Low UVA intensity during cultivation improves the lettuce shelf-life, an effect that is not sustained at higher intensity. Postharvest Biology and Technology 172, 111376.
Choi CH. 2020. Effects of fertilizer treatment on the growth performance of 1-year-old containerized seedlings in Chionanthus retusus. Korean Journal of Plant Resources 33(6), 586–596.
Du CX, Fan HF, Guo SR, Tezuka T, Li J. 2010. Proteomic analysis of cucumber seedling roots subjected to salt stress. Phytochemistry 71(13), 1450–1459.
Grossnickle SC, MacDonald JE. 2018. Seedling quality: history, application, and plant attributes. Forests 9(5), 283.
Hassanvand F, Rezaei Nejad A, Fanourakis D. 2019. Morphological and physiological components mediating the silicon-induced enhancement ofgeranium essential oil yield under saline conditions. Industrial Crops and Products 134, 19–25.
Hernández R, Kubota C. 2016. Physiological responses of cucumber seedlings under different blue and red photon flux ratios using LEDs. Environmental and Experimental Botany 121, 66–74.
Hogewoning SW, Trouwborst G, Maljaars H, Poorter H, van Ieperen W, Harbinson J. 2010. Blue light doseresponses of leaf photosynthesis, morphology, and chemical composition of Cucumis sativus grown under different combinations of red and blue light. Environmental and Experimental Botany 61(11), 3107–3117.
Hörtensteiner S, Kräutler B. 2011. Chlorophyll breakdown in higher plants. Biochimica et Biophysica Acta (BBA)-Bioenergetics 1807(8), 977–988.
Hou Q, Li X, Qiu Z, Hong Y, Tian T, Li S, Ran J, Qiao G. 2022. Chinese cherry (Cerasus pseudocerasus Lindl.) ARF7 participates in root development and responds to drought and low phosphorus. Horticulturae 8(2).
Huché-Thélier L, Crespel L, Gourrierec J Le, Morel P, Sakr S, Leduc N. 2016. Light signaling and plant responses to blue and UV radiations - perspectives for applications in horticulture. Environmental and Experimental Botany 121, 22–38.
Izzo LG, Hay Mele B, Vitale L, Vitale E, Arena C. 2020. The role of monochromatic red and blue light in tomato early photomorphogenesis and photosynthetic traits. Environmental and Experimental Botany 179, 104195.
Jeong HW, Lee HR, Kim Hyeon Min, Kim Hye Min, Hwang HS, Hwang SJ. 2020. Using light quality for growth control of cucumber seedlings in closed-type plant production system. Plants 9(5), 639.
Ji F, Wei SQ, Liu N, Xu LJ, Yang P. 2020. Growth of cucumber seedlings in different varieties as affected by light environment. International Journal of Agricultural and Biological Engineering 13(5), 73–78.
Johkan M, Shoji K, Goto F, Hashida S nosuke, Yoshihara T. 2010. Blue light-emitting diode light treatment of seedlings improves seedling quality and growth after transplanting in red leaf lettuce. HortScience 45(12), 1809–1814.
Karimi M, Ahmadi N, Ebrahimi M. 2022. Red LED light promotes biomass, flowering and secondary metabolites accumulation in hydroponically grown Hypericum perforatum L. (cv. Topas). Industrial Crops and Products 175, 114239.
Li H, Cheng Z. 2015. Hoagland nutrient solution promotes the growth of cucumber seedlings under light-emitting diode light. Acta Agriculturae Scandinavica, Section B—Soil & Plant Science 65(1), 74–82.
Lichtenthaler HK, Wellburn AR. 1983. Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochemical Society transactions 11(5), 591–592.
Loupassaki MH, Chartzoulakis KS, Digalaki NB, Androulakis II. 2002. Effects of salt stress on concentration of nitrogen, phosphorus, potassium, calcium, magnesium, and sodium in leaves, shoots, and roots of six olive cultivars. Journal of Plant Nutrition 25(11), 2457–2482.
Maleki Asayesh Z, Vahdati K, Aliniaeifard S, Askari N. 2017. Enhancement of ex vitro acclimation of walnut plantlets through modification of stomatal characteristics in vitro. Scientia Horticulturae 220, 114–121.
Mello BFFR de, Trevisan MV, Steiner F. 2016. Quality of cucumber seedlings grown in different containers. Revista de Agricultura Neotropical 3(1), 33–38.
Moosavi-Nezhad M, Salehi R, Aliniaeifard S, Tsaniklidis G, Woltering EJ, Fanourakis D, Żuk-Gołaszewska K, Kalaji HM. 2021. Blue light improves photosynthetic performance during healing and acclimatization of grafted watermelon seedlings. International Journal of Molecular Sciences 22(15), 8043.
Qian M, Rosenqvist E, Flygare AM, Kalbina I, Teng Y, Jansen MAK, Strid Å. 2020. UV-A light induces a robust and dwarfed phenotype in cucumber plants (Cucumis sativus L.) without affecting fruit yield. Scientia Horticulturae 263, 109110.
Rehman M, Fahad S, Saleem MH, Hafeez M, Ur Rahman MH, Liu F, Deng G. 2020. Red light optimized physiological traits and enhanced the growth of ramie (Boehmeria nivea L.). Photosynthetica 58(4), 922–931.
Seif M, Aliniaeifard S, Arab M, Mehrjerdi MZ, Shomali A, Fanourakis D, Li T, Woltering E. 2021. Monochromatic red light during plant growth decreases the size and improves the functionality of stomata in chrysanthemum. Functional Plant Biology 48(5), 515– 528.
Shah SH, Houborg R, McCabe MF. 2017. Response of chlorophyll, carotenoid and SPAD-502 measurement to salinity and nutrient stress in wheat (Triticum aestivum L.). Agronomy 7(3), 61.
Shibuya T, Endo R, Kitaya Y, Tsuchida M. 2020. Far-red light interacts with plant density to change photosynthate allocation of cucumber seedlings and their subsequent early growth after transplanting. HortScience 55(9), 1433–1437.
Silva EM, Costa GGS, Andrade AF, Ferreira HCP, Steiner F. 2016. Light spectral quality on production of lettuce, cucumber and sweet pepper seedlings. Scientia Agraria Paranaensis 15(4), 446–452.
Taheri-Garavand A, Rezaei Nejad A, Fanourakis D, Fatahi S, Ahmadi Majd M. 2021. Employment of artificial neural networks for non-invasive estimation of leaf water status using color features: a case study on Spathiphyllum wallisii. Acta Physiologiae Plantarum, 43(5), 78.
Taiz L, Zeiger E, Møller IM, Murphy A. 2015. Plant Physiology and Development. Ed. 6. Sinauer Associates Incorporated.
Wang M, Zheng Q, Shen Q, Guo S. 2013. The critical roleof potassium in plant stress response. International Journal of Molecular Sciences 14(4), 7370–7390.
Wang Y, Chu Y, Wan Z, Zhang G, Liu L, Yan Z. 2021. Root architecture, growth and photon yield of cucumber seedlings as influenced by daily light integral at different stages in the closed transplant production system. Horticulturae 7(9), 328.
Warrington IJ, Mitchell KJ. 1976. The influence of blueand red-biased light spectra on the growth and development of plants. Agricultural Meteorology 16(2), 247–262.
Yadav D, Shivay YS, Singh YV., Sharma VK, Bhatia A. 2020. Enhancing nutrient translocation, yields and water productivity of wheat under rice–wheat cropping system through zinc nutrition and residual effect of green manuring. Journal of Plant Nutrition 43(19), 2845–2856.
Yang L, Fanourakis D, Tsaniklidis G, Li K, Yang Q, Li T. 2021. Contrary to red, blue monochromatic light improves the bioactive compound content in broccoli sprouts. Agronomy 11(11), 2139.
Zhang Y, Dong H, Song S, Su W, Liu H. 2020. Morphological and physiological responses of cucumber seedlings to supplemental LED light under extremely low irradiance. Agronomy 10(11), 1698. | ||
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